Abstract
This study was performed to evaluate the spatial and temporal distribution of major ions in water samples of a newly designated Ramsar site, namely Kabar Tal (KT) wetland of Bihar. Samples were collected during summer, monsoon, and winter seasons. The analytical and GIS results show that concentration of electrical conductivity, chloride, and nitrate are higher in summer than monsoon and winter. However, the concentration of major cations such as sodium, potassium, calcium, and magnesium are higher in winter than monsoon and summer. In addition, major anions like sulphate and phosphate concentration is higher during monsoon than summer and winter. Multivariate statistical tool (discriminant analysis) results suggest that temperature, pH, electrical conductivity, sulphate, and potassium are the major parameters distinguishing the water quality in different seasons. The study confirms that seasonal variations are playing a major role in the hydrochemistry of KT wetland. Overall, this work outlines the approach towards proper conservation and utilization of wetlands and to assess the quality of surface water for determining its suitability for agricultural purposes. Overall, this work highlights the approach towards estimating the seasonal dynamics of chemical species in KT wetland and its suitability for irrigation purposes.
Highlights
IntroductionHuman interactions with water resources involve fresh streams, marshes, lakes, and groundwater
Freshwater is one of the most important constituents of life
The results show that there is not much variation in temperature between summer (28.5 C–34 C) and monsoon (28 C– 35 C) during winter temperature ranges between 18 C and 23.5 C
Summary
Human interactions with water resources involve fresh streams, marshes, lakes, and groundwater. The rapid population growth, agriculture, and industrialization have forced environmentalists to determine the chemical, physical and biological characteristics of natural water resources (Regina & Nabi ). Wetlands are most productive ecosystems and play a very important role in the biogeochemical cycling of nutrients (Sánchez-Carrillo et al ). Wetlands function as water purification systems, helps in flood control, acts as sinks for pollutants as well as for organic carbon and performs a vital role as climate stabilizers (Suhani et al ). Wetlands are under increasing threat due to both point sources such as municipal and industrial wastewater and non-point sources like urban and agricultural run-off. Phosphorous is an essential promoter of aquatic plant growth and a limiting nutrient for eutrophication in the lake ecosystem (Conley et al )
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