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More about Taxonomic Sufficiency: A Case Study using Polychaete Communities in a Subtropical Bay Moderately Affected by Urban Sewage  

Muniz Pablo (Seccion Oceanologia, Facultad de Ciencias)
Pires-Vanin Ana M. S. (Instituto Oceanografico da Univ. de Sao Paulo (IOUSP))
Publication Information
Ocean Science Journal / v.40, no.3, 2005 , pp. 127-143 More about this Journal
Abstract
The taxonomic sufficiency approach has been proposed as a surrogate for the typical analysis of species-abundance data, especially in conditions involving prominent pollution gradients. Here, we evaluate the use of taxonomic sufficiency with infralittoral macrobenthic data derived from samples taken in a moderate polluted subtropical environment in southeastern Brazil, analysing five taxonomic levels and including two functional levels throughout polychaete feeding guilds and trophic groups. The data were collected seasonally at nine stations and studied for two abundance data series (0.5 and 1.0 mm sieve mesh-size). The results showed a similar ordination pattern between the two sieve mesh-size, but with the 0.5 mm sieve data a different pattern was observed during austral summer. A slight loss of information was detected using genus, family, polychaete species and their feeding guilds as taxonomic/functional units. These results together with those of the cost! benefit ratio, suggested that the family level seemed to be sufficient to detect the impact caused by moderate pollution in this shallow-water, subtropical environment. In additional, through the use of feeding guilds, similar patterns are obtained. Correlation analysis showed that chlorophyll a, total organic matter, zinc, and chromium sediment content were the variables that best explained the biological pattern observed and not always the best correlation coefficient occurring at the species level. The feeding guild approach seems to be useful and generates interpretable results similar to those obtained with the species level of the whole macroinfauna. The results showed an important cost reduction in the sample processing, suggesting that it is possible to adopt a coarser taxonomic level monitoring program even in species-rich communities.
Keywords
macrobenthos; taxonomic resolution; pollution; monitoring; Brazil;
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1 Boero, F. 2001. Light after dark: The partnership for enhancing expertise in taxonomy. T. Ecol. Evol., 16, 266   DOI   ScienceOn
2 Bray, J.R. and J.T. Curtis. 1957. An ordination of the upland forest communities in southern Wisconsin. Ecol. Monogr., 27, 325-349   DOI   ScienceOn
3 CETESB (Companhia de Tecnologia de Saneamento Ambiental), 2000. Relatorio de Balneabilidade das Praias Paulistas-1995. Secretaria do Meio Ambiente, Sao Paulo, Brazil
4 Chapman, M.G. 1998. Relationships between spatial patterns of benthic assemblages in a mangrove forest using different levels of taxonomic resolution. Mar. Ecol. Prog. Ser., 162, 71-78   DOI
5 Defeo, O. and D. Lercari. 2004. Testing taxonomic resolution levels for ecological monitoring in sandy beach macrobenthic communities. Aquat. Conserv.: Mar. Freshw. Ecosys., 14, 65-74   DOI   ScienceOn
6 Fauchald, K. and P.A. Jumars. 1979. The diet of worms: A study of the polychaete feeding guilds. Oceanogr. Mar. Biol. An. Rev., 1, 193-284
7 Ferraro, S.P. and F.A. Cole. 1995. Taxonomic level sufficient for assessing pollution impacts on the Southern California Bight macrobenthos - revisited. Environm. Toxicol. Chem., 14, 1031- 1040   DOI   ScienceOn
8 Gomez Gesteira, J.L., J.C. Dauvin, and M. Salvande Fraga. 2003. Taxonomic level for assessing oil spill effects on softbottom sublittoral benthic communities. Mar. Pollut. Bull., 46, 562-572   DOI   ScienceOn
9 Gray, J.S., K.R. Clarke, R.M. Warwick, and G. Hobbs. 1990. Detection of initial effects of pollution on marine benthos: An example from the Ekofisk and Elfisk oilfields, North Sea. Mar. Ecol. Prog. Ser., 66, 285-299   DOI
10 Herman, P.M.J. and C. Heip. 1988. On the use of meiofauna in ecological monitoring: Who needs taxonomy? Mar. Pollut. Bull., 19, 45-60   DOI   ScienceOn
11 Kingston, P.F. and M.J. Riddle. 1989. Cost effectiveness of benthic faunal monitoring. Mar. Pollut. Bull., 20, 490-496   DOI   ScienceOn
12 Muniz, P., N. Venturini, A.M.S. Pires-Vanin, L.R. Tommasi, and A. Borja. 2005. Testing the applicability of a Marine Biotic Index (AMBI) to assessing the ecological quality of softbottom benthic communities, in the South America Atlantic region. Mar. Pollut. Bull., 50, 624-637   DOI   ScienceOn
13 Olsgard, F., P.J. Somerfield, and M.R. Carr. 1997. Relationships between taxonomic resolution and data transformations in analyses of a macrobenthic community along an established pollution gradient. Mar. Ecol. Prog. Ser., 149, 173-181   DOI
14 Paiva, P.C. 1993. Trophic structure of a shelf taxocoenosis in southern Brazil. Cah. Biol. Mar., 35, 39-55
15 Pires-Vanin, A.M.S., C.L.D.R. Rossi-Wongtschowski, E. Aidar, H.S.L. Mesquita, L.S.H. Soares, M. Katsuragawa, and Y. Matsuura. 1993. Estrutura e funcao do ecossistema de plataforma continental da regiao de Ubatuba, Sao Paulo: Sintese dos resultados. Publicacoes Especiais do Instituto Oceanografico (Sao Paulo), 10, 217-231
16 Somerfield, P.J. and K.R. Clarke. 1995. Taxonomic levels, in marine community studies, revisited. Mar. Ecol. Prog. Ser., 127, 113-119   DOI   ScienceOn
17 Hunt, J.D. 1925. The food of the bottom fauna of the Plymouth fishing grounds. J. Mar. Biol. Ass. UK., 13, 560-599   DOI
18 Thompson, B.W., M.J. Riddle, and J.S. Stark. 2003. Costefficient methods for marine pollution monitoring at Casey Station, East Antarctica: The choice of sieve mesh-size and taxonomic resolution. Mar. Pollut. Bull., 46, 232-243   DOI   ScienceOn
19 Ward, T.J. and P.A. Hutchings. 1996. Effects of trace metals on infaunal species composition in polluted intertidal and subtidal marine sediments near a lead smelter, Spencer Gulf, South Australia. Mar. Ecol. Prog. Ser., 135, 123-135   DOI
20 Warwick, R.M. 1988a. Analysis of community attributes of the macrobenthos of Frierfjord/Langesundfjord at taxonomic levels higher than species. Mar. Ecol. Prog. Ser., 46, 167-170   DOI
21 Somerfield, P.J., J.M. Gee, and R.M. Warwick.. 1994. Benthic community structure in relation to an instantaneous discharge of waste water from a tin mine. Mar. Pollut. Bull., 28, 363-369   DOI   ScienceOn
22 Ellis, D.V. and S. Cross. 1981. A protocol for inter-laboratory calibrations of biological species identifications (rings tests). Wat. Res., 15, 1107-1108   DOI   ScienceOn
23 Olsgard, F., P.J. Somerfield, and M.R. Carr. 1998. Relationships between taxonomic resolution, macrobenthic community patterns and disturbance. Mar. Ecol. Prog. Ser., 172, 25-36   DOI
24 Paiva, P.C. 2001. Spatial and temporal variation of a nearshore benthic community in Southern Brazil: Implications for the design of monitoring programs. Estuar. Coast. Shelf Sci., 52, 423-433   DOI   ScienceOn
25 Ferraro, S.P. and F.A. Cole. 1990. Taxonomic level and sample size sufficient for assessing pollution impacts on the Southern California Bight macrobenthos. Mar. Ecol. Prog. Ser., 67, 251-262   DOI
26 Muniz, P., P.Y.G. Sumida, and A.M.S. Pires-Vanin. 1998. Trophic structure of polychaetes in two bays of the Southeastern Brazilian Coast (Mar Virado and Fortaleza, Ubatuba, Sao Paulo). Oebalia, 24, 39-53
27 Vanderklift, M.A., T.J. Ward, and C.A. Jacoby. 1996. Effect of reducing taxonomic resolution on ordinations to detect pollution-induced gradients in macrobenthic infaunal assemblages. Mar. Ecol. Prog. Ser., 136, 137-145   DOI
28 Bianchi, C.N. and C. Morri. 1985. I policheti come descrittori della struttura trofica degli ecosistemi marini. Oebalia, 11, 203-214
29 Gaston, G.R. 1987. Benthic Polychaete of the middle Atlantic Bight: Feeding and distribution. Mar. Ecol. Prog. Ser., 36, 251-262   DOI
30 Pik, A.J., I. Oliver, and A.J. Beattie. 1999. Taxonomic sufficiency in ecological studies of terrestrial invertebrates. Austr. J. Ecol., 24, 555-562   DOI
31 Maurer, D. 2000. The dark side of taxonomic sufficiency (TS). Mar. Pollut. Bull., 40, 98-101   DOI   ScienceOn
32 Mahiques, M.M., M.G. Tessler, and V.V. Furtado. 1998. Characterization of energy gradient in enclosed bays of Ubatuba region, south-eastern, Brazil. Estur. Coast. Shelf Sci., 47, 431-446   DOI   ScienceOn
33 Furtado, V.V., M.C. Bicego, and R.R. Weber. 1987. Modelo de dispersao de oleo na regiao do canal de Sao Sebastiao. Publicacao ACIESP, 54, 371-388
34 Hartley, J.P. 1982. Methods for monitoring offshore macrobenthos. Mar. Pollut. Bull., 13, 150-154   DOI   ScienceOn
35 Mahiques, M.M. 1995. Sedimentary dynamics of the bays of Ubatuba, State of Sao Paulo. Bol. Instit. Oceanogr. Sao Paulo, 43, 111-122   DOI
36 Pardo, V.E. 1995. Padroes de distribuicao e estrutura trofica dos poliquetos da regiao entremares de praias da Ilha de Sao Sebastiao (ILhabela, SP). M.S. thesis, Universidade Estadual Paulista, Rio Claro, SP, Brazil
37 Gage, J.D. and P.A. Tyler. 1991. Deep-Sea Biology: A natural history of organism at the deep-sea floor. Cambridge University Press, Cambridgeo
38 Gaston, G.R. and J.C. Nasci. 1988. Trophic structure of macrobenthic communities in the Calcasieu Estuary, Louisiana. Estuaries, 11, 201-211   DOI   ScienceOn
39 Dauer, D.M. 1984. The use of polychaete feeding guilds as biological variables. Mar. Pollut. Bull., 15, 301-305   DOI   ScienceOn
40 Fiori, C. da S. and A. Soares-Gomes. 2002. Taxonomic sufficiency for a monitoring program in a tropical continental shelf, Rio de Janeiro, Brazil. In: Oil and Hydrocarbon Spills III. Modelling, analysis and control, ed. by C.A. Brebbia. Wessex Institute of Technology, UK Wit Press Southampton
41 Clarke, K.R. and M. Ainsworth. 1993. A method of linking multivariate community structure to environmental variables. Mar. Ecol. Prog. Ser., 216, 265-278
42 Muniz, P. and A.M.S. Pires. 2000. Polychaete associations in a subtropical environment (Sao Sebastiao Channel, Brazil): A structural analysis. PSZN Mar. Ecol., 21, 145-160   DOI   ScienceOn
43 Warwick, R.M. 1993. Environmental studies on marine communities: Pragmatical considerations. Austr. J. Ecol., 18, 63-80   DOI
44 Burone, L., P. Muniz, A.M.S. Pires-Vanin, and M. Rodrigues. 2003. Spatial distribution of organic matter in the surface sediments of Ubatuba Bay (Southeastern . Brazil). An. Acad. Brasil. Cien., 75, 77-90   DOI
45 Ellis, D. 1985. Taxonomic sufficiency in pollution assessment. Mar. Pollut. Bull., 16, 59
46 Jorgensen, B. 1996. Material flux in the sediment. In: Coastal and estuarine studies, ed. by B. Jorgensen and K. Richardson. American Geophysical Unionation
47 Mistri, M. and R. Rossi. 2000. Levels of taxonomic resolution and choice of transformation sufficient to detect community gradients: an approach to hard-substrata benthic studies. Italian J. Zool., 67, 163-167
48 Muniz, P. 2003. Comunidades macrobenticas como indicadoras da qualidade ambiental de ecossistemas costeiros rasos: Estudo de caso . Enseada de Ubatuba (SP, Brazil). Ph.D thesis, University of Sao Paulo, SP, Brazil
49 Pik, A.J., J.M. Dangerfield, R.A. Bramble, C. Angus, and D.A. Nipperess. 2002. The use of invertebrates to detect smallscale habitat heterogeneity and its application to restoration practices. Environm. Monit. Assess., 75, 179-199   DOI   ScienceOn
50 CETESB (Companhia de Tecnologia de Saneamento Ambiental). 1996. Relatorio de Balneabilidade das Praias Paulistas-1995. Secretaria do Meio Ambiente, Sao Paulo, Brazil
51 Muniz, P. and A.M.S. Pires. 1999. Trophic structure of polychaetes in the Sao Sebastiao Channel (southeastern Brazil). Mar. Biol., 134, 517-528   DOI   ScienceOn
52 Terlizzi, A., S. Bevilacqua, S. Fraschetti, and F. Boero. 2003. Taxonomic sufficiency and the increasing insufficiency of taxonomic expertise. Mar. Pollut. Bull., 46, 556-561   DOI   ScienceOn
53 Clarke, K.R. and R.M. Warwick. 1994. Change in Marine communities: An approach to statistical analysis and interpretation. Plymouth Marine Laboratory, Plymouth
54 Karakassis, I. and Hatziyanni. 2000. Benthic disturbance due to fish farming analyzed under different levels of taxonomic resolution. Mar. Ecol. Prog. Ser., 203, 247-253   DOI
55 Arasaki, E., P. Muniz, and A.M.S. Pires-Vanin. 2004. A functional analysis of the benthic macrofauna of the Sao Sebasitao Channel (southeastern Brazil). PSZN Mar. Ecol., 25, 249- 263   DOI   ScienceOn
56 Bilyard, G.R. 1987. The value of benthic fauna in marine pollution studies. Mar. Pollut. Bull., 18, 581-585   DOI   ScienceOn
57 Gray, J.S., M. Aschan, M.R. Carr, K.R. Clarke, R.H. Green, T.H. Pearson, R. Rosenberg, and R.M. Warwick. 1998. Analysis of community attributes of the benthic macrofauna of Frierfjord/Langensundfjord and in a mesocosm experiment. Mar. Ecol. Prog. Ser., 46, 151-165   DOI
58 Lastra, M., J. Palacio, A. Sanchez, and J. Mora. 1991. Estructura trofica infralitoral de la bahia de Santander. Cah. Biol. Mar., 32, 333-351
59 Bayne, B.L., K.R. Clarke, and J.S. Gray. 1988. Biological effects of pollutants: Results of a practical workshop. Mar. Ecol. Prog. Ser., 92, 233-243
60 Probert, P.K. 1984. Disturbance, sediment stability, and trophic structure of soft-bottom communities. J. Mar. Res., 42, 893- 921   DOI   ScienceOn
61 Dauer, D.M., C.A. Maybury, and R.M. Ewing. 1981. Feeding behavior and general ecology of several spionid polychaetes from the Chesapeake Bay. J. Exper. Mar. Biol. Ecol., 54, 21-38   DOI   ScienceOn
62 Maurer, D. and W. Leathem. 1981. Dominant species of polychaetous annelids of Georges Bank. Mar. Ecol. Prog. Ser., 3, 135-144   DOI
63 Pagola-Carte, S., J. Urkiaga-Alberdi, M. Bustamante, and J.I. Saiz-Salinas. 2002. Concordance degrees in macrozoobenthic monitoring programmes using different sampling methods and taxonomic resolution levels. Mar. Pollut. Bull., 44, 63-70   DOI   ScienceOn
64 Boesch, D.F. 1972. Species diversity of marine macrobenthos in the Virginia area, Chesapeake. Science, 13, 260-281
65 Kruskal, J.B. and M. Wish. 1978. Multidimensional scaling. California Sage, Beverly Hills
66 Warwick, R.M. 1988b. The level of taxonomic discrimination required to detect pollution effects on marine benthic communities. Mar. Pollut. Bull., 19, 259-268   DOI   ScienceOn