The response of a natural phytoplankton community from the Godavari River Estuary to increasing CO2 concentration during the pre-monsoon period |
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Authors: | Haimanti Biswas Alexander CROS V. Venkata Ramana Tamoghna Acharyya |
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Affiliation: | a National Institute of Oceanography, Regional Center, 176 Lawson's Bay Colony, Visakhapatnam 530017, Council of Scientific and Industrial Research (CSIR), Indiab Ecole Nationale Supérieure d'Ingénieurs de Limoges, 16 rue Atlantis, Parc ESTER Technopole BP 6804, 87068 Limoges, Francec School of Environmental Sciences, Jawaharlal Nehru University, New Delhi, India |
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Abstract: | This paper reports for the first time upon the effects of increasing CO2 concentrations on a natural phytoplankton assemblage in a tropical estuary (the Godavari River Estuary in India). Two short-term (5-day) bottle experiments were conducted (with and without nutrient addition) during the pre-monsoon season when the partial pressure of CO2 in the surface water is quite low. The results reveal that the concentrations of total chlorophyll, the phytoplankton growth rate, the concentrations of particulate organic matter, the photosynthetic oxygen evolution rates, and the total bacterial count were higher under elevated CO2 treatments, as compared to ambient conditions (control). δ13C of particulate organic matter (POM) varied inversely with respect to CO2, indicating a clear signature of higher CO2 influx under the elevated CO2 levels. Whereas, δ13CPOM in the controls indicated the existence of an active bicarbonate transport system under limited CO2 supply. A considerable change in phytoplankton community structure was noticed, with marker pigment analysis by HPLC revealing that cyanobacteria were dominant over diatoms as CO2 concentrations increased. A mass balance calculation indicated that insufficient nutrients (N, P and Si) might have inhibited diatom growth compared to cyanobacteria, regardless of increased CO2 supply. The present study suggests that CO2 concentration and nutrient supply could have significant effects on phytoplankton physiology and community composition for natural phytoplankton communities in this region. However, this work was conducted during a non-discharge period (nutrient-limited conditions) and the responses of phytoplankton to increasing CO2 might not necessarily be the same during other seasons with high physicochemical variability. Further investigation is therefore needed. |
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Keywords: | DIC, Dissolved inorganic carbon DIN, Dissolved inorganic nitrogen DIP, Dissolved inorganic phosphate CCM, Carbon concentrating mechanism POM, Particulate organic matter POC, Particulate organic carbon PON, Particulate organic nitrogen |
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