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Main Authors: Islam, H M Touhidul, Mainuddin, Mohammed, Affan, Abu, Ahmed, Sharif, Rahman, Md Abiar, Sadeque, Abdus, Almazroui, Mansour, Rahman, S M Hasibur, Kamruzzaman, Mohammad
Format: Artículo científico
Language:en
Published: Scientific reports 2025
Online Access:https://pubmed.ncbi.nlm.nih.gov/40593949/
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author Islam, H M Touhidul
Mainuddin, Mohammed
Affan, Abu
Ahmed, Sharif
Rahman, Md Abiar
Sadeque, Abdus
Almazroui, Mansour
Rahman, S M Hasibur
Kamruzzaman, Mohammad
author_facet Islam, H M Touhidul
Mainuddin, Mohammed
Affan, Abu
Ahmed, Sharif
Rahman, Md Abiar
Sadeque, Abdus
Almazroui, Mansour
Rahman, S M Hasibur
Kamruzzaman, Mohammad
Islam, H M Touhidul
Mainuddin, Mohammed
Affan, Abu
Ahmed, Sharif
Rahman, Md Abiar
Sadeque, Abdus
Almazroui, Mansour
Rahman, S M Hasibur
Kamruzzaman, Mohammad
collection PubMed - marine biology
contents Thermal bioclimatic transformations in the coastal regions of Ganges delta: insights from CMIP6 multi-model ensemble. Islam, H M Touhidul Mainuddin, Mohammed Affan, Abu Ahmed, Sharif Rahman, Md Abiar Sadeque, Abdus Almazroui, Mansour Rahman, S M Hasibur Kamruzzaman, Mohammad Thermal Bioclimatic Indicators (TBIs) are essential for understanding climate variability and its impacts on ecosystems and human societies, which are commonly utilized to assess the effects of climate change on biodiversity, pollution, agricultural production, and human thermal comfort. The Ganges Delta, one of the world's most biologically diverse coastal regions, is highly vulnerable to climate change. This study employs a multi-model ensemble of sixteen CMIP6 global climate models to assess future changes in eleven TBIs under SSP1-2.6, SSP2-4.5, and SSP5-8.5 scenarios. Projections indicate a significant increase in annual temperatures by 0.71-1.91 °C (SSP1-2.6), 0.77-2.80 °C (SSP2-4.5), and 1.03-4.65 °C (SSP5-8.5) by 2100. The diurnal temperature range is projected to decline by up to 0.87 °C, while isothermality may decrease by 3.30-12.09%, indicating shifts in thermal stability. Additionally, the driest months are expected to experience more pronounced warming than the wettest months. These thermal transformations pose significant threats to biodiversity, agriculture, and coastal communities, increasing risks of habitat loss, declining agricultural productivity, and altered hydrological patterns. Adaptive strategies such as tidal river management, mangrove afforestation, and conservation initiatives are essential to enhance resilience. The findings underscore the urgency of climate-responsive policies to mitigate risks and ensure the long-term sustainability of this ecologically and economically vital region.
format Artículo científico
id pubmed_40593949
institution PubMed
language en
publishDate 2025
publisher Scientific reports
record_format pubmed
spellingShingle Thermal bioclimatic transformations in the coastal regions of Ganges delta: insights from CMIP6 multi-model ensemble.
Islam, H M Touhidul
Mainuddin, Mohammed
Affan, Abu
Ahmed, Sharif
Rahman, Md Abiar
Sadeque, Abdus
Almazroui, Mansour
Rahman, S M Hasibur
Kamruzzaman, Mohammad
Thermal bioclimatic transformations in the coastal regions of Ganges delta: insights from CMIP6 multi-model ensemble. Islam, H M Touhidul Mainuddin, Mohammed Affan, Abu Ahmed, Sharif Rahman, Md Abiar Sadeque, Abdus Almazroui, Mansour Rahman, S M Hasibur Kamruzzaman, Mohammad Thermal Bioclimatic Indicators (TBIs) are essential for understanding climate variability and its impacts on ecosystems and human societies, which are commonly utilized to assess the effects of climate change on biodiversity, pollution, agricultural production, and human thermal comfort. The Ganges Delta, one of the world's most biologically diverse coastal regions, is highly vulnerable to climate change. This study employs a multi-model ensemble of sixteen CMIP6 global climate models to assess future changes in eleven TBIs under SSP1-2.6, SSP2-4.5, and SSP5-8.5 scenarios. Projections indicate a significant increase in annual temperatures by 0.71-1.91 °C (SSP1-2.6), 0.77-2.80 °C (SSP2-4.5), and 1.03-4.65 °C (SSP5-8.5) by 2100. The diurnal temperature range is projected to decline by up to 0.87 °C, while isothermality may decrease by 3.30-12.09%, indicating shifts in thermal stability. Additionally, the driest months are expected to experience more pronounced warming than the wettest months. These thermal transformations pose significant threats to biodiversity, agriculture, and coastal communities, increasing risks of habitat loss, declining agricultural productivity, and altered hydrological patterns. Adaptive strategies such as tidal river management, mangrove afforestation, and conservation initiatives are essential to enhance resilience. The findings underscore the urgency of climate-responsive policies to mitigate risks and ensure the long-term sustainability of this ecologically and economically vital region.
title Thermal bioclimatic transformations in the coastal regions of Ganges delta: insights from CMIP6 multi-model ensemble.
url https://pubmed.ncbi.nlm.nih.gov/40593949/