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Tidal and diel changes in the structure of a nekton assemblagein small intertidal mangrove creeks in northern Brazil

Published online by Cambridge University Press:  15 June 2004

Uwe Krumme ,
Ulrich Saint-Paul  and
Harald Rosenthal
Uwe Krumme
Affiliation:
Center for Tropical Marine Ecology (ZMT), Fahrenheitstr. 6, 28359 Bremen, Germany
Ulrich Saint-Paul
Affiliation:
Center for Tropical Marine Ecology (ZMT), Fahrenheitstr. 6, 28359 Bremen, Germany
Harald Rosenthal
Affiliation:
Institute for Marine Research (IfM), Duesternbrooker Weg 20, 24105 Kiel, Germany
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Abstract

Changes in nekton community structure in north Brazilian intertidal mangrove creeks were studied by setting block nets at high water in the wet season 1999. From a total of 47 species (27 families), the most abundant were: Cathorops sp. (Ariidae), Colomesus psittacus (Tetraodontidae), Hexanematichthys herzbergii (Ariidae), Pseudauchenipterus nodosus (Auchenipteridae), the shrimp Fenneropenaeus subtilis (Penaeidae), Anchovia clupeoides (Engraulidae), Mugil spp. (Mugilidae), and Anableps anableps (Anablepidae). Diversity H' was low (0.9). Mean values of fish density and biomass (± S.E.) were 0.2 ± 0.1 fish m-3 and 2.6 ± 0.7 g m−3 or 1.4 ± 0.4 g m−2, respectively. The high proportion of juvenile fish (87%) and shrimps point to the importance of intertidal mangrove creeks for fish nurseries. The number of species was highest at spring tide-night and lowest at neap tide-day. Evenness J' was lowest at spring tide-night when more rare species entered and dominant species increased in quantitative proportions. Four different species assemblages were identified as being triggered by factor combinations such as “tide” and “time of day”: spring tide-night, spring tide-day, neap tide-night and neap tide-day. High-water level influenced the species assemblages, but salinity and water temperature did not. Abundance of 14 species correlated positively with the high-water level. Strong spring tides yielded extraordinary high nekton catches, suggesting that high-water level is an important parameter in the tidal migration of fish. Most fish entered the mangrove to feed. Predation pressure was considered to be low because of the presence of only a few, mainly juvenile predators. Beach seining in the subtidal parts at low water revealed a high biomass (30 ± 14 g m−2). Larger fish withdraw to depressions, small fish and juvenile shrimp were abundant near the shallow banks, suggesting inter- and intraspecific splitting of the migration routes when returning from the intertidal zone at ebb tide. To cover the entire short-term range of tidal ichthyofauna responses, a sample design should consider the spring/neap and the day/night cycle.

Keywords

Water levelNurseryMigrationCommunity structureTropical FishShrimpBeach seineAmazon
Type
Research Article
Information
Aquatic Living Resources , Volume 17 , Issue 2 , April 2004 , pp. 215 - 229
Copyright
© EDP Sciences, IFREMER, IRD, 2004

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References

Anger, K., Moreira, G.S., 1998, Morphometric and reproductive traits of tropical Caridean shrimps. J. Crust. Biol. 18, 823-838. CrossRef
Barletta M., 1999, Seasonal changes of density, biomass and species composition of fishes in different habitats of the Caeté estuary (North Brazilian coast – east Amazon). Diss. Bremen Univ., Germany, Fachbereich 2 (Biologie/Chemie), ZMT Contrib. No. 7, Zentrum fuer Marine Tropenoekologie, Bremen, Germany.
Barletta, M., Barletta-Bergan, A., Saint-Paul, U., Hubold, G., 2003, Seasonal changes in density, biomass, and diversity of estuarine fishes in tidal mangrove creeks of the lower Caeté estuary (northern Brazilian coast, east Amazon). Mar. Ecol. Prog. Ser. 256, 217-228. CrossRef
Barletta, M., Saint-Paul, U., Barletta-Bergan, A., Ekau, W., Schories, D., 2000, Spatial and temporal distribution of Myrophis punctatus (Ophichthidae) and associated fish fauna in a northern Brazilian intertidal mangrove forest. Hydrobiologia 426, 65-74. CrossRef
Barletta-Bergan, A., Barletta, M., Saint-Paul, U., 2002a, Structure and seasonal dynamics of larval fish in the Caeté River estuary in North Brazil. Estuar. Coast. Shelf Sci. 54, 193-206. CrossRef
Barletta-Bergan A., Barletta M., Saint-Paul U., 2002b, Community structure and temporal variability of ichthyoplankton in north Brazilian mangrove creeks. J. Fish Biol. 61 (Suppl. A), 33-51.
Batista, V.D.S., Rêgo, F.N., 1996, Análise de associações de peixes, em igarapés do estuário do Rio Tibiri, Maranhão. Rev. Brasil. Biol. 56, 163-176 (in portuguese).
Berger, U., Glaser, M., Koch, B., Krause, G., Lara, R., Saint-Paul, U., Schories, D., Wolff, M., 1999, An intergrated approach to mangrove dynamics and management. J. Coast. Cons. 5, 125-134. CrossRef
Blaber, S.J.M., 1980, Fish of the Trinity Inlet system of North Queensland with notes on the ecology of fish faunas of tropical Indo-Pacific estuaries. Austr. J. Mar. Freshwater Res. 31, 137-145. CrossRef
Blaber, S.J.M., 1986, Feeding selectivity of a guild of piscivorous fish in mangrove areas of north-west Australia. Aust. J. Mar. Freshwater Res. 37, 329-336. CrossRef
Blaber S.J.M., 1997, Fish and Fisheries in Tropical Estuaries. Chapman & Hall, Fish and Fisheries Series 22, London.
Blaber, S.J.M., Brewer, D.T., Salini, J.P., 1989, Species composition and biomasses of fishes in different habitats of a tropical northern Australian estuary: Their occurrence in the adjoining sea and estuarine dependence. Estuar. Coast. Shelf Sci. 29, 509-531. CrossRef
Blaber, S.J.M., Brewer, D.T., Salini, J.P., 1994, Dentition and diet in tropical ariid catfish from Australia. Environ. Biol. Fish. 40, 159-174. CrossRef
Blaber, S.J.M., Brewer, D.T., Salini, J.P., 1995, Fish communities and the nursery role of the shallow inshore waters of a tropical bay in the Gulf of Carpentaria, Australia. Estuar. Coast. Shelf Sci. 40, 177-193. CrossRef
Boujard, T., Rojas Beltran, R., 1988, Longitudinal zonation of the fish population of the Sinnamary River (French Guiana). Rev. Hydrobiol. Trop. 21, 47-61, in French.
Bozeman E.L.Jr., Dean J.M., 1980, The abundance of estuarine larval and juvenile fish in a South Carolina intertidal creek, Estuaries 3, 89-97.
Brenner M., Krumme U., 2004, Tidal migration and patterns in feeding of Anableps anableps L. (Anablepidae) in a North Brazilian mangrove. Mar. Ecol. Prog. Ser., in press.
Camargo, M., Isaac, V.J., 1998, Population structure of fish fauna in the estuarine area of Caeté River, Bragança, Pará, Brazil. Acta Scient. 20, 171-177.
Castro A.C.L., 2001, Diversity of fish assemblages in creeks of the Paciencia river estuary (MA-Brazil). Atlântica, Rio Grande, 23, 39-47.
Cervigón F., 1991, Los peces marinos de Venezuela, Vol. I, 2 e edn. Fundación cientifica Los Roques, Caracas.
Cervigón F., 1993, Los peces marinos de Venezuela, Vol. II, 2 e edn. Fundación cientifica Los Roques, Caracas.
Cervigón F., 1994, Los peces marinos de Venezuela, Vol. III, 2 e edn. Fundación cientifica Los Roques, Caracas.
Cervigón F., 1996, Los peces marinos de Venezuela, Vol. IV, 2 e edn. Fundación cientifica Los Roques, Caracas.
Cervigón F., Cipriani R., Fischer W., Garibaldi L., Hendrickx M., Lemus A.J., Márquez R., Poutiers J.M., Robaina G., Rodríguez B., 1993, FAO species identification sheets for fishery purposes: Field guide to the commercial marine and brackish-water resources of the northern coast of South America. Rome, FAO.
Clark, K.L., Ruiz, G.M., Hines, A.H., 2003, Diel variation in predator abundance, predation risk and prey distribution in shallow-water estuarine habitats. J. Exp. Mar. Biol. Ecol. 287, 37-55. CrossRef
Clarke K.R., Warwick R.M., 1994, Changes in marine communities: An approach to statistical analysis and interpretation. Plymouth Marine Laboratory. Natural Environment Research Council, U.K.
Cohen, M.C., Lara, R.J., Szlafsztein, C.F., Dittmar, T., 2000, Digital elevation models as a GIS tool for the analysis of mangrove coasts. Amazon Region, Brazil. J. Internat. Environ. Creat. 3, 31-41.
Davis, T.L.O., 1988, Temporal patterns in the fish fauna entering a tidal swamp system in tropical Australia. Environ. Biol. Fish. 21, 161-172. CrossRef
Day J.H., Blaber S.J.M., Wallace J.H., 1981, Estuarine fishes. In: Day, J.H. (Ed.), Estuarine ecology with particular reference to South Africa. Rotterdam, Balkema. pp. 197-223.
Dittmann, S., 2001, Abundance and distribution of small infauna in mangroves of Missionary Bay, North Queensland, Australia. Rev. Biol. Trop. 49, 535-544.
Dittmar, T., Lara, R.J., 2001, Driving forces behind nutrient and organic matter dynamics in a mangrove tidal creek in North Brazil. Estuar. Coast. Shelf Sci. 52, 249-259. CrossRef
Gibson, R.N., 1973, The intertidal movements and distribution of young fish on a sandy beach with special reference to the plaice (Pleuronectes platessa L.). J. Exp. Mar. Biol. Ecol. 12, 79-102. CrossRef
Gibson R.N., 1988, Patterns of movement in intertidal fishes. In: Chelazzi, G., Vanini, M. (Eds.), Behavioural adaptions to intertidal life. NATO ASI Series Life Sciences Vol. 151, Plenum Press, London, pp. 55-63.
Gillanders, B.M., Able, K.W., Brown, J.A., Eggleston, D.B., Sheridan, P.F., 2003, Evidence of connectivity between juvenile and adult habitats for mobile marine fauna: an important component of nurseries. Mar. Ecol. Prog. Ser. 247, 281-295. CrossRef
Grecay, P.A., Targett, T.E., 1996, Effects of turbidity, light level and prey concentration on feeding of juvenile weakfish Cynoscion regalis. Mar. Ecol. Prog. Ser. 131, 11-16. CrossRef
Helfman G.S., 1993, Fish behaviour by day, night and twilight. In: Pitcher T.J. (Ed.) Behaviour of teleost fishes. Second ed., Chapman & Hall, Fish & Fish. Ser. 7, London, pp. 479-512.
Horn M.H., Martin K.L.M., Chotkowski M.A., 1999, Intertidal Fishes: Life in Two Worlds. Academic Press, San Diego.
INMET (Instituto Nacional de Metereologia), 1992, Normais climatológicas (1961-1991). Tech. Rep. Instituto Nacional de Metereologia, Brasilia DF, Brasil.
Kjerfve B., de Lacerda L.D., 1993, Mangroves of Brazil. In: de Lacerda, L.D. (Ed.) Mangrove ecosystems technical reports ITTO TS-13, 245-272.
Kleypas, J., Dean, J.M., 1983, Migration and feeding of the predatory fish, Bairdiella chrysura Lacépède, in an intertidal creek. J. Exp. Mar. Biol. Ecol. 72, 199-209. CrossRef
Koch V., 1999, Epibenthic production and energy flow in the Caeté mangrove estuary, North Brazil. Diss. Bremen Univ., Germany, Fachbereich 2 (Biologie/Chemie), ZMT Contrib. No. 6, Zentrum fuer Marine Tropenoekologie, Bremen, Germany.
Koch, V., Wolff, M., 2002, Energy budget and ecological role of mangrove epibenthic in the Caeté estuary, North Brazil. Mar. Ecol. Prog. Ser. 228, 119-130. CrossRef
Krause, G., Schories, D., Glaser, M., Diele, K., 2001, Spatial patterns of mangrove ecosystems: the bragantinian mangroves of northern Brazil (Bragança, Pará). Ecotropica 7, 93-107.
Krumme U., 2004, Patterns in tidal migration of fish in a Brazilian mangrove channel as revealed by a vertical split-beam echosounder. Fish. Res., in press.
Krumme U., Liang T.H., 2004, Tidal induced changes in a copepod-dominated zooplankton community in a macrotidal mangrove channel in northern Brazil. Zool. Stud. 43(2), 405-415.
Krumme, U., Saint-Paul, U., 2003, Observation of fish migration in a macrotidal mangrove channel in Northern Brazil using 200-kHz split-beam sonar. Aquat. Living Resour. 16, 175-184. CrossRef
Laegdsgaard, P., Johnson, C.R., 1995, Mangrove habitats as nurseries: Unique assemblages of juvenile fish in subtropical mangroves in eastern Australia. Mar. Ecol. Prog. Ser. 126, 67-81. CrossRef
Laegdsgaard, P., Johnson, C.R., 2001, Why do juvenile fish utilise mangrove habitats? J. Exp. Mar. Biol. Ecol. 257, 229-253. CrossRef
Lara, R.J., Dittmar, T., 1999, Nutrient dynamics in mangrove creek (North Brazil) during the dry season. Mangroves and Salt Marshes 3, 185-195. CrossRef
Laroche, J., Baran, E., Rasoanandrasana, N.B., 1997, Temporal patterns in a fish assemblage of a semiarid mangrove zone in Madagascar. J. Fish Biol. 51, 3-20. CrossRef
Lin, H.J., Shao, K.T., 1999, Seasonal and diel changes in a subtropical mangrove fish assemblage. Bull. Mar. Sci. 65, 775-794.
Longhurst A.R., Pauly D., 1987, Ecology of Tropical Oceans. Academic Press, San Diego.
Lum Young P., Ferreira L., Maharaj L., 1992, Stock assessment parameters of five species of Western Atlantic tropical shrimp. Technical Report of the Project for the Establishment of Data Collection Systems and Assessment of the Fisheries Resources. FAO/UNAP:TRI/91/001/TR1. Port of Spain (Trinidad). July, 1992.
Morrison, M.A., Francis, M.P., Hartill, B.W., Parkinson, D.M., 2002, Diurnal and tidal variation in the abundance of the fish fauna of a temperate tidal mudflat. Estuar. Coast. Shelf Sci. 54, 793-807. CrossRef
Nagelkerken, I., Dorenbosch, M., Verberk, W.C.E.P., Cocheret de la Morinière, E., van der Velde, G., 2000, Importance of shallow-water biotopes of a Caribbean bay for juvenile coral reef fishes: patterns in biotope association, community structure and spatial distribution. Mar. Ecol. Prog. Ser. 202, 175-192. CrossRef
Odum, W.E., Heald, E.J., 1972, Trophic analyses of an estuarine mangrove community. Bull. Mar. Sci. 22, 671-738.
Paterson, A.W., Whitfield, A.K., 2000, Do shallow-water habitats function as refugia for juvenile fishes? Estuar. Coast. Shelf Sci. 51, 359-364. CrossRef
Quinn, N.J., 1980, Analysis of temporal changes in fish assemblages in Serpentine creek, Queensland. Environ. Biol. Fish. 5, 117-133. CrossRef
Quinn, N.J., Kojis, B.L., 1981, The lack of changes in nocturnal fish assemblages between new and full moon phases in Serpentine creek, Queensland. Environ. Biol. Fish. 6, 213-218. CrossRef
Robertson, A.I., 1988, Abundance, diet and predators of juvenile banana prawns, Penaeus merguiensis, in a tropical mangrove estuary. Aust. J. Mar. Freshwater Res. 39, 467-478. CrossRef
Robertson A.I., Blaber S.J.M., 1992, Plankton, Epibenthos and Fish Communities. In: Robertson A.I., Alongi D.M. (Eds.), Tropical Mangrove Ecosystems. Coastal and Estuarine Studies 41, American Geophysical Union, Washington, DC, pp. 173-224.
Robertson, A.I., Duke, N.C., 1987, Mangroves as nursery sites: comparisons of the abundance and species composition of fish and crustaceans in mangroves and other nearshore habitats in tropical Australia. Mar. Biol. 96, 193-205. CrossRef
Robertson, A.I., Duke, N.C., 1990, Mangrove fish-communities in tropical Queensland, Australia: spatial and temporal patterns in densities, biomass and community structure. Mar. Biol. 104, 369-379. CrossRef
Rönnbäck, P., Troell, M., Kautsky, N., Primavera, J.H., 1999, Distribution patterns of shrimp and fish among Avicennia and Rhizophora microhabitats in the Pagbilao mangroves, Philippines. Estuar. Coast. Shelf Sci. 48, 223-234. CrossRef
Rountree, R.A., Able, K.W., 1993, Diel variarion in decapod and fish assemblages in New Jersey polyhaline marsh creeks. Estuar. Coast. Shelf Sci. 37, 181-201. CrossRef
Ruiz, G.M., Hines, A.H., Posey, M.H., 1993, Shallow water as a refuge habitat for fish and crustaceans in non-vegetated estuaries: An example from Chesapeake Bay. Mar. Ecol. Prog. Ser. 99, 1-16. CrossRef
Sasekumar, A., Chong, V.C., Leh, M.U., D'Cruz, R., 1992, Mangroves as a habitat for fish and prawns. Hydrobiologia 247, 195-207. CrossRef
Schories, D., Barletta-Bergan, A., Barletta, M., Krumme, U., Rademaker, V., 2003, The keystone role of leaf-removing crabs in mangrove forests of North Brazil. Wetlands Ecol. Manage. 11, 243-255. CrossRef
Smith C.L., 1997, Field Guide to Fishes of the Caribbean, the Gulf of Mexico, Florida, the Bahamas, and Bermuda. Alfred A. Knopf, New York.
Sokal R.R., Rohlf F.J., 1995, Biometry: Principles and practice of statistics in biological research, 3rd edn., W.H. Freeman & Co., New York.
Thollot, P., Kulbicki, M., Harmelin-Vivien, M., 1999, Réseaux trophique et functionnement trophodynamique de l'ichtyofaunne de mangroves de Nouvelle-Calédonie. C. R. Acad. Sci. Paris, Sér. III 322, 607-619.
Tito de Morais, A., Tito de Morais, L., 1994, The abundance and diversity of larval and juvenile fish in a tropical estuary. Estuaries 17, 216-225. CrossRef
Vance, D.J., Haywood, M.D.E., Staples, D.J., 1990, Use of a mangrove estuary as a nursery area by postlarval and juvenile banana prawns, Penaeus merguiensis de Man, in northern Australia. Estuar. Coast. Shelf Sci. 31, 689-702. CrossRef
Weinstein, M.P., Weiss, S.L., Walters, M.F., 1980, Multiple determinants of community structure in shallow marsh habitats, Cape Fear River estuary, North Carolina. Mar. Biol. 58, 227-243. CrossRef
Wilson, J.P., Sheaves, M., 2001, Short-term temporal variations in taxonomic composition and trophic structure of a tropical estuarine fish assemblage. Mar. Biol. 139, 787-796. CrossRef
Wolff, M., Koch, V., Isaac, V., 2000, A trophic flow model of the Caeté mangrove estuary (North Brazil) with considerations for the sustainable use of its resources. Estuar. Coast. Shelf Sci. 50, 789-803. CrossRef
Wright, J.M., 1986, The ecology of fish occurring in shallow water creeks of a Nigerian mangrove swamp. J. Fish Biol. 29, 431-441. CrossRef