Abstract
Banco Chinchorro is the largest reef in the Mexican Caribbean. Historically, spiny lobster, queen conch and over 20 other reef species have been exploited here. Multispecies intervention management from an ecosystem perspective has been developed in this area; however, an assessment of the effects of such practices on ecosystem health is required. Five quantitative trophic models were constructed using Ecopath with Ecosim. The results show that, in terms of biomass, benthic autotrophs are the dominant group in all communities. Ecosystem Network Analysis indices showed that Cueva de Tiburones was the most mature, developed, complex and healthy subsystem, but, El Colorado and La Baliza were the subsystems most resistant to disturbances. The fisheries mainly concentrate on primary (La Baliza and Cueva de Tiburones sites) and secondary consumers (La Caldera, Chancay, and El Colorado). The greatest propagation of direct and indirect effects, estimated by Mixed Trophic Impacts and Ecosim simulations, were generated by the benthic autotrophs, small benthic epifauna, benthic-pelagic carnivorous fish and benthic carnivorous fish, among others. In contrast, the System Recovery Time showed different patterns among subsystems, indicating several compartments that reduce resilience. Considering the structure, dynamics, trophic functioning and ecosystem health of Banco Chinchorro, its ecological heterogeneity highlights the need for the design of a specific (by subsystem) management strategy, particularly because different species or functional groups present greater sensitivity to human interventions in each community.
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Abbreviations
- EBFM:
-
Ecosystem-Based Fisheries Management
- MBRS:
-
Mesoamerican Barrier Reef System
- MTI:
-
Mixed Trophic Impacts
- RDA:
-
Redundancy Analysis ordination
- PERMANOVA:
-
Permutational Multivariate Analysis of Variance
- SRT:
-
System Recovery Time
- T:
-
Total System Throughput
References
Acosta-González, G., F.A. Rodríguez-Zaragoza, R.C. Hernández-Landa and J.E. Arias-González. 2013. Additive diversity partitioning of fish in a Caribbean coral reef undergoing shift transition. PLoS ONE 8(6): e65665. doi:10.1371/journal. pone.0065665.
Ainsworth, C.H., D.A. Varkey and T.J. Pitcher. 2008. Ecosystem simulations supporting ecosystem-based fisheries management in the Coral Triangle, Indonesia. Ecol. Model. 214: 361–374.
Arias-González, J.E. and S. Morand. 2006. Trophic functioning with parasites: a new insight for ecosystem analysis. Mar. Ecol. Prog. Ser. 320: 43–53.
Arias-González, J.E., B. Delesalle, B. Salvat and R. Galzin. 1997. Trophic functioning of the Tiahura sector “Moorea Island, French Polynesia”. Coral Reefs 16: 231–246.
Arias-González, J.E., E. Nuñez-Lara, C. González-Salas and R. Galzin. 2004 Trophic models for investigation of fishing effect on coral reef ecosystems. Ecol. Model. 172: 197–212.
Arias-González, J.E., C. González-Gándara , J.L. Cabrera and V. Christensen. 2011. Predicted impact of the invasive lionfish Pterois volitans on the food web of a Caribbean coral reef. Environ. Res. 111: 917–925.
Begon, M., J.L. Harper and C.R. Townsend. 1990. Ecology: Individuals, Populations and Communities. 2nd ed. Blackwell Scientific Publications, Oxford.
Beltrán-Torres, A.U. and J.P. Carricart-Ganivet. 1999. Lista revisada y clave para los corales pétreos zooxantelados (Hydrozoa: Milleporina; Anthozoa: Scleractinia) del Atlántico mexicano. Rev. Biol. Trop. 47: 813–829.
Beltrán-Torres, A.U., Muñoz-Sánchez L. and Carricart-Ganivet J.P. 2003. Effects of hurricane Keith at a patch reef on Banco Chinchorro, Mexican Caribbean. Bull. Mar. Sci. 73(1): 187–196.
Bondavalli, C., A. Bodini, G. Rossetti and S. Allesina. 2006. Detecting stress at the whole-ecosystem level: the case of a mountain lake (Lake Santo, Italy). Ecosystems 9: 768–787.
Cáceres I., Ortiz M., Cupul-Magala A.L. and Rodríguez-Zaragoza F.A. 2016. Trophic models and short-term simulations for the coral reefs of Cayos Cochinos and Media Luna (Honduras): a comparative network analysis, ecosystem development, resilience and fishery. Hydrobiologia 770: 209–224.
Chávez, E.A. and E. Hidalgo. 1987. Los arrecifes coralinos del Caribe noroccidental y Golfo de México en el contexto socioecónomico. An. Inst. Cienc. Mar Limnol. UNAM 15: 167–176.
Christensen, V. 1995. Ecosystem maturity-toward quantification. Ecol. Model. 77: 3–32.
Christensen, V. and D. Pauly. 1992. Ecopath II: a software for balancing steady-state ecosystem models and calculating network characteristics. Ecol. Model. 61: 169–185.
Christensen, V. and D. Pauly. 1993. Flow characteristics of aquatic ecosystem. In: Christensen, V. and D. Pauly (eds), Trophic Models of Aquatic Ecosystems. ICLARM Conf. Proc. 26: 338–352.
Christensen, V. and C. Walters. 2004. Ecopath with Ecosim: methods, capabilities and limitations. Ecol. Model. 172: 109–139.
Costanza, R., M. Mageau and B. Norton. 1998. Patten B Predictors of Ecosystem Health. In: Rapport, D., R. Costanza, P. Epstein, C. Gaudet and R. Levins (eds), Ecosystem Health. Blackwell Science: MA, pp. 240–250.
Cruz-Piñón, G., J.P. Carricart-Ganivet and J. Espinosa-Avalos. 2003. Monthly skeletal extension rates of the hermatypic corals Montastraea annularis and Montastraea faveolata: biological and environmental controls. Mar. Biol. 143: 491–500.
de Jesús-Navarrete, A., A. Medina-Quej and J.J. Oliva-Rivera. 2003. Changes in the queen conch (Strombus gigas L.) population structure at Banco Chinchorro, Quintana Roo, México, 1990–1997. Bull. Mar. Sci. 73: 219–229.
Francis, R., M. Hixon, M. Clarke, S. Murawski and S. Ralston. 2007. Ten commandments for ecosystem-based fisheries scientists. Fisheries 32: 217–233.
González, A., D. Torruco-Gomez, A. Liceaga-Correa and J. Ordaz. 2003. The shallow and deep bathymetry of the Banco Chinchorro reef in the Mexican Caribbean. Bull. Mar. Sci. 73: 15–22.
Guénette, S., V. Christensen and D. Pauly. 2008. Trophic modelling of the Peruvian upwelling ecosystem: towards reconciliation of multiples datasets. Prog. Oceanogr. 79: 326–335.
Holling, C.S. 1973. Resilience and stability of ecological systems. Annu. Rev. Ecol. Syst. 4: 1–23.
Hughes, T.P. 1994. Catastrophes, phase shifts, and large-scale degradation of a Caribbean coral reef. Science 265: 1547–1551.
Hughes, T.P., A.M. Szmant, R. Steneck, R. Carpenter and S. Miller. 1999. Algal blooms on coral reefs: What are the causes? Limnol. Oceanogr. 44(6): 1583–1586.
Hughes, T.P., A.H. Baird, D.R. Bellwood, M. Card, S.R. Connolly, C. Folke, R. Grosberg, O. Hoegh-Gulberg, J.B.C. Jackson, J. Kleypas, J.M. Lough, P. Marshall, N. Myström, S.R. Palumbi, J.M. Pandolf, B. Rosen and J. Roughgarden. 2003. Climate change, human impacts, and the resilience of coral reefs. Science 301: 929–933.
Humann, P. and DeLoach N. 2013a. Reef Coral Identification: Florida, Caribbean, Bahamas. 3rd Edition New World Publications Press. Florida, USA.
Humann, P. and DeLoach N. 2013b. Reef Creature Identification: Florida Caribbean Bahamas. 3rd Edition New World Publications Press. Florida, USA.
INE. 2000. Programa de Manejo Reserva Banco Chinchorro. Instituto Nacional de Ecología, México
Jackson, J.B.C., M.X. Kirby, W.H. Berger, K.A. Bjordal, L.W. Botsford, B.J. Bourque, R.H. Bradbury, R. Cooke, J. Erlandson, J.A. Estes, T.P. Hughes, S. Kidwell, C.B. Lange, H.S. Lenihan, J.M. Pandolfi, C.H. Peterson, R.S. Steneck, M.J. Tegner and R.R. Warner. 2001. Historical overfishing and the recent collapse of coastal ecosystems. Science 293: 629–638.
Jones, C., J. Lawton and M. Shachak. 1994. Organism as ecosystem engineers. Oikos 69: 373–386.
Jordán, E. and E. Martín. 1987. Banco Chinchorro: morphology and composition of a caribbean atoll. Atoll. Res. Bull. 310: 1–25.
Jordán, F., M. Scotti, Á. Mike and M. Ortiz. 2014. Strong asymmetrical inter-specific relationships in food web simulations. Mar. Ecol. Prog. Ser. 512: 89–98.
Lapointe, B.E. 1997. Nutrient thresholds for bottom-up control of macroalgal blooms on coral reefs in Jamaica and southest Florida. Limnol. Oceanogr. 42: 1119–1131.
Levins, R. 1968. Evolution in Changing Enviroments. Princeton University, Princeton NJ.
Levins, R. and R. Lewontin. 1985. The Dialectical Biologist. Harvard University, MA.
Liu, P.J., S. Kwang-Tsao, J. Rong-Quen, F. Tung-Yung, W. Saou-Lien, H. Jiang-Shiou, C. Jen-Ping, C. Chung-Chi and L. Hsing-Juh. 2009. A trophic model of fringing coral reefs in Nanwan Bay, southern Taiwan suggests overfishing. Mar. Environ. Res. 68: 106–117.
Melbourne-Thomas, J., C.R. Johnson and E.A. Fulton. 2011. Regional-scale scenario analysis for the Meso-American Reef system: modelling coral reef futures under multiple stressors. Ecol. Model. 222: 1756–1770.
Merino-Ibarra, M. 1986. Aspectos de la circulación costera super-ficial del Caribe mexicano con base en observaciones utilizando tarjetas de deriva. An. Inst. Cienc. Mar Limnol. UNAM 13: 31–46.
Monaco, M., R. Ulanowicz. 1997. Comparative ecosystem trophic structure of three U.S. mid-Atlantic estuarios. Mar. Ecol. Prog. Ser. 161: 239–254.
Okey, T.A., S. Banks, A.F. Born, R.H. Bustamante, M. Calvopiña, J.E. Graham, E. Espinoza, J.M. Fariña, L.E. Garske, G.K. Recke, S. Salazar, S. Shepherd, V. Toral-Granda and P. Wallem. 2004. A trophic model of a Galápagos subtidal rocky reef for evaluating fisheries and conservation strategies. Ecol. Model. 172: 383–401.
Opitz, S. 1996. Trophic Interactions in Caribbean Coral Reefs. ICLARM, Manila, Philippines.
Ortiz, M. 2008. Mass balanced and dynamics simulations of trophic models of kelp ecosystems near the Mejillones Peninsula of northern Chile (SE Pacific): comparative network structure and assessment of harvest strategies. Ecol. Model. 216: 31–46.
Ortiz, M., M. Avendaño, M. Cantillañez, F. Berrios and L. Campos. 2010. Trophic mass balanced models and dynamic simulations of benthic communities from La Rinconada Marine Reserve off northern Chile: network properties and multispecies harvest scenario assessments. Aquat. Conserv. Mar. Freshw. Ecosyst. 20: 58–73.
Ortiz, M., R. Levins, L. Campos, F. Berrios, F. Campos, F. Jordán, J. González and F.A. Rodríguez-Zaragoza. 2013 Identifying keystone trophic groups in benthic ecosystems: implications for fisheries Management. Ecol. Indic. 25: 133–140.
Ortiz, M., L. Campos, F. Berrios, F.A. Rodríguez-Zaragoza, B. Hermosillo and J. González. 2015. Mass balanced trophic models and short-term dynamical simulations for benthic ecological systems of Mejillones and Antofagasta bays (SE Pacific): comparative network structure and assessment of human impacts. Ecol. Model. 309-310: 153–152.
Pauly, D., V. Christensen, J. Dalsgaard, R. Froese and F. Torres. 1998. Fishing down marine food webs. Science 279: 860–863.
Pauly, D., V. Christensen, S. Guénette, T.J. Pitcher, U.R. Sumaila, C.J. Walters, R. Watson and D. Zeller. 2002. Towards sustainability in world fisheries. Nature 418: 689–695.
Pimm, S.L. 1982. Food Webs. Chapman and Hall, NY, USA.
Polovina, J.J. 1984. Model of a coral reef ecosystem: I the Ecopath model and its application to French Frigate Shoals. Coral Reefs 3: 1–11.
Robertson, D.R., Peña E.A., Posada J.M. and Claro R. 2015. Shorefishes of the Greater Caribbean: online information system. Version 1.0 Smithsonian Tropical Research Institute, Balboa, Panamá.
Rodríguez-Zaragoza, F.A. 2007. Biodiversidad y funcionamiento de los ecosistemas arrecifales costeros del Caribe mexicano. Ph.D. thesis, Centro de Investigación y Estudios Avanzados, Unidad-Mérida, México, 344 pp.
Rodríguez-Zaragoza, F.A., A.L. Cupul-Magaña, C.M. Galván-Villa, E. Ríos-Jara, E.g., Robles-Jarero, E. López-Uriarte and J.E. Arias-González. 2011. Additive partitioning of reef fish diversity variation: a promising marine biodiversity management tool. Biodivers. Conserv. 20: 1655–1675.
Rodríguez-Zaragoza, F.A. and J.E. Arias-González. 2015. Coral biodiversity and bio-construction in the northern sector of the Mesoamerican reef system. Front. Mar. Sci. 2: 13. doi: 10.3389/ fmars.2015.00013.
Ricker, W. E. 1968. Food from the sea. In: Committee on Resources and Man (eds), Resource and Man. US National Academy of Sciences, Chap 5. W. H. Freeman, San Francisco, pp. 87–108.
Scotti, M., N. Gjata, C. Livi and F. Jordán. 2012. Dynamical effects of weak trophic interactions in a stochastic food web simulation. Community Ecol. 13: 230–237.
Sosa-Cordero, E. 2003. Trends and dynamics of the spiny lobster, Panulirus argus, resource in Banco Chinchorro, Mexico. Bull. Mar. Sci. 73: 203–217.
Taylor, M.H., M. Wolff, J. Mendo and C. Yamashiro. 2008. Changes in trophic flow structure of Independence Bay (Peru) over an ENSO cycle. Prog. Oceanogr. 79: 336–351.
Ulanowicz, R. 1986. Growth and Development: Ecosystems Phenomenology. Springer, NY.
Ulanowicz, R. 1997. Ecology, the Ascendant Perspective. Complexity in Ecological Systems Series. NY. Columbia University Press.
Ulanowicz, R. and Ch. Puccia.1990. Mixed trophic impacts in eco-systems. Ceonoses 5: 7–16.
Vega-Cendejas, M.E. and F. Arreguín-Sánchez. 2001. Energy fluxes in a mangrove ecosystem from a coastal lagoon in Yucatan Peninsula, Mexico. Ecol. Model. 137: 119–133.
Vega-Zepeda, A., H. Hernández-Arana and J.P. Carricart-Ganivet. 2007. Spatial and size-frequency distribution of Acropora (Cnidaria: Scleractinia) species in Chinchorro Bank, Mexican Caribbean: implications for management. Coral Reefs 26: 671–676.
Villegas-Hernández, H., C. González-Salas, A. Aguilar-Perera and A.J. López-Gómez. 2008. Settlement dynamics of the coral reef fish Stegastes partitus, inferred from otolith shape and microstructure analysis. Aquat. Biol. 1: 249–258.
Walters, C.J., V. Christensen and D. Pauly. 1997. Structuring dynamic models of exploited ecosystems from trophic mass-balance assessments. Rev. Fish. Biol. Fish. 7: 139–172.
Walter, C.J., D. Pauly, V. Christensen and J. Kitchell. 1999. Representing density dependent consequences of the life history strategies in aquatic ecosystems: ECOSIM II. Ecosystems 3: 70–83.
Weijerman, M., E.A. Fulton and F.A. Parrish. 2013. Comparison of coral reef ecosystems along a fishing pressure gradient. PLoS ONE 8(5):e63797. doi: 10.1371/journal.pone.0063797.
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Rodríguez-Zaragoza, F.A., Ortiz, M., Berrios, F. et al. Trophic models and short-term dynamic simulations for benthic-pelagic communities at Banco Chinchorro Biosphere Reserve (Mexican Caribbean): a conservation case. COMMUNITY ECOLOGY 17, 48–60 (2016). https://doi.org/10.1556/168.2016.17.1.7
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DOI: https://doi.org/10.1556/168.2016.17.1.7