Register      Login
Marine and Freshwater Research Marine and Freshwater Research Society
Advances in the aquatic sciences
Shopping Cart: ( empty )
You are here: Home > Journals > MF > MF08155
RESEARCH ARTICLE
Contents Vol 60(1)

Evaluation of hatchery-based enhancement of the mud crab, Scylla spp., fisheries in mangroves: comparison of species and release strategies

Ma. Junemie Hazel L. Lebata A C , Lewis Le Vay B , Mark E. Walton B , Joseph B. Biñas A , Emilia T. Quinitio A , Eduard M. Rodriguez A and Jurgenne H. Primavera A
+ Author Affiliations
- Author Affiliations

A Aquaculture Department, Southeast Asian Fisheries Development Center, Tigbauan, Iloilo 5021, Philippines.

B School of Ocean Sciences, College of Natural Sciences, Bangor University, Menai Bridge, Anglesey, Wales LL59 5AB, United Kingdom.

C Corresponding author. Email: jlebata@seafdec.org.ph

Marine and Freshwater Research 60(1) 58-69 https://doi.org/10.1071/MF08155
Submitted: 16 May 2008  Accepted: 12 September 2008   Published: 29 January 2009

Abstract

Ranching, stock enhancement and restocking are management approaches involving the release of wild or hatchery-bred organisms to enhance, conserve or restore fisheries. The present study, conducted from April 2002 to November 2005, evaluated the effectiveness of releasing wild and hatchery-reared (HR) mud crabs in the mangroves of Ibajay, Aklan, Philippines where preliminary studies demonstrated declining fishery yields, abundance and size of crabs. Comparison of survival and growth of wild-released and HR Scylla olivacea and HR Scylla serrata demonstrated the effect of nursery conditioning, size-at-release and species differences. Overall yield and catch per unit effort (CPUE) increased by 46% after stock enhancement trials. Recapture rates of released crabs were highest in wild-released S. olivacea and in crabs measuring 65.0–69.9 mm carapace width (CW) and lowest in non-conditioned HR S. serrata. Growth rates were highest for conditioned HR S. olivacea and lowest for conditioned HR S. serrata (11.7 and 3.7 mm month–1 respectively). Fishing mortality was highest for S. olivacea, whereas natural mortality was greater for S. serrata. Conditioning hatchery-bred animals before release is also important in obtaining higher survival. S. olivacea was the more appropriate of the two species for release in mangrove habitats inundated with low-salinity water. However, there is a need for site-specific studies to evaluate the effectiveness of releases.


Acknowledgements

This research was supported by the European Commission, INCO DC grant (contract ECA4-CT-2001-10022). The authors would also like to express their thanks to the SEAFDEC/AQD Mud Crab Hatchery and Nursery Team for providing the hatchery-reared crabs, the crab fishers of Ibajay and Kalibo, Aklan for painstakingly collecting crabs regardless of time and weather and for the assistance during tagging and dissection of tags from recaptured crabs, the Barangay Captains of Naisud and Bugtong Bato, Ibajay and New Buswang, Kalibo for permission to conduct the study in their mangroves, and lastly to the anonymous referees of the initial version of this manuscript for their helpful comments and suggestions.


References

Angell C. A. (1992). Summary of the proceedings of the seminar on mud crab culture and trade. In ‘Seminar on Mud Crab Culture and Trade, Bay of Bengal Program’. (Ed. C. A. Angell.) pp. 1–2. (BOBP: Madras.)

Bell, J. D. , and Gervis, M. (1999). New species for coastal aquaculture in the tropical Pacific – constraints, prospects and considerations. Aquaculture International 7, 207–223.
Crossref | GoogleScholarGoogle Scholar | Bell J., and Nash W. (2004). When should restocking and stock enhancement be used to manage sea cucumber fisheries? In ‘Advances in Sea Cucumber Aquaculture and Management, FAO Fisheries Technical Paper No. 463’. (Eds A. Lovatelli, C. Conand, S. Purcell, S. Uthicke, J. F. Hamel and A. Mercier.) pp. 173–179. (FAO of the United Nations: Rome.)

Bell J. D., Rothlisberg P. C., Munro J. L., Loneragan N. R., Nash W. J., et al. (Eds) (2005). ‘Restocking and Stock Enhancement of Marine Invertebrate Fisheries.’ Advances in Marine Biology. (Elsevier Academic Press: San Diego, CA.)

Blankenship, H. L. , and Leber, K. M. (1995). A responsible approach to marine stock enhancement. American Fisheries Society Symposium 15, 167–175.
Fortes R. D. (1999a). Mud crab research and development in the Philippines: an overview. In ‘Mud Crab Aquaculture and Biology’. (Eds C. P. Keenan and A. Blackshaw.) pp. 27–32. (Australian Centre for International Agriculture Research: Darwin.)

Fortes R. D. (1999b). Preliminary results of the rearing of mud crab Scylla olivacea in brackishwater earthen ponds. In ‘Mud Crab Aquaculture and Biology’. (Eds C. P. Keenan and A. Blackshaw.) pp. 72–75. (Australian Centre for International Agriculture Research: Darwin.)

Fushimi, H. , and Watanabe, S. (1999). Problems in species identification of the mud crab genus Scylla (Brachyura : Portunidae). UJNR Technical Report 28, 9–13.
Gulland J. A. (1983). ‘Fish Stock Assessment: A Manual of Basic Methods.’ (FAO of the United Nations: Rome.)

Hill, B. J. (1974). Salinity and temperature tolerance of zoea of the portunid crab Scylla serrata. Marine Biology (Berlin) 25, 21–24.
Crossref | GoogleScholarGoogle Scholar | King M. (1995). ‘Fisheries Biology, Assessment and Management.’ (Fishing News Books: Oxford.)

Kosuge, T. (2001). Brief assessment of stock of mud crabs Scylla spp. in Matang Mangrove Forest, Malaysia and proposal for resources management. Japan Agricultural Research Quarterly 35, 145–148.
Langdown M. J. (2005). Distribution and zonation of Scylla spp. mud crabs (Crustacea: Decapoda) in mangrove habitats, Ibajay, Island of Panay, the Philippines. MSc Thesis, University of Wales, Bangor.

Le Vay, L. (2001). Ecology and management of mud crabs, Scylla spp. Asian Fisheries Science 14, 101–111.
Lebata M. J. H. L. (2006). Stock enhancement of the mud crabs Scylla spp. in the mangroves of Naisud and Bugtong Bato, Ibajay, Aklan, Philippines. Ph.D. Thesis, University of Wales, Bangor.

Lebata, M. J. H. L. , Le Vay, L. , Primavera, J. H. , Walton, M. E. , and Binas, J. B. (2007). Baseline assessment of fisheries for three species of mud crabs (Scylla spp.) in the mangroves of Ibajay, Aklan, Philippines. Bulletin of Marine Science 80, 891–904.
Okamoto K. (2004). Juvenile release and market size recapture of the swimming crab Portunus trituberculatus (Miers) marked with coded wire tags. In ‘Stock Enhancement and Sea Ranching: Developments, Pitfalls and Opportunities’. (Eds K. M. Leber, S. Kitada, H. L. Blankenship and T. Svasand.) pp. 181–186. (Blackwell Publishing Ltd.: Oxford.)

Overton, J. L. , Macintosh, D. J. , and Thorpe, R. S. (1997). Multivariate analysis of the mud crab Scylla serrata (Brachyura: Portunidae) from four locations in Southeast Asia. Marine Biology (Berlin) 128, 55–62.
Crossref | GoogleScholarGoogle Scholar | Poovichiranon S. (1992). Biological studies of the mud crab Scylla serrata (Forskal) of the mangrove ecosystem in the Andaman Sea. In ‘Seminar on Mud Crab Culture and Trade, Bay of Bengal Program’. (Ed. C. A. Angell.) pp. 49–59. (BOBP: Madras.)

Quinitio E. T., and Parado-Estepa F. D. (2003). ‘Biology and Hatchery of Mud Crabs Scylla spp.’ (SEAFDEC Aquaculture Department: Iloilo.)

Quinitio, E. T. , Parado-Estepa, F. D. , and Rodriguez, E. (2002). Seed production of mud crab Scylla spp. Aquaculture Asia 7, 29–31.
Secor D. H., Hines A. H., and Place A. R. (2002). ‘Japanese Hatchery-based Stock Enhancement: Lessons for the Chesapeake Bay Blue Crab.’ (University of Maryland: College Park, MD.)

Stoner, A. W. , and Davis, M. (1994). Experimental outplanting of juvenile queen conch Strombus gigas: comparison of wild and hatchery-reared stocks. Fishery Bulletin 92, 390–411.
Strand O., Grefsrud E. S., Haugum G. A., Bakke G., Helland E., et al. (2004). Release strategies in scallop (Pecten maximus) sea ranching vulnerable to crab predation. In ‘Stock Enhancement and Sea Ranching: Developments, Pitfalls and Opportunities’. (Eds K. M. Leber, S. Kitada, H. L. Blankenship and T. Svasand.) pp. 544–555. (Blackwell Publishing Ltd.: Oxford.)

Svasand T. (2004). Why juvenile quality and release strategies are important factors for success in stock enhancement and sea ranching. In ‘Stock Enhancement and Sea Ranching: Developments, Pitfalls and Opportunities’. (Eds K. M. Leber, S. Kitada, H. L. Blankenship and T. Svasand.) pp. 61–70. (Blackwell Publishing Ltd.: Oxford.)

Thomas, M. , Ajmalkhan, S. , Sriraman, K. , and Damodaran, R. (1987). Age and growth of three estuarine portunid crabs Scylla serrata, S. serrata serrata and Thalamita crenata. Journal of the Marine Biological Association of India 29, 154–157.
Ut V. N. (2002). Assessment of the feasibility of stock enhancement of mud crabs, Scylla paramamosain, in the Mekong Delta, Vietnam. Ph.D. Thesis, University of Wales, Bangor.

Ut, V. N. , Le Vay, L. , Nghia, T. T. , and Walton, M. (2007). Comparative performance of hatchery-reared and wild Scylla paramamosain (Estampador, 1949) in pond culture. Aquaculture Research 38, 1593–1599.
Crossref | GoogleScholarGoogle Scholar | Walton M. E. (2006). The effect of habitat management on the ecological function of mangroves with reference to the mud crab, Scylla spp. Ph.D. Thesis, University of Wales, Bangor.

Walton, M. E. , Le Vay, L. , Lebata, J. H. , Binas, J. , and Primavera, J. H. (2006). Seasonal abundance, distribution and recruitment of mud crabs (Scylla spp.) in replanted mangroves. Estuarine, Coastal and Shelf Science 66, 493–500.
Crossref | GoogleScholarGoogle Scholar |

Walton, M. E. , Le Vay, L. , Lebata, J. H. , Binas, J. , and Primavera, J. H. (2007). Assessment of the effectiveness of mangrove rehabilitation using exploited and non-exploited indicator species. Biological Conservation 138, 180–188.
Crossref | GoogleScholarGoogle Scholar |

Wang, G. Z. , Li, S. J. , Zeng, C. S. , Lin, S. J. , and Kong, X. H. , et al. (2005). Status of biological studies and aquaculture development of the mud crab, Scylla serrata, in China: an experimental ecological studies. Aquaculture International 13, 459–468.
Crossref | GoogleScholarGoogle Scholar |

Ye, Y. , Loneragan, N. R. , Die, D. J. , Watson, R. A. , and Harch, B. (2005). Bioeconomic modelling and risk assessment of tiger prawn (Penaeus esculentus) stock enhancement in Exmouth Gulf, Australia. Fisheries Research 73, 231–249.
Crossref | GoogleScholarGoogle Scholar |

Zmora, O. , Findiesen, A. , Stubblefield, J. , Frenkel, V. , and Zohar, Y. (2005). Large-scale production of the blue crab Callinectes sapidus. Aquaculture 244, 129–139.
Crossref | GoogleScholarGoogle Scholar |