Abstract
Abstract Aim Limnological conditions, phytoplankton and zooplankton communities in a fishpond highly affected by management during the dry and rainy seasons are investigated. Methods Water samples were analyzed for physicochemical parameters; soil samples were analyzed for macro- and micro-nutrients, phytoplankton and zooplankton communities, at four sites, during eight months in the rainy and dry seasons. Distance-based linear model (DISTLM) was applied with Akaike Information Criterion (AIC), where the influence of environmental variables in the variation of phytoplankton and zooplankton composition could be assessed and the best model could be selected. Results The multiparameter test revealed that variables pH, TSS and TP better explain the composition of the biotic community (AICc = 45.6; R2 = 0.80). Chlorophyceae was the dominant group with 32 taxa, or rather, 75-85% of total phytoplankton, with high density at 2,365-4,180 ind.L-1 during the sampling period. Rotifera was the most abundant group in the zooplankton community during the two seasons, except at IW2 during the dry season, when Copepoda had a higher density, namely, 52% of total zooplankton community at this site. Conclusions The contribution of allochthonous material to the fishpond during the two seasons mainly consists of macro- and micro-nutrients and thermotolerant coliforms that influenced the plankton community and enhanced high Cyanobacteria density in the rainy season. Plankton community in the studied pond was characteristic of small water bodies. Management protocol in places with continuous water flow according to the region may be an important tool to optimize and to avoid risks in fish production.
Highlights
The management of small artificial water bodies is affected by the physicochemical parameters of water and the plankton community
The multiparameter test revealed that variables pH, Total suspended solids (TSS) and Total phosphorus (TP) best explained the composition of the biotic community (AICc = 45.6; R2 = 0.80)
PH was acidic during the rainy season, water temperature was higher in the rainy summer and BOD5 was high during the dry winter (May‐August)
Summary
The management of small artificial water bodies is affected by the physicochemical parameters of water and the plankton community. Small fishponds are usually man-made shallow water bodies constructed for a variety of reasons, mainly aquaculture. They are a great contribution to the regional freshwater biodiversity. It is very important to monitor the physical and chemical parameters in small artificial ponds to understand their influences on the distribution of aquatic organisms. Several characteristics of fish ponds, which may be spatial, temporal, physical, chemical and biological, impact plankton community (Das et al, 2018). Fish ponds are highly affected by weather and several anthropogenic factors, such as high fish density, fertilization, additional feeding of fish with their high nutrient sources. Every fishpond has a rich nutrient pool on its bottom sediments (Kopp et al, 2016)
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