importance of a proactive approach with a biological control strategy
Transcription
importance of a proactive approach with a biological control strategy
BioControl in the Greenhouse Sponsored by: 1:00 to 1:25 pm Eastern IMPORTANCE OF A PROACTIVE APPROACH WITH A BIOLOGICAL CONTROL STRATEGY Why is it important to be proactive with BCA strategies? Ronald Valentin Syngenta Flowers, Home and Garden [email protected] Ronald Valentin Technical Lead – Bioline Syngenta Flowers, Home and Garden ©2015 Syngenta: Classification: Public ©2015 Syngenta: Classification: Public Pro-active approach to maximize efficacy of BCAs: ● ● ● ● ● ● ● ● ● ● ● Life cycle of the target pest problems? Where does BCA affect the target pest? Eggs, larva, pupa and adults Threshold ornamentals vs. vegetable production Starting ‘clean’ Role of cutting production / propagation Residues (on plant material and greenhouse) Inspection young plants upon arrival Communication (the good and the bad) BCAs is a systems approach An example on Thrips control….. Thrips Biological control is preventing problems, not fixing them! 3 ©2015 Syngenta: Classification: Public ©2015 Syngenta: Classification: Public Some back ground info on Thrips Æ Thrips damage: TSWV TSWV on peppers Echinothrips 5 ©2015 Syngenta: Classification: Public ● Small insects 2-3 mm ● Frankliniella occidentalis Æ brown-black colour, 8 segment antennae ● Other common thrips species: - Thrips tabaci Æ brown-black colour, 7 segment antennae - Echinothrips americanus Æ black with white stripe, white larvae, all stages on plant - Scirtothrips dorsalis Æapprox. 1/3 of the size of WFT T ● Where on the plant? ● Life cycle ● Damage done by larvae and adults - Flowers - Leaves - Virus transmission (TSWV/ INSV) 6 ©2015 Syngenta: Classification: Public Development of thrips in 60 days (at 68°F) Development of thrips in 60 days (at 68°F) 30 days 30 days 30 days 30 days One female thrips One female thrips ± 90 thrips ± 90 thrips ± 5800 thrips ± 5800 thrips Start here = Success Too late = Disappointment 7 8 ©2015 Syngenta: Classification: Public Thrips life cycle and BCA target! Larva L Egg (In leaf tissue) 1&2 (on plant Æ exposed) 68 F 6 days 3 9 Thrips life cycle and BCA target! Pupa (in soil) 3 + 3 days 6 days Adult up to 60 days 1&2 3 Pupa 1&2 (in soil) 6 days 3 days 3 + 3 days 1.5 + 1.5 days 6 days 3 days ©2015 Syngenta: Classification: Public (on plant Æ exposed) up to 60 days 20 - 40 days ©2015 Syngenta: Classification: Public Thrips life cycle and BCA target! Pupa (in soil) 3 + 3 days 1.5 .5 + 1.5 days 6 days 3 days Adult Larva L Egg (on plant Æ exposed) (In cell tissue) 1&2 (on pl plant Æ exposed) ex up to 60 days 20 - 40 days 68°F 86°F 6 days 3 days 3 Amblyseius spp (L1 only) 3 + 3 days 1.5 .5 + 1.5 days Pupa (in n soil) 6 days d da 3 days da Amblyseius spp Orius insidiosus Orius insidiosus Hypoaspis miles Steinernema feltiea S. feltiea Atheta coriaria (side effect) 11 Adult 3 10 Larva L 6 days 3 days 68°F 86°F 4 (on pl plant Æ exposed) ex 68°F 86°F (In cell tissue) (on plant Æ exposed) Thrips life cycle and BCA target! (In cell tissue) Larva L Egg (on plant Æ exposed) ©2015 Syngenta: Classification: Public Egg ©2015 Syngenta: Classification: Public 12 ©2015 Syngenta: Classification: Public Adult (on plant Æ exposed) up to 60 days 20 - 40 days Thrips life cycle and BCA target! Thrips life cycle and BCA target! Larva L Egg (In cell tissue) Pupa 1&2 68°F 86°F 6 days 3 days 3 3 + 3 days 1.5 .5 + 1.5 days 6 days d da days 3 da up to to 60 days 40 days 20 - 4 6 days 3 days 3 Amblyseius spp (on plant Æ exposed) (in n soil) (on pl plant Æ exposed) ex 68°F 86°F Adult Pupa 1&2 (In cell tissue) (on plant Æ exposed) (in n soil) (on pl plant Æ exposed) ex Larva L Egg Adult 3 + 3 days 1.5 .5 + 1.5 days 6 days d da 3 days da up to to 60 days 20 - 40 4 days Amblyseius spp Orius insidiosus Orius insidiosus Orius insidiosus Stratiolaelaps scimitus S. feltiea S. feltiea (Hypoaspis miles) Orius insidiosus Hypoaspis miles S. feltiea Atheta coriaria Dalotia coriaria (side effect) (Atheta coriaria) S. feltiea ● Fecundity in vegetative stage vs when pollen is available ● Fecundity in different crops 13 14 ©2015 Syngenta: Classification: Public What about Thrips and vectoring virus? ©2015 Syngenta: Classification: Public Bioline portfolio against thrips Swirskiline as Amblyline cu In the plant tissue EggOn Adult Oviposition TSWV 1st instar tar the plant Moulting Eclosion Amblyseius swirskii Amblyseius cucumeris 2nd instar Oriline i Exhibitline sf Acquires TSWV Transmits TSWV Steinernema feltiae Orius insidiosus Emergence Pupa Moulting Pre-pupa a Under the ground Hypoline m Moulting Stratiolaelaps scimitus (Hypoaspis miles) Staphyline Dalotia coriaria (Atheta coriaria) Thripline ams Thrips pheromone After Kawai, 1989 for Thrips palmi 15 16 ©2015 Syngenta: Classification: Public Amblyline cu – Amblyseius cucumeris Amblyline cu • Predatory mite Amblyseius cucumeris • Eats L1 larvae of thrips • Can be used in wide range of crops • Active from 12-15°C Amblyseius cucumeris • No diapause Æ active at low light levels • Strong side effect on tarsonemid mites ©2015 Syngenta: Classification: Public Breeding sachets ● What’s in a sachet - Bran - Prey mites - Food for the prey mites - Predatory mites - Culture • Can establish and sustain in some crops where pollen is available (peppers) • Available as breeding system (sachets, Bugline) and loose material 17 ©2015 Syngenta: Classification: Public Amblyline - mini 18 ©2015 Syngenta: Classification: Public Swirskiline as – Amblyseius swirskii Swirskiline as Oriline i – Orius insidiosus • Predatory mite Amblyseius swirskii Oriline i • Eats L1 larvae of thrips, whitefly eggs and pollen • Can kill up to 80 adult thrips per day • Can be used in wide range of crops • Can feed and establish on pollen • Active from 18-20°C, but prefers warmer Amblyseius swirskii • Predatory bug Orius insidiosus • Eats larvae and adults of thrips Orius insidiosus • Sensitive for low light levels and low temperatures (< 18°C) • To enhance establishment, can be fed with Bugfood (Ephestia eggs) • Curative treatment in hotspots (nymphs) • Strong side effect on tarsonemid mites • Active from 12-15°C • Available as breeding system (sachets, Bugline) and loose material • Diapause sensitive Æ less active at low light levels • Best benefit: activity at higher temperatures and crops where both thrips and whitefly are present • Also feeds on other small pest, e.g. TSSM, moth eggs • Available in a carrier • Best benefit: in crops with pollen • Also used with banker plants (purple flash pepper) 20 ©2015 Syngenta: Classification: Public Oriline i – Orius insidiosus 21 ©2015 Syngenta: Classification: Public Exhibitline sf – Steinernema feltiae Exhibitline sf • Insect pathogenic nematodes Steinernema feltiae • Penetrates thrips and releases bacteria • Active from 14-28°C Steinernema feltiae • Temperatures above 30 °C are harmful • Steinernema spp. also used for sciarids, vineweevil, cutworms, etc • Available as sealed trays • Often used as dip application or overhead in propagation • Contact is critical for best results Orius insidiosus 22 ©2015 Syngenta: Classification: Public 23 ©2015 Syngenta: Classification: Public BioControl in the Greenhouse Pro-active approach to maximize efficacy of BCAs - take home messages: ● Make a plan that fits your operation/crop ● Start as early as possible, even before the crop has started Æ Planning ● Pro- active approach Æ insurance = success rate ● Understand life cycle of both pest and BCA ● Systems approach Æ don’t let your efforts on one pest be torpedoed by another ● Communicate Æ with young plant material suppliers ● Communicate Æ with specialists and other growers who have made the switch before you ● Communicate with producer/supplier of BCAs ● Consider banker plants as part of your strategy Coming Up Next: 1:30 to 1:55 Eastern Grower Experience with Banker Plants for Aphid Control Rich Densel Biological control is preventing problems, not fixing them! 24 ©2015 Syngenta: Classification: Public Time ©2015 Syngenta: Classification: Public Topic 2:00 to 2:25 Pesticides- Are They Ever Compatible with a Biocontrol Program? 2:30 to 2:55 The Fundamentals of Biocontrol of Fungal and Bacterial Diseases