docOVERVIEW OF QUEEN CONCH aquaculture
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OVERVIEW OF QUEEN CONCH aquaculture
OVERVIEW OF QUEEN CONCH aquaculture in the Caribbean sea CINVESTAV-IPN Unidad Mérida Dalila Aldana Aranda Victoria Patiño Suárez Laboratorio de Biología y Cultivo de Moluscos [email protected] Aqua_06 1 Grants: Conacyt and French Embassy www.mda.cinvestav.mx Strombus species 6 Gastropods of the genus Strombus along the Caribbean: • S. gigas • S. costatus • S. raninus http://www.jaxshells.org/hawk.htm • S. gallus • S. pugilis • S. alatus http://www.seashells.org/seashells/fightingconch.htm Aqua_06 2 Queen Conch, Strombus gigas • S. gigas has a large pinkish shell, reaching a length of 30 cm and weighing of 2 kg • S. gigas lives in warm shallow waters in grass beds and nearreef habitats of the Caribbean Sea • It is a herbivorous, with internal fecundation and indirect development Aqua_06 3 Strombus gigas Distribution • S. gigas lives from Brazil and Venezuela in the south up to Florida and to the Bahamas in the north, including all the minor and large Antillan islands • 36 Countries and territories Aqua_06 4 Strombus gigas Importance Strombus gigas, has been the main source of food for the inhabitants of Caribbean coast and islands “This species represents one of the most valuable demersal resource in the region, exceeded only by the spiny lobster” Aqua_06 5 9000000 8000000 6000000 kg 3000000 2000000 1000000 0 Jamaica Homduras Turk y Caicos Rep. Dom. Bahamas Colombia Belice Haití Nicaragua Antillas N. Antillas F. Cuba San V.y Gran. Sta. Lucía Trin. y Tob. Venz. C. R. Dominca S. Kitts y Nevis Bermudas Brasil I. Vírgenes Us Granada Caribe Otros S. gigas meat exportations Percentage of total global trade (CITES 1992-2001) S. gigas Meat (CITES 2003) 40% 7000000 27% 5000000 4000000 10% 7% 4% Aqua_06 =98% <1% 1% 6 Landings of Queen conch from different countries in the Caribbean are exported mainly to USA and to French West Indies 78 % , rks a c u ai , T , m s s Ja ura ico as, n d Ca m ai on & ha nic ic, d H l n a B mi ub e a o D ep bi ce R om li ol Be C US: Puerto Rico , Florida and Virgin islands 19 % MARKET CARIBBEAN 3 % France: Guadeloupe and Martinique Over exploitation Aqua_06 7 Queen conch market • Conch meat is served in a wide variety of dishes, including conch steaks, conch fritters, salads and soup • Nowadays, conch meat is no longer considered an inexpensive dish as it may was some decades ago, and it is now consumed predominately as a specialty food (Mulliken, 1996). Aqua_06 8 Queen conch market • Conch prices meat at local markets vary between 3 to 8 USD/kg • However, prices can be considerably higher, e. g. in West French Indies, prices range between 11 USD/kg for locally harvested meat and up to 20 USD / kg for imported meat (Mr Gourbeyre, DIREN of Martinique, June 2001). Aqua_06 9 Domestic trade in Queen Conch shells • Queen Conch shells are valued for their bright colors and have been used for decorative purposes and to manufacture jewelry • The shells can provide additional income to the fishers, especially when they have been polished, painted or manufactured into lamps or other objects (Wood, 1995). Aqua_06 10 Queen conch market Prices for shells can vary between USD 5-15 and more, depending on their size and handcraft process Eco-tourism In some countries, tourist tour (e.g. Cayman Islands) include the collection of Queen Conch, their consumption and end of the trip the shells are given to the tourists (Department of Environment of the Aqua_06 Cayman Island, in litt., June 2001). 11 S. gigas landings in the Caribbean 1992 7 000 mt 1998 7 369 1999 5 554 2000 4 598 2001 3 000 Aqua_06 12 International management measures for the conservation of S. gigas in the Caribbean Since 1992: Queen conch was included in under CITES Appendix II (Convention on International Trade of Endangered Species ) Alex Tewfik Since 1994: Queen conch was included in the red list International Convention for Nature conservation of Since 2002 S. gigas was included in Annex II of SPAW (Specially Protected Areas and Wildlife in the Wider Caribbean region) Aqua_06 13 Aquaculture production of S. gigas High demand fishing pressure overfished stocks of S. gigas Culture of Strombus gigas Aqua_06 14 Aquaculture production Commercial conch aquaculture • Caicos Conch Farm Established in 1984 Site: Turks and Caicos Islands Inventory: 3 million queen conch Production: 1.5 million conch per year Each week, the farm prepares 1000 kg of live product to be shipped to "white table restaurant" markets in Florida Goal: the farm hopes to begin a program to release hatcheryproduced juveniles to the wild to augment dwindling local Aqua_06 15 populations Aquaculture production Commercial conch culture: • Harbor Branch Oceanographic Institution HBOI is established in 1999 at Key West, Florida HBOI includes a mini-conch farm demonstrating strategies for raising the animal from egg to adult and a museum about Conch from Keys in Florida. Dishes are prepared using farmed-raised conch Aqua_06 16 Aquaculture production Commercial conch culture: • Oceans, Reefs and Aquariums (ORA) ORA is the largest producer and seller of marine ornamentals in the world ORA sells: Fighting conch (S. alatus) of 2-3 cm Queen conch (S. gigas) of 1-3 cm 2 USD/conch Juveniles of conch under 7-8 cm have a low survival rate in the yield Aqua_06 17 Aquaculture production Experimental conch aquaculture: • Larvae CINVESTAV-IPN • Juveniles • Mexico CRIP-Puerto Morelos • Colombia CEINER Islas del Rosario Aqua_06 • Juveniles • Larvae 18 Aquaculture experimental production •Laboratory of biology aquaculture of mollusks CINVESTAV IPN works nutrition of larvae juveniles and reproduction and of on and Since 2002 CINVESTAV-IPN works with Archipels of Sciences from West French Indies and Xel-Há Park in an education program for the conservation of S. gigas in the Caribbean region Aqua_06 19 Strombus gigas: Studies ASFA review from 1996 to 2006 : 137 scientifc papers Keys words: Aquaculture and S. gigas Studies 2% 19% 52% 13% 14% Fisheries Biology Ecology Aqua_06 Culture Education 20 Strombus gigas: Fisheries 9 8 7 6 5 4 3 2 1 0 M arketing M anagement Larval Drift 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 No. papares Fisheries Population structure Institutions French West Indies 1 IRD 2 IFREMER Barbados 3 FAO Belgic 4 CITES Canada 5 Univ. Of British Colombia Colombia 6 INPA Costa Rica 7 SAP Cuba 8 WWF 9 CIP Jamaica 10 Gov. Jamaica Nicaragua 11 Unv. West Indies 12 CIPA 13 HBOI 14 Florida Marine Research Institute 15 Caribbean Marine research Center 16 Florida Institute of Technology 17 Florida Key National Marine Sanctuary 18 Univ. Miami 19 National Marine Fisheries Service USA 20 Everglades National Park 21 Southeast Fisheries Science Center 22 Northeast Fisheries Science Center 23 Northern Kentuchy Univ. Highland Heights Aqua_06 24 Smithsonian Tropical Research Institute 25 Univ. Mayagüez UK British Virgin Island 26 Univ. Portsmouth 27 Ministry and Natural Resources and Labour Mexico 28 CINVESTAV-IPN The Netherlands 29 CRIP-Yucalpeten 30 ECOSUR-Chetumal Turk and 31 Wageningen Univ. Caicos Venezuela 32 Dep. of Environment and Coastal Resource 33 Center of Marine Resource Studies 34 CIAP del Edo. 21 35 Universidad Simon Bolivar Strombus gigas: Fisheries • 16 Countries and 35 Institutions have been working on S. gigas fisheries The most studied • 30% Population dynamics • 14% Management • 7% Larval Drift • 1% Marketing • Despite the management strategies, which are based on the commercial catch there are few or no signs of recovery (Berg y Glazer, 1995; Stoner y Ray, 1996; Stoner et al., 1996; Stoner et al., 1996b). Aqua_06 22 Strombus gigas: Biology • 14% of the papers are focus on the biology of S. gigas: Aqua_06 23 Strombus gigas: Biology No. papers Biology 10 8 6 4 2 0 AnatomyMorphology Reproduction Genetic 1 2 3 4 5 6 7 Biochemestry Institutions 1 HBOI 2 William Paterson Collage of New Jersey 3 Florida Institute of Technology 4 Florida Marine Research Institute 5 Case Westwern Reserve Univ. 6 CINVESTAV-IPN Mérida, Mexico 7 Instituto Tecnológico de Mérida USA Few papers are related on reproduction Mexico • 19 papers were published during 1996-2006 Aqua_06 24 • 7 institutions from 2 countries have been researching on development, reproduction, genetic and biochemistry Strombus gigas: Biology Reproduction knowledge is also necessary for the development of S. gigas aquaculture Frecuency Frecuency 100 80 80 60 60 40 40 20 20 0 EneFeb Mar Abr MayJun Ago Sep Oct Nov Dic 0 EneFeb Mar Abr May Jun AgoSep Oct Nov Dic months SpawnRipe months Gametogen indiferentiated . Spawn Ripe México_Chinchorro México_Alacranes 100 100 80 80 60 60 40 40 20 20 0 Mar Gametog. indiferentiated Frecuency gigas Belice 100 Frecuency The lack of biological information, mainly reproduction hamper development a management strategy for recovering S. Colombia Abr May Jun Jul Sep Oct Nov Months Spawn Ripe Gametogen. indiferentiated Aqua_06 0 Jun Jul Ago Sep Months Spawn Ripe Gametogen indiferentiated . 25 Strombus gigas: Ecology 13% of papers are focus on ecology of S. gigas • 4 countries and 9 institutions have been researching on ecology No. papers Ecology 8 6 4 2 0 Habitat 1 2 3 4 5 6 7 8 9 Institutions 1 HBOI 2 Northeast Fisheries Science Center 3 Florida Marine Research Institute 4 Univ. of Delawere 5 Alaska Fisheries Science Center 6 CINVESTAV-IPN USA 11 papers Aqua_06 Mexico, 1 paper Turk and 7 School for field studies Caicos, 3 8 Center for Marine Resource papers 9 Univ. Simón Bolivar Venezuela, 1 paper 26 Strombus gigas: Education-Conservation • 2% of the papers refers to Education in order to conservate this resource. Country Institution EducationConservation USA HBOI 2004 Mexico CINVESTAV-IPN 2005 French West Indies University des Antilles et de la Guyane 2004 Papers 3 Aqua_06 27 Strombus gigas: Aquaculture • 19% of the papers are focus on conch aqcuaculture: HBOI HBOI Aqua_06 28 Strombus gigas: Culture Country Institution Culture Larvae Nutrition USA HBOI Development Metamorphosis Ecophisiology 2001 Technique 2002 2004 2003 University of Miami 1997 University of Delaware 1996 1998 Virginia Institute Marine Science 1996 2005 2004 (2) 1998 (2) 1997 2005 2004 (2) 2003 2001 CRIP-Puerto Morelos 2004 Caicos Conch Farm Papers Reprod. 2005 2004 (2) University of South Alabama Turk y Caicos Technique 1997 Florida Institute of Technology CINVESTAV-IPN Adults 2001 Florida Marine Research Institute Mexico Juveniles 2003 7 4 3 Effect of algaeAqua_06 diets: 2 • • • • 4 5 1 Growth, Developtment 29 Metamorphosis Ingestion and Digestion process Algal food fed S. gigas larvae Specie % Isochrysis (Tahiti) Isochrysis (Caicos) Tetraselmis chuii Chaetoceros gracilis Nitzchia sp Skeletonema costatus Chaetoceros sp Thalassiosira fluviatilis Dunaliella tertiolecta Tetraselmis suecica Nanochloris Aqua_06 41 24 21 21 18 18 18 15 15 12 6 30 Algal food concentration Microalgae Concentration 103 cells.ml-1 Isochrysis (Caicos) Chaetoceros gracilis Nanochloris Isochrysis (Tahiti) Tetraselmis chuii Thalassiosira fluviatilis Dunaliella tertiolecta Nitzchia sp Skeletonema costatus Chaetoceros sp Tetraselmis suecica Aqua_06 0.005 0.005 1 0.1 0.1 0.138 1 5 5 5 0.120 - 20 20 30 250 250 250 250 100 100 100 1700 31 Algal food concentration Microalgae Concentration 103 cells.ml-1 Tetraselmis sp T. chuii + Isochrysis Thalassiosira weissflogii Platymonas tetraselmis Prorocentrum minimum Emillania huxleyi Heterocapsa pygmacea Isochrysis sp Platymonas sp Monochrysis sp Rhodomonas sp Aqua_06 --0.4 - 3.2 --20 ------10 000 10 000 10 000 10 000 32 Algal food fed S. gigas larvae Isochrysis Tahiti) ( Culture conditions Density -1 larvae•l Algal concentration Results T°C 10 cells•ml -1•day-1 3 C ML µm•d-1 mm 8-10 1-30 0.1-10 26 ± 1 23-31 13-93 - 1.2 2 - 25 60 100 100 200 275 200-300 250-350 500-670 0.12 0.4-3.2 0.14-11 0.1-1.5 7-40 27 29 ± 1 28 29 ± 1 28-32 29 28-30 5-13 50 53 40 24-37 24 1.3 0.73 0.9* 1.8 1 0.8 1.9 0.93 M days S % 83-96 20-25 19-30 massive mortality 27 ± 2 21-52 14 12-22 25-82 15-20 14-35 not 59 ± 9 Source Pillsbury, 1985 Siddall, 1983 Corral &Ogawa, 1985 Boidron-Metairon, 1992 Domíngez, 1993 Ballantine, 1981 Ballantine & Appeldoorn, 1983 Aldana & Torrentera, 1987 García & Aldana, 1994 Baqueiro, 1994 Davis & Hesse, 1983 Heymanet al.,1989 reached 38-3 100 3 500 100 - 250 - 28 ± 1 27 ± 1 - 1.9 1.9* 28 33* Aqua_06 Siddall, 1981 massive Hensen, 1983 mortality 33 Algal food fed S. gigas larvae Chaetoceros gracilis Culture conditions Density -1 Larvae•l Results Algal Source concentrations -1 10 cells•ml -1•days T°C C µm•d-1 20 - - - - 18-21 - 20-30 8.5-15 - - 1.1 21-40 60 Ray yDavis, 1989 30 ± 10 - - - 1.2 21 ± 2 - Daviset al., 1990 20-60 20 - - 1.2 21 - Davis, 1994b 100-150 - 25-31 - 1.1 21-40 - Daviset al., 1987 100-200 - 28-30 1.3 18-23 - Davis, 1994a 100-200 0.005-0.007 27-30 1.2 21 - Daviset al., 1993 3 39 ML mm M days S % Aqua_06 Davis y Stoner, 1994 34 Conclusion From 20 different algae diets: Isochrysis Tetraselmis Best results Growth (40-53 µm●day-1) Time to reach metamorphosis Aqua_06 (14-22 days) 35 Strombus gigas: Culture Country Institution Culture Larvae Nutrition USA HBOI Development Metamorphosis Ecophisiology 2001 Technique 2002 2004 2003 University of Miami 1997 University of Delaware 1996 1998 Virginia Institute Marine Science 1996 2005 2004 (2) 1998 (2) 1997 2005 2004 (2) 2003 2001 CRIP-Puerto Morelos 2004 Caicos Conch Farm Papers Reprod. 2005 2004 (2) University of South Alabama Turk y Caicos Technique 1997 Florida Institute of Technology CINVESTAV-IPN Adults 2001 Florida Marine Research Institute Mexico Juveniles 2003 7 4 3 2 4 Growth and development description Aqua_06 according to the reproductive season 5 1 36 settlement Months Days % March 29 97 ** April 29 92 ** May 29 99 * June 27 100 * July 27 100 * August 27 97 ** 29 95 ** Sept Aqua_06 * No Differences ** significant differences 37 (P = 0.001) Strombus gigas: Culture Country Institution Culture Larvae Nutrition USA HBOI Development Metamorphosis Ecophisiology 2001 Technique 2002 2004 2003 University of Miami 1997 University of Delaware 1996 1998 Virginia Institute Marine Science 1996 2005 2004 (2) 1998 (2) 1997 2005 2004 (2) 2003 2001 CRIP-Puerto Morelos 2004 Caicos Conch Farm Papers Reprod. 2005 2004 (2) University of South Alabama Turk y Caicos Technique 1997 Florida Institute of Technology CINVESTAV-IPN Adults 2001 Florida Marine Research Institute Mexico Juveniles 2003 7 4 3 2 4 InducersAqua_06 of metamorphosis: 5 1 • Hydrogen Peroxide 38 • Laurencia extract Country Institution Strombus gigas: Culture Culture Larvae Nutrition USA HBOI Development Metamorphosis Ecophisiology 2001 Technique 2002 2004 2003 University of Miami 1997 University of Delaware 1996 1998 Virginia Institute Marine Science 1996 2005 2004 (2) 1998 (2) 1997 2005 2004 (2) 2003 2001 CRIP-Puerto Morelos 2004 Caicos Conch Farm Papers Reprod. 2005 2004 (2) University of South Alabama Turk y Caicos Technique 1997 Florida Institute of Technology CINVESTAV-IPN Adults 2001 Florida Marine Research Institute Mexico Juveniles 2003 7 4 3 2 4 Aqua_06of temperature Effect 5 1 • Growth, • Development 39 • Metamorphosis Strombus gigas: Culture T°C 24-27 24-30 24-30 28 ± 1 TC µm•d-1 - M days 60 28-33 27-35 28 S % - 27 ± 1 - - mortalidad Hensen (1983) 29 26-30 23-31 - 14-35 18-21 19-30 mortalidad Davis y Hesse (1983) Laughlin y Weil (1983) Corral y Ogawa (1985) 26 ± 1 27-29 28 25-31 28-30 27 27-30 29 ± 1 28 28-32 29 ± 1 28-30 13-93 40 24 39 5-13 24-37 21-40 No alcanzada 27 ± 2 21 18-23 83-96 59 ± 9 21-52 15-20 25-82 - 26-29 18-30 Authors Range: 23-31ºC D’Asaro (1965) Brownell (1977) Brownell et al. (1977) Siddall (1981) - Pillsbury (1985) Buitrago (1985) Aldana-Aranda y Torrentera (1987) Davis et al. (1987) Heyman et al. (1989) Boidron-Metairon (1992) Davis et al. (1993) Domíngez (1993) Aldana Aranda et al. (1994) Baqueiro (1994) García y Aldana-Aranda (1994) Davis (1994a) Weil y Laughlin (1994) Aqua_06 28ºC ± 1ºC is the best temperature for larvae rearing of Strombus gigas40 Strombus gigas: Culture Country Institution Culture Larvae Nutrition USA HBOI Development Metamorphosis Ecophisiology 2001 Technique 2002 2004 2003 University of Miami 1997 University of Delaware 1996 1998 Virginia Institute Marine Science 1996 2005 2004 (2) 1998 (2) 1997 2005 2004 (2) 2003 2001 CRIP-Puerto Morelos 2004 Caicos Conch Farm Papers Reprod. 2005 2004 (2) University of South Alabama Turk y Caicos Technique 1997 Florida Institute of Technology CINVESTAV-IPN Adults 2001 Florida Marine Research Institute Mexico Juveniles 2003 7 4 3 2 Aqua_06 Description 4 5 1 of culture techniques 41 to grow S. gigas from egg to juvenile Country Institution Strombus gigas: Culture Culture Larvae Nutrition USA HBOI Development Metamorphosis Ecophisiology 2001 Technique 2002 2004 2003 University of Miami 1997 University of Delaware 1996 1998 Virginia Institute Marine Science 1996 2005 2004 (2) 1998 (2) 1997 2005 2004 (2) 2003 2001 CRIP-Puerto Morelos 2004 Caicos Conch Farm Papers Reprod. 2005 2004 (2) University of South Alabama Turk y Caicos Technique 1997 Florida Institute of Technology CINVESTAV-IPN Adults 2001 Florida Marine Research Institute Mexico Juveniles 2003 7 4 3 2 • S. gigas • S. raninus Aqua_06 • S. alatus • S. costatus 4 5 1 Captive breeding program 42 Strombus gigas: Aquaculture 26 papers were realized during 1996-2006 on conch aquaculture by 10 institutions from 3 countries Culture 12 A. Reproduction No. papers 10 8 J. Technique 6 L. Technique 4 L. Metamorphosis 2 L. Ecophisiology 0 L. Morphology 1 2 3 4 5 6 7 8 9 10 L. Nutrition Institutions 1 HBOI 2 Florida Marine Research Institute 3 Florida Institute of Technology 4 Univ. of South Alabama 5 Univ. of Miami 6 Univ. of Delawere 7 Virginia Institute Marine Science USA Aqua_06 8 CINVESTAV-IPN 9 CRIPT-Pto. Morelos 10 Caicos Conch Farm Mexico Turk and Caicos 43 Life cycle of Strombus gigas ••Life cycle of S. gigas does not close to culture this species •Commercial or experimental queen conch aquaculture depends of yield eggs masses collected during reproductive period •Survival rate for juveniles released is low. Knowledge about essential habitats to Aqua_06 44 raise the juveniles is required Strombus gigas: Culture Optimum requeriments Knoweldge Egg masses Laid in captive Viability Reliable production Larvae Nutrition Ecophysiology Metamorphosis Settlement ☺ Life cycle stages (Post Larvae) Juveniles Adults Artificial diet formulation Phyisiology Essential habitat to ranch Captive reproduction Artificial diet formulation to to enhance gonadal maturity Aqua_06 Knowledge for queen conch aquaculture has a 45 Strombus gigas: Aquaculture • Bottle neck Closing the life cycle Broodstock conditioning Captive reproduction Captive spawning Formulation of artificial diets to grow out juvenile Essential habitat for releasing hatcheryproduced juvenile to Aqua_06 the wild 46
