Hydrological regulation of Vibrio dynamics in a tropical monsoonal estuary: a classification and regression tree approach

Dynamics of Vibrio populations in aquatic environments are of concern, as they encompass members pathogenic to humans as well as marine flora and fauna. Spatiotemporal distribution of its culturable abundance for a range of physicochemical and biological parameters in the Cochin estuary (CE), one of...

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Bibliographic Details
Published in:Environmental science and pollution research international 2021, Vol.28 (1), p.724-737
Main Authors: Krishna, Kiran, Veettil, Vipindas Puthiya, Anas, Abdulaziz, Nair, Shanta
Format: Article
Language:English
Subjects:
Abundance
Anthropogenic factors
Aquatic environment
Aquatic Pollution
Aquatic populations
Atmospheric Protection/Air Quality Control/Air Pollution
Bacteria
Classification
Dissolved oxygen
Earth and Environmental Science
Ecotoxicology
Environment
Environmental Chemistry
Environmental Health
Environmental Monitoring
Environmental science
Estuaries
Eutrophication
Fisheries
Flora
Humans
Hydrology
India
Marine animals
Marine flora
Marine plants
Monsoons
Performance indices
Phytoplankton
Public health
Regression analysis
Research Article
Salinity
Salinity effects
Sea level rise
Seasons
Spatial distribution
Stations
Temporal distribution
Vibrio
Waste Water Technology
Water Management
Water Pollution Control
Waterborne diseases
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Summary:Dynamics of Vibrio populations in aquatic environments are of concern, as they encompass members pathogenic to humans as well as marine flora and fauna. Spatiotemporal distribution of its culturable abundance for a range of physicochemical and biological parameters in the Cochin estuary (CE), one of the largest tropical monsoonal estuary along the southwest coast of India, witnessed a proliferation of this bacterial group (707 ± 196 CFU ml −1 ) in downstream stations during a relative dry period. The study for the first time employed classification and regression tree (CART) along with multiple linear regression (MLR) based approaches to explore the nonlinear and linear interactions, respectively, among environmental variables regulating Vibrio abundance in CE. Both the techniques were on consensus to ascertain salinity as the primary determinant of Vibrio dynamics, during the entire sampling period regardless of the seasons, viz., dry and wet. Nevertheless, CART outperformed MLR in performance index, suggesting that in a dynamic system like estuaries, usage of the latter is limited by complex nonlinear relationships among environmental variables. According to CART, Vibrio proliferation observed in downstream stations of the estuary (salinity ≥ 13.4 psu) during a relative dry period was driven by eutrophication (dissolved inorganic phosphate ≥ 1.48 μM L −1 ) associated with reduced flushing resulting in an oxygen-limited environment (dissolved oxygen < 4.56 ml L −1 ), wherein phytoplankton production diverts to support microbes. Our results imply that anthropogenic activities and sea level rise in future may prompt Vibrio proliferation, to be a concern for public health and impinge on fisheries yield from tropical estuaries.
ISSN:0944-1344
1614-7499
DOI:10.1007/s11356-020-10486-9