Influence of watershed land use and riparian characteristics on biological indicators of stream water quality in southeastern Brazil

• Published in: Agriculture, ecosystems & environment Vol. 216; pp. 333 - 339
• Main Authors: Tanaka, Marcel Okamoto, Souza, Andréa Lúcia Teixeira de, Moschini, Luiz Eduardo, Oliveira, Alexandre Kannebley de
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 15.01.2016
• Subjects: Forest remnants; Land use; Riparian forest structure; Rural landscapes; Stream water quality; Tropical streams; ASW, Brazil; Forest remnants; Stream water quality; Rural landscapes; Tropical streams; Land use; Riparian forest structure
• ISSN: 0167-8809; 1873-2305
• DOI: 10.1016/j.agee.2015.10.016

•We studied effects of land use and riparian degradation on stream water quality.•Chemical characteristics were related to land use, especially cover by pasture.•Macroinvertebrates and DO concentrations were related to riparian forest structure.•Fish indicators were related to forest cover in the microbasin.•Chemical and biological indicators can respond to drivers at distinct spatial scales. Land use changes and riparian corridor degradation strongly influence the water quality of low-order streams at different spatial scales. Stream water quality can be analyzed by chemical and biological indicators, but which are generally evaluated separately. Here, we evaluated if anthropogenic alterations at distinct spatial scales (estimated by land use, riparian zone composition, and riparian forest structure) influenced stream water quality according to chemical and biological (e.g., fish and macroinvertebrate) indicators in a tropical rural landscape (SE Brazil). We found higher total nitrogen concentrations and electric conductivity in streams with land use dominated by pasture and narrower riparian forests, higher diversity of macroinvertebrates and dissolved oxygen concentrations in streams with higher cover and width of riparian forests although land use was dominated by sugarcane, whereas fish diversity was related with natural vegetation cover at the watershed scale. Thus, stream water quality indicators responded to variation at both scales studied, with interactions between land use and riparian corridor characteristics. These results suggest that different degradation drivers may account for variation of different types of indicators (chemical vs. fishes vs. macroinvertebrates) at distinct spatial scales.