Samantha D'souza scite author profile

Samantha D'souza

3Publications

1Citation Statement Received

57Citation Statements Given

How they've been cited

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141

Affiliations

National Institute of Oceanography, Council of Scientific and Industrial Research

Publications

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Dark survival in biofilm-forming microalgae: potential for colonizing benthic ecosystems

Patil

D'souza

2022

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The biofilm-forming microalgae are known to experience periods of continuous darkness (upto several days), in addition to the natural day-night cycle, especially in the intertidal sediment regions (when transported to deeper sediments) and the ships’ ballast water tanks (during voyages). However, the information on community and physiological responses to different periods of darkness is limited. Here, the survival capability of biofilm-forming microalgae to varying periods of darkness (7-35 days) and the growth patterns upon resumption of normal 12h light:dark photocycle has been addressed through simulation experiments. Diatoms dominated the seawater biofilms, but the dark survival period varied and was species-specific. Of the 25 diatoms, only Amphora, potential toxin producer, followed by Navicula remained viable and photosynthetically healthy under darkness without undergoing asexual reproduction. Both diatoms are essential contributors to fouling and microphytobenthic community. Upon re-exposure of dark-adapted biofilms to 12h light:dark photocycle, the improvement in photosynthetic efficiency and resumption of growth via asexual-reproduction was observed. However, the lag-phase duration increased with a long dark history. Nevertheless, eurytolerant nature and high dark survival capability (with its quick response to light) of Amphora and Navicula indicated that they have the potential to colonize benthic-ecosystems thus impacting the benthic and fouling community.

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Eco-Biology of Photosynthetic Picoeukaryotes in a Monsoon Influenced Tropical Bay: A Flow Cytometric and Chemotaxonomic Approach

Mitbavkar

D'souza

2021

Preprint

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The composition and ecology of photosynthetic picoeukaryotes (PPEUK) are essential for microbial food web functioning. We hypothesize that the simultaneous use of flow cytometry (FCM) and High-Performance-Liquid-Chromatography (HPLC) tools will aid in discerning the dominant PPEUK groups contributing to abundance and biomass under prevailing environmental conditions. The PPEUK seasonal community abundance and pigment biomass were investigated from a south-west monsoon influenced tropical bay from June 2015-May 2016. A size-fractionated (< 3 µm) approach using FCM and HPLC revealed five and six PPEUK groups, respectively. Picocryptophytes dominated the PPEUK biomass under varied environmental conditions, whereas Picodiatoms contributed substantially, being abundant under turbulent, low-temperature, nutrient (NO3−, SiO44−) enriched conditions. The Picochlorophytes dominated the community numerically. The relatively higher abundance and biomass of Picoprasinophytes and a positive correlation with NO3− and NH4+ imply proliferation under higher nutrient concentrations. The least contributors to biomass were Picodinoflagellates and Picoprymnesiophytes. The relatively larger cell size of Picocryptophytes and Picodiatoms resulted in higher cumulative biomass, signifying their role in the microbial food web. Our study proposes incorporation of additional indicator pigments in algorithms used to estimate coastal picophytoplankton contribution to total phytoplankton biomass to avoid discrepancies.

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Seasonal Dynamics of Photosynthetic Picoeukaryotes in a Monsoon-Influenced Tropical Bay: a Flow Cytometric and Chemotaxonomic Approach

Mitbavkar

D'souza

2022

Microb Ecol

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Samantha D'souza

Dark survival in biofilm-forming microalgae: potential for colonizing benthic ecosystems

Eco-Biology of Photosynthetic Picoeukaryotes in a Monsoon Influenced Tropical Bay: A Flow Cytometric and Chemotaxonomic Approach

Seasonal Dynamics of Photosynthetic Picoeukaryotes in a Monsoon-Influenced Tropical Bay: a Flow Cytometric and Chemotaxonomic Approach

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