Abstract
Freshwater systems contain about 10 % of the fauna species on earth and offer environmental services; however, human activities affect freshwater resources structurally and functionally, reducing the possibilities of using it. Thus, freshwater ecosystems are recognized as the most threatened worldwide, and therefore, aquatic organisms require attention for their conservation. Biological methods have proved to be suitable for the surveillance of aquatic ecosystems. In this sense, given their biological and ecological features, freshwater fish and macroinvertebrates, from the suborganismal to community level, exhibit excellent response signals to stressors. In this contribution, we review the main approaches for assessing freshwater ecosystems using fish and macroinvertebrates. At low organization levels, biomarkers are excellent early warning indicators making evident that organisms have been in contact with contaminants and the effects can be reversible, while the high organization levels reflect an overview of the global impact on aquatic resources; both organization levels show spatial (locally and regionally), and temporal (past and present) effects of water quality conditions of the aquatic ecosystems.
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References
Abbasi T, Abbasi SA (2012) Indices of biological integrity or the multi-metric indices. In: Abbasi T, Abbasi SA (eds) Water quality indices. Elsevier, Oxford, pp 249–335
Adams SM, Greeley MS (2000) Ecotoxicological indicators of water quality: using multi-response indicators to assess the health of aquatic ecosystem. Water Air Soil Pollut 123:103–115
Armitage PD, Moss D, Wright JF (1983) The performance of a new biological water quality score system based on macroinvertebrates over a wide range of polluted running-water sites. Water Res 17:333–347
Balian EV, Lévêque C, Segers H, Martens K (2008) The freshwater animal diversity assessment: an overview of the results. Hydrobiologia 595:627–637
Barata C, Lekumberri I, Vila-Escalé M, Prat N et al (2005) Trace metal concentration, antioxidant enzyme activities and susceptibility to oxidative stress in the trichoptera larvae Hydropsyche exocellata from the Llobregat river basin (NE Spain). Aquat Toxicol 74:3–19
Bartell SM (2006) Biomarkers, bioindicators, and ecological risk assessment—a brief review and evaluation. Environ Bioindic 1:60–73
Barton BA, Morgan JD, Vijayan MM (2002) Physiological and condition-related indicators of environmental stress in fish. In: Adams SM (ed) Biological indicators of aquatic ecosystem stress. American Fisheries Society, Bethesda, pp 111–148
Beliaeff B, Burgeot T (2002) Integrated biomarker response: a useful tool for ecological risk assessment. Environ Toxicol Chem 21:1316–1322
Bonada N, Prat N, Resh VH, Statzner B (2006) Developments in aquatic insect biomonitoring: a comparative analysis of recent approaches. Annu Rev Entomol 51:495–523
Borgmann U, Munawar M (1989) A new standardized sediment bioassay protocol using the amphipod Hyalella azteca (Saussure). Hydrobiologia 188/189:425–531
Cerniawska-Kusza I (2005) Comparing modified biological monitoring working party score system and several biological indices based on macroinvertebrates for water quality assessment. Limnologica 35:169–176
Chapman LJ, Schneider KR, Apodaca C, Chapman CA (2004) Respiratory ecology of macroinvertebrates in a swamp-river system of East Africa. Biotropica 36:572–585
Chessman B (2003) SIGNAL 2 – a scoring system for macro-invertebrate (‘Water Bugs’) in Australian Rivers. Monitoring river heath initiative technical report no 31, Commonwealth of Australia, Canberra
Cota L, Goulart M, Moreno P, Callisto M (2002) Rapid assessment of river water quality using an adapted BMWP index: a practical tool to evaluate ecosystem health. Verh Int Ver Limnol 28:1–4
Couceiro SRM, Hamada N, Forsberg BR, Pimentel TP et al (2012) A macroinvertebrate multimetric index to evaluate the biological condition of streams in the Central Amazon region of Brazil. Ecol Ind 18:118–125
Culp JM, Armanini DG, Dunbar MJ, Orlofske JM et al (2010) Incorporating traits in aquatic biomonitoring to enhance causal diagnosis and prediction. Integr Environ Assess Manag 9999:1–11
Cummins KW, Klug MJ (1979) Feeding ecology of stream invertebrates. Annu Rev Ecol Syst 10:147–172
Cummins KW, Merritt RW, Andrade PCN (2005) The use of invertebrate functional groups to characterize ecosystem attributes in selected streams and rivers in southeast Brazil. Stud Neotrop Fauna Environ 40:71–90
Dudgeon D, Arthington AH, Gessner MO, Kawabata ZI et al (2006) Freshwater biodiversity: importance, threats, status and conservation challenges. Biol Rev 81:163–182
Espinal-Carreon T, Sedeño-Díaz JE, López-López E (2013) Evaluación de la calidad del agua en la Laguna de Yuriria, Guanajuato, México, mediante técnicas multivariadas: un análisis de valoración para dos épocas 2005, 2009–2010. Rev Int Contam Ambie 29(3):147–163
Ferreira WR, Paiva LT, Callisto M (2011) Development of a benthic multimetric index for biomonitoring of a neotropical watershed. Braz J Biol 71:15–25
Flores MJL, Zafaralla MT (2012) Macroinvertebrate composition, diversity and richness in relation to the water quality status of Mananga River, Cebu, Philippines. Philipp Sci Lett 5:103–113
Fossi MC, Marsili L (1997) The use of non-destructive biomarkers in the study of marine mammals. Biomarkers 2:205–216
García LM, Castro B, Ribeiro R, Guilhermino L (2000) Characterization of cholinesterases from guppy (Poecilia reticulata) muscle and its in vitro inhibition by environmental contaminants. Biomarkers 5:274–284
Gerhardt A (1996) Behavioural early warning responses to polluted water, performance of Gammarus pulex L. (Crustacea) and Hydropsyche angustipennis (Curtis) (Insecta) to a complex industrial effluent. Environ Sci Pollut Res 3(2):63–70
Hanson P, Springer M, Ramírez A (2010) Capítulo I Introducción a los grupos de macroinvertebrados acuáticos. Rev Biol Trop 58:3–37
Hawkes HA (1997) Origin and development of the biological monitoring working party score system. Water Res 32:964–968
Hogan A, Vallance T (2005) Rapid assessment of fish biodiversity in southern Gulf of Carpentaria catchments. Project report number QI04074, Queensland Department of Primary Industries and Fisheries, Walkamin
Hyne RV, Maher WA (2003) Invertebrate biomarkers: links to toxicosis that predict population decline. Ecotoxicol Environ Saf 54:366–374
Ippolito A, Todeschini R, Vighi M (2012) Sensitivity assessment of freshwater macroinvertebrates to pesticides using biological traits. Ecotoxicology 21:336–352
Jebali J, Banni M, Guerbej H, Almeida EA et al (2006) Effects of malathion and cadmium on acetylcholinesterase activity and metallothionein levels in the fish Seriola dumerilli. Fish Physiol Biochem 32:93–98
Jesus T (2008) Ecological, anatomical and physiological traits of benthic macroinvertebrates: their use on the health characterization of freshwater ecosystems. Limnetica 27:79–92
John J (2003) Bioassessment of health of aquatic systems by the use of diatoms. In: Ambasht RS, Ambasht NK (eds) Modern trends in applied aquatic ecology. Kluwer Academic/Plenum Publishers, New York, pp 1–20
Kalyoncu H, Zeybek M (2011) An application of different biotic and diversity indices for assessing water quality: a case study in the Rivers Çukurca and Isparta (Turkey). Afr J Agric Res 6:19–27
Karr JR (1991) Biological integrity: a long-neglected of water resource management. Ecol Appl 1:66–84
Karr JR, Dudley DR (1981) Ecological perspective on water quality goals. Environ Manag 5:55–68
Krebs CJ (2009) Ecology: the experimental analysis of distribution and abundance. 6a ed. Vancouver, Canada. 688 pp
Lagadic L, Caquet T (1998) Invertebrates in testing of environmental chemicals: are they alternatives? Environ Health Perspect 106:593–611
Lam PKS (2009) Use of biomarkers in environmental monitoring. Ocean Coast Manag 52:348–354
Li L, Zheng B, Liu L (2010) Biomonitoring and bioindicators used for river ecosystems: definitions, approaches and trends. Procedia Environ Sci 2:1510–1524
Linde-Arias AR, Inácio AF, Novo LA, Alburquerque C et al (2008) Multibiomarker approach in fish to assess the impact of pollution in a large Brazilian river, Paraiba do Sul. Environ Pollut 156:974–979
Livingstone DR (2003) Oxidative stress in aquatic organisms in relation to pollution and aquaculture. Revuer Med Vet 154:427–430
López-López E, Sedeño-Díaz JE, Favari P (2006) Lipid peroxidation, and acethylcholinesterase activity as biomarkers in the black sailfin goodeid Girardinichthys viviparus (Bustamente) exposed to water from Lake Xochimilco (Mexico). Aquat Ecosyst Health Manag 9(3):379–385
López-López E, Sedeño-Díaz JE, Soto C, Favari L (2011) Responses of antioxidant enzymes, lipid peroxidation, and Na+/K+-ATPase in liver of the fish Goodea atripinnis exposed to Lake Yuriria water. Fish Physiol Biochem 37:511–522
Mahabub-Uz-Zaman MD, Ranjan Sarker S, Shahdat Hossain MD (2008) The effects of industrial effluent discharge on lipid peroxide levels of punti fish (Puntius sophore) tissue in comparison with those of freshwater fish. J Food Lipids 15:198–208
Mandaville SM (2002) Benthic macroinvertebrates in freshwaters-taxa tolerance values, metrics, and protocols. (Project H-1) Soil & Water Conservation Society of Metro Halifax. Email: limnes@chebucto.ns.ca. Master Homepage: http://chebucto.ca/Science/SWCS/SWCS.html
Mathuriau C, Mercado Silva N, Lyons J, Martínez Rivera LM (2011) Fish and macroinvertebrates as freshwater ecosystem bioindicators in Mexico: current state and perspectives. In: Spring UO (ed) Water resources in Mexico: scarcity, degradation, stress, conflicts, management, and policy. Springer, Berlin/Heidelberg, pp 251–261
Menezes S, Baird DJ, Soares AMV (2010) Beyond taxonomy: a review of macroinvertebrate trait-based community descriptors as tools for freshwater biomonitoring. J Appl Ecol 47:711–719
Mustow SE (2002) Biological monitoring of rivers in Thailand: use and adaptation of the BMWP score. Hydrobiologia 479:191–229
Nath Singh N, Srivastava AK (2010) Haematological parameters as bioindicators of insecticide exposure in teleosts. Ecotoxicology 19:838–854
Nelson JS (2006) Fishes of the world, 4th edn. John Wiley and Sons, New York 559 pp
Obolewski K (2011) Biodiversity of macroinvertebrates in Oxbow-Lakes of early glacial river basins in northern Poland. In: Grillo O, Venora G (eds) Ecosystems biodiversity. Intech, Rijeka, pp 139–170
Odum EP (1985) Trends expected in stressed ecosystems. BioScience 35(7):419–422
Oertel N, Salánki J (2003) Biomonitoring and bioindicators in aquatic ecosystems. In: Ambasht RS, Ambasht NK (eds) Modern trends in applied aquatic ecology. Kluwer Academic/Plenum Publishers, New York, pp 219–246
Ortiz-Ordoñez E, Uría-Galicia E, Ruiz-Picos RA, Sánchez Duran AG et al (2011) Effect of Yerbimat herbicide on lipid peroxidation, catalase activity, and histological damage in gills and liver of the freshwater fish Goodea atripinnis. Arch Environ Contam Toxicol 61:443–452
Perry JB (2005) Biotic indices of stream macroinvertebrates for fun and (educational) profit. Tested studies for laboratory teaching, vol 26. In: O’Donnell MA (ed) Proceedings of the 26th workshop/conference of the Association for Biology Laboratory Education (ABLE), pp 281–294
Poff NL, Olden JD, Vieira NKM, Finn DS et al (2006) Functional trait niches of North American lotic insects: traits-based ecological applications in light of phylogenetic relationships. J N Am Benthol Soc 25:730–755
Reece PF, Richardson JS (2000) Biomonitoring with the reference condition approach for the detection of aquatic ecosystems at risk. In: Darling LM (ed) Proceedings of a conference on the biology and management of species and habitats at risk, vol 2. BC Ministry of Environment, Lands and Parks, Victoria, BC and University College of the Cariboo, Kamloops, BC, pp 549–552
Roche KF, Queiroz EP, Righi KOC, Souza GM (2010) Use of the BMWP and ASPT indexes for monitoring environmental quality in a neotropical stream. Acta Limnol Bras 22:105–108
Sedeño-Díaz JE, López-López E (2007) Water quality in the Río Lerma, Mexico: an overview of the last quarter of the twentieth century. Water Resour Manag 21:1797–1812
Sedeño-Díaz JE, López-López E (2012) Freshwater fish as sentinel organisms: from the molecular to the population level, a review. In: Turker H (ed) New advances and contributions to fish biology. Intech, Rijeka, pp 151–173
Sherry JP (2003) The role of biomarkers in the health assessment of aquatic ecosystem. Aquat Ecosyst Health Manag 6:423–440
Shugart LR, McCarthy JF, Halbrook RS (1992) Biological markers of environmental and ecological contamination: an overview. Risk Anal 12:353–360
Springer M (2010) Biomonitoreo acuático. Int J Trop Biol 58:53–59
Stoddard JL, Herlihy AT, Peck DV, Hughes RM et al (2008) A process for creating multimetric indices for large-scale aquatic surveys. J N Am Benthol Soc 27:878–891
Tejeda-Vera R, López-López E, Sedeño-Díaz JE (2007) Biomarkers and bioindicators of the health condition of Ameca splendens and Goodea atripinnis (Pisces: Goodeaidae) in the Ameca River, Mexico. Environ Int 33:521–531
Thorne RSTJ, Williams WP (1997) The response of benthic macroinvertebrates to pollution in developing countries: a multimetric system of bioassessment. Freshw Biol 37:671–686
Trujillo Jiménez P, Sedeño-Díaz JE, Camargo JA, López-López E (2011) Assessing environmental conditions of the Río Champotón (México) using diverse indices and biomarkers in the fish Astyanax aeneus (Günther, 1860). Ecol Ind 11:636–1646
Van der Oost R, Beyer J, Vermeulen NPE (2003) Fish bioaccumulation and biomarkers in environmental risk assessment: a review. Environ Toxicol Pharmacol 13:57–149
Vannote RL, Whyne Minshall G, Cummis KW, Sedell JR et al (1980) The river continuum concept. Can J Fish Aquat Sci 37:130–137
Weigel BM, Henne LJ, Martínez-Rivera LM (2002) Macroinvertebrate-based index of biotic integrity for protection of streams in west-central Mexico. J N Am Benthol Soc 21:686–700
Wootton RJ (1992) Fish ecology. Chapman and Hall, New York. 215 pp
Wyzga B, Oglecki P, Hajdukiewicz H, Zawiejska J et al (2013) Interpretation of the invertebrate-based BMWP-PL index in a gravel-bed river: insight from the Polish Carpathians. Hydrobiologia 712:71–88
Zhou Q, Zhang J, Fu J, Shi J et al (2008) Biomonitoring: an appealing tool for assessment of metal pollution in the aquatic ecosystem. Anal Chim Acta 606:135–150
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López-López, E., Sedeño-Díaz, J.E. (2015). Biological Indicators of Water Quality: The Role of Fish and Macroinvertebrates as Indicators of Water Quality. In: Armon, R., Hänninen, O. (eds) Environmental Indicators. Springer, Dordrecht. https://doi.org/10.1007/978-94-017-9499-2_37
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