Deriving Similitudes from Remote Sensing-based Turbidity and Observed Salinity Trends in Coastal Bangladesh for Agricultural Development

The agriculture and aquaculture sectors support millions of people in the Ganges Delta. However, water quality in this complex deltaic system is deteriorating due to multiple factors, including reduced discharge from upstream, discharge of untreated wastewater, climate change impacts, tidal influenc...

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Autores principales:	Jampani, Mahesh, Matheswaran, Karthikeyan
Formato:	Resumen
Lenguaje:	Inglés
Publicado:	2025
Materias:	remote sensing turbidity salinity coastal areas agricultural development
Acceso en línea:	https://hdl.handle.net/10568/179421

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author	Jampani, Mahesh Matheswaran, Karthikeyan
author_browse	Jampani, Mahesh Matheswaran, Karthikeyan
author_facet	Jampani, Mahesh Matheswaran, Karthikeyan
author_sort	Jampani, Mahesh
collection	Repository of Agricultural Research Outputs (CGSpace)
description	The agriculture and aquaculture sectors support millions of people in the Ganges Delta. However, water quality in this complex deltaic system is deteriorating due to multiple factors, including reduced discharge from upstream, discharge of untreated wastewater, climate change impacts, tidal influences and inefficient water management practices. Salinity is a major constraint for both agriculture and drinking water supply in coastal Bangladesh, making a systemic understanding of its dynamics critical for effective water resource planning. This study investigates the spatial and temporal variability of salinity and turbidity in the rivers of coastal Bangladesh using multisensor satellite imagery, geospatial techniques, and statistical analysis. We examine satellite-derived turbidity trends in relation to seasonal salinity dynamics under varying flood and ebb tidal conditions. Although salinity and turbidity are distinct water quality parameters, our findings suggest that satellite-derived turbidity can serve as a proxy indicator for seasonal salinity variation, particularly in the absence of salinity data. The analysis highlights the potential of remotely sensed turbidity as a decision-support tool for irrigation planning, particularly for farmers operating sluice gates to access low-salinity water in the polders. This research contributes to a better understanding of water quality dynamics in delta environments and offers insights for developing adaptive, data-informed water management strategies to enhance agricultural resilience in coastal Bangladesh.
format	Abstract
id	CGSpace179421
institution	CGIAR Consortium
language	Inglés
publishDate	2025
publishDateRange	2025
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spelling	CGSpace1794212026-01-06T10:52:29Z Deriving Similitudes from Remote Sensing-based Turbidity and Observed Salinity Trends in Coastal Bangladesh for Agricultural Development Jampani, Mahesh Matheswaran, Karthikeyan remote sensing turbidity salinity coastal areas agricultural development The agriculture and aquaculture sectors support millions of people in the Ganges Delta. However, water quality in this complex deltaic system is deteriorating due to multiple factors, including reduced discharge from upstream, discharge of untreated wastewater, climate change impacts, tidal influences and inefficient water management practices. Salinity is a major constraint for both agriculture and drinking water supply in coastal Bangladesh, making a systemic understanding of its dynamics critical for effective water resource planning. This study investigates the spatial and temporal variability of salinity and turbidity in the rivers of coastal Bangladesh using multisensor satellite imagery, geospatial techniques, and statistical analysis. We examine satellite-derived turbidity trends in relation to seasonal salinity dynamics under varying flood and ebb tidal conditions. Although salinity and turbidity are distinct water quality parameters, our findings suggest that satellite-derived turbidity can serve as a proxy indicator for seasonal salinity variation, particularly in the absence of salinity data. The analysis highlights the potential of remotely sensed turbidity as a decision-support tool for irrigation planning, particularly for farmers operating sluice gates to access low-salinity water in the polders. This research contributes to a better understanding of water quality dynamics in delta environments and offers insights for developing adaptive, data-informed water management strategies to enhance agricultural resilience in coastal Bangladesh. 2025-12-19 2026-01-06T10:38:48Z 2026-01-06T10:38:48Z Abstract https://hdl.handle.net/10568/179421 en Open Access Jampani, M.; Matheswaran, K. 2025. Deriving Similitudes from Remote Sensing-based Turbidity and Observed Salinity Trends in Coastal Bangladesh for Agricultural Development [Abstract only]. Paper presented at the American Geophysical Union Fall (AGU25) Conference 2025: Where Science Connects Us. New Orleans, USA. 14-19 December 2025.
spellingShingle	remote sensing turbidity salinity coastal areas agricultural development Jampani, Mahesh Matheswaran, Karthikeyan Deriving Similitudes from Remote Sensing-based Turbidity and Observed Salinity Trends in Coastal Bangladesh for Agricultural Development
title	Deriving Similitudes from Remote Sensing-based Turbidity and Observed Salinity Trends in Coastal Bangladesh for Agricultural Development
title_full	Deriving Similitudes from Remote Sensing-based Turbidity and Observed Salinity Trends in Coastal Bangladesh for Agricultural Development
title_fullStr	Deriving Similitudes from Remote Sensing-based Turbidity and Observed Salinity Trends in Coastal Bangladesh for Agricultural Development
title_full_unstemmed	Deriving Similitudes from Remote Sensing-based Turbidity and Observed Salinity Trends in Coastal Bangladesh for Agricultural Development
title_short	Deriving Similitudes from Remote Sensing-based Turbidity and Observed Salinity Trends in Coastal Bangladesh for Agricultural Development
title_sort	deriving similitudes from remote sensing based turbidity and observed salinity trends in coastal bangladesh for agricultural development
topic	remote sensing turbidity salinity coastal areas agricultural development
url	https://hdl.handle.net/10568/179421
work_keys_str_mv	AT jampanimahesh derivingsimilitudesfromremotesensingbasedturbidityandobservedsalinitytrendsincoastalbangladeshforagriculturaldevelopment AT matheswarankarthikeyan derivingsimilitudesfromremotesensingbasedturbidityandobservedsalinitytrendsincoastalbangladeshforagriculturaldevelopment

Deriving Similitudes from Remote Sensing-based Turbidity and Observed Salinity Trends in Coastal Bangladesh for Agricultural Development

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