Abstract
We identified the sources of carbon supporting an estuarine food web in the Southeast Gulf of California. The trophic food web in the Estero de Urías Lagoon (EUL) was studied through the carbon and nitrogen isotopes in the potential food sources (plankton, macroalgae, plants) and organisms including filter-feeding mollusks, crustaceans, fishes and seabirds. The isotopic composition of sediment suspended organic matter (SSOM) and suspended particulate organic matter (SPOM) showed that there are diverse organic matter sources in EUL. The greater inputs of mangrove to detritus were reflected in their similar δ13C values with respect to SSOM and SPOM. The δ13C data suggest a direct transfer of C from SSOM and zooplankton to filter-feeders organisms and to a lesser degree from SPOM and phytoplankton. The isotopic composition of the different groups of organisms showed the complexity of the food web. However, there was a continuous gradient of 15N-enrichment from SSOM and SPOM to seabird with intermediate values for filter-feeders and crustaceans. The δ15N values in the EUL food web were consistent with 5 trophic levels. Fishes were strongly dependent on macrobenthos and pelagic derived nutrition. Cormorants occupied the highest trophic level and its major diet contributors were fishes. The studied food web was not segregated by time because isotopic trends were similar between dry and wet seasons.
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References
Alonso-Rodríguez R, Páez-Osuna F, Cortés-Altamirano R (2000) Trophic conditions and stoichiometric nutrient balance in subtropical waters influenced by municipal sewage effluents in Mazatlán Bay (SE Gulf of California). Mar Pollut Bull 40:331–339
Amezcua-Linares F (1996) Peces demersales de la plataforma continental del Pacífico central de México. ICMYL- UNAM, Mexico
Barletta M, Barletta-Bergan A, Saint-Paul U (1998) Description of the fishery structure in the mangrove dominated region of Bragança (State of Pará-north Brazil). Ekotropica 4:41–53
Berlanga-Robles CA, Ruiz-Luna A, Hernández-Guzmán R (2011) Impact of shrimp farming on mangrove forest and other coastal wetlands: the case of Mexico. In: Sladonja B (ed) Aquaculture and the environment. InTech. doi: 10.5772/2463, pp 17–22
Bouillon S, Mohan ChP, Sreenivas N et al (2000) Sources of suspended matter and selective feeding by zooplankton in an estuarine mangrove ecosystem, as traced by stable isotopes. Mar Ecol Prog Ser 208:79–92
Cabana G, Rasmussen JB (1996) Comparison of aquatic food chains using nitrogen isotopes. Proc Natl Acad Sci 93:10844–10847
Cabral HN (2000) Comparative feeding ecology of sympatric Solea solea and S. senegalensis, within the nursery areas of the Tagus estuary, Portugal. J Fish Biol 57:1550–1562
Carlier A, Riera P, Amouroux JM et al (2007) Benthic trophic network in the Bay of Banyuls-sur-Mer (northwest Mediterranean, France): an assessment based on stable carbon and nitrogen isotopes analysis. Est Coast Shelf Sci 72:1–15
Carlier A, Riera P, Amouroux JM et al (2008) Food web structure of two Mediterranean lagoons under varying degree of eutrophication. J Sea Res 60:264–275
Choy EJ, An S, Kang CK (2008) Pathways of organic matter through food webs of diverse habitats in the regulated Nakdong River estuary (Korea). Est Coast Shelf Sci 78:215–226
Costanzo SD, O’Donohue MJ, Dennison WC (2004) Assessing the influence and distribution of shrimp pond effluent in a tidal mangrove creek in north-east Australia. Mar Pollut Bull 48:514–525
DeNiro MJ, Epstein S (1981) Influence of diet on the distribution of nitrogen isotopes in animals. Geochim Cosmo Acta 42:495–506
Elliott M, Hemingway K (2002) Fishes in Estuaries. Blackwells, London
Flores-Verdugo F, Briseño-Dueñas R, González-Farias F et al (1996) Balance de carbono en un ecosistema lagunar estuarino de boca efímera de la costa noroccidental de México. Temas Selectos de Oceanografía Biológica en México, Universidad Autónoma de Baja California, Mexico
Forero MG, Hobson KA (2003) Using stable isotopes of nitrogen and carbon to study seabird ecology: applications in the Mediterranean seabird community. Sci en Mar 67:23–32
France RL (1995) Differentiation between littoral and pelagic foodwebs in lakes using stable carbon isotopes. Limn Ocean 40:1310–1313
Fry B (1996) 13C/12C fractionation by marine diatoms. Mar Ecol Prog Ser 134:283–294
Garcia E, Duarte CM, Middelburg JJ (2002) Carbon and nutrient deposition in a Mediterranean seagrass ( Posidonia oceanica) meadow. Limn Ocean 47:23–32
Glantz SA (2002) Primer of Biostatistics. McGraw-Hill, USA
Goering J, Alexander V, Haubenstock N (1990) Seasonal variability of stable carbon and nitrogen isotope ratios of organisms in a North Pacific Bay. Est Coast Shelf Sci 30:239–260
Green-Ruiz C, Páez-Osuna F (2006) Heavy metals and clay minerals in surface sediments of Mazatlán bay, Mexican subtropical Pacific coast. Int J Env Poll 26(1–3):201–219
Hansson S, Hobbie JE, Elmgren R et al (1997) The stable nitrogen isotope ratio as a marker of food-web interactions and fish migration. Ecology 78:2249–2257
Heaton THE (1986) Isotopic studies of nitrogen pollution in the hydrosphere and atmosphere: a review. Chem Geol 59:87–102
Hesslein RH, Hallard KA, Ramlal P (1993) Replacement of sulfur, carbon, and nitrogen in tissue of growing broad whitefish (Coregonus nasus) in response to a change in diet traced by δ34S, δ13C, and δ15N. Can J Fish Aqua Sci 50:2071–2076
Hobson KA, Welch HE (1992) Determination of trophic relationship within a high arctic marine food web using δ13C and δ15N analysis. Mar Ecol Prog Ser 84:9–18
Hobson KA (1993) Trophic relationship among high artic seabirds: insights from tissue-dependent stable-isotope models. Mar Ecol Prog Ser 95:7–18
Hobson KA, Piatt J.F, Pitocchelli J (1994) Using stable isotopes to determine sea-bird trophic relationships. J Animal Ecol 63:786–798
Hobson KA, Fisk A, Karnovsky N et al (2002) A stable isotope (δ13C, δ15N) model for the North water food web: implications for evaluating trophodynamics and the flow of energy and contaminants. Deep-Sea Res II 49:5131–5150
Hodum PJ, Hobson KA (2000) Trophic relationships among Antartic fulmarine pretels: insights into dietary overlap and chick provisioning strategies inferred from stable- isotope (δ15N and δ13C) analyses. Mar Ecol Progs Ser 198:273–281
Iken K, Brey T, Wand U et al (2001) Food web structure of the benthic community at the Porcupine Abyssal Plain (NE Atlantic): a stable isotope analysis. Prog Ocean 50:383–405
Jones AB, O’Donohue MJ, Udy J et al (2001) Assessing ecological impacts of shrimp and sewage effluent indicators with standard water quality analyses. Est Coast Shelf Sci 52:91–109
Kling GW, Fry B, O’Brien WJ (1992) Stable isotopes and planktonic trophic structure in arctic lakes. Ecology 73:561–566
Kon K, Kawakubo N, Aoki J et al (2009). Effect of shrimp farming organic waste on food availability for deposit feeder crabs in a mangrove estuary, based on stable isotope analysis. Fish Sci 75:715–722
Laffaille P, Lefeuvre JC, Schricke MT, et al (2001) Feeding ecology of group sea bass, Dicentrarchus labrax, in salt marshes of Mont Saint Michel Bay (France). Estuaries 24:116–125
de la Lanza Espino G, Salaya-Ávila JJ, Varsi E (1994) Manejo y aprovechamiento acuícola de lagunas costeras en América Latina y el Caribe. FAO Technical Report No.10, Rome. Available via DIALOG. http://www.fao.org/docrep/field/003/AB485S/AB485S05.htm. Accessed 8 Dec 2012
Lapointe B, Barile PJ, Littler MM, et al (2005) Macroalgal blooms in southeast Florida coral reefs II. Cross-shelf discrimination of nitrogen sources indicates widespread assimilation of sewage nitrogen. Harm Algae 4:1106–1122
Maranger R, Caraco N, Duhamel J et al (2008) Nitrogen transfer from sea to land via commercial fisheries. Nature Geosci 1:111–113
McClelland JW, Valiela I (1998) Linking nitrogen in estuarine producers to land-derived sources. Limn Ocean 43:577–585
McLusky DS, Elliott M (2004) The estuarine ecosystem: ecology, threats and management. Oxford University Press, Oxford
Minigawa M, Wada E (1984) Stepwise enrichment of 15N along food chains: further evidence and the relation between 15N and animal age. Geoch Cosmo Acta 48:1135–1140
Mizutani H, Fukuda M, Kabaya Y (1992) 13C and 15N enrichment factors of feathers of 11 species of adult birds. Ecology 73:1391–1395
Montoya JP, Horrigan SG, McCarthy JJ (1990) Natural abundance of δ15N in par-ticulate nitrogen and zooplankton in the Chesapeake Bay. Mar Ecol Prog Ser 65:35–61
Ochoa-Izaguirre MJ, Carballo JL, Páez-Osuna F (2002) Qualitative changes in macroalgal assemblages under two contrasting climatic conditions in a subtropical estuary. Bot Marina 45:130–138
Páez-Osuna F, Guerrero-Galván SR, Ruiz-Fernández AC et al (1997) Fluxes and mass balances of nutrients in a semi-intensive shrimp farm in northwestern Mexico. Mar Poll Bull. 34:290–297
Páez-Osuna F, Gracia A, Flores-Verdugo F, et al (2003) Shrimp aquaculture development and the environment in the Gulf of California ecoregion. Mar Poll Bull 46:806–815
Pasquaud S, Elie P, Jeantet C, et al (2008) A preliminary investigation of the fish food web in the Gironde estuary, France, using dietary and stable isotope analyses. Est Coast Shelf Sci 78:267–279
Paul RKG (1981) Natural diet, feeding and predatory activity of the crabs Callinectes arcuatus and C. toxotes (Decapoda, Brachyura, Portunidae). Mar Ecol Prog Ser 6:91–99
Pauly D (1988) Fisheries research and the demersal fisheries of Southeast Asia, In Gulland JA (ed) Fish Population Dynamics (2nd edition). Wiley Interscience, Chichester pp. 329–348 Pauly D, Yañez-Arancibia A (1994) Fisheries in coastal lagoons, In Kjerfve B (ed) Coastal Lagoon Processes. Elsevier Science Publishers, Amsterdam, p. 377–399
Pauly D, Christensen V, Walters C (2000) Ecopath, Ecosim and Ecospace as tools for evaluating ecosystem impact of fisheries. ICES J Mar Sci 57:697–706
Persson A, Hansson LA, Brönmark Ch, et al (2001) Effects of enrichment on simple aquatic food webs. Am Nat 157:654–669
Peterson BJ, Fry B (1987) Stable isotopes in ecosystem studies. Annu Rev Ecol Evol Syst 18:293–320
Pinnegar JK, Polunin NVC (2000) Contributions of stable-isotope data to elucidating food webs of Mediterranean rocky littoral fishes. Oecologia 122:399–409
Piñón-Gimate A, Soto-Jiménez MF, Ochoa-Izaguirre MJ et al (2009) Macroalgae blooms and δ15N in subtropical coastal lagoons from the Southeastern Gulf of California: Discrimination among agricultural, shrimp farm and sewage effluents. Mar Pollut Bull 58:1144–1151
Polis GA, Anderson WB, Holt RD (1997) Toward an integration of landscape and food web ecology: the dynamics of spatially subsidized food webs. Ann Rev Ecol Syst 28:289–316
Post DM, Pace ML, Hairston Jr NG (2000) Ecosystem size determines food-chain length in lakes. Nature 405:1047–1049
Raven JA, Walker DI, Johnston AM et al (1995) Implications of 13C natural abundance measurements for photosynthetic performance by marine macrophytes in their natural environment. Mar Ecol Prog Ser 123:193–205
Quijano-Poumián M, Rodríguez-Aragón B (2004) El marco legal de la zona costera. In: Rivera-Arriaga E, Villalobos GJ, Azuz-Adeath I et al (eds) El manejo costero en México. Universidad Autónoma de Campeche, SEMARNAT, CETYS-Universidad, Universidad de Quintana Roo, pp 69–84
Riera P, Richard P (1997) Temporal variation of δ13C in particulate organic matter and oyster Crassostrea gigas in Marennes-Oléron Bay (France): effect of freshwater inflow. Mar Ecol Prog Ser 147:105–115
Riera P (2007) Trophic subsidies of Crassostrea gigas, Mytilus edulis and Crepidula fornicata in the Bay of Mont Saint Michel (France): a δ13C and δ15N investigation. Est Coast Shelf Sci 72:33–41
Serrano-Grijalva L, Sánchez-Carrillo S, Angeler DG et al (2011) Effects of shrimp-farm effluents on the food web structure in subtropical coastal lagoons. J Exp Mar Biol Ecol 402:65–74
Soto-Jiménez MF, Páez-Osuna F (2001) Distribution and normalization of heavy metal concentrations in mangrove and lagoonal sediments from Mazatlan Harbor (SE Gulf of California). Est Coastal Shelf Sci 53:259–274
Soto-Jimenez MF, Paez-Osuna F, Bojorquez-Leyva H (2003) Nutrient cycling at the sediment–water interface and in sediments at Chiricahueto marsh: a subtropical ecosystem associated with agricultural land uses. Water Res 37:719–728
StatSoft (1996) STATISTICA for Windows computer program, version 6.0. StatSoft, Tulsa
Tieszen LL, Boutton TW, Tesdahl KG et al (1983) Fractionation and turnover of stable carbon isotopes in animal tissues: implications for δ13C analysis of diet. Oecologia 57:32–37
Valiela I (1995) Marine ecological processes. Springer Verlag, New York
Vega-Cendejas ME, Arreguín-Sánchez F (2001) Energy fluxes in a mangrove ecosystem from a coastal lagoon in Yucatán, Peninsula, México. Ecol Mod 137:119–133
Wilkie ML, Fortuna S (2004) Status and Trends in Mangrove area Extent World-wide. Forest Resources Development Service, Forestry Department. FAO, Rome. Available via DIALOG. http://www.fao.org/do. Accessed 8 Dec 2012
Worm B, Barbier EB, Beaumont N et al (2006) Impacts of biodiversity loss on ocean ecosystem services. Science 314:787–790
Zetina-Rejón MJ, Arreguín-Sánchez F, Chávez EA (2003) Trophic structure and flows of energy in the Huizache-Caimanero lagoon complex on the Pacific coast of Mexico. Est Coast Shelf Sci 57:803–815
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Jara-Marini, M., Páez-Osuna, F., Soto-Jiménez, M. (2014). Trophic Relationships within a Subtropical Estuarine Food Web from the Southeast Gulf of California through Analysis of Stable Isotopes of Carbon and Nitrogen. In: Amezcua, F., Bellgraph, B. (eds) Fisheries Management of Mexican and Central American Estuaries. Estuaries of the World. Springer, Dordrecht. https://doi.org/10.1007/978-94-017-8917-2_5
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