Abstract
The present limnological investigation is conducted to study the relationship between phytoplankton abundance and five important physicochemical factors in urban wastewater-fed seven fish ponds of Chota Nagpur Plateau area. A total number of 43 phytoplankton taxa representing four classes, namely Cyanophyceae (7), Chlorophyceae (29), Bacillariophyceae (5) and Euglenophyceae (2), are thriving in these ponds which may suggest that different nutrient-rich wastewater supports the diversity and abundance of the phytoplankton. Different values of diversity indices, results of post hoc analysis and rarefaction curve are depicted spatial variations of phytoplankton abundance and physicochemical factors. From the Principal Component Analysis, out of 43 phytoplankton species, 23 important species are extracted. The canonical correspondence analysis presents that most of the phytoplankton species densities are associated with higher values of the physicochemical variables in these ponds. Correspondingly, in the present study, Algal Genus Pollution Index (AGPI) is employed to study the water quality of seven sites. From the AGPI score, it is revealed that Site 4 has probable high organic pollution and Site 2 and Site 3 have moderate organic pollution. Therefore, long-term intensive studies and proper management are necessary to protect these ponds toward eutrophication and degradation, because these ponds not only act as a safeguard of livelihoods but also contribute significantly at local level food and water security and economic prosperity.
Highlights
The information about phytoplankton composition and abundance provides knowledge about the trophic status of wetlands, which will aid to evaluate the possible or optimal usage of them
43 phytoplankton species are identified, of which 7 species belong to the class Cyanophyceae, 14 belongs to class Chlorophyceae, and 5 belongs to class Bacillariophyceae and 2 species of Euglenophyceae
The abundance of Oscillatoria limosa is the highest in Site 1, Site 3 and Site 6, while Chlorella vulgaris in Site 2, Merismopedia minima, Anabaena circinalis in Site 5, Spirogyra maxima in Site 7 are most abundant
Summary
The information about phytoplankton composition and abundance provides knowledge about the trophic status of wetlands, which will aid to evaluate the possible or optimal usage of them. The base of the food chain is formed by the phytoplankton (Tas and Gonulal 2007; Saravanakumar et al 2008) and they are responsible for more than 40% of Earth’s photosynthetic production (Schmidt 2000). Variations in phytoplankton community structure alter the productivity of aquatic system where different organisms exist interdependently. Depending upon the temperature the CO2 availability from the water–gas exchange and the bacterial metabolism are affected, resulting in the rate of photosynthesis altered (Prescott 1962). Both pH and conductivity are correlated with the water carbonate cycle. Both pH and conductivity are correlated with the water carbonate cycle. pH of an aquatic system mostly depends
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