Abstract
Macroinvertebrate signature traits’ and ecological preferences’ distribution patterns and their responses to urban and agricultural pollution were explored in rivers-draining urban–agricultural catchments within the Niger Delta ecoregion of Nigeria. Physico-chemical variables (water temperature, electrical conductivity, depth, flow velocity, dissolved oxygen, biochemical oxygen demand, nitrates and phosphates) were sampled alongside macroinvertebrates in 17 sites of 11 rivers for a period of five years (2008–2012). Physico-chemically based classification using principal component analysis classify selected sites into least impacted sites (LIS), moderately impacted sites (MIS) and heavily impacted sites (HIS). The results based on RLQ [physico-chemical variables (R), macroinvertebrate taxa (L) and traits and ecological preferences (Q)] and fourth-corner analyses showed that preference for permanent attachment, high sensitivity to oxygen depletion, moderate sensitivity to oxygen depletion and large body size (> 20–40 mm) which were associated with LIS were also positively correlated with DO; thus, they were deemed sensitive to urban–agricultural pollution. Detritus (CPOM) and very small body size (< 5 mm) that were associated with HIS were deemed tolerant to urban–agricultural pollution. Box plots and Kruskal–Wallis test revealed that all sensitive traits and ecological preferences were not significantly different between LIS, MIS and HIS (p > 0.05) except for large body size, while tolerant traits CPOM and very small body size were significantly highest at HIS (p < 0.05). Generally, the study observed differential patterns in the distribution of traits and ecological preferences to urban–agricultural pollution.
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Akamagwuna FC, Mensah PK, Nnadozie CF, Odume, ON (2019) Traits-based responses of Ephemeroptera, Plecoptera and Trichoptera to sediment stress in the Tsitsa River and its tributaries, Eastern Cape, South Africa. River Res Appl 35(7):999–1012 https://doi.org/10.1002/rra.3458
APHA (1995) Standard methods for the examination of water and wastewater. American Public Health Association, Washington, DC
Arimoro FO, Ikomi RB, Nwadukwe FO, Eruotor OD, Edegbene AO (2014) Fluctuating salinity levels and increasing pollution gradient on fish community structure and trophic levels in a small creek in the Niger Delta, Nigeria. Int Aquat Res 6(4):187–202
Arimoro FO, Odume ON, Uhunoma SI, Edegbene AO (2015) Anthropogenic impact on water chemistry and benthic macroinvertebrate associated changes in a southern Nigeria stream. Environ Monit Assess 187(2):1–14
Berger E, Haase P, Schafer RB, Sundermann A (2018) Towards stressor-specific macroinvertebrate indices: which traits and taxonomic groups are associated with vulnerable and tolerant taxa? Sci Total Environ 619:144–154
Bonada N et al (2011) Do Mediterranean genera not included in Tachet et al. 2002 have Mediterranean trait characteristics? Limnetica 30:129–142
Chevenet F, Dolédec S, Chessel D (1994) A fuzzy coding approach for analysis of long term ecological data. Freshw Biol 31:295–309
Day JA, Harrison AD, De Moor IJ (2003) Guides to the freshwater invertebrates of Southern Africa: diptera. Water Res Comm, Pretoria
De Moor IJ, Day JA, de Moor FC (2003) Guides to the Freshwater Invertebrates of Southern Africa. Volume 7: Insecta I. Ephemeroptera, Odonata and Plecoptera. Water Research Commission, Report No. TT207/03
Descloux S, Datry T, Usseglio-polatera P (2014) Trait-based structure of invertebrates along a gradient of sediment colmation: Benthos versus hyporheos responses. Sci Total Environ 466–467:265–276
Desrosiers M, Usseglio-Polatera P, Archaimbault V, Larras F, Methot G, Pinel-Alloul B (2019) Assessing anthropogenic pressure in the St. Lawrence River using traits of benthic macroinvertebrates. Sci Total Environ 649:233–246
Ding N, Yang W, Zhou Y, Gonzalez-Bergonzoni I, Zhang J, Chen K, Vidal N, Jeppesen E, Liu Z, Wang B (2017) Different responses of functional traits and diversity of stream macroinvertebrates to environmental and spatial factors in the Xishuangbanna watershed of the upper Mekong River Basin, China. Sci Total Environ 574:288–299
Dolédec S, Chessel D, ter Braak CJF, Champely S (1996) Matching species traits to environmental variables: a new three-table ordination method. Environ Ecol Stat 3(2):143–166
Dray S, Dufour AB (2007) The ade4 package: implementing the duality diagram for ecologists. J Stat Softw 22:1–20
Edegbene AO, Arimoro FO (2012) Ecological status of Owan River, Southern Nigeria using aquatic insects as bioindicators. J Aquat Sci 27:99–111
Edegbene AO, Arimoro FO, Odume ON (2019) Developing and applying a macroinvertebrate-based multimetric index for urban rivers in the Niger Delta, Nigeria. Ecol Evolut 9:12869–12885
Forio MAE, Goethals PLM, Lock K, Asio V, Bande M, Thas O (2018) Model-based analysis of the relationship between macroinvertebrate traits and environmental river conditions. Environ Model Softw 106:57–67
Gomes WIA, Jovem-Azevedo DS, Paiva FF, Milesi SV, Molozi J (2018) Functional attributes of chironomidae for detecting anthropogenic impacts on reservoirs: a biomonitoring approach. Ecol Ind 93:404–410
Gordon ND, McMahon TA, Finlayson BL (1994) Stream hydrology, an introduction for ecologists. Wiley, New York
Krynak EM, Yates AG (2018) Benthic invertebrates taxonomic and trait associations with land use intensively managed watershed: implications for indicator identification. Ecol Ind 93:1050–1059
Kuzmanovic M, Doledec S, deCatro-Catala N, Ginebreda A, Sabater S, Munoz I, Barcelo D (2017) Environmental stressors as driver of the trait composition of benthic macroinvertebrates assemblages in polluted Iberian rivers. Environ Res 156:485–493
Lange K, Townsend CR, Matthaei CD (2014) Can biological traits of stream invertebrates help disentangle the effects of multiple stressors in an agricultural catchment? Freshw Biol 59:2431–2446
Lazorchak JM, Klemm DJ, Peck DV (1998) Environmental monitoring and assessment program surface waters: field operations and methods manual for measuring the ecological condition of wadeable streams. EPA 620/R-94/004F. U.S. Environmental Protection Agency, Washington, DC
Liess M, Von der Ohe PC (2005) Analysing effects of pesticides on invertebrate communities in streams. Environ Toxicol Chem 24(4):954–965
McGill BJ, Enquist BJ, Weiher E, Westoby M (2006) Rebuilding community ecology from functional traits. Trends Ecol Evol. https://doi.org/10.1016/j.tree.2006.02.002
Merritt RW, Cummins KW (1996) An introduction to the aquatic insects of North America. Kendall Hunt, St. Louis
Milosevic D, Stojanovic K, Djurdevic A, Zoran M, Piperac SM, Zivic M, Zivic I (2018) The response of chironomid taxonomy-and functional trait-based metrics to fish farm effluent pollution in lotic systems. Environ Pollut 242:1058–1066
Murphy JF, Davy-Bowker J, McFarland B, Ormerod SJ (2013) A diagnostic biotic index for assessing acidity in sensitive streams in Britain. Ecol Ind 24:562–572
Murphy JF, Jones JI, Arnold A, Duerdoth CP, Pretty JL, Naden PS, Sear DA, Collins AL (2017) Can macroinvertebrate biological traits indicate fine-grained sediment conditions in streams? River Res Appl 33:1606–1617
Odume ON (2020) Searching for urban pollution signature and sensitive macroinvertebrate traits and ecological preferences in a river in the Eastern Cape of South Africa. Ecol Ind. https://doi.org/10.1016/j.ecolind.2019.105759
Odume ON, Palmer CG, Arimoro FO, Mensah PK (2014) Patterns of chironomid body-size distribution in an effluent-impacted river in the Eastern Cape, South Africa. Afr J Aquat Sci 39(4):377–386
Odume ON, Palmer CG, Arimoro FO, Mensah PK (2016) Chironomid assemblage structure and morphological response to pollution in an effluent-impacted river, Eastern Cape, South Africa. Ecol Ind 67:391–402
Odume ON, Ntokolo P, Akamagwuna FC, Dallas HM, Barber-James H (2018) A trait database for South African macroinvertebrates. Grant report submitted to Water Research Commission of South Africa. WRC Report No. K1/7157
Oksanen J, Blanchet D, Minchin PR, O’Hara RB, Simpson GL, Solymos P, Steven MHM, Szoecs E, Wagner H (2019) R Development Core Team. Vegan: Community Ecology Package. Retrieved 11/02/2019 from https://cran.r-project.org, https://github.com/veganders/vegan. Published 04-02-2019, 11:50:04 UTC
Pallottini M, Cappelletti D, Fabrizi A, Gaino E, Goretti E, Selvaggi R, Cereghino R (2017) Macroinvertebrate functional trait responses to chemical pollution in agricultural landscapes. River Res Appl 33:505–513
Poff NL, Olden JD, Vieira NKM, Finn DS, Simmons MP, Konddratieff BC (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
Statzner B, Beche L (2010) Can biological invertebrate traits resolve effects of multiple stressors on running water ecosystems? Freshw Biol 55:80–199
Tockner K, Uehlinger U, Robinson CT (2009) Rivers of Europe. Elsevier, Amsterdams
Townsend CR, Hildrew AG (1994) Species traits in relation to a habitat templet for river systems. Freshw Biol 31:265–275
Umoh SG (2008) The promise of wetland farming; evidence from Nigeria. Agric J 3:107–112
Walsh CJ, Jack WF, Cottingham PD, Groffman PM, Morgan RP (2005) The urban syndrome: current knowledge and the search for a cure. J N Am Benthol Soc 24(3):706–723
Acknowledgements
The first author was a recipient of African Renaissance Doctoral grant co-sponsored by the National Research Foundation of South Africa and The World Academy of Sciences (NRF-TWAS) (Grant No. 110894).We acknowledge the effort of Miss Bawinile Mahlaba of the Institute for Water Research, Rhodes University, Grahamstown, South Africa, for helping with the study area map. We also acknowledged Mrs. Edegbene Ovie Tega Treasure for her technical assistance.
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Edegbene, A.O., Arimoro, F.O. & Odume, O.N. Exploring the distribution patterns of macroinvertebrate signature traits and ecological preferences and their responses to urban and agricultural pollution in selected rivers in the Niger Delta ecoregion, Nigeria. Aquat Ecol 54, 553–573 (2020). https://doi.org/10.1007/s10452-020-09759-9
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DOI: https://doi.org/10.1007/s10452-020-09759-9