Basic Guide Training Manual
Transcription
Basic Guide Training Manual
Basic Guide Training Manual This manual is dedicated to Soren and to all paddlers who did not make it to takeout. May your memory inspire all river-runners towards even greater respect for moving water and care for those who travel the river with us. Basic Guide Training Manual Project Great Outdoors, Inc. Copyright 2012 Project Great Outdoors, Inc. All Rights Reserved Printed in the United States of America Reno Typographers, Inc. Reno, Nevada Preface This manual has been a long time in the making. Ever since Project Great Outdoors started training guides, we’ve looked for good documentation and source material. Yes, Project Go is an experiential organization, and yes we believe that people learn best by DOING, but these beliefs do not preclude reference material. And some people NEED to read something, or see an illustration of it to learn effectively. We’ve used commercially purchased books in the past and have examined the collections of Xerox copies of different source material that other guide schools use, but we have found nothing that is an appropriate companion to our eleven day guide training program; nothing that treats learning to guide a whitewater raft as a progression of skills building one upon the next. The outline for this manual came from presentation outlines created by Project GO senior trainers. When these trainers were gave presentations on a particular subject, they were asked to provide an outline of their presentation. The following year, the outline was provided to the trainer making that year’s presentation, and that year’s trainer was encouraged to edit, modify and improve it. These source outlines were thus modified year after year until everyone seemed satisfied that they were accurate and complete. Now we’ve simply added prose descriptions of the outline points, and illustrations. Taken together with our in-boat training, visual aids and the presentations, this booklet completes a package of guide training material that we believe to be among the most comprehensive in the United States. We will continue to evaluate and improve the program however. The book you are holding may not be the most recent. Please check http://www.projectGO.org to find the most recent version. In reviewing the final manuscript prior to publication, it’s astonishing how many things are described as “beyond the scope of this manual.” Guiding a raft is just too complex an endeavor to fully describe on paper. No manual is a replacement for experience, practice and competent instruction. However complete we believe this manual to be, there may be errors or omissions. When you get into a boat and navigate a stretch of whitewater you assume full responsibility for your actions. Project GO and the authors assume no liability for the result of actions taken after reading this manual. Be careful out there. Be familiar with the rivers you run. If you have doubts, stay home! Project Great Outdoors ©2012 Basic Guide Training Manual 5 CONTENTS One Personal Gear . . . . . . . . . . . . . . . . . . . . . 11 Two Equipment . . . . . . . . . . . . . . . . . . . . . . . 17 Three Guide and Paddle Strokes . . . . . . . . . . . . 25 Four Commanding a Crew . . . . . . . . . . . . . . . 31 Five Basic Maneuvering . . . . . . . . . . . . . . . . . 37 Six Water . . . . . . . . . . . . . . . . . . . . . . . . . . . 45 Seven Ride the Back of the Mighty Dragon . . . . 59 Eight River Rescue and Safety Basics . . . . . . . . 65 Nine Working with Rope . . . . . . . . . . . . . . . . . 81 Ten Rigging . . . . . . . . . . . . . . . . . . . . . . . . . . 89 Glossary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 95 Basic Guide Training Manual ONE Personal Gear People who love the outdoors love gear. Having the right things becomes part of your identity, and if you can afford it, it is tempting to go out and fill your whole garage with stuff. You want to look like a guide, after all! We respectfully suggest, however, that you refrain from buying a bunch of stuff until you have practical experience\ and have spoken to a number of experienced people who have used the gear you’re contemplating. This chapter is intended to be an overview of basic options, not the be-all and end-all of gear recommendations. Clothing There are many options of outerwear to protect you from the elements. Underneath this outerwear, you’ll want to have clothing that will insulate even when wet. That means synthetics like Capilene and polypropylene are best. Wool is the old standby. What you want to avoid is cotton, as it does not insulate when wet. Even on the hottest days, there will be shade in a river canyon, and there is always the possibility of a misadventure causing a trip to be on the river late into the evening. Whenever possible, dress in layers so you can add or remove layers as conditions change. You’ll need shoes that won’t come off your feet. Teva and Chaco style sport sandals are a popular choice, but are not ideal for a guide. As a guide you may be involved in rescue operations, where a closed toe, a secure fit and good grip are essential. There are many specialized rafting shoes on the market. Check with guides that you meet to get their feedback. Canvas sneakers or high-tops are a popular and inexpensive choice. Project Great Outdoors ©2012 Basic Guide Training Manual 11 If the conditions are cold and/or you expect or plan to be in the water at any time of year, a wetsuit or drysuit is a good idea. As a general rule, you should dress for a potential swim, not for the outside weather. Also note that it is very easy to cool off if you’re too hot, while warming up is a lot tougher. Wetsuits come in several flavors. Neoprene that is between 2 and 3.5 mil thickness is about what you’ll be looking for. A “Farmer John” or “Jane” sleeveless is the best all around choice. You can wear layers under and/or over these, and the lack of sleeves allows for good mobility of your upper body. Diving wetsuits can be very restrictive, and should probably be avoided. Drysuits are a great option for cold weather, provided you can afford one and have the time to care for it. The “Farmer John” wetsuit is pretty standard, and by adding layers is quite warm enough for most conditions. You may elect to wear a splash top, paddling jacket or even a dry-top, and splash pants or dry-pants instead of or in addition to your wetsuit. Splash tops and paddling jackets/pants generally have velcro closures at the neck, waist, wrists and ankles. They are not meant to keep you completely dry, but rather to keep the clothing underneath from getting too wet. In the event of a swim, they’ll do little for you while you’re in the water, though protection from the wind and another layer of insulation when you get out of the water can be nice. Drytops and drysuits have rubber gaskets and are intended to completely seal out water. A drytop by itself is not ideal for a rafter. They are intended to keep kayakers’ upper bodies dry, and depend on the kayak and skirt to keep the lower body dry. On a cold day, there is nothing quite like a drysuit. Bundle as much clothing as you want under it and you will be nice and toasty, and there are a number of options. Pockets, relief-zippers to allow bathroom breaks without having to disrobe, and attached booties rather than ankle gaskets are among them. They’re made of several materials. Gortex being the most popular. A Gortex drysuit with all the bells and whistles may cost over $1,000 though, so unless you plan on doing a lot of winter boating, you’ll probably opt to rent one for the times you need it. A safety note on drysuits: rubber gaskets break down under sunlight. Always inspect the gaskets of a drysuit before using it. A drysuit filled with water will make you significantly less buoyant and make it much harder to move and swim. It’s best not to combine a drysuit with a very low flotation pfd, no matter how great a swimmer you think you are. A torn neck Gasket. 12 Basic Guide Training Manual Project Great Outdoors ©2012 PFDs Personal Flotation Devices, or PFDs must always be correctly worn when on the river. Here too, there are numerous options. The US Coastguard recognizes five types of flotation devices. Type III and Type V PFDs designed for whitewater activities are approved for whitewater use. Type I This PFD is designed for extended survival in rough, open water. It usually will turn an unconscious person face up and has over 22 pounds of buoyancy. This is the best PFD to keep you afloat in remote regions where rescue may be slow in coming. Type II This “classic” PFD comes in several sizes for adults and children and is for calm inland water where there is chance of fast rescue. It is less bulky and less expensive than a Type I, and many will turn an unconscious person face-up in the water. Type III These life jackets are generally considered the most comfortable with styles intended for different boating activities and sports. They are for use in calm water where there is a good chance of fast rescue since they will generally not turn an unconscious person face-up. Flotation aids come in many sizes and styles. Type IV These are designed to be thrown to a person in the water. Throwable devices include boat cushions, ring buoys, and horseshoe buoys. They are not designed to be worn and must be supplemented by a wearable PFD. It is important to keep these devices immediately available for emergencies, and they should not be used for small children, non-swimmers, or unconscious people. Type V Special use PFDs include work vests, deck suits, and hybrids for restricted use. Hybrid vests contain some internal buoyancy and are inflatable to provide additional flotation. In selecting a PFD for your personal use, there are two basic considerations, and they tend to conflict with each other: comfort versus Flotation. Vests with low flotation allow a great range of movement. As guides spend a lot of time moving their upper bodies, this is desirable. On the other hand, whitewater boating can put swimmers into aerated white-water where High Flotation flotation is very important. We’ve heard guides say that they prefer low flotation vests, because they want to have maximum mobility so they can “swim.” We believe that even the strongest swimmer can have a hard timing swimming in swift current though and generally advocate a higher flotation PFD. Flotation is measured in pounds of flotation, and the range available in typical whitewater vests is from 15.5 to 22 pounds. People with very little body fat and/or those who intend to regularly wear a drysuit are strongly advised to wear a high flotation PFD. Low Flotation Project Great Outdoors ©2012 Basic Guide Training Manual 13 Rescue Vests One other option is something called a “rescue vest.” Some retailers will sell these only to individuals who can prove that they are trained in their use. This sort of vest has an additional strap through a metal ring, and has a quick-release buckle. Such a vest is used in rescue operations where the wearer will be attached to a line while they swim after a victim. Do not attempt to do this unless you have the proper training. It is OK to own such a vest even before you are so trained, as in a rescue situation, you could swap PFDs with someone who is trained. It’s always good to have more emergency equipment than less. The well-dressed guide. While this guide’s PFD is low profile, it has considerable flotation. Note the whistle, knife, several extra locking carabiners and a pair of pulleys. While this guide is comfortable in a short-sleeve thermal top, notice that the other guides in the photo are each dressed in varying degrees of warmth. On the left you see a wetsuit. In the middle, a drysuit, and on the right splash pants. There is no one “perfect” outfit for everyone. Helmets As of this writing, helmets are not required by any regulation on the rivers that Project GO operates on. By custom, all participants wear helmets on class IV rivers, and helmets are optional on class III rivers. We do expect this custom to change and to see more and more helmets on class III rivers. Regardless of regulation or custom, a helmet is an important piece of equipment for a guide to own. A guide may be directly involved in rescue operations, so it makes a lot of sense for guides to always wear one, so they can be prepared to act instantly in case of an emergency. A helmet should fit very securely, and not move about the head. The ability to hear in a boat is very important, so many guides prefer helmets that do not cover the ears. 14 Basic Guide Training Manual Project Great Outdoors ©2012 Personal safety/Rescue Gear Every guide should have a knife, a whistle and a flip-line. There are two primary purposes for having a knife. To cut ropes or to cut boats, either of which could entrap someone. Important considerations for knives are the security of the attachment mechanism, whether it is single or double edged, and the sort of hilt that it has. A knife that can come loose by accident is a bad thing in a rubber raft, so look for a knife that will not come off if it is bumped or pressed upon from the front. Single or double edged blade is a matter of personal preference. Some people like having the choice of a standard and serrated edge, while others prefer to be able to press on one side of the knife without cutting their fingers off. Some sort of hilt is very important. These knives are VERY sharp and when cutting you don’t want your hand to slip off the handle and onto the blade. A whistle is essential for signaling. There are several varieties made for whitewater use. Loud – even when wet – small and inexpensive, the Fox40 is the standard by which others are measured. A flipline is a length of rope or webbing that is typically secured around the waist by a LOCKING carabiner. In addition to helping right a flipped raft, they can be used for many purposes on the river: to attach two boats together, to peel a boat off of a rock, and if made of 1 inch tubular webbing, to use in constructing an anchor for rescue purposes. The length can be anywhere from 8 to 20 feet. Other Rescue Gear A personal throwbag that can be attached around the waist is a great item to have. It ensures that you are never without this essential piece of rescue hardware. Examine it frequently to ensure that there is no danger of the rope escaping the bag. If you can afford it, consider getting one with static line, as such can be quite useful in rescue situations. It’s a good idea to carry a few “extra” bits of gear, too. A locking carabiner or two, a pulley, or prusik loops are all good choices. While the rescue kit that goes on every trip has such things, if every guide on a trip has a few components, rescue options and the speed at which they can be accomplished are increased. Personal Effects For day-trips, it’s nice to have a small dry bag or pelican box in which you can keep a few extra warmies, sunscreen, or the incidental item that one of your paddlers will ask you to store. A small mesh bag to carry your straps and carabiners can also be rigged into the boat to carry personal effects that don’t have to stay dry. All of your gear should be marked with your name and phone number, and or some other identifying mark. All rafting gear looks the same, and it is not uncommon for things to get mixed up over the course of a day. Project Great Outdoors ©2012 Basic Guide Training Manual 15 TWO Equipment Inflatable rafts come in a number of shapes and sizes, and can be made of a number or materials. Different brands and sizes of boats are more or less common, depending on the river where they are used. On the South Fork of the American River and in fact on most Sierra rivers, a fourteen foot boat is the most common. You’ll see twelve and thirteen foot boats being paddle-guided, and every now and then you’ll see a fifteen or even a sixteen foot boat on the South Fork. If you get up to the Ottawa River in Canada, though, or the Zambezi in Africa, you’ll see 20 and 22 foot paddle rafts. You’ll also see them flip end over end in huge whitewater. It’s kinda fun to watch: See what a google search of “ottawa river carnage” brings up. Most commonly, boats are made from a densely woven fabric coated with a rubber or plastic compound: Hypalon and PVC are perhaps the most common. The quality and strength of the fabric is based broadly on the density of the weave of the base material, measured in denier, the mass of fiber in grams per 9,000 meters (file that one away in the trivia file). Fabric for a typical whitewater inflatable boat ranges from 800 denier on the low end, to 1200 on the high end. Boats may have fabric of different denier in different parts, The bottom of tubes and the bottom of the floor may be denser than the top of the tubes, for example. Rubber (hypalon etc.) and plastic (pvc etc.) have different characteristics, and can impact boat performance, durability and longevity. Plastic tends to be stiffer, for example, which can make the boat a little less likely to “wrap” around a rock, for instance, but a little more likely to flip over. Plastic Project Great Outdoors ©2012 Basic Guide Training Manual 17 boats are slipperier than their rubber counterparts, making them easier to get off of rocks when they do get stuck. The best plastic boats are welded, and do not use glue to hold them together. This is important, as PVC glues break down over time, limiting the useful life of a glued plastic boat. Plastic boats are more difficult to roll up, which can be an issue for the boater who must fit a boat into a car for transportation to the river. Rubber boats are more flexible, making them better able to “stick” to the water. Unfortunately this same characteristic can make them more likely to stick to rocks, too. The glue used to assemble and patch rubber boats forms a chemical bond with the rubber, making it a permanent bond. For this reason, you’ll see far more 20 year old hypalon rafts than 20 year old PVC rafts on the river. Hypalon as a base material, is much more expensive than PVC. If you’re talking about glued boats, the hypalon variety will generally cost twice as much as the PVC variety. But as soon as you add the cost of welding, a PVC boat will cost just as much as hypalon one. Boats of both types can be coated with different materials intended to add additional abrasion protection. Neoprene and urethane are two examples. Some manufacturers stitch their boats, and use an inner-tube so that they hold air and are easier to repair. A boat may have a simple floor that holds no air and thus requires a bailing mechanism, usually you and a bucket, hence the name “Bucket Boat,” or an inflatable floor which sits above the water level and allows the water to drain though openings around the outer rim of the floor, hence the name “Self-Bailing.” A bucket boat will cost much less than a selfbailing raft, but is much more likely to wrap around a rock, and is Self Bailing Floors. Considering the simplicity of the concept, it very difficult to control took a long time to figure out a way to make a self bailing raft. So when filled with water. A self-bailing floor called “Bucket Boats” are increasingly uncommon, but you’ll still may be glued or laced see them on large volume rivers, where guides claim that the into position. A laced weight of the water in the boat keeps the boat from flipping. floor has the advantage of easier repair and replacement, as one can detach the damaged floor and ship it to a repair facility, or replace it altogether. As you might expect, a laced floor tends to increase the cost of a boat. The lacing must be regularly inspected to ensure that it is sufficiently tight, and that the lacing itself is not in danger of breaking through abrasion. Floors may be flat bottomed, or have ridges, and may be attached higher or lower in a boat. These things can affect the performance of the boat. A flat floor will likely 18 Basic Guide Training Manual Project Great Outdoors ©2012 be a bit easier to spin, for instance, while one with ridges may “track” better, much as a keel; or centerboard helps a sailboat continue in a straight line. In general, a boat is about half as wide as it is long. Tubes vary in diameter from 16 to 21 inches, with the larger diameter tubes being preferable on “big water.” “Rocker” describes how much higher the bow and stern are than the center of the boat. Boats with more rocker have a Self Bailing Indeed! Here you can see water shorter waterline and may be more madraining from a self-bailing floor in a rather dra- neuverable. But lots of rocker makes it a bit more difficult to comfortably seat a matic way. This may be one of the situations paddle crew. when a bucket boat would have worked out What many readers want to know is better though, as a boat full of water would be far less likely to wind up upside-down in a situ- “what is the best boat, and how much does it cost?” Alas there is no easy anation like this. swer. In general, the more you pay for a boat, the longer it will last. But you should guide as many different boats as you can and talk to as many boat owners as you can before forming your own opinion. Here’s some general information on makes of rafts available in California. Please note that this list is not complete, and reflects only the best understanding of the author. Each manufacturer would no doubt contest or wish to augment the descriptions below. Aire. Manufactured in Idaho, Aire boats are plastic, and make use of inner bladders to hold air. Because the boats are stitched, they must be dry before storage, as the thread that holds them together may rot over years of use. An advantage of Aire’s inner-tube construction is that they can be very easily repaired in the field. Aire also has a budget line of boats called “Tributary” which is made in China, has fewer bells and whistles and is somewhat less robust in construction. Avon. Manufactured in Wales, these hypalon boats are known for their longevity and toughness. They tend to have larger tubes and are a bit wider than other boats of the same length, which makes them somewhat barge-like: They can carry a huge crew and a lot of gear, but are not known for being especially nimble. Bullet. Bullet is a relatively new company, and manufactures its glued boats in China. Though they offer a hypalon version, it must be purchased in lots of five or more and is quite a bit more expensive, so private boaters are not likely to own one. The design, customization options, list of standard features and relatively low pricepoint make them a real value. That they are glued rather than welded, however, means that they will not last as long as some other boats. Hyside. These Korean built hypalon boats are very common on the South Fork of the American River. They come in several grades of toughness. The most expensive measure up quite well with the best boats out there. The less expensive models have glued instead of laced floors and a much lower denier fabric. Project Great Outdoors ©2012 Basic Guide Training Manual 19 Maravia. Based in Idaho, Maravia makes an especially tough welded PVC boat encapsulated in urethane. These are not particularly common in California. NRS. Northwest River Supply manufactures all manner of river gear, including boats. Over the years they have made both rubber and plastic boats, and currently have three different grades of boats from which to choose. SOTAR. An acronym meaning State Of The Art Raft, SOTAR manufactures rafts in Oregon, and essentially invented the self-bailing raft. Their heat-welded plastic boats are among the most well-regarded rafts made, unless you happen to own an Avon, in which case SOTAR stands for “Swim Over To Avon Raft.” Vanguard. A glued PVC boat made in China. The Vanguard is c considered a good value, but as with Bullet, will not last as long as some others. Wing. An American made welded plastic boat of the highest quality, Wing does not make many river boats anymore, as they concentrate on making boats for the US military. If you need a fleet of boats though, they’ll be happy to help: Just don’t expect the boats to be cheap. Boat Anatomy Tube Thwarts Floor Chafe Pad D-Rings Valves Seam Handles Pressure Release Valve Rub Strake The outer tube is divided into four separate “chambers,” each with its own valve and separated by “baffles.” It’s very important that all be equally inflated. 20 Basic Guide Training Manual Project Great Outdoors ©2012 Despite all the differences outlined above, boats have a great deal in common. The outer tube is divided into multiple “chambers,” usually four, by “baffles:” diaphragms inside the tubes. This separation into chambers is a safety measure: should there be damage to the boat, most likely only one chamber will be affected, and so the boat will still float. When inflating a raft, it is important that each chamber be equally inflated, so as not to distend and thereby damage the baffles that separate the chambers. Thwarts are tubes that run across the boat to provide dimensional stability, a place to tuck your feet and a convenient thing to tie gear to. They are NOT seats, despite the fact that new paddlers always put their butts on them. A typical fourteen foot paddle raft has three thwarts, though some have only two. Thwarts may be attached to the main tubes by straps, lacing, glue or systems using pins and interlocking loops. Each chamber, thwart and the floor will have one valve by which to inflate them. There are two basic types of valves: military, which screw open and closed and the Halkey-Roberts, which may be locked open or closed by pressing and turning a pin in the middle of the valve openTwo common types of valves: The Halkey Roberts (left) ing. When in the closed posiand the milliary (right). tion, air can still be blown into the Halkey-Roberts. When opening and closing the military style valve, it’s important that they not be over torqued, or they may get stuck in position. Always check to make sure you’ll be able to close a valve before you bother to pump air into it. Most floors also have a release valve: a mechanism to prevent over inflation of a floor, or damage to the floor when heat causes expansion of the air within. D-Rings are metal rings attached to the raft for the purpose of either tying things to the raft, or tying the raft to things. A perimeter line is sometimes strung through D-rings to make it easier to get into the raft, and to provide additional gear attachment points. It’s vital that perimeter lines be taut, to minimize potential for entrapment. Handles may also be found at the front and back and along the sides of the raft. These are to aide in carrying the raft, and are not intended as tie-down points. Pumps and inflation On shore, electric pumps are increasingly common. AC electric pumps make short work of inflating a raft, and many put-in locations on popular rivers have 110 volt outlets to accommodate them. DC electric pumps attach to a car battery, and can be a real labor saver, though the motors in these little guys are not super robust, and they can overheat if you’re pumping up more than one boat with the same one. For those who appreciate a workout, hand pumps come in two basic configurations: a six inch barrel pump for bulk inflating and a four inch barrel pump for “topping,” Project Great Outdoors ©2012 Basic Guide Training Manual 21 or putting the last bit of air in the boat once it is in the water. There are other types of pumps, but they do not move a lot of air, and so are not as commonly used. Rules concerning inflation of a raft: (1) Do not inflate completely until the boat is at the temperature it will be when you’re rafting. That means you inflate it mostly on the shore, and then put it in the water. Close valve covers if they exist, and then splash the boat to cool it to the temperature it will be at when running the river. Then “top” the boat (fill it completely) with a smaller pump. (2) For most boats (Aire and Aire Tributary rafts are the exception, as they do not have baffles between chambers), it is important that all four chambers are equally inflated. Over inflation of one chamber can potentially rupture a baffle. (3) If the boat has been in the water, make sure the valve is dry before you start inflating. If there is water in the valve, use a few quick blasts of air from your pump to blow out the water. Water in a tube is hard to get out and will cause decay inside the boat. (4) When air heats, it expands. If a boat is fully inflated and is sitting in the sun, or out of the water, it will warm, the air will expand and a tube may burst. To prevent this, splash the boat frequently. If you will not be around to splash, let some air out of the tubes. Much better to have to re-pump than repair. (5) When letting air out of a hot or “topped” boat, let the same amount of air out of all When using a barrel pump, use your four chambers at the same time. This will legs, not your arms: you’ll be way take several people, as the valves are far less tired when you’re done. Avoid apart. This is to prevent the bursting of a topping or bottoming out the baffle when one chamber suddenly has less plunger, as this is bad for the pump. pressure then the one next to it. If the boat Work in the middle. is not “hard,” this step is not necessary. How much air is enough? That depends on the make of the boat, the conditions of the river to be run and the preference of the guide. Most boat manufactures suggest 2.5 to 3 psi. But since you won’t have a pressure gauge, this information isn’t very helpful. Experience should be your guide. When the boat is inflated, press your knee on the top of a tube as hard as you can. If this pressure causes a crease, you probably need more air. A soft boat is much more likely to flex in waves and eject passengers and guides. Paddles and such Paddles are pretty straight forward pieces of gear consisting of a blade, a shaft and a grip. Most are plastic with metal shafts, but wooden and composite fiber pad22 Basic Guide Training Manual Project Great Outdoors ©2012 dles are also available. The primary difference between paddles is the size of the blade and the length of the shaft. A guide paddle is simply the same thing as a regular paddle with a longer blade and probably a longer shaft. How much longer the shaft is depends on the size and preference of the guide using it. Incidentally, there is no requirement that a guide use a “guide paddle.” While someone with size and strength can move a lot of water with one, many excellent guides prefer to guide with a regular paddle, believing (correctly) that technique is more important than brute strength. In any case, you should work on the basic body mechanics of guide-strokes with a regular paddle and not move on to the “guide paddle” until you’ve mastered the basic instrument. If you choose to guide with a guide paddle, you should not allow yourself to become dependent on it, as you may not always have one available to you. Most outfitters do not provide them, so guides must have their own. To some guides, a big paddle seems to have become “Dumbo’s magic feather,” without which they cannot guide. Don’t let your ego’s need for a “big” paddle get in the way of becoming a competent raft guide. Project Great Outdoors ©2012 Basic Guide Training Manual 23 THREE Guide and Paddle Strokes Paddle strokes are used to add forward or backward power or to add turning force, or some combination of the two. There is no physical skill more fundamental (except perhaps for sitting in the boat) to whitewater rafting and guiding than the techniques presented in this chapter. Rafting paddle strokes are derived from paddle strokes used by canoeists and the nomenclature is very similar. A canoe is a very different craft from an inflatable raft, however, and many canoe strokes are useless or impossible to execute in a raft. Other strokes have been modified slightly in order to be effective from a whitewater inflatable raft. Beyond basic guidelines for safety and efficiency, there is no one “right” stroke for every guide in any given situation. Any skilled guide will tell you that they have an infinite number of strokes, as every situation is slightly different. Guides come in different sizes and shapes, too and a tall guide will likely choose a different stroke for a situation than a short guide would choose. With that said, it is important to learn the correct mechanics of the basic strokes so that you can evaluate them all, and learn to use them safely. Sitting in the boat Effective paddle strokes require that one be comfortably, securely and effectively seated in the raft. Comfortably so you can keep a smile on your face and not be too sore at the end of a day, securely so you won’t be likely to fall out of the boat, and effectively so that you move the boat in the water – not yourself in the boat. Project Great Outdoors ©2012 Basic Guide Training Manual 25 A forward, athletic body position. Clockwise from upper left: Darby is sitting well forward of the thwart with his torso forward of his seat. Christine’s knees are touching the thwart in front of her, and she is sitting out far enough on the tube that despite her short stature, she has no problem reaching the water. Note the position of Frank’s paddle relative to his body: It’s in front of him, as he projects his entire body forward. The prefered foot position for most guides: the outside foot forward, the inside foot back with hips facing forward. This is a position that affords great strength and security. Whether seated as a guide or as a paddler, it’s important that you keep a low center of gravity, and keep your upper body balanced over your torso. Your feet should be placed in a position of security, with one foot tucked under the thwart in front of you, and the sole of the other foot pressing on the thwart (or tube, if in the rear of the boat) behind you. Sit as far out on the tube as you comfortably can. If you’re sitting on the inside of the boat, you won’t be able to get your paddle into the water in an effective way. The guides in the photos above are sitting securely and comfortably in the boat. Note that all three of them are sitting upright, and can easily reach the water without contorting themselves. Paddle strokes are intended to move the boat and not the paddle. Ideally the paddle is stationary in the water while the boat is either pulled toward or pushed away 26 Basic Guide Training Manual Project Great Outdoors ©2012 from this “immovable object.” All paddle strokes will turn the boat; some more than others. When paddling forward or backward, the stroke should be made parallel to the center-line of the boat. If the paddle follows the shape of the boat, some of the force of the stroke is wasted in turning the raft to the side rather than in pulling it forward or backward. In all strokes, the upper hand is held over the top of the t-grip. Use the grip to control angle of the blade, and note that the face of the blade must be perpendicular to the direction of paddle travel to achieve maximum power. The lower hand should grasp the paddle shaft as low as is comfortable to permit leverage and impart more power to the stroke. Do your best to pull or push water forward or back, to or away from the boat and not to pull it up or push it down. The Forward stroke provides forward power. If performed by a paddle crew, it will impart no turning force, and if performed just by a guide it will provide forward power along with very slight turning force. With your arms extended, lean forward and place the blade in the water as far in front of you as you comfortably can. Sit up straight and pull the blade towards you. The stroke is complete when the blade reaches your hip. To recover, lift the paddle edgewise. If another stroke is required, rotate the blade face flat to the water while swinging forward in an arc out to the side of the boat until the paddle is as far forward as you can comfortably reach. As a guide, you will very rarely use this stroke. The Backpaddle stroke provides backward power. If performed by a paddle crew, it will impart no turning force, and if performed just by a guide it will provide Backward power along with very slight turning force. While leaning slightly forward, place the blade in the water slightly behind your hip with the blade face perpendicular to the center-line of the boat. Sit upright while pulling your upper hand toward you and pushing down and forward with your lower hand. To recover, sit upright, and remove the blade edgewise from the water. As a guide, you will very rarely use this stroke. Forward Backpaddle Paddle Strokes. Guides will rarely use these strokes, but it is important that one know how to do them well so paddlers can be taught correct technique. Note that to move the boat forward, the paddle travels back, and to move the boat back, the paddle travels forward. This is sometimes cause for confusion with novice paddlers. Project Great Outdoors ©2012 Basic Guide Training Manual 27 Forward Sweep The Forward Sweep provides forward power with moderate turning force. When done by a guide in the proper position, the stern of the boat is pulled to the paddle side, turning the raft to the non-paddle side. The paddle is inserted in the water just out from the hip. The paddle is swept back in a wide arc until the blade reaches the stern. To recover, lift paddle edgewise and rotate the face flat to the water while swinging forward in an arc out to the side of the boat until the paddle is as far forward as you can comfortably reach. Now you are ready to repeat the stroke. Reverse Sweep The Reverse Sweep is a turning stroke. Insert the paddle with the blade directly behind you. Using your hip as a fulcrum and sweep the blade away from you while pulling in with the upper hand. To recover, lower your upper hand and raise your lower hand to remove the blade edgewise from the water. Not like this! There is no skill more fundamental to guiding than sitting correctly in the boat. While it may be comfortable to sit in stern with your foot up, it is neither secure nor effective. Many difficulties new guides have with their strokes are actually problems with how or where they sit! 28 Basic Guide Training Manual Project Great Outdoors ©2012 Draw The Draw stroke is used to move the end of the boat to the paddle side. This will turn the boat to the non-paddle side when executed off the side, or will add backward power when executed off the stern. The upper hand is held at about eye-level, with the elbow below the chin, and the torso is turned from the waist depending on where the blade is to enter the water. This stroke is made by reaching out as far as possible from the raft with the lower hand. The face of the paddle on the surface of the water will keep you from falling out of the raft. As you push out with the upper hand and then pull in with the lower hand, use the lower hand as a fixed pivot point: the raft will be pulled toward the paddle blade. Continue the stroke by sitting upright, and using the muscles of your torso to complete the stroke. To recover, just before the raft hits the paddle, use the lower hand as a pivot point and push the upper hand down and forward toward the bow while swinging the blade up out of the water. Another method of recovery, useful when a number of draw strokes are done in rapid succession, is to rotate the paddle shaft 90 degrees with the upper hand and slice the blade through the water out to the initial position. The Pry is a short powerful turning stroke. Slice the blade through the water towards your hip. Once the shaft of the paddle is touching the tube on which you are sitting, twist the blade 90 degrees clockwise, and pull the handle towards the inside of the boat, across your chest, using the tube as a fulcrum. One the paddle is at about a 45 degree angle, you may either recover by slicing the blade back and out of the water, or twist the blade counter-clockwise 90 degrees and repeat the stroke. The J-stroke is a propelling stroke used by the guide. Insert the blade of the paddle in the water as far forward as possible and pull to your hip. Once your lower hand passes your hip, the shaft will come into contact with your hip. Execute a short pry stroke to correct any spin caused by the first half of the stroke. This movement suggests the letter “J.” To recover, lift paddle edgewise and rotate the blade flat to the water while swinging forward in an arc out to the side of the boat until the paddle is as far forward as you can reach. Now you are ready to repeat the stroke. Project Great Outdoors ©2012 Basic Guide Training Manual 29 FOUR Commanding a Crew What makes rafting such a rewarding activity for many is that it is at once an individual and a team sport. The crew of your boat is an integral part of your ability to get the boat down the river. How you train, communicate with and motivate your crew will have a lot to do with your level of success. Most paddlers want to do a good job and want to participate. It is up to you as the guide to make sure they have the tools to do that. It is tempting for a strong guide to do all the work herself. While it is important, especially for a Project GO Guide, to be able to get a boat down the river without much (or any) help from the crew, the experience will be better for all if the crew is actively engaged. Commands First let’s look at the basic things your crew needs to do, and how you command them to do it. There are five basic commands. Forward, Backpaddle, Left-Turn, Right-Turn and Stop, as well as few ancillary ones Each corresponds with a specific action that the crew should take. Some other commands that are good to be familiar with include Bump, Down, Highside, Over-Left, Over-Right, Draw-Left and Draw-Right. Foward means that your crew should, in unison, reach forward with their paddles and pull the boat towards their paddles, adding forward momentum. Information and illustrations of how to correctly do a forward stroke are in the preceding chapter. Backpaddle means that your crew should, in unison, reach behind them with Project Great Outdoors ©2012 Basic Guide Training Manual 31 their paddle, and pull the boat back towards their paddles, adding backward (or reducing forward) momentum. Information and illustrations of how to correctly do a backpaddle stroke are in the preceding chapter. Left-Turn means that paddlers on the left side of the boat should backpaddle, while those on the right should forward. Right-Turn means that paddlers on the right side of the boat should backpaddle, while those on the left should forward. Stop means that paddlers should stop whatever they are doing, and be ready for another command. It does NOT mean “stop the boat.” Bump means that the guide expects the boat to hit something, and that the paddlers should brace themselves and/or hold on to ensure that they don’t go for a swim. Down means that the paddlers should get in the bottom of the boat and hold on. This might be used in a rapid where the likelihood of consequences of an inadvertent swim are high. Highside means that everyone in the boat should move to the “high” side of a boat. It is called in situations where a boat hits a rock broadside and begins to take on water over the upstream tube. It is hoped that the weight of the crew on the downstream, or “high” side will keep the boat from filling with water and “wrapping” around the rock. There will be more information on high-siding and wraps in the safety and rescue chapter of this manual. Since the advent of self-bailing rafts, “wraps” are much less common. Nevertheless, hitting a rock sideways can result in one (or a flip). If you want to avoid the situation above, call HIGHSIDE before the boat hits the rock. If you do wind up like these folks, make sure your entire crew is accounted for, and remember to SMILE... as someone WILL take a photo. 32 Basic Guide Training Manual Project Great Outdoors ©2012 Over-Left and Over-Right are similar to highside, in that the guide is directing the crew to move to one side or the other of the raft. With highside there is no need to specify left or right because it is obvious: get off the side that is under water and get to the side that is out of the water. Overs are called to change the dynamic of a raft, to get through a narrow channel, to avoid getting stuck on a rock, or to get off a rock once stuck. Draw-Left and Draw-Right are called rarely, as a novice crew generally does not know how to do the stroke. It is called only when the crew knows how to do it and in situations where the guide wants to scoot the raft to the left or to the right without adding any downstream momentum. Training your crew The quality of the experience you and your crew have on the river will be determined by the quality of the training you give your crew. If your crew understands the commands and executes them effectively, you’ll have an easy day, be able to show them the most exciting ride they can handle, and no one will be sore the next day. If, on the other hand, the crew is not able to follow and correctly execute your commands, it will be a long and painful day. Poor crew training is probably the single biggest mistake of novice guides. First learn their names, and use them. If the second paddler on the left is doing something wrong, it is hard to correct if you can’t call on him by name. Next make sure your crew understands the safety talk they received on shore by asking questions like “what should you do if you fall out of the boat?” and “What should you never do with your feet if you’re in the river?” Check to see that their PFDs are worn correctly and tight enough. Showing that you have an interest in their safety and well-being helps establish you as a Training makes all the difference. The padleader and shows that you care. dles in the top boat are rafting for the first time Demonstration is an important and ever: but they are paddling together, and for the underused tool in the training arsenal. most part have good forward body positions, so Your crew may have NO IDEA how to they’re unlikely to get tossed about the boat. The sit in the boat, or how to hold a padpaddlers in the bottom raft… well, not so much. dle. Few will learn from a verbal deThe guide has to work really hard to get down scription. So SHOW them how to sit the rio. Good thing she has solid guide strokes! in the boat. SHOW them how to do Project Great Outdoors ©2012 Basic Guide Training Manual 33 an effective forward and backpaddle. SHOW them what their body should look like. Show them how powerfully they can move the boat if they work together. When you have them do strokes themselves, take the time to look at EACH of them, so that you can offer individual feedback. Look at where and how they are sitting, how they are holding their paddles, and how they are using their bodies. Once they can do the strokes individually, designate a lead paddler and give them a good idea about timing, emphasizing that it is more important for them to work together than it is for them to be especially strong or fast. Once they have all the strokes down, PRACTICE. Make sure that they know what they are doing, and that you can count on them to do it. Some guides like to train their crew on the shore, before the boat pushes off. As long as there is some reasonably calm water at put-in, there is no reason to do this. Your crew WANTS to be on the water, and beach space is limited. Training on the shore prevents other trips from getting on the water. As long as you don’t NEED your crew right away, you can move the boat downstream, and train as you go. This will make your head guide very happy, as one of her responsibilities is getting and keeping the trip moving, and getting to takeout at the appropriate time. Think about training your crew not as an activity that takes a certain amount of time, but as a goal that must be met. You can be training them ALL DAY as long as you are positive and kind about it: “Can I show you an easier way to do that?” vs. “You’re still doing it wrong!” Motivating your crew If you’ve trained the crew well, motivation will not be a particularly difficult thing to accomplish. A good team will want to help! Nevertheless there are a few things you can do to ensure that your commands are followed. 1) It’s a command, not a question or a suggestion. There may be times when it is OK to give commands in a quiet or conversational way, but when you need the crew to do something, say it like you mean it and make sure you are loud enough to be heard over the roar of the rapids. Project your voice from the diaphragm and make sure you are facing your crew when you give the command. If you are looking over your shoulder they won’t hear you no matter how loud you are! 2) Be consistent. Call your commands the same way, every time. If, when you want them to backpaddle, you sometimes say “back,” sometimes say “back it up,” and sometimes say “backpaddle,” you’ll find that your crew does not respond as well when you really need them. Frequently this is because they can’t hear you well, and when you say “back,” they think you said “STOP!” Note that the commands as we have presented them are unique in the number of syllables. “STOP” is the only one syllable command. “FORWARD has two syllables, and “BACKPADDLE” is the only three syllable command. 3) Learn and use their names. There is no better way to get the crew to pay attention to you! 4) Laugh, smile and joke. If you are having fun, your crew will, too! 34 Basic Guide Training Manual Project Great Outdoors ©2012 5) Say please and thank you. 6) Take care of them! Make sure they are drinking water and have enough sunscreen. Every guide should have a small personal drybag or box that contains things to make the day better: a wool cap or a paddling jacket to offer someone who is cold, or a granola bar to offer someone who is hungry. 7) Compliment them individually and collectively when and as they deserve it. There are a few things that will quickly demotivate a crew, and it is important to avoid these. Doing the opposite of any the seven steps above is sure to demotivate them. In addition avoid: 1) Ignoring them. 2) Taking them on a route that is more challenging than they can handle and swimming/scaring them. Remember that they don’t know where the easy route and the hard route are. They may say they want to go big, but if they are not ready for it, go small, and tell them they went big. 3) Putting them down, demeaning them or questioning their worth. Many guides use humor. At Project GO, we ask that your humor not be directed at the guests. We are an educational organization. If a client asks how deep the water is, there are a whole bunch of ways you can use the question to make fun of them. Instead of one of these pat responses, we ask that you consider the question as an opportunity for them to learn something. A great response to that question might be “I don’t know how deep the water is here. Can you think of a way we could find out?” Put some time into thinking of kind and meaningful responses to common questions. It makes a difference. Project Great Outdoors ©2012 Basic Guide Training Manual 35 Tri-Focal Vision. You have to know what is coming up in order to maneuverer correctly. Move your field of vision between these three areas frequently, and you’ll find yourself predicting instead of reacting. 36 Basic Guide Training Manual Project Great Outdoors ©2012 FIVE Basic maneuvering There are quite a few ways to maneuver a raft. But all of them are meaningless if you don’t know where you want to go. A river guide is constantly evaluating sensory input and trying to plan several steps in advance. Make sure to use your eyes! A good technique is called tri-focal vision. Instead of keeping your eyes fixed immediately ahead of the boat, switch your focus frequently through three distinct areas. (1) Right in front of your boat, (2) 20-50 feet downstream of your boat, and (3) as far down the river as you can see. Look right in front of your boat for obstacles that you may have to avoid. Some of the trickier things to avoid can only be seen when you’re right up against them. Look downstream a little further to identify more pronounced obstacles and useful river features with enough time to do something about it. Look downstream as far as you can to see things like which way the river bends and whether there are more than one channel to choose from. Keeping your eyes moving though these three focal points will ensure that you always have enough information to help you decide where your boat needs to be. In time, this will be automatic, and you can then start paying attention to other important things too. Your paddlers. The boat in front and behind yours. The first and last boat in your trip. The weather. Your paddlers. All of this can influence how you choose to maneuver. Project Great Outdoors ©2012 Basic Guide Training Manual 37 0° angle, or no angle to the current 45° Upstream angle to the current 90° angle, or perpendicular to the current 30° Downstream angle to the current 45° downstream angle to the current Angles and Ferrying The angle at which your boat points relative to the current is called a ferry angle, or simply an angle. When your boat points directly downstream parallel with the current, your boat has no angle, or a zero degree angle. In this situation you have no ability to move laterally across the river, but you have a good ability to speed up and slow down. When your boat is pointed across the current, you are said to have a 90° angle to the current. Here you have extreme ability to move laterally across the river, but no control over your downstream momentum. When we speak of angles, we are speaking about the boat’s angle relative to the current directly under the boat. When we speak of holding angles we are speaking of using our guide strokes and/or crew to spin the boat to keep the same angle relative to current as it changes underneath the boat. Angles are described relative to the current, and can be described as either “upstream” or “downstream,” Depending on which way the boat is pointing. The river doesn’t care if you’re pointed upstream or downstream, but the paddlers in the boat might. For all intents and purposes, the two “45°” boats to the left have the same angle, and the same maneuvering choices: A “forward” in one boat would have the same net result as a “backpaddle” in the other. This boat is holding a 90° angle to the current as it is carried downstream. This angle will not “hold itself” though. It requires active work by the guide. A 90° angle has been described as the “hand of God” angle, because it allows for maximum lateral movement. To move this boat to the left, call “forward. To move this boat to the right. Call “backpaddle.” So long as there are no big waves or holes to go through, this is a perfectly acceptable, though not very glamorous way to run a rapid. Please note that this illustration is a gross oversimplification. As we’ll see in the next chapter, the current does not just sweep evenly around a bend. A guide must be alert to which direction the current is flowing DIRECTLY UNDER the boat. Project Great Outdoors ©2012 Basic Guide Training Manual 39 In the most basic sense, maneuvering on the river is a matter of being where you want to be between the left and right bank of the river. The river itself is doing the work of moving you downstream. If there’s a chundering frowning hole on the right, you want to be on the left. If there’s a pointed stick on the left bank waiting to put a hole in your craft, you want to be on the right. And if you see both of these, you want to be in the middle. We’ll spend plenty of time discussing “where” you want to be on the river and why later on. For now we’re just focusing on the “how.” The angle that the boat has to the current, then, determines how efficiently you can move from left to right. A 90° angle to the current lets you move to the right and/or to the left most efficiently. Note that with a 90° angle – perpendicular to the current – you can move to one side by calling FORWARD, and to the other by calling BACKPADDLE. This would be like using forward and reverse in your car, rather than forward – U-turn – forward. So long as you are happy traveling downstream at the speed of the river, this is a perfectly acceptable way to maneuver your boat. But what if you are on the left and you need to get to the right, and there is a big frowning hole you must avoid in the middle – say just downstream of you? Or let’s say you want to cross the river, and wind up exactly on the other side, not downstream (maybe it’s your lunch spot, and the crew is so hungry that they’re on the verge of mutiny). The technique described above would put you in that hole, or cause you to be so far downstream of the lunch spot that the crew would be considering eating you rather than hiking upstream to lunch. Rest assured, your life need not be spent as an offering to the river goddess or as a snack for your famished crew. In the frontier days of the American West, when a trail crossed a river that was too deep to ford, a ferry might be set up to move people and goods across the river. If the river was still, the ferry would be moved across with paddles or poles. But if the river were moving, another way was employed. This process was the genesis of the modern technique we call “ferrying.” By securing a taut cable to each side of the river and tethering the front and back of the ferryboat each to a pulley affixed to that line, the ferry could move across the river without being swept downstream. Moreover, by changing the lengths of the tethers so the ferry presented an angle to the onrushing water, the force of the water on the upstream side and the eddy on the downstream side caused a difference in pressure that moved the boat across the river by itself. We don’t have the luxury of a cable across the river, so we use our crew instead. The faster the river is moving, the steeper the angle to the current must be in order for the crew’s FORWARD or BACKPADDLE to counteract the current. If the water is really fast, or your crew really weak or tired, you may have to have the boat pointed almost straight upstream or downstream. It’s also important to understand that you can “ferry” using a BACKPADDLE (in which case your boat and crew would be facing generally downstream, and the crew would be counteracting the river’s flow by backpaddling), or a FORWARD (in which case your boat and crew would be facing generally upstream, and their forward strokes would be counteracting the river’s flow). This is an absolutely fundamental skill, and a guide must be capable of forwardand back-ferrying left and right in swiftly moving current. 40 Basic Guide Training Manual Project Great Outdoors ©2012 d ar rw Fo B dl ad kp ac e Fo rw ar d B ac kp ad d le It’s important to understand that the river is a dynamic system, and the flow is not consistent across its breadth. To effectively “ferry” across the river, you’ll need to change the angle of the boat relative to the current frequently as you ferry out of calm water into current, and back into the calm water on the other side. Hold a 90° angle Many rapids, especially class II rapids, do not have hydraulics that can upset or flip a boat. These rapids can be run effectively by holding a strong angle to the current, adjusting as the current changes, and simply calling FORWARD and BACKPADDLE to move left and right to avoid obstacles and stay in the best channel. If you hit a rock or cross an eddy line and the boat spins, stop the spin when the boat again has an effective angle and continue as before. Line it up and feed it Some rapids are simply single hydraulics (a wave or a hole) in a particular spot on the river. Simply ferrying can be a simple an effective way to run such a rapid. Set an angle relative to the current, and ferry left or right, working against the river’s downstream momentum, until your boat is directly upstream of the rapid. Once your boat is there, point the boat perpendicular to the hydraulic and call FORWARD! Once you are through the hydraulic, look downstream to determine where –laterally– on the river you ought to be, and ferry to that place. Repeat as needed. Backing away from danger Novice guides especially find that things happen too fast on the river. The current is always carrying the boat downstream. Backpaddling your way down the river can be an effective way of “slowing things down,” though if used exclusively will tire your crew out and make for a much longer day. This technique is not very effective on class IV and V rivers though, as the water is moving so fast that simple backpaddling is not effective. In a rapid with several obstacles along its course, some on the left, and some on the right, The backpaddle technique requires you to identify the first obstacle you need to avoid, and set an angle of around 45° to the current with 42 Basic Guide Training Manual Project Great Outdoors ©2012 the nose of the boat pointing at it, and backpaddle, essentially ferrying away from the obstacle. The moment you are confident that you will avoid that obstacle, turn the boat with the crew or with a guide stroke to an angle pointing at the next obstacle, and back away from it. Repeat as required, always “pointing at” the danger, and backing away from it, until you’re through. A B C Three simple techniques. A) Hold a 90° angle, B)“Line it Up and Feed it” and C) Backing Away From Danger. These are not the only ways to run a rapid, nor are they the “best,” but they all work. As your understanding of water and momentum increase, you’ll combine all of these techniques with others that will be highlighted in a later chapter. Project Great Outdoors ©2012 Basic Guide Training Manual 43 It’s NOT A CAR! We are conditioned by our driving experience to turn to avoid obstacles or to get to a different place. This conditioning works against river guides. Remember that if you have an angle to the current, you can move to the left or to the right by calling FORWARD or BACKPADDLE. If you are considering turning the boat in order to go somewhere else on the river, or avoid an obstacle, see if you can accomplish your goal with the angle you already have. Many guides drift down the river with a 90° angle, because this is the angle that gives them the most maneuverability. 44 Basic Guide Training Manual Project Great Outdoors ©2012 SIX Water “Wild Rivers are Earth’s renegades, dancing to their own tune, resisting the authority of humans, and eventually always winning” —Richard Bangs, River Gods A moving river is a complex system and it’s beyond the scope of this manual to provide a complete scientific description of how water acts in different situations. Instead we’ll concentrate on broad topics that are applicable to whitewater guiding. First we’ll start with some very broad information and then we’ll look at some specific river features and present possible strategies for using or working with them. One thing to clarify right up front: How directions are described on the river. Universally, “left” and “right” are shorthand for “river-left,” and “river right,” referring to directions assuming the viewer is facing downstream. To make a rapid, three things must be present in some degree: flow, gradient and obstruction. Flow refers to the amount of water, gradient is how steep the rapid, and obstruction refers to rocks, constrictions and bends in the river. In the United States, flow is measured in cubic feet per second, (CFS): How many cubic feet of water pass a given point in a second. On a typical summer weekend on the South Fork of the American, you might experience a flow of anything from 1200 to 1800 CFS. In the spring, it is not unusual to have that same river at 4500 or 7000 CFS. When the upstream dam is releasing only enough water to keep fish alive (“fish Project Great Outdoors ©2012 Basic Guide Training Manual 45 flow”) it might be flowing at only 200CFS. By contrast, a typical flow on the Colorado River through the Grand Canyon is 15,000 CFS and the Mississippi flows between 200,000 and 700,000 CFS depending on the season and weather. A cubic foot of water weighs about 62.5 pounds, by the way. This should give you a good idea of why we must treat the river with such care and respect. At normal summer flows, the South Fork of the American pushes 1800 x 62.5 = 112,500 pounds of water by any given point every second. How much can you bench press? Gradient is measured in feet per mile: how many feet the river drops for every mile that it travels. The South Fork of the American drops at about 30 feet per mile, and the Class IV section of the North Fork of the American drops about 50 feet per mile. What these numbers don’t tell you is how the drop happens. Is it a steady decline? A series of small drops with pools in between? Or is it two lakes with a 50 foot waterfall connecting them? In the Sierras, most of our rivers are “pool and drop” in nature. You might tumble down steeply for a short while, but generally, especially on class III and lower rivers, the drop will be followed by a nice calm pool. This is not how it works everywhere: so know before you go! Obstructions can take many forms. Rocks are the obvious ones, but also trees, constrictions and bends in the river can create turbulent water and the need to maneuver. Continuous vs. Pool and Drop. Two rivers may have the same overall gradient and flow and yet be quite different from one another. 46 Basic Guide Training Manual Project Great Outdoors ©2012 International Rapid Rating System Rapids are classified in levels of difficulty and danger. The system is in theory international, but as there is no international body that oversees the ratings, there may be wide variations in rating from country to county, or even from state to state. It’s important that you familiarize yourself with rivers in other areas before running them. Just because you can guide a class III river here, does not mean you can guide a class III river in Uganda. It’s also important to understand that rapid ratings can vary based upon the flow. The South Fork of the American is class III at flows of under 3500 cfs. But with three times that much water it would certainly rate class IV, and possibly Class V! The rapids pictured below are all in our area. Class I Class II Class I: Fast moving water with riffles and small waves. Few obstructions, all obvious and easily missed with little training. Risk to swimmers is slight; self-rescue is easy. Class II: Straightforward rapids with wide, clear channels which are evident without scouting. Occasional maneuvering may be required, but rocks and mediumsized waves are easily missed by trained paddlers. Swimmers are seldom injured and group assistance, while helpful, is seldom needed. Rapids that are at the upper end of this difficulty range are designated Class II+. Class III Project Great Outdoors ©2012 Class III: Rapids with moderate, irregular waves which may be difficult to avoid and which can swamp an open canoe. Complex maneuvers in fast current and good boat control in tight passages or around ledges are often required; large waves or strainers may be present but are easily avoided. Strong eddies and powerful current effects can be found, particularly on large-volume rivers. Scouting is advisable for inexperienced parties. Injuries while swimming are rare; self-rescue is usually easy but group assistance may be required to avoid long swims. Rapids that are at the lower or upper end of this difficulty range are designated Class III- or Class III+ respectively. Basic Guide Training Manual 47 Class IV Class IV: Intense, powerful but predictable rapids requiring precise boat handling in turbulent water. Depending on the character of the river, it may feature large, unavoidable waves and holes or constricted passages demanding fast maneuvers under pressure. A fast, reliable eddy turn may be needed to initiate maneuvers, scout rapids, or rest. Rapids may require “must-make” moves above dangerous hazards. Scouting may be necessary the first time down. Risk of injury to swimmers is moderate to high, and water conditions may make self-rescue difficult. Group assistance for rescue is often essential but requires practiced skills. Rapids that are at the lower or upper end of this difficulty range are designated Class IVor Class IV+ respectively. Class V 48 Basic Guide Training Manual Project Great Outdoors ©2012 Class V: Extremely long, obstructed, or very violent rapids which expose a paddler to added risk. Drops may contain large, unavoidable waves and holes or steep, congested chutes with complex, demanding routes. Rapids may continue for long distances between pools, demanding a high level of fitness. What eddies exist may be small, turbulent, or difficult to reach. At the high end of the scale, several of these factors may be combined. Scouting is recommended but may be difficult. Swims are dangerous, and rescue is often difficult even for experts. Propper equipment, extensive experience, and practiced rescue skills are essential. Because of the large range of difficulty that exists beyond Class IV, Class 5 is an open-ended, multiple-level scale designated by class 5.0, 5.1, 5.2, etc... each of these levels is an order of magnitude more difficult than the last. Example: increasing difficulty from Class 5.0 to Class 5.1 is a similar order of magnitude as increasing from Class IV to Class 5.0. Class VI: These runs have almost never been attempted and often exemplify the extremes of difficulty, unpredictability and danger. The consequences of errors are very severe and rescue may be impossible. For teams of experts only, at favorable water levels, after close personal inspection and taking all precautions. After a Class VI rapid has been run many times, its rating may be changed to an appropriate Class 5.x rating. Class VI River Morphology and Hydrology Don’t worry. We’re not going to get all “sciencey” on you. We’re just using a sciencey phrase as a heading for the section that describes characteristics of river channels and the way water moves through them. If you really want to get into the science of the stuff, visit a library or google search “fluid geomorphology” and follow where it leads. The most fundamental thing a raft guide needs to understand about the flow of a river is that water goes straight, like a billiard ball, until it runs into something. What it does then depends mostly on what it runs into. In all cases though, it will follow the path of least resistance. When a long straight section of river goes around a bend, the water will run right into the outside bank of that bend and pile up there. This is why rivers tend to be deeper on the outside of a turn than on the inside. Without any action from the people in a raft, a boat will go where the water Project Great Outdoors ©2012 Basic Guide Training Manual 49 goes. If your boat is in the main current when the river bends, you will find yourself up against the outside bank of the turn: probably bouncing into the bank and learning something unfortunate about momentum. This bend marks the start of the “Gorge” on the South Fork of the American River. Though the river bend itself is a continuous curve, the current goes straight until it hits the left bank, and then goes straight again, in a different direction. Looking at this bend, can you tell where the water is deepest, and where shallowest? The very inside of a turn can also be a tricky spot for a raft to be. If the water is deepest and fastest at the outside of a turn, it follows that it is shallowest and slowest on the inside of a turn. Shallow water means rocks will be close to the surface and a good probability of getting stuck. With a little experience, you’ll be able to gauge the depth of any part of a river channel by the color and texture of the water. Small waves and a brownish color probably mean shallow water, while green water in general means the river is deep. White water indicates turbulence, which could be caused by any number of things. It might be water piling up against the outside of a bend and crashing back into itself. It might be water going over a drop and compressing. It might be water cascading over a shallow rocky area. The texture of the surface water and where the white water is relative to the banks will give you a good indication of which of these you’ll be dealing with. Ask yourself, what would be the most likely cause of white water in the inside of a bend? On the outside of a bend? In the middle of a bend? It’s also important for a guide to take in the “big picture.” You need to notice the color and texture of the water around and in front of your boat, of course, but look way downstream, and above you too. You can tell a lot about what’s coming ahead by looking at the shape of the canyon and layout of hills and cliffs up ahead. 50 Basic Guide Training Manual Project Great Outdoors ©2012 A few terms may be helpful in discussing water’s movement and in a general understanding of how the water in rivers act. Laminar flow refers to the swiftest moving water, going straight, without obstruction. Helical flow refers to the water that experiences friction with the river bank, the river bottom, and to a lesser degree with the air on the surface. The laminar flow is faster than the helical flow, so in general, if a river is going straight or if Fast you happen to be rafting on a concrete canal, the very fastest water will be in the Slow middle, just below the surface. Main Current Rocks and Water Water interacting with the riverbed, banks, and rocks or other obstructions creates features in the water that will have an effect on your raft. These features are generally visible on the surface of the water, and when not seen, can often be predicted by looking at the riverbanks and the terrain downstream. The simplest of these features is the tongue, green glassy water flowing between two obstructions. In general, we like green water. The tongue is frequently the place in a rapid of riffle that you will be aiming for. The tongue is where water flows swiftly and without obstruction. Project Great Outdoors ©2012 Basic Guide Training Manual 51 Upstream and downstream Vs are other very simple indicators on the surface of the water of what lies beneath, and can be good guides of where your boat should be, and where it should not be. Downstream Vs are essentially the same thing as “tongues,” in that they indicate a clear channel and are caused in the same way. The primary difference between a downstream V and a tongue is the volume and speed of the water. Upstream Vs indicate the presence of some sort of obstruction: likely something to be avoided. Upstream Vs can by synonymous with some of the specific features discussed below. Most notably pillows, holes and eddies. Upstream and Downstream Vs show you where to go… and where not to. Eddies are formed by water rushing past an obstruction, and then flowing back upstream to fill the void left as the water rushes by. An eddy, then, is an area of upstream flow (or much slower downstream flow at least) in the river. You will find eddies behind (i.e. downstream of ) any object that obstructs the flow of the river. This may be a rock of any size, a peninsula reaching out from the shore, or a bend in the river. The size of the eddy is dependent on the size of the object obstructing the flow and how much flow there actually is. Eddies are of great importance to a whitewater boater. If large enough to fit your boat, they are 52 Basic Guide Training Manual Project Great Outdoors ©2012 good places to stop and take a rest. If you have become a swimmer and are looking to get out of the water, even a small eddy is a welcome sight. In some swiftwater rescue techniques, eddies are formed purposefully by a team of rescuers, so that a victim can be floated downstream of the rescuers in calmer water. If your raft is stuck B B on a rock, there will be an eddy downstream of your stuck raft. Should you need to get out of your A raft (a “last resort” option) to get it unstuck, this eddy may be the safest place for you to exit the raft. Eddies are useful for maneuvering too: more about this in a later chapter. While eddies are generally great things, their very nature causes anC other feature which is not as friendly. The eddy-fence, or eddy-line – the “seam” where water rushing past the Anatomy of an eddy. (A) is where the eddy is obstruction interacts with the water strongest, where the water is moving upstream at flowing back upstream – can be a its maximum force. (B) is the eddy-line, or eddyfence, where upstream and downstream flows mix. force to be reckoned with. At the very The eddy-lines are narrowest close the “top” of the “top” of an eddy, where the water is eddy, and widest as the move downstream. (C) in- just rushing by the obstruction, the dicates the area where the eddy is weakest, where eddy-fence is at its strongest. But this is also where it is narrowest, making watter is again moving downstream. it the easiest and generally best place to cross, assuming your goal is to get into the eddy. The farther downstream you go from the obstruction, the weaker and wider the eddy-fence is. Eventually the upstream and downstream water mix and just go downstream. Just before this happens is the area referred to as the “bottom” of the eddy and its fence. In a later chapter we’ll discuss in detail strategies for “catching” an eddy and for using them to maneuver. What is important for you to know at this point are what an eddy and an eddy-fence ARE, and that they are stronger at the top than the bottom. What happens when a river is obstructed by a rock depends on how much water, and how big the rock. When the rock is sticking way out of the water, it forms an eddy. As the water gets higher and higher relative to the rock, different features are formed. Pillow is the name given the white water that piles up in front of the rock or obstruction. The more water, and the closer to the top of the rock it is, the larger the pillow. A pillow may be large enough to allow a raft to run right into the rock and be gently pushed to the left or the right. In a kayak, this move is called a Project Great Outdoors ©2012 Basic Guide Training Manual 53 “boof.” When raft guides pull it off on purpose, as part of a desired maneuver, they think It’s really cool. You will see pillows of varying sizes everywhere you look if the water is moving. When water hits something, it pillows as it flows around, and to a degree over an obstacle. If, however, you see water running up against something and NOT forming a pillow, you’re looking at something that is very dangerous. If the water is not pillowing, it means that it’s flowing beneath the obstruction. This is a sign of an undercut. A swimmer who encounters such an obstruction may be pulled under, and pinned. There are not many such places known on the South Fork of the American, but as a guide, you should be on the lookout for them. If there is any possibility that you or a member of your crew might go for a swim, STAY AWAY! When water just starts to crest and cover an obstruction, it is called a pourover. From the top, a pourover may look something like a wave. You can discern its real nature by looking past the “hump” of water to the other side. If the water bePourover hind the hump is relatively calm, you can deduce the presence of an eddy, and in all likelihood, you’re looking at a pourover. A pourover MAY be runable, but unless you are sure, you should try to avoid it. You never know how big the obstruction is, or how big the drop on the other side. There may even be another dangerous obstacle right behind the pourover, hidden from your view. Pillow Pourover Hole Pillows, pourovers and holes are caused by the same elements. The difference is simply in how much water is meeting and/or pouring over the obstruction. When there is enough water flowing over the obstruction, or in the case of a lot of water coursing over a sudden depression or drop-off in the riverbed, a hole is formed. Water pouring over the drop hits the bottom, bounces up and surfaces 54 Basic Guide Training Manual Project Great Outdoors ©2012 somewhat downstream. Some of the water then rushes back upstream to fill the void behind the drop. The effect is that of an extremely turbulent eddy. In determining whether a given hole is “runable” or not, you should consider Hole the size of the hole, the shape of the hole, the size and weight of your boat and the strength of your crew. There is no hard and fast rule to follow. You are simply trying to determine whether your boat will go through the hole and continue downstream or stay in the hole. Hole Boil Line When enough water pours over an obstruction or ledge a hole is formed. Water flows back upstream to fill the void behind the obstruction. To get a boat through a hole, paddlers will have to get hold of water downstream of the “boil,” the spot where water starts moving downstream again. The water on the surface of a hole is flowing upstream. Determine the “size” of the hole by how far away the point where the water is again flowing downstream is from the beginning of the hole. If this length is greater than the width of your boat, you should probably avoid the hole, as the possibility of your boat turning sideways and surfing or flipping is substantial. The shape of the obstruction or drop that causes the hole influences the character of the hydraulic. Some holes are shaped such that the water (and therefore boats and swimmers) flush out and downstream. Others, called stoppers, or keepers, have characteristics that cause the water to re-circulate more significantly. These latter are generally holes to avoid. You can make some basic assumptions about a hole by its shape. Imagine a “smiley-face” on the river with the eyes downstream of the hole. Imagine the hole as the grin (or frown) on the smiley face. In general, if you see a smile, it’s a happy hole, as the water will flush out. If you see a “frown,” stay away, as it is more likely to be a keeper. Ledges can form holes, and are worthy of special note. A long straight hole, especially one that stretches across the river (as you might find on a low-head dam) can be particularly dangerous, as there is no exit for water to the side. Project Great Outdoors ©2012 Basic Guide Training Manual 55 Waves come in several flavors, and are caused by a number of things. Generally speaking, waves are fun and runable. But if you see a wave that is much taller than your boat is long and is breaking towards you, you probably want to avoid it. Waves on the ocean move. Not all waves on a river do. In fact most are more or less stationary: humps of water that the current runs through. We call these standing waves, or haystacks. They may be green glassy humps, or they may be breaking with foam at the crest cascading towards you. When wave are lined up, one after another, it’s called a wave train. One cause of standing waves is a sudden constriction in the width of the river. A suddenly narrowing channel causes water to pile up upon itself as it is suddenly slowed by the constriction. Once the river widens again, waves continue for a little while, getting smaller and smaller as the river releases it energy. A sudden change in the depth of the river can have the same effect: if the river bottom suddenly rises, it will cause a corresponding rise on the river surface. another cause of standing waves is convergence, as when two rivers or channels come together. Water from each side rushes together and piles up. Waves are also caused by reflections. Water bouncing of a wall, for example, will pile up and make a wave. These reflecting waves are frequently called lateral waves, as they sometimes manifest at an unusual angle. The rule with waves (and holes, for that matter) is “When in doubt, straighten it out.” That is to say, if the wave is breaking, try to hit it perpendicular to the direction of break. If you fail to do this, the wave may turn your boat so that it is parallel to the wave, in which case your boat is much more likely to flip. Adding some forward momentum can be a good idea as well. Wave. One of most well-known waves is the 5th wave in the rapid In spots where waves “Hemit” on the Colorado River in the Grand Canyon. The boat hitcome one after another, ting this wave is probably 18-20 feet in length. Better hit it as in Upper and Lower STRAIGHT! Haystack Canyon on the South Fork of the American, a guide will angle the boat left and right many times to ensure that each wave is hit perpendicularly. This makes for the best ride, and keeps the boat in the current rather than shoved aside. You will find it easier to turn your boat to hit the next wave while your boat is at the crest of the previous wave, rather than when it is in the trough between two waves. 56 Basic Guide Training Manual Project Great Outdoors ©2012 Wrong. This boat is running parallel to the river banks and current. The diagonal wave will cause the boat to turn, and if the wave is big enough subjects the raft to a potential flip. Right. This boat has turned so as to hit the wave perpendicularly. Even though the wave is diagonal, it will not turn the boat, the guide will remain in control and the boat is unlikely to flip. SEVEN Ride the Back of the Mighty Dragon! There is no substitute for experience, and you absolutely cannot learn how to guide by reading a book. It is our hope, however, that this chapter will provide some insight on ways you might be able to effectively use the tools and understandings outlined in the preceding chapters. There is no one “right” way to run a rapid, and arguably, any run that winds up with no one hurt and everyone still in the boat is a successful one. But we do hope that you’ll aspire to a somewhat higher standard than mere survival! At first, you will likely view the river as a force to be overcome. You’ll fight to keep the boat pointed where you want it. You’ll struggle to keep from running into the bank on the outside of turns and you’ll battle the many rocks that seem to come from nowhere to mess up your perfect plan. With time and experience though, you’ll view the river as an ally. She will talk to you. You’ll see that waves, eddies and holes can push and pull your boat in different ways, and you’ll take advantage of it. You’ll see a line of “greener” water going where you want to go and you’ll ride it. You’ll predict the rocks’ location, and instead of being thwarted by them, you’ll use the pillow on one to push the nose of your raft where you want to go, and spin purposefully in the eddy below another. Eventually, you will learn to dance with the river. The techniques in the “basic maneuvering” chapter are a great place from which to start, but if you limit yourself to those basic techniques, you’ll find yourself stepping on your partner’s feet. In case you were wondering, she doesn’t like having her feet stepped on, and sometimes repays guides in embarrassing ways. Project Great Outdoors ©2012 Basic Guide Training Manual 59 Momentum A raft full of gear and people is a heavy thing. This is something that you can use to your advantage in getting from one side of a river to the other. Sir Isaac Newton’s first law of motion says that an object in motion will continue in motion until acted upon by some other force. And Newton’s second law tells us that the more massive an object, the more force is required to accelerate (or decelerate!) an object. If Newton weren’t afraid of mussing his powdered wig, he’d have made a great raft guide. He would understand that you can get a big heavy raft across the river just by starting it across the river. Point the boat to the opposite shore and call FORWARD and let the crew take just as many strokes as it takes to get the thing moving, then call STOP. The boat will continue to drift across the river. Maybe not quickly, but a lazy guide (like Newton, who was so famously lazy that he sat under an apple tree until finally driven off by falling fruit), knowing which side of the river she wants to be on will plan ahead and initiate a “lateral drift,” using the 1000 pounds of boat, paddlers and gear to do the work. We call this lateral momentum. On the Grand Canyon, when rowing a boat that may weigh 2500 pounds or more, this technique is every bit as important – maybe more important – than ferrying. Of course other forces do act upon your raft. The current. The rock you just ran over. Another boat. All of these and other factors must be taken into account when purposefully using lateral momentum to maneuver. In addition to lateral momentum, you should be aware of angular momentum. A boat spinning down the river is a boat out of control, and a boat out of control is a potentially dangerous thing. A boat can spin for a number of reasons. Hitting a rock is perhaps the most common. Crossing an eddy-line is another (half of your boat is in water moving upstream, and half of your boat is in water moving downstream, so of course the boat will spin). When your boat spins (AND IT WILL!), you have to decide what to do about it. Angular momentum is the thing a guide has the most direct control over, so letting a boat spin wildly through a rapid is to stop being a guide in any sense of the word. Many spins are predictable. Frequently you’ll see the rock before you hit it and will know which way you’ll spin. If you’re crossing into an eddy, you can predict which way the boat will spin. In the situation of the rock, you have two choices. Knowing you’re going to spin you can get your paddle ready to stop the spin as soon as the boat has assumed a new and useful angle. Or you can predict the direction that the rock will spin you, and start spinning the boat in that direction BEFORE you make contact. It is possible that this will keep you from hitting the rock, but if you do hit it, it will lessen the force of the impact and help keep your paddlers in the boat. In the situation of the eddy line, you can predict which way the boat will spin, and start the OPPOSITE spin just before the boat hits the line. This way the force of the eddy corrects the spin you started, rather than pushing you out of control. A final note about angular momentum: once a boat is spinning, it can be hard to stop it. Rather than using brute force to stop the spin and then spin back to the angle you had, it is frequently easier to continue the spin you already have, and stop the boat after it has spun all the way around. 60 Basic Guide Training Manual Project Great Outdoors ©2012 Using the River to your Advantage At any spot on a river you will find water traveling at different speeds. Around a bend, for example, there is fast water towards the outside of the bend and slow water towards the inside. You will find that you have great control of your raft when you keep out of the very fastest water, but close to it. If you do this, and keep an angle to the current, you can easily move yourself into the faster water or slower water to control your speed. If you stay on A great way to do this is the inside of to forward to the inside of turns, you’ll stay in turns. Point the nose of control, have lots of the raft into the turn, and options, and won’t call a forward if one is spend all day backing needed to get there. Your away from the outside goal is to enter the turn at of bends. its top and on the inside. Not so far inside that you catch the eddy that is always found there, but maybe right next to that eddy. If you need to slow or stop, it will be EASY for you to get into that eddy. If it looks safe and fun in the faster water, you can get there easily. The important thing is that you are using the river itself as a tool to control your raft. It’s important that you don’t let this technique become “driving,” though. We call it “driving” when a guide stays in the current, keeps a zero angle to it and forwards down the river. Invariably the “driver” gains too much downstream momentum, looses control and crashes into the river bank or an obstruction. Your friend Eddy Eddies are, of all hydraulic features, the most important and the most useful to a whitewater boater. They can help you maneuver, they can slow you down, and they are great places to stop: to look downstream, to take a rest, or to eat lunch. A great and controlled way to run almost any rapid is to hop from one eddy to another. The most important thing to do with an eddy is to stop in it, a maneuver that is called “catching an eddy.” If you poll experienced guides, most will tell you that the ability to catch an eddy is the most important “skill” a guide can have. Many guide schools teach this skill before anything else. We don’t disagree with the importance of catching an eddy, but we do disagree that it should be the first thing taught. Catching an eddy is not really a skill. It is rather the successful application of essentially every other skill and understanding. Project Great Outdoors ©2012 Basic Guide Training Manual 61 To catch an eddy, you must first identify the eddy you’d like to catch. It must be downstream of you some distance, or you will have already missed it. Of course you can’t always see an eddy downstream, but you can almost always predict where there will be one by what you CAN see. If you can see a rock, you can be sure that there is an eddy behind it: the bigger the rock, the bigger the eddy. If you see a bend in the river, you can be sure that there will be an eddy on the inside of that bend. There will be many rocks and bends in every river you run, so there will always be lots of eddies. Once you’ve chosen the eddy you want to catch, you need to determine the strategy you’ll use to get into it. There are two basic methods: Upstream or Downstream. We’ll examine them individually, but start with what they have in common. Always enter an eddy at the top, where the eddy-fence is narrowest. As you get further downstream from the feature that caused the eddy, the fence gets wider, and therefore harder to cross. Also, an eddy is the most powerful, and therefore “stickier” at the top. Which method, upstream or downstream, of catching an eddy you choose will depend on circumstance. Most directly it will depend on the angle you have relative to the current when you decide to catch the eddy, and how far away from the eddy you are. If your boat has a downstream right angle, say, and the eddy you need to catch is to the left of you and only a few boat lengths downstream of you (or vise-versa), the upstream method will be a good choice. You can think of this method as ferrying into the eddy. With the angle you have, calling a backpaddle will slow the downstream momentum, Catch an eddy with an upstream ferry. This is generally the easier method for novice guides, as it slows the boat down relative to the current, so buys some time. Holding the angle as you cross the eddy-line can be challenging. Anticipation is the key! 62 Basic Guide Training Manual Project Great Outdoors ©2012 and cause the boat to ferry towards the eddy. Pay very careful attention though, and adjust the boat’s angle and the strength and frequency of the crew’s strokes to ensure that it doesn’t enter too high and bump into the feature that is creating the eddy. The moment that the tail of the boat crosses the eddy-line, it will spin. The angular momentum that this will cause might very well spin the tail back out of the eddy, causing the crew’s backpadling to ferry the boat back OUT of the eddy. To avoid this, ANTICIPATE the spin, and use a guide stroke to start a little spin the OPPOSITE way just as the boat crosses the fence. Pay attention to the boat’s angle as it slips into the eddy and be prepared to call stop as soon as the boat is in the eddy. It is common when back-ferrying into an eddy for the guide to be looking over his shoulder. Note that the crew will not be able to hear commands given from this orientation! In the event that your boat were pointed upstream, one could, of course forward-ferry into an eddy as well. If the nose of the boat is pointed downstream and in general towards the eddy, the downstream technique can work quite well. Guide the nose of the boat into the top of the eddy. As with the upstream approach, the boat will spin. But this time, instead of fighting the spin, HELP it. The angular momentum thus generated will spin the tail of the boat into the eddy. The guide must make sure that the spin stops at this point though, else the nose may spin back across the fence and into the current, and pull the whole boat with it. To exit an eddy, the same rule applies: Cross the eddy-fence where it is narrowest: at the top. Ideally the boat will exit at an upstream angle. As soon as the nose of the boat crosses into water moving downstream, the boat will spin that direction. The guide must prevent this spin, however, by pointing the boat in the same direction until at least half of the boat is across the fence. Forward into an eddy and let the eddy spin you in. Make sure you STOP before you paddle back out of the eddy. Project Great Outdoors ©2012 Basic Guide Training Manual 63 Eddies as aids in maneuvering One need not catch an eddy to find it useful. You can cross an eddy-line deliberately to spin the boat to a new and desired angle. This is called an eddy spin, and doing it ON PURPOSE is a demonstration of real skill. You can also consider of eddies on varying sides of the river, one after another as bends in the river, and “Forward to the inside” of the turns, just as you would with bends in the river. Stay close to the features that cause the eddies, and you will find yourself always close to the slow water that means control. Using all three dimensions Thus far, we’ve viewed the river as essentially two-dimensional. The fact is that hydraulics exist in the third dimension as well, and understanding this can give guides a great tool. When a boat’s nose pushes up the face of a wave, for example, the angle of the boat relative to the direction the wave is breaking will determine whether or not the boat will turn. Hit it perfectly straight, and the boat won’t turn. But angle the nose just a little to the left, and gravity will help spin the boat to the left. Waves have fronts and backs, but they have sides, too, and boat can slide down the side of a wave. So if the boat is riding a wave-train, riding on the left side of the wave will cause the boat to slip down the left side, adding lateral momentum to the left. Riding on the right side will cause the boat to slip down the right side, adding lateral momentum to the right. If hit without a whole lot of momentum, a long lateral wave can scoot a boat all the way across its face. This is sometimes called “typewritering.” Many holes have a “kick.” Water exiting the hole can push to the right, or to the left. When a boat enters a hole, it will tend to exit in the direction of that kick. Finally, pay attention to gradient. When boating downhill, downstream momentum can be significant, and hard to control. All the backpaddling in the world may not suffice to slow the boat down. In this situation, you’ll have to plan way ahead. Line Dancing Guides sometimes talk about “seeing a line.” They’re not describing a straight line from point A to point B. They’re talking about the best path through a rapid. Look for a “line” that allows the river to lead in your dance. Her waves will push one way, her holes may kick another, her eddies will suck you towards them, and gravity will influence where you go too. Do not expect to become a dancer right away. But pay attention to how all of these things interact with your raft. Experiment. Note that being in the same place simply with different momentum can result in very different runs. With experience and practice, you WILL see the line. 64 Basic Guide Training Manual Project Great Outdoors ©2012 EIGHT River Safety and Rescue Basics This chapter is in no way a replacement for a Swiftwater Rescue Class. No manual would be complete without addressing safety and rescue, though, so those points most salient to guiding on a class III river will be covered here. All guides are encouraged to take an appropriate technical swiftwater rescue course. Safety Talk Any run down a river, regardless of the conditions, begins with a brief and effective talk about the dangers of river rafting and about ways to stay safe. How this talk is given is at least as important as what is said as safety information is only useful if people hear it and remember it. A very thorough safety talk might go on for 45 minutes and be a complete waste of time. Cover the big-ticket items, and do it in less than ten minutes! Your goal is to inform, not to frighten. Humor is a great tool, but make sure the whole talk isn’t seen as a joke. It’s a fine line to walk, and a very important one! Here’s an outline of a good class III safety talk: I Distribute Paddles and PFDS 1) Demonstrate how to wear a PFD a. Explain that it must be tight b. Enlist other guides to check fit 2) Demonstrate proper way to hold a paddle a. Keep one hand on the t-grip at all times Project Great Outdoors ©2012 Basic Guide Training Manual 65 II What to do if you fall out of the boat 1) Grab hold of the boat. Someone will pull you in 2) Use your paddle to extend your reach 3) If you can’t get right back to the boat, keep your feet UP and face downstream 4) Never try to stand up in moving water. 5) Pull someone into the raft by the shoulders of their PFD. a. Use your legs, not your back or arms b. Easiest if the swimmer is facing the rescuer 6) If you are under the boat, pick one direction and with your hands over your head, walk your way out 7) If someone throws you a throwbag a. You might have to swim a bit to reach it! b. Grab the rope, not the bag c. Don’t wrap it around your hand or any body part... just grip it. d. Turn on your back, and put the rope over your shoulder i. The shoulder on the same side as the thrower of the bag 8) A strainer is anything that water can get through, but big things like people can’t a. Typically a tree or a bush b. They are very dangerous. If you are being swept towards one, try and swim away from it. c. If you can’t get away from it, try to climb over the top of it. III Talk about environmental concerns 1) Apply sunscreen frequently a. Not above your eyes, as it will get wet, run, and sting. 2) Drink water every time it is offered, and any time you are thirsty a. Dehydration is common and painful 3) Tell someone if you are cold 4) Describe any local harmful plants and give advice concerning them a. Will vary from locale to locale. b. On the South Fork of the American, Poison Oak is the one. 5) Talk about potentially dangerous bugs and animals 6) Walking on shore and getting into and out of the boat is most dangerous thing you will do today. Watch your step! IV Talk about group dynamics and communication 1) Listen to your guide! 2) Guides will always “point positive,” that is, point to the safe place to go 3) Describe other hand signals a. Patting your head means “I’m OK” b. Pointing at someone else and patting your head means “Are YOU OK?” 66 Basic Guide Training Manual Project Great Outdoors ©2012 4) Only takes one person to pull someone into the boat. Everyone else keep paddling and listen to your guide. 5) High-Side command means everyone get all of their weight to the side of the boat that is rising out of the water V Solicit feedback 1) Are there any questions? 2) Does anyone have a medical condition that might impact your participation? a. Please inform me or your guide. You may do that privately b. Allergies, and do you need/have an eppi-pen. Where is it? c. Asthma, and do you need/have an inhaler. Where is it? d. Neck or back problems? VI Review the most important things 1) This may vary depending on conditions 2) Typically highlight: a. Avoiding entrapments b. Holding the T-Grip c. Drink lots of water d. HAVE FUN! If you guide a boat, one of the very first things you should do with your crew is check for understanding of the safety talk. Especially highlight the things likely to cause injury: entrapments and strainers, keeping a hold of the paddle’s t-grip, and how to pull someone into the boat. It can’t hurt to hear these items several times. Guide Meeting After the safety talk, but before pushing off, the head guide should lead a brief meeting to discuss issues relating to safety and logistics for the day. If this is a group of guides who have worked together in similar situations, and there are no issues relating to the paddlers or specific new river conditions to report, the meeting might be foregone. In this meeting several things must be communicated: (1) Where is take-out? By what time must the trip be there? (2) Where will the trip stop for lunch? (3) In what order will the boats travel? (4) What is the location of the med kit and rescue equipment? (5) Who will be in charge of medical situations? Who is second in command? (6) Who will be the overall incident commander? Who is second in command? (7) Share any medical information provided on liability release forms or otherwise. (8) Any specific conditions that might make this trip “non-standard.” Project Great Outdoors ©2012 Basic Guide Training Manual 67 Signals and Communication Rivers are pretty loud, and there are many places where even the loudest voice can’t be heard over its roar. Communication between boats, though, is very important, so a number of hand signals have been developed that can be discerned at a great distance. These signals are common on the South Fork of the American River, where Project GO runs most of its programs, but these signals are NOT UNIVERSAL! If you boat with a new group of people, or in a new place, it is important that you discuss the signals that will be used. The signal that we indicate means “I am OK” in another locale means “Come to me!” for example. A signal is only worthwhile if it can be understood. Communication frequently needs to go from the last raft in a pod to the first, or vice-versa. In this situation, it is passed from boat to boat and receipt and understanding of the signal should be provided to the sender. We’ll address the issue of boat spacing in a bit, but here it makes sense to point out that the boats in your trip must be close enough to one another to be able to transmit signals. There are many signals common in non boating situations – like raising your palm, meaning STOP, or telling some one to “come here” by wiggling your index finger. These signals are not useful at a distance though, as they are too small to be seen. River signals must be large enough to be seen, and sometimes will use the signaler’s whole body. Go that way! The most basic signal is really a philosophy. If any signal is in fact universal, this is it. “Point positive”. That is, whenever we point, we point to the preferred, best, or safest place. You may point with your arm, or with your paddle. Go that way! Arms outstretched or a paddle held horizontally overhead with both hands Stop! means STOP. Go! An arm or paddle held straight up means GO. This signal is sometimes used to indicate that your boat is ready to go, and once the signal is seen in all boats in a trip, the trip can proceed. 68 Basic Guide Training Manual Go! Project Great Outdoors ©2012 Patting your head and pointing at someone is asking the question “Are you OK?” Patting your head means “I am OK.” It also can be used to signal “message received,” or “I understand.” O.K. Holding your arms above your head, crossed between the wrist and elbow, means “First Aid Required” First Aid Pumping your fist up and down at your side means “Hurry Up,” or “Let’s get going!” Hurry Up! Bringing your palms together with arms above your head means “Let’s get our boats closer together.” Closer! Eddy out! Twirling your index finger in the air vertically near your head means “Catch an eddy and stop.” Pointing immediately after this signal to the left or right indicates which side of the river that eddy should be. Paddle! Swimmer! Holding your hands above your head and moving them in a mock swimming motion means “Swimmer in the water.” Grasping a paddle with one hand and holding it out, while pointing with the other hand means “There’s a paddle in the water. It’s over there.” Project Great Outdoors ©2012 Basic Guide Training Manual 69 Signals you can hear Whistles are also used to communicate. A single blast means “Hey! Pay attention to me!” Two blasts mean “upstream,” and three blasts means “downstream.” Three blasts repeating mean that life or limb is in danger: get every piece of rescue equipment you have and come to help RIGHT NOW. Whistle blasts are very serious things. The non-repeating three-blast should be used rarely, if ever, as many outfitters and guides assume any three blast signal an emergency. The use of two and three blasts to indicate upstream and downstream is a change to Project GO’s standard procedures. It brings us in line with National Fire Protection (NFPA)standards and ensures that we can communicate with professional rescue personnel. As it is new, it is especially important that it be discussed and understood at the guide meeting. Spacing of Boats It was noted above that boats must be close enough together to easily pass a signal from boat to boat. Certainly, you must be able to see the boat in front of you and behind you. But just because you’re close enough to SEE a boat, does not mean you are close enough to provide assistance to it. And really, that is what boat spacing is all about. Simple courtesy is another reason to keep the boats on a trip close together. How close is close enough? And how close is too close? The short answer is “it depends.” As a general rule, in very slow moving water where little or no maneuvering is required, boats can be nearly touching one another, and there is little reason for boats in the same trip to be more than two boat-lengths apart. In a rapid, you need to give the boat in front of you room to maneuver without getting in the way, but you must remain close enough to render assistance if something should go wrong. It is the responsibility of the following boat to stay close enough to the boat in front of it. If it is impossible to keep up, signal the boat in front before they get away from you. Think of yourself as “safety” for the boat in front of you and never let them face danger alone! Boats seem to get separated in rapids. That is because as soon as a raft leaves a pool and enters swift current, it pulls way out ahead. Anticipation is the key here. Pay attention and don’t let the boat in front of you get away! When a boat reaches the bottom of a rapid, unless they are the last boat of the trip, there should be a boat in the rapid just navigated. Move to some slow water, or even catch an eddy while you ensure that the following boat made it through safely. Once you know they are OK, continue down the river. They will do the same for the boat behind them. Unless it has been agreed upon ahead of time for some reason, there is no need for an entire trip to eddy out after a rapid. In situations where several boats are in an eddy together, and intend to get underway, careful attention must be paid. It takes a little while to get out of an eddy and you must start leaving well before you actually leave, else you will be way behind. If you need to exit an eddy and get behind a boat that is in the current and coming towards you, you must start your exit well before that boat passes you. If you wait until the boat passes you to exit the eddy, you will be far behind, disrupting the whole trip. 70 Basic Guide Training Manual Project Great Outdoors ©2012 Circles of responsibility The most basic rule of all rescue is to look after yourself first. Yes, you have responsibility for the people in your raft, but you can do nothing to help them if you yourself become a victim. Do not take actions you are not safely able to accomplish, or that you do not have appropriate training for. Once you know that you, yourself are safe, your next concern is for the other guides on the trip. They have training, skills and equipment that can help resolve a problem In general if you have to make a choice between rescuing another guide or a guest, you should choose to rescue the guide, as they will be able to help you effect other rescues. Helping the guest will burden you with another responsibility, and possibly keep you from effecting other rescues. That said, guides should be able to take care of themselves. The threshold for a guide needing rescue is much higher that of a guest. Use your judgment here: rescue a guide who NEEDS to be rescued. Remember that guides are looking out for themselves, and know how to do it. Once you know that you and the other guides are secure, take care of the guests who may need it. Don’t endanger yourself or anyone else, but do all that you safely can. Gear and equipment is the last worry. Make sure everyone is safe before you worry about unwrapping a boat or going to get lost paddles. In rescuing swimmers, work from the simple to the complex. The order of operation depends on where the rescuer is. If the rescuer is in a boat (as is most likely) going to the swimmer with the boat should be tried before throwing a line. If the rescuer is on shore, throwing a bag should come before going after them with a boat. The order presented below is different from what is taught in most swiftwater rescue courses which are designed for first responders and fire-fighters. That is because firefighters who effect rescues are rarely in a boat. Whereas guides are in a boat. It’s important not to be dogmatic about the specific order, however, and keep the safety of all and expediency in mind. Reach. Reach for the swimmer with your hand or with a paddle. Encourage them to get close enough to you to be able to reach them. Row. You are in a boat. Paddle after the swimmer, and when you are close enough, reach out an arm or paddle. This is a very effective and low risk rescue option. ESPECIALLY if you are appropriately close to the other boats in your trip! Throw. This refers to throwing a throwbag. Ropes in water can be very dangerous. They are, in fact, the primary reason guides carry knives: to cut a rope that has entangled someone. Because ropes are so dangerous, they should rarely if ever be thrown from a raft. The platform is not stable enough, and with the boat moving, the rope moving in the water and the swimmer moving, the possibility of someone getting entangled in a rope is just too great. If you’re going to use a throwbag, use it from the shore. The only time it may be appropriate to deploy a throwbag from a boat is if the boat is securely tied to something on shore. At this point, the boat is arguably just an extension of the shore. And anyway: if you are in a boat, you are in the most effective rescue tool there is. Go. It may be appropriate to get into the water and go after the swimmer, but this subjects you to considerable danger. Consequently, it is the last resort. Take this step Project Great Outdoors ©2012 Basic Guide Training Manual 71 only if you have a rescue PFD, know how to use it and have a team ready to do their part. Swimming As a guide, you absolutely WILL find yourself in the water someday. There is a lot that can be said about swimming whitewater, but we’ll stick to the basics. First: if you are in the water, it is likely that your crew is as well. You can do nothing Guide Swim! Like it or not, you’re going to wind up in the river for them until you get someday. Make sure you know how to take care of yourself and squared away yourself, get back into the boat! so get to and in or (if it is upside-down) on your boat. From here you can formulate a plan to rescue your crew. If your boat is out of sight, or impossible to reach, however, you need to take care of yourself. Here are some suggestions. Avoid entrapments. This does NOT mean assume the “victim” position with your feet downstream and wait for someone to save you. It means that while you are actively swimming towards your boat, another boat, or an eddy, you should know where your feet are and keep them near the surface if at all possible. Just about every technique that you use when guiding a boat can be used as a swimmer. For example you can catch eddies and ferry left or right. Rocky rapids are actually easier for a guide to swim because there are eddies everywhere. Get into one, and make a plan from there. If you go over a drop or hole, bring all your limbs in close to your body, as the turbulence of the drop may toss you about like a rag doll. The purpose of keeping your limbs close to your body is to minimize the possibility of entrapment. Once you are again on the surface, reorient yourself and make a plan. If you find yourself sucked back upstream into the hydraulic, you may have to work a bit to get out of it. First try and get a part of your body or your paddle on the other side of the boilline, in water that is moving downstream. You may have to wait for the hydraulic to suck you under and spit you out again to accomplish this. If you can’t get out on the downstream side, try to get out to the left or the right. If that fails, you can try to go deep. Frequently water is moving downstream at the very bottom of a hydraulic, on the riverbed. This all sounds pretty scary (and anyone who’s been “recirculated” in a hole will confirm that it IS indeed) but be assured that at most flows there are very few holes like this on the South Fork of the American. 72 Basic Guide Training Manual Project Great Outdoors ©2012 Getting into the boat So you swam back to the boat. Now what? Getting in requires strength and technique. The bottom line is that if you cannot get into a boat without a person assisting you, you have no business being a guide. If you do not have the strength to do it, you must make other provisions: Straps strategically placed to help you for example. Here are a few things to keep in mind. When right side up, the bow and stern of a raft are higher than the sides. So, climb in from one of the sides of the raft. If the boat is upside-down, the sides will be higher though. In this case, climb aboard over the bow or the stern. It’s easier if you are downstream of the raft. Pull yourself towards the boat as opposed to straight up. Use the flotation of your pfd to get a little boost by pushing yourself under the water before lunging up. Kick hard and keep kicking. With both hands on handles, d-rings, the perimeter line or a strap or two that you strategically placed there ahead of time, pull yourself up and attempt to straighten your arms and lock at least one of your elbows. Use the other arm to grasp something in the Run the bowline run through a d-ring or rig your flipline across the boat to provide another tool to haul yourself into the boat. This is not ideal because (a) it takes a long time, and (b) puts a rope in the water when there are swimmers about – a BAD thing. Practice getting into the boat when in flat and in moving water. Figure out what additional bits of rigging and straps you may need to assist you. Make sure you have this skill! Flips There are two kinds of guides: those who have flipped, and those who will. Flips put a lot of people in the water, so really ought to be avoided if at all possible. A few things you can do to keep your boat upright include hitting big waves and holes straight and active highsiding. At ordinary summer flows on the South Fork of the American, there are few (if any) hydraulics that, if hit straight and with appropriate momentum, will flip a raft. Hit them sideways, though, and you and your crew will be Hospital Bar on the South Fork is responsible for many “fist flips.” swimming with the There’s a diagonal wave/hole that must be hit square-on, or this fish. might happen. Notice the guide trying (too late) to climb to the high Especially in these side of the boat, while the paddlers fall off the low-side. situations though, a Project Great Outdoors ©2012 Basic Guide Training Manual 73 guide should be able to predict which way the boat will flip, and get his or her whole body on the tube that is going up. This active high siding has kept many boats upright. And when caught on film it makes a guide look like a superhero. If a boat is upside down, everyone is in the water. It will eventually have to be righted, but this is not your primary concern. First you’ll need to make sure you know where your paddlers are. Get on top of the boat where you can see them. If there are any you can’t get to. Signal to other boats hgow many swimmers they should be going after. An upside-down raft absolutely can navigate a rapid. In fact, if in a rapid, it is smartest to get your crew on top of the raft and wait until a calm spot. Getting your paddlers out of the water is ultimately more important than righting your raft. As noted above, the place to board an upside-down raft is over the bow or stern, where the tubes are closest to the water. Project GO’s boats have loops of webbing tied through drain-holes in the front and back to use as handles to pull yourself aboard. To right the raft, affix a line (this is one of the reasons guides carry the aptly named “flip-line”) to a d-ring on the downstream side of the boat. Stand on the upstream tube, grasp that line and lean back. Your weight will be sufficient to right an ordinary paddle raft with this technique. If the boat is heavier, it may take two guides to do this. A safety note: since you’re going to land back in the water when you do this, make sure you know that the water is deep enough, and there are no rocks that you might land on. A style note: If another guide is underneath the boat, and holding onto the same tube that a guide is standing on to right the boat, the guide underneath will be pulled into the boat by the flipping motion. Not only is this stylish, it can save precious moments of time and make it possible to get others into the boat that much quicker. What flip lines are named after! Getting the boat flipped right-side up is the easy part. For many, getting back into the boat is a little tougher. Make sure you have this skill, and don’t be ashamed to rig additional handles and straps to the boat to help you! 74 Basic Guide Training Manual Project Great Outdoors ©2012 A very heavy gear boat may require many people pulling from land. In this circumstance attach the flip-lines to the tube closest to shore, run them UNDER the boat then through a D-ring or handle on the far tube, and then back to shore. When your team pulls, they’ll be twisting the whole boat, not just pulling up one tube. Perched? Your boat will, from time to time, find itself stuck on rocks. Making use of“trifocal vision” described in the basic maneuvering chapter can help you avoid this, as can strategic spinning of your raft and calling “over-left,” or “over-right” to move weight in the boat away from the rock. The fewer rocks to get stuck on, the better for the trip and for the boats themselves. here ‘re a few tactics you can use, in the order in which they should be tried. (1) As soon as the boat hits a rock, try to spin it. This may prevent you from getting stuck at all. (2) Being stuck is not always a bad thing. Use it as an opportunity to get your bearings, and make note of what is directly downstream of you, as you’ll have to navigate that as soon as you get un-stuck. (3) “Go slow to go fast.” That is, work deliberately. So long as no one is stuck between the boat and the rock, and all of your paddlers are still with you, you are in a safe place, and there’s no need for extreme haste. (4) DON’T have your crew bounce up and down. This will do nothing to get you off the rock, may lead to an injury and may damage the boat. (5) Determine where the rock actually is. You or your paddlers will be able to feel it through the floor. Note that there may be several. (6) If the position of the rock suggests success, try to spin the boat. Use guide strokes and/or a called turn to your crew. (7) Move people in the boat to get the weight away from the rock. Try again to spin. (8) Use your flip line from inside the boat be attaching it to one side, and pulling from the other to “peel” the boat off the rock. There are a few mechanical addvantage systems you can use to do this, but make sure you understand how they work before you attempt them. These techniques are beyond the scope of this manual. (9) If you can do it safely, get out of the boat to push or pull (10) As a last resort, you may ask your paddlers to get out of the boat. Make sure that this can be done safely, and make sure you have a good plan for getting them back in the boat once it is unstuck. If none of these work, it will require assistance from others, and possibly ropes from the shore. Signal your trip to stop, and be prepared to make and/or follow a plan. It is beyond the scope of this manual to outline all of the methods and systems that may be used to free a raft that is really wrapped or stuck. In general, listen to the head guide or designated incident commander and follow their instructions. Keep your safety and the safety of your team and guests in that order, as boats can be replaced, while people cannot. Work from simple to complex. Project Great Outdoors ©2012 Basic Guide Training Manual 75 Throw Bags A throwbag consists of about 50 feet of floating rope stuffed into a fabric bag with some sort of closure system, most commonly a draw-string. They come in many sizes and types, each suited for different circumstance. It’s important that you find time to practice with many different kinds of bags, so that in an emergency situation, you’ll be able to deploy a rope and not worry about the type of bag that happens to be in your hands at the time of need. A few basic rules about throwbags: (1) Don’t throw a bag from a boat, unless the boat is securely tied off. Boats are not a secure platform from which to throw, and a moving rope in a moving river attached to a moving boat is a very dangerous thing. If you are in a boat, paddle and/or reach with your paddle to the swimmer! (2) Never throw a bag unless you are wearing a PFD. It is possible that you may fall into the river when deploying a bag. Take care of yourself! (3) Never tie the rope to, or wrap the rope around any part of your body. (4) If the current is swift, make sure you have a buddy to hold on to you. (5) Stand on the upstream side of the rope, and make sure no one is standing on the downstream side. When the victim grabs the rope and begins to swing towards shore, the rope will sweep into people in its path. (6) Make sure you are throwing from a place with good footing and/or a good place to brace yourself. (7) Look downstream at shore the length of your rope. Whatever is there is where the victim will wind up. Is it safe? If not, move up or downstream before you throw. Throw it! Open the closure mechanism, and grab an arm’s-length or so of rope. Hold this securely in your non-throwing arm. Yell the word “ROPE!” and with the other arm, throw the bag to the swimmer. You may throw the bag underhand, overhand, sidearm or like a football as your ability and the environment dictate. Try to actually hit the victim. If you’re going to miss, it is best to miss slightly downstream, as the victim will travel faster than the floating rope, and may catch up to it. But better not to miss. Practice. Practice. Practice. A second chance If you miss with your throw, or must rescue another swimmer before your bag is restuffed, quickly haul in the rope and coil it in your hands. You need not pull in the entire length: only enough to reach the victim, as on your “second throw, you will throw the END of the rope, not the bag side. Separate the big coil into two coils, holding one in each hand, the coil with the end of the rope in your throwing hand. Stand on the rope to ensure that when you throw the coils, you don’t loose the rope, and as soon as you’ve thrown, reach down and pick it up. Throw the first coil, and then throw the second one after it. With practice, you’ll be able to throw these coils almost as far as you can throw a full bag. Try other methods for your second throw and find the method that works best for you. 76 Basic Guide Training Manual Project Great Outdoors ©2012 Entrapments Entrapments are the number one cause of death on the river. It is essential that the safety talk emphasize ways to avoid this. Since guides have begun emphasizing the “swimmer’s” position, with feet up and downstream of the boat, occurrences of foot entrapment have actually increased. The data suggests that in an effort to get their feet up, swimmers may be straightening their bodies as soon as they hit the water. While the “swimmer’s” position can be appropriate, getting into it should not be the first priority. The FIRST priority is staying in the boat. Should they swim, paddlers should bring thier limbs in close to their body until they are at the surface. Then they should see if they can grab the boat. Only if they can’t get back to the boat should they assume the “swimmer’s” position. Encourage paddlers Rocks like this are why feet must be not to be victims but rather to be actively enkept up. At ordinary boating flows, this gaged in their own rescue. rock is far enough below the surface, and the water swift enough that a foot could get wedged in the crack. A foot entrapment in this rock, just below Troublemaker on the South Fork claimed the life of a young man in 2009. Airway and stabilization It takes time to perform a rescue, and people can hold their breath for only a short while. The entrapped victim cannot breathe, and freeing them of the entrapment cannot happen before they run out of air. The first order, then, is to find some way to prop or pull them up so that they can get a lungful of air. Only once this is achieved does the second stage, that of releasing the entrapment happen. How this is done will depend upon the location of the entrapment, the environment, and the tools available. If the water is shallow, a rescuer or team of rescuers might be able to wade into the river and physically hold them up. It may be possible to get a pfd, or something that they can float their upper body on. Anything is fair game, and lots should be tried and tried again. Successful rescues are usually ones where rescuers can get “hands on” the victim. If none of these ways work, the best way to pull the victim’s airway to the air is with a rope. Regardless of whether the above methods (or others that present themselves) manage to solve the breathing problem, a rope will be needed to attempt to release the entrapment. A team should IMMEDIATELY begin work on getting a rope either across the river, or around the victims chest, as this can allow them to breathe, or serve as the first step in releasing the entrapment. Once there is a rope below the victim, it can be drawn upstream, pulling against the current to lift the torso and airway out of the water. Getting the rope to the right place with the ability to pull upstream is the hard part. Several methods are possible. Note that any time a rope is stretched across the river, a hazard has been created for all craft and people navigating the river. Send someone upstream to stop traffic, or divert it to a safe route. Project Great Outdoors ©2012 Basic Guide Training Manual 77 In an emergency situation, when boats pull over, at least one boat should pull over on the opposite bank from the others. Having a team already on both sides of the river can save precious minutes. If the river is narrow, getting a rope across the river may be as simple as throwing a throwbag. In order to get sufficient angle to effectively pull upstream, several throwbags will likely have to be joined together. If the distance is too great to throw from shore, rescuers could wade into the water from either shore. The ropes neet not be from shore either: there may be eddies or rocks closer to the victim. A strong swimmer with a rescue vest could swim to retrieve a line, or possibly swim across. A boat could ferry across, pulling a line. Be creative, but work fast. If you have the personnel and rope, try several methods at once. Another method of getting a rope around the victim makes use of a piece of rescue equipment found in several of Project GO’s throwbags: the Whitewater Snag Plate. You can identify a bag containing a snag-plate by the presence of a yellowplastic tag on the bottom of the bag. One rescuer throws a bag upstream of the victim, allowing the bag to pendulum downstream around the victim. A second rescuer throws another bag, equipped with the snag plate across the rope that is downstream of the victim. The snag-plate is plastic, and has hooks and barbs designed to capture a rope. By dragging this line, with the snag-plate, across the first line, it can be captured and brought to shore. With this accomplished, there is a rope around the victim. Pulling both ends upstream, even if both are on the same shore, can be effective at pulling the victim to a place where breathing is possible. It may be necessary to place a rock in the inverted throwbag equiped with the snag plate to ensure that the snag is effective. Releasing the entrapment Once the victim can breathe, the net step is to release the entrapment. This will not be easy. The rescuers must get a rope around the victim, at the bottom of the river, as close to the point of actual entrapment as possible. Any of the techniques outlined above can be used to get a line across the river (equipment and personnel permitting, several attempts can be made at the same time). To get the rope to the bottom of the river, weight is required. Filling a throwbag (or maybe two of them) with rocks, and moving the rope so those weighted bags are directly downstream of the victim is the best way known to do that, but don’t let that idea limit your options. The best thing to do is whatever works. Once you have a rope at the bottom of the river, downstream of the entrapment, pull upstream in the hopes of pulling the limb out from whatever is holding it. If you succeeded in stabilizing the victim and they are conscious, they might be able to help get the rope to the right place. 78 Basic Guide Training Manual Project Great Outdoors ©2012 Final thoughts There is no way to know what is going on at the point of entrapment. All the pulling in the world may not be enough to free the limb. In the case of the young man in 2009, once the water flow had been turned off, so there was no more pressure, it required a three to one mechanical advantage and three strong men to release the limb. In this case, even had the team on the spot been able to get the lines around him right away, the rising water was so high that even standing straight up, he could not have gotten air. And even had the team gotten a rope on the riverbed at his feet, they could not have freed the entrapped limb with the force of water to contend with. The best rescue is one that isn’t needed. As stated above: Don’t get entrapped. Don’t let anyone else get entrapped. Project Great Outdoors ©2012 Basic Guide Training Manual 79 NINE Working with rope Knowing your way around a length of rope is an important part of being a guide. There are probably thousands of different kinds of knots, but you need be familiar with only about a half dozen in order to consider yourself a guide. Practice them until you can do them in your sleep. The knots we’re concerned with are tied in rope. There are some knots that are peculiar to cord and to webbing, but they are beyond the scope of a basic training manual. You’ll learn to tie a water knot in webbing, and a double fishermen’s knot and a prusik knot when you take a swiftwater rescue course. Rope comes in many forms. You’ll find rope of different varieties in throwbags, as bow lines and in rescue kits. Most of the rope used in whitewater is made from polypropylene, instead of the more typical nylon, because it floats. The typical strength varies from 1400 pounds for braided rope used for bow lines to more than 5000 pounds for Spectra kernmantle rescue line. Cord is made the same way as rope; it’s just smaller. Cord is mostly used around camp for securing tarps and so on, and is also tied into loops called “prusiks” that are found in a sweep kit. The 6mm cord used for prusiks has a breaking strength of 1700 pounds. Tubular webbing, also called hoopie, is constructed of nylon woven in a tube shape, then ironed flat to make it easier to work with. It is used to create anchors in rescue situations, and it is an ideal medium from which to fashion a flip line. It is very strong, with a breaking strength of 4500 pounds for one-inch webbing. Cam Straps are made from flat-woven polypropylene and finished with springProject Great Outdoors ©2012 Basic Guide Training Manual 81 loaded metal cams. They are great for securing items to your raft and require absolutely no ability to tie a knot. Their typical breaking strength, however, is only about 400 pounds, so they should never be used for any kind of rescue. Terminology It’s helpful to have a common vocabulary when talking about anything. It’s especially important when trying to describe how to tie a knot. Working end Loop Bight The working end is sometimes called the “running end.” It is the active end of a line used in making a knot. The working part is the section of line between the knot and the working end. The standing end is the end of the line opposite the working end. The standing part is the section of line between the knot and the standing end. A bight is a U-shaped bend used in making a knot. A loop is a circle of rope or cord formed by passing the working end over or under itself. This is different from a bight, where the working end does not cross the line. A coil is a series of loops used to collect a line. An anchor is an object that provides a stable attachment point for a line. In whitewater rafting this is usually a rock or tree on shore. This is not to be confused with a nautical anchor like the one in Popeye’s tattoo. The Knots Overhand Knot This is the most basic knot. In fact, you already know how to tie this knot – it is what you use to tie your shoelaces. This knot has many other names: Granny Knot, Thumb Knot and half hitch among them. It is not a secure knot on its own, but is the basis for some other knots, and is sometimes used to finish knots. 1) Form a loop. 2) Pass the working end through the loop 3) pull to tighten. 82 Basic Guide Training Manual Project Great Outdoors ©2012 1 2 2 3 Overhand knot The Overhand knot is the first knot you ever learned to tie, and is known by a few other names: granny knot and half-hitch are the most common. It’s not good for much all by itself, but is an important part of many other knots. Overhand Slip Knot This variant of the overhand knot can be released just by pulling one end. 1) Form a loop by passing the working end over the standing part. 2) Form a bight in the working part behind the loop. 3) Pass the bight through the loop. 4) Pull the standing end to tighten. To tie an Overhand Slip Knot around an object, first form the loop around the object and continue as above. 2 3 4 1 Overhand slip-knot 3 The overhand slip-knot is useful anytime you need a “quick release” system. It’s an integral part of a “trucker’s hitch,” which is what you’ll use to tie a load to a trailer. Project Great Outdoors ©2012 Basic Guide Training Manual 83 Figure Eight Knot The Figure Eight Knot is the basis for a family of knots that can meet most every need. 1) Form a loop by passing the running end over the standing part. 2) Pass the working end under the standing part. 3) Pull the end through the loop. 4) Tighten. When you’re finished, the knot will look like a figure eight. 1 2 3 4 Figure Eight On its own, this knot is useful only as a “stopper” knot on the end of a line. But it forms the basis for several of the most useful knots there are to a whitewater boater. Figure Eight on a Bight The figure eight on a Bight is exactly like a basic figure-eight, except tied on a bight of rope. It is the easiest way to tie a secure loop to the end of a rope. 1) Form a bight. 2) Make a loop on the bight 3) Wrap the end of the bight around the standing part, 4) Pull the end of the bight through the loop and tighten. Figure Eight on a Bight 1 84 Basic Guide Training Manual 2 3 4 Project Great Outdoors ©2012 Figure Eight Follow-Through Knot The figure eight follow-through is a very strong knot and is used to secure a rope to an Object. Once you understand how to tie a Figure Eight, tying this knot is simple. 1) Start by tying a Figure Eight in the working part. Leave at least four feet of line between the knot and the working end. Pass the working end through (or around) the object. 2) Slide the working end back into the knot and follow the line through the knot. 3) Continue tracing the line’s route through the knot. 4) When you’re done tracing back through the knot, the working end should be parallel to the standing part. Figure Eight Follow Through 1 2 3 4 No Knot A very simple and very strong hitch, the unfortunately-named No Knot is indispensable. It is also called a Tensionless Hitch. The No Knot can be used when tying up a boat at lunch and attaching a line to an anchor for rescue work. Tying this hitch is simple; just wrap the working end around the anchor several times. The strength of this hitch comes from the friction between the anchor and the wrapped section of rope. The number of wraps needed around the anchor is determined by the diameter of the anchor and its surface texture. When tying to a big oak tree with rough bark, two or three wraps will be sufficient. On the other hand, if you’re tying to a polished round post, you should use several wraps. Finish the knot with an overhand knot, or for rescue work, a bowline or a figure-8 follow through. Project Great Outdoors ©2012 Basic Guide Training Manual 85 Double Half Hitch The Double Half Hitch is a simple hitch that builds on the overhand knot. It is used to finish a Trucker’s Hitch, or for any time you need a quick knot that does not have to be exceptionally secure. 1) Pass the working end through (or around) the object and form a loop by passing the working end under the standing part. 2) Pass the working end through that loop to make an overhand knot. 3) Pass the working end under the standing part again, and again pass the end through the loop. Tighten. Double Half-Hitch 1 2 3 Double Half Hitch on a Bight This is just a variant of the Double Half Hitch, using a bight instead of the working end. If you get stuck, refer to the Double Half Hitch. This is the hitch used to secure a rolled raft with its bow line. Double Half-Hitch on a bight 86 Basic Guide Training Manual Project Great Outdoors ©2012 Trucker’s Hitch A Trucker’s Hitch is really neither a knot nor a hitch; it is a mechanical advantage system that makes it easy to tighten a line. 1) Run the working end through the tie-down point. 2) As far up as you can reach, tie an Overhand Slip-Knot. 3) Run the working end through the loop of the slip knot and pull hard to tighten the line over the load. 4) Finish with a Double Half Hitch. 2 3 4 1 Trucker’s Hitch Bowline The bowline is one of the most useful knots you can know. Simple to tie, it forms a secure loop that is reasonably easy to untie, even when it has been loaded. 1) Form a loop with the standing part running underneath. 2) Run the working end up through the loop, but do not pull it all the way through. 3) Take a turn around the standing part, and then back down the original loop and hold it there. 4) Pull the standing part to tighten the knot. 3 4 1 2 Bowline Project Great Outdoors ©2012 Basic Guide Training Manual 87 Coiling a line You can use this technique to secure a coil of rope. Form a coil by stacking loops in your hand, leaving a few feet of line free. Wrap the working end tightly around the coil a few times, making sure to cross the standing part on the first, and coil up. Form a bight in the working part and push the bight through the loops at top of coil. When you use this technique to secure your boat’s bow line, you should form the coil so that there is about five feet of line between the coil and the point where the line attaches to the boat. Then use that section of line to wrap the coil and to form the bight that secures the coil. 88 Basic Guide Training Manual Project Great Outdoors ©2012 TEN Rigging your boat There is a lot more to put in a boat than just people. How you put that stuff in, where you put it, and how you secure it has a lot to do with the quality and safety of the experience you’ll have on the river. All this “tying-in” of things is called “rigging.” Much of rigging is a question of personal preference, so long as a few rules are followed. In guide school, to ensure that everyone learns at least ONE way to rig a boat, it’s common that personal preference be ignored. After guide training though, if you find something that works and doesn’t break the rules, go for it! Just make sure that whatever you do, you have a REASON for. Here are some guidelines to keep in mind when rigging your boat (1) Rig everything that you don’t want to loose securely enough that it will stay put, even in the event of a flip. (2) Put what we call a “positive lock” on everything. That is, make sure that you are not just depending on the shape of something and a tight strap to hold onto it. Rather, make sure the strap goes through a handle or strap or some built-in loop on the item being rigged. (3) Eliminate or minimize potential for entrapment in the boat. No loops or holes that an arm or leg might get stuck in. (4) Try not to use non-locking carabiners, as it is possible that they could clip onto a person and trap them. If you use non-locking carabiners for anything it should be for simple attachment to loops so that they can flop around. A flopping carabiner is much less likely to clip to something on accident. Project Great Outdoors ©2012 Basic Guide Training Manual 89 (5) Rig the same way, every time. In an emergency, you want to know exactly where everything is, and how it is secured. (6) Put things that are rigid in places where people are less likely to bump into them. For example, put buckles in front of thwarts so knees don’t hit them, and a pump underneath a drybag. (7) Think about the orientation of items to the person who will be dealing with them. Arrange cam-straps so they can be tightened by pulling towards the guide for example. (8) Put things where you need them: water bottles near the paddlers, throwbag and spare paddle near the guide. (9) Allow one item per strap. This way you don’t want to have to de-rig your entire boat just to get to the thing at the bottom. The tools of the trade are cam-straps and carabiners, ideally locking ones. Every guide should have a small supply of their own in several different sizes. Make sure they are marked in some way so everyone knows that they belong to you! Nail polish is a pretty good way to mark metal items. Keep them all in small mesh bag with a loop. You can then secure that in your boat to hold small incidental items like sunscreen. To rig a paddle boat, you’ll need two 6’ cam straps and 2 carabiners at a minimum. We’d suggest having at least four of each though, and maybe a couple longer and shorter straps too. Rigging for specific items. Water Bottles Assuming the water-bottle has a loop of webbing or rope attached to it, the simplest way to secure these in a boat is to run a 6 foot strap around a thwart, wrapping the strap around one side of a LOCKING carabiner twice. Position the carabiner and buckle in front of the thwart. You can simply attach the loop of the water bottle to this carabiner. In this configuration, you MUST use a locking carabiner and ensure that it remains locked. An unlocked or non-locking carabiner held in place with the gate projecting outwards is a dangerous thing, as it could accidentally clip onto someone and hold them there. Spare Paddle This is a tough one. If you need a spare, you are likely to need it in a hurry, and rigging it securely will make it hard to get. We suggest tucking it blade-down along the side of the rear thwart opposite of the guide. Tuck it in hard and it won’t go away unless the boat flips. For a measure of added security a strap from the handle to the floor or outside d-ring with the cam positioned in such a way that it can be easily reached is a good solution. Many guides rig it to the top of the rear thwart with two straps, one on the left, and one on the right. If you do it this way, make sure that at least one of the straps loop around the handle, to keep it from moving around, and carefully consider how you rig other things to this thwart so that they don’t interfere with your ability to get the paddle, and so that the paddle rigging does not interfere with your ability to get to other things. This method is preferable on runs where a flip is more likely. 90 Basic Guide Training Manual Project Great Outdoors ©2012 Dry Bags There are many sizes, types and shapes of drybags. How you rig depends on many factors. Most drybags have plastic rings near the buckle. This is in some cases the only location where one can achieve a “positive lock.” When drybags are closed, the attachment of the buckles creates a loop of sorts, and while it is tempting to run a strap through this formed loop, it is not ideal, as the plastic buckles are generally flimsy, and can come apart with pressure applied in certain ways: a carabiner pressing against its side, or a knee hitting it as people move around the boat. A small bag can be attached just as a water-bottle, by making use of the plastic ring near the buckle. Medium bags can be strapped to a thwart horizontally, with the strap passing through the plastic ring, so long as the strap can be tightened sufficiently to keep the bag from squirting out to one side as the raft moves, and as people move in the raft. A larger bag, or one that can’t, because of its contents, be rigged horizontally can be rigged vertically – one strap around the thwart and bag near the center of the bag, and another strap near the top, providing a positive lock through the bag’s plastic ring. The above are guidelines, not rules. Just make sure that there is no chance the bag will go away, and try to arrange it so that it won’t flop around. Pumps These are a real pain to rig. They are hard plastic, so will hurt to fall on, have no convenient attachment points, and thanks to the hose, can create entrapment hazards. Fortunately, only one is needed per trip, so you won’t frequently have to rig it. Plan “a” is to rig it on top of the saddlebag that contains the rescue and medical equipment. By putting just below the top, and cinching the top down tight, it is possible to keep the hose under cover so that it does not become an entrapment hazard. Another good idea is to put the whole thing in a mesh bag, and strapping that bag to a thwart. Someone always has a mesh-bag at put-in, and sometimes its owner would rather have it on the boat than left in a vehicle at put in. If neither of these are options, you must coil the hose along the length of the pump, and put a strap around it to keep it in place. Then strap it to the front of the rearmost thwart using two straps, one at each end. Make sure one of these two straps, or a separate locking carabiner create a positive lock. Throwbag This is the only item to be rigged for which there are some unbreakable rules. The rules are centered around the extreme danger of a loose rope in the water, and the need for a guide to able to get the bag quickly. NEVER secure a throwbag on the outside of a boat. We know many guides do this, but that does not make it smart. The plastic buckles are flimsy, and the potential for the bag to come loose and fall into the river when the boat hits a rock, or is bumped by another boat is too great. And a bag full of rope “somewhere” in the river creates a potentially fatal hazard for ALL who travel the river. Make sure that the bag is secured in such a way that there is no possibility of the rope coming out of the bag. There is a knot at the end of many throwbags, usually a Project Great Outdoors ©2012 Basic Guide Training Manual 91 figure-eight on a bight with a very small loop. Make sure that the knot portion of this loop is inside the bag, and that the drawstring closure is tight. It is acceptable to have no knot at all. An excellent method for securing a throwbag is to fasten the buckles of the bag through the loop at the end of the rope (with the knot inside the bag!) , and then attach both the buckle AND the loop to a locking carabiner. Attach this carabiner somewhere inside the rear compartment, close to the guide. This system ensures that the knot will not come out of the bag, and provides the extra security of two attachment points. It’s been noted that to deploy the bag, one need only release the plastic buckle on the bag, leaving the loop on the carabiner. You should only do it this way if the boat is tied off to the shore. As a rule, we do not throw ropes from boats. Another acceptable method is to put the loop or bitter end inside of the bag and tighten the drawstring. Cinch the throwbag strap as tight as you can to further ensure that the rope will not escape. Then attach the bag by its bottom. Almost every bag has a loop of some sort at the back end. Again, place it somewhere inside the rear compartment, close to the guide. Remember that bags should never be thrown from a boat, so your real goal is to make it easy for you to take from the boat when you go to shore. Big Stuff Ideally, big stuff like the lunch cooler will be rigged in an oarboat, and are not your concern. Nevertheless, there may be times when trip logistics require that you get the cooler, or something equally large into your boat. This requires some creativity, and may mean you have to borrow straps from someone. A cooler should always have a strap around it, keeping the lid closed. If the cooler has molded handles – that is the handles are literally part of the cooler – you are in luck, because these are secure attachment points. Most coolers nowadays have flimsy handles that are useless for rigging. Putting a strap through these will do nothing more than break the handles from the cooler. 92 Basic Guide Training Manual Project Great Outdoors ©2012 It is OK for the cooler to touch the floor, but it should not be cinched down onto it, as this can create wear on the floor of the boat, and may pinch when the boat is stuck on rocks. Probably the best method is to run two straps, one each direction around the cooler. One is to hold the cooler closed, and the other is to provide the closest thing you can get to a positive lock on it. Run two long straps (10-12 feet) around the rear thwart and the cooler, making sure that they go under at least one of the straps on the cooler. Most likely the cooler barely fits in its compartment, and you can count on the pressure of the thwarts on either side to prevent the cooler from rotating up. If this is not the situation, you’ll also have to come up with a way to keep the cooler down. A strap from the handles down to the floor drain-holes or lacing may be the best you can do. Don’t make these straps super taught, as the handles may break, and this would put too much pressure on the floor. Project Great Outdoors ©2012 Basic Guide Training Manual 93 Glossary air brace to hold the paddle out of the water, as though pushing against the sky to stay in the boat. Frequently preceeds a swim. anchor rope or webbing secured to a large rock or tree used in rescue situations angle an angle of the raft relative to the current. Also called a “Ferry Angle” backpaddle paddle stroke in which the paddle enters the water behind the paddler and is pulled towards the bow of the raft to move the raft backwards baffle the wall between individual chambers in the main tubes of a raft barrel pump a hand pump 4 or 6 inches in diameter used for manual inflation of rafts BFR “Big Frickin Rock.” Big enough that it won’t move when subjected to the sort of forces in river rescue bladder plastic “inner tube” that holds air in Aire and Tributary brand rafts boil current coming up from the bottom of the river. boil line the seam between upstream and downstream flow in a hole boney adjective describing a route congested with rocks or with very low flow bow front of the raft Project Great Outdoors ©2012 Basic Guide Training Manual 95 bubble water released from a dam traveling downstream. To be “in front of ” the bubble is to start rafting before the water gets to you. To be “behind” the bubble is to start after the bulk of the water has passed you. bucket boat a non self-bailing raft. Named after the bucket used to empty the water. can-opener sharp rock that could rip a raft from bow to stern CFS cubic feet per second, a unit of water flow past a given point chafe pad an extra layer of material used to protect the top of a raft from the rubbing of an oar frame. channel raftable route through a rapid chicken strap loops of webbing buckled to thwarts to provide handles for nervous passengers cod a derogatory term for paddler. Also peep, custie, punter or Texan. compartment the area in-between thwarts where items are rigged and where people sit. Referred to by location, i.e. “front,” “back,” “middle.” chamber the air-holding area of the main tubes in a boat. Most boats have 4 chambers in the man tubes. chute clear channel between obstructions constriction an area where the riverbed narrows, usually resulting in standing waves. curler a high, steep wave that curls back onto its own upstream face; one form of a reversal downstream V a convergence of water flow between two obstacles resulting in a “V” of water pointing downstream draw, draw-stroke paddle stroke in which the paddle enters water to the side of the paddler and is drawn toward the side of the raft. It turns the raft without adding forward momentum dump-truck when the entire crew swims, but the guide remains eddy area where the current flows upstream to fill a void behind an obstruction or bend in the river. eddy fence or eddy line the boundary between an eddy and the downstream current entrapment refers to a person stuck in the river, usually by a limb wedged into rocks. ferry lateral movement of a craft across the current ferry angle an angle of the raft relative to the current. Also called simply “angle” 96 Basic Guide Training Manual Project Great Outdoors ©2012 flip when the raft turns over. flipline 8 to 20 feet of rope or webbing worn around the waist of a guide and secured by a locking carabiner. Can be used for flipping an overturned raft, but is more frequently used for other purposes: tying boats off or together, e.g. forward paddle stroke in which the paddle enters the water ahead of the paddler and is drawn toward the stern of the raft (moves the raft forward) forward sweep a guide stroke used to turn the boat to the non-paddle side. garbo paddle stroke in which the bow paddlers stretch over the bow and place their paddles in the water well ahead of the raft to pull through large waves/holes or to direct the front of the raft. Not particularly effective, but fun in big waves and holes. gradient slope of the riverbed; expressed in feet per mile guide-paddle or guide-stick a paddle with a longer blade and shaft than a standard paddle optionally used by some guides hard water water that is not aerated and/or is moving in a different direction than the boat. Putting the paddle into hard water feels like you’ve planted it in cement, and grabbing hard water when you don’t expect it can strain or even dislocate a shoulder haystack a large standing wave highside the act of moving to the “high” side of a raft in an effort to keep it from flipping or wrapping. hole type of reversal when water pours over a rock or a ledge creating a substantial backflow hoopie another name for tubular webbing. J stroke a forward paddle stroke with a small pry at the end. The paddle stroke suggests the letter “J” kayak a small plastic craft used to slow rafts. Also known as “speed bumps.” keeper a hole capable of stopping a raft or swimmer and keeping it there (see recirculate) lily-dipper(s) a non-energetic paddler lining working a raft through a rapid using lines from shore LVM a popular type of electric pump that connects to a car battery mechanical advantage using pulleys, carabiners or loops of rope to mechanically increase the force that can be exerted on a rope. NFPA National Fire Protective Association. The governing body that establishes Project Great Outdoors ©2012 Basic Guide Training Manual 97 rescue standards. Whenever appropriate, Project GO follows these standards to enable communication with professional rescue personnel. pillow whitewater that forms on the upstream side of a rock. pivot to turn a raft from its existing angle to another to miss an obstruction pourover a barely submerged obstacle, usually a rock, that water pours over prusik the knot used to attach loops of cord to a rope. Also the generic name for the loops themselves. recirculate to be caught in the water in a hole or hydraulic peep(s) a derogatory term for paddler. Also cod, custie, punter or Texan pod a term describing a discreet number of boats that travel the river together portage to carry all equipment around an unrunable rapid positive lock a term that refers to rigging an item in such a way that it can not escape. Usually this means putting a strap or carabiner through a loop on the object being rigged. probe as a noun, the first boat in a pod. As a verb, the act of running first. pry, prystroke paddle stroke in which the paddle enters the water close to the paddler and is pushed away from the raft punter a derogatory term for paddler. Also peep, custie, cod or Texan. reversal place where current swings back and breaks on itself reverse sweep guide stroke that turns the boat to the paddle side river left left side of the river as you face downstream river right right side of the river as you face downstream snag plate Plastic insert in throwbags used for capturing a line in the water. SRT Swiftwater Rescue Technician. The basic certification for professional rescue personnel stern the back of the raft stopper a reversal capable of stopping a raft strainer branches, logs, rocks, debris which water can pass through but people and rafts cannot. Considered very dangerous. surf to purposely or accidentally keep a boat in a hole or wave swamped full of water sweep the last boat in a pod is he sweep boat. Named after the puch brooms that follow a parade, cleaning up any mess. 98 Basic Guide Training Manual Project Great Outdoors ©2012 sweep kit the collection of rescue equipment that is carried on each trip, usually in the last, or “sweep” boat. swimmer - what you become when you fall out of a raft. table rock rock just under water surface on which you can “park” your boat. technical water a rapid or section of the river with many obstacles and critical, narrow channels tri-focal vision the constant act of changing ones field of vision from close to far in order to determine where the boat should go Texan a derogatory term for paddler. Also peep, custie, punter or cod. thwart the crosswise tubes in a raft. These are not seats. tongue the smooth V of fast water at the top of a rapid typewriter to surf across the front of a wave upstream V a splitting of water flow as a result of an obstacle. The V points upstream directly at the obstacle which is sometimes submerged. vector pull when a taught line between two attachment points is pulled at its center, great force is applied to both ends. May be useful in un-sticking a stuck raft. wrap to pin a raft flat around the upstream side of a rock. Z drag, Z rig, Z system mechanical advantage system using pulleys, static line and prusiks to tension a line or lift a load. Project Great Outdoors ©2012 Basic Guide Training Manual 99