Responses of aquatic communities to physical and chemical parameters in agriculturally impacted coastal river systems

Petersen, Chantel2017-04-072017-04-072017-04-05Petersen, C. 2017. Responses of aquatic communities to physical and chemical parameters in agriculturally impacted coastal river systems. http://hdl.handle.net/10204/8989http://hdl.handle.net/10204/8989Dataset consisting of one Excel spreadsheet and one MS Word documentThe assessment of ecological integrity of river systems is a multidisciplinary research field necessary for effective river management. The objectives of the current study were: (i) to characterize the spatial and temporal distribution and community assemblages of macroinvertebrates and algae down a longitudinal gradient and; (ii) to determine the environmental variables that affect assemblage distribution. The study occurs in agriculturally influenced coastal rivers in the southern Cape, South Africa, over a period of two years (wet and dry seasons). At upstream sites low electrolytes (electrical conductivity: 12-30 mS m) and nutrients (total nitrogen: <1 mg L) were recorded. Moving down the longitudinal gradient agricultural influences impacted water quality and aquatic communities. Increased electrical conductivity (> 100 mS m) and nutrients were observed during the wet season. The downstream site showed a positive correlation between nitrogen, phosphates and silica and the river flow regime. Upstream sites were dominated by diatoms and macroinvertebrates indicative of low pH values, low electrolytes and oligotrophic conditions. The benthic substrate of the downstream site was dominated by benthic filamentous algae during the dry and wet seasons, which were associated with increased water alkalinities (34-48 mg L:dry; 24-63 mg L:wet), water hardness (CaCO3) (117- 133 mg L: dry; 24-67 mg L: wet) and nutrients (total phosphorus: 0.44 mg L: dry; 0.26 mg L:wet) under an altered flow regime. Mesotrophic conditions were a usual occurrence during both dry and wet seasons. The altered flow regime at this site played a role in algal and macroinvertebrate assemblages that occurred.enCC0 1.0 UniversalEcological integrityBenthic algaeMacroinvertebratesResponses of aquatic communities to physical and chemical parameters in agriculturally impacted coastal river systemsDatasetPetersen, C. 2017. Responses of aquatic communities to physical and chemical parameters in agriculturally impacted coastal river systems. http://hdl.handle.net/10204/8989Petersen, Chantel. 2017. Responses of aquatic communities to physical and chemical parameters in agriculturally impacted coastal river systems. http://hdl.handle.net/10204/8989Petersen C. 2017. Responses of aquatic communities to physical and chemical parameters in agriculturally impacted coastal river systems. http://hdl.handle.net/10204/8989TY - Dataset AU - Petersen, Chantel AB - The assessment of ecological integrity of river systems is a multidisciplinary research field necessary for effective river management. The objectives of the current study were: (i) to characterize the spatial and temporal distribution and community assemblages of macroinvertebrates and algae down a longitudinal gradient and; (ii) to determine the environmental variables that affect assemblage distribution. The study occurs in agriculturally influenced coastal rivers in the southern Cape, South Africa, over a period of two years (wet and dry seasons). At upstream sites low electrolytes (electrical conductivity: 12-30 mS m) and nutrients (total nitrogen: <1 mg L) were recorded. Moving down the longitudinal gradient agricultural influences impacted water quality and aquatic communities. Increased electrical conductivity (> 100 mS m) and nutrients were observed during the wet season. The downstream site showed a positive correlation between nitrogen, phosphates and silica and the river flow regime. Upstream sites were dominated by diatoms and macroinvertebrates indicative of low pH values, low electrolytes and oligotrophic conditions. The benthic substrate of the downstream site was dominated by benthic filamentous algae during the dry and wet seasons, which were associated with increased water alkalinities (34-48 mg L:dry; 24-63 mg L:wet), water hardness (CaCO3) (117- 133 mg L: dry; 24-67 mg L: wet) and nutrients (total phosphorus: 0.44 mg L: dry; 0.26 mg L:wet) under an altered flow regime. Mesotrophic conditions were a usual occurrence during both dry and wet seasons. The altered flow regime at this site played a role in algal and macroinvertebrate assemblages that occurred. DA - 2017-04-05 DB - ResearchSpace DP - CSIR KW - Ecological integrity KW - Benthic algae KW - Macroinvertebrates LK - https://researchspace.csir.co.za PY - 2017 T1 - Responses of aquatic communities to physical and chemical parameters in agriculturally impacted coastal river systems TI - Responses of aquatic communities to physical and chemical parameters in agriculturally impacted coastal river systems UR - http://hdl.handle.net/10204/8989 ER -