Abstract
Introduction: Chlorophyll a concentration proxies the phytoplankton biomass which directly involves in signifying the production functions of aquatic ecosystem. Thus, it is imperative to understand their spatio-temporal kinetics in lotic environment with reference to regional climatic variabilities in the tropical inland waters. Objective: In-situ studies were conducted to examine the changes in phytoplankton biomass in lower Ganga basin as influenced by various environmental parameters under regional climatic variability during 2014-2016. Methods: Firstly, the most key influential environmental parameters on riverine Chl-a concentration were determined. Then the direct cascading effect of changing climatic variables on key environmental parameters were derived through modeling and quantified probable changes in mean Chl-a concentration in the lower stretch of river. Results: Only five environmental parameters namely water temperature, total dissolved solid, salinity, total alkalinity and pH were key factors influencing Chl-a (Multiple R2: 0.638, P < 0.05). Present estimates indicate that if the present rate of regional climatic variability over the last 3 decades (mean air temperature + 0.24 °C, total annual rainfall -196.3 mm) remain consistent over the next three decades (2015-2045), an increase in mean Chl-a by + 170 µgL-1 may likely be expected grossly reaching about 475.94 µg L-1 by the year 2045 or more. Conclusions: The present study is first such comprehending a gross hint towards the probable ecosystem response with an alternative model based methodology in data-deficient situations. Subsequently, the output would also be of great benefit for increase water governance and developing strategy protocol for sustainable water management for greater ecosystem services.
Highlights
Chlorophyll a concentration proxies the phytoplankton biomass which directly involves in signifying the production functions of aquatic ecosystem
Inference of Budgeting: Keeping in view the rise in mean air temperature (+ 0.24 °C) and decrease in rainfall (196.3 mm) during the last 3 decades (1980-2015) over the lower stretch of river Ganga passing through West Bengal, India (Fig. 1, Fig. 2), we assume that this present rate of climate change might remain true in the three decades (2015-2045). Based on this assumption and quantified cascading effect of such climatic change on the key environmental parameters influencing chlorophyll -a (Chl-a) concentration, our model summarizes that a gradual increase in the existing mean Chl-a concentration (305.94 ± 52.25 μg L-1) by approximately + 170 μgL-1 (Multiple R2 = 0.6839) in the lower Ganga basin may probably occur over the three decades (2015-2045)
Ecohydrological interaction studies in natural river system showed that physical variables such as, water discharge, suspended solids and turbidity regulate the development of phytoplankton biomass critically in comparison with nutrients (Salmaso & Braioni, 2008)
Summary
Chlorophyll a concentration proxies the phytoplankton biomass which directly involves in signifying the production functions of aquatic ecosystem. Objective: In-situ studies were conducted to examine the changes in phytoplankton biomass in lower Ganga basin as influenced by various environmental parameters under regional climatic variability during 2014-2016. The direct cascading effect of changing climatic variables on key environmental parameters were derived through modeling and quantified probable changes in mean Chl-a concentration in the lower stretch of river. Results: Only five environmental parameters namely water temperature, total dissolved solid, salinity, total alkalinity and pH were key factors influencing Chl-a (Multiple R2: 0.638, P < 0.05). The output would be of great benefit for increase water governance and developing strategy protocol for sustainable water management for greater ecosystem services
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