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Main Authors: Faraji, Md Saeduzzaman, Rahman, Md Mofizur, Sarker, Md Milon, Hasan, Mehedi Mahmudul, Jaman, Asma, Baek, Hea Ja, Arai, Takaomi, Ngah, Norhayati, Hossain, M Belal
Format: Artículo científico
Language:en
Published: Ecology and evolution 2025
Online Access:https://pubmed.ncbi.nlm.nih.gov/41446388/
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author Faraji, Md Saeduzzaman
Rahman, Md Mofizur
Sarker, Md Milon
Hasan, Mehedi Mahmudul
Jaman, Asma
Baek, Hea Ja
Arai, Takaomi
Ngah, Norhayati
Hossain, M Belal
author_facet Faraji, Md Saeduzzaman
Rahman, Md Mofizur
Sarker, Md Milon
Hasan, Mehedi Mahmudul
Jaman, Asma
Baek, Hea Ja
Arai, Takaomi
Ngah, Norhayati
Hossain, M Belal
Faraji, Md Saeduzzaman
Rahman, Md Mofizur
Sarker, Md Milon
Hasan, Mehedi Mahmudul
Jaman, Asma
Baek, Hea Ja
Arai, Takaomi
Ngah, Norhayati
Hossain, M Belal
collection PubMed - marine biology
contents Diversity, Community Assemblage, and Environmental Determinants of Phytoplankton in a Subtropical Transboundary Coastal River. Faraji, Md Saeduzzaman Rahman, Md Mofizur Sarker, Md Milon Hasan, Mehedi Mahmudul Jaman, Asma Baek, Hea Ja Arai, Takaomi Ngah, Norhayati Hossain, M Belal The health of subtropical transboundary coastal rivers is closely linked to phytoplankton diversity, seasonal fluctuations, and community structure. This study presents the first comprehensive multivariate assessment of phytoplankton diversity and environmental drivers in the Dakatia River. Canonical Correspondence Analysis (CCA), Analysis of Similarity (ANOSIM), and Similarity Percentage (SIMPER) were applied across eight geo-referenced stations under varying anthropogenic pressures to establish a baseline data for this cage-culture-intensive river system. The analysis revealed distinct spatial and seasonal variations in phytoplankton diversity and taxonomic composition, highlighting shifts in community assemblages and the influence of physicochemical factors on these dynamics. A total of 37 genera were identified across six major classes: Bacillariophyceae (36.50%), Chlorophyceae (25.91%), Cyanophyceae (17.00%), Euglenophyceae (13.20%), Ulvophyceae (5.06%), and Zygnematophyceae (2.31%). Phytoplankton abundance was highest in winter (16,958.33 ± 6418.75 cells L), followed by the monsoon (14,572.92 ± 2982.90 cells L) and summer (13,739.60 ± 1857.76 cells L). The Shannon-Wiener diversity index, species evenness, and species richness exhibited seasonal fluctuations, ranging from 2.14 ± 0.22 to 2.47 ± 0.15, 0.65 ± 0.07 to 0.75 ± 0.07, and 2.67 ± 0.55 to 4.29 ± 0.38, respectively, reflecting a moderate level of phytoplankton diversity in a dynamic and complex river ecosystem. Cluster analysis delineated five distinct phytoplankton communities at a 50% similarity threshold. ANOSIM results indicated significant seasonal dissimilarity ( 0.05) was observed. SIMPER analysis identified sp. as the primary contributor to interseasonal dissimilarities, followed by sp. and sp. Pearson's correlation and CCA highlighted ammonia, temperature, salinity, nitrate, and phosphate as key environmental drivers shaping phytoplankton abundance, diversity, and community composition. These findings have provided critical insights for ecosystem management, biodiversity conservation, and sustainable water resource governance.
format Artículo científico
id pubmed_41446388
institution PubMed
language en
publishDate 2025
publisher Ecology and evolution
record_format pubmed
spellingShingle Diversity, Community Assemblage, and Environmental Determinants of Phytoplankton in a Subtropical Transboundary Coastal River.
Faraji, Md Saeduzzaman
Rahman, Md Mofizur
Sarker, Md Milon
Hasan, Mehedi Mahmudul
Jaman, Asma
Baek, Hea Ja
Arai, Takaomi
Ngah, Norhayati
Hossain, M Belal
Diversity, Community Assemblage, and Environmental Determinants of Phytoplankton in a Subtropical Transboundary Coastal River. Faraji, Md Saeduzzaman Rahman, Md Mofizur Sarker, Md Milon Hasan, Mehedi Mahmudul Jaman, Asma Baek, Hea Ja Arai, Takaomi Ngah, Norhayati Hossain, M Belal The health of subtropical transboundary coastal rivers is closely linked to phytoplankton diversity, seasonal fluctuations, and community structure. This study presents the first comprehensive multivariate assessment of phytoplankton diversity and environmental drivers in the Dakatia River. Canonical Correspondence Analysis (CCA), Analysis of Similarity (ANOSIM), and Similarity Percentage (SIMPER) were applied across eight geo-referenced stations under varying anthropogenic pressures to establish a baseline data for this cage-culture-intensive river system. The analysis revealed distinct spatial and seasonal variations in phytoplankton diversity and taxonomic composition, highlighting shifts in community assemblages and the influence of physicochemical factors on these dynamics. A total of 37 genera were identified across six major classes: Bacillariophyceae (36.50%), Chlorophyceae (25.91%), Cyanophyceae (17.00%), Euglenophyceae (13.20%), Ulvophyceae (5.06%), and Zygnematophyceae (2.31%). Phytoplankton abundance was highest in winter (16,958.33 ± 6418.75 cells L), followed by the monsoon (14,572.92 ± 2982.90 cells L) and summer (13,739.60 ± 1857.76 cells L). The Shannon-Wiener diversity index, species evenness, and species richness exhibited seasonal fluctuations, ranging from 2.14 ± 0.22 to 2.47 ± 0.15, 0.65 ± 0.07 to 0.75 ± 0.07, and 2.67 ± 0.55 to 4.29 ± 0.38, respectively, reflecting a moderate level of phytoplankton diversity in a dynamic and complex river ecosystem. Cluster analysis delineated five distinct phytoplankton communities at a 50% similarity threshold. ANOSIM results indicated significant seasonal dissimilarity ( 0.05) was observed. SIMPER analysis identified sp. as the primary contributor to interseasonal dissimilarities, followed by sp. and sp. Pearson's correlation and CCA highlighted ammonia, temperature, salinity, nitrate, and phosphate as key environmental drivers shaping phytoplankton abundance, diversity, and community composition. These findings have provided critical insights for ecosystem management, biodiversity conservation, and sustainable water resource governance.
title Diversity, Community Assemblage, and Environmental Determinants of Phytoplankton in a Subtropical Transboundary Coastal River.
url https://pubmed.ncbi.nlm.nih.gov/41446388/