Abstract
Recent climate change has resulted in the reduction of several surface water bodies (SWBs) all around the globe. These SWBs, such as streams, rivers, lakes, wetlands, reservoirs, and creeks have a positive impact on the cooling of the surrounding climate and, therefore, reduction in SWBs can contribute to the rise of land surface temperature (LST). This study presents the impact of SWBs on the LST across Bangladesh to quantify their roles in the rapid temperature rise of Bangladesh. The moderate resolution imaging spectroradiometer (MODIS) LST and water mask data of Bangladesh for the period 2000–2015 are used for this purpose. Influences of topography and geography on LST were first removed, and then regression analysis was conducted to quantify the impact of SWBs on the LST. The non-parametric Mann–Kendall (MK) test was used to assess the changes in LST and SWBs. The results revealed that SWBs were reduced from 11,379 km2 in 2000 to 9657 km2 in 2015. The trend analysis showed that changes in SWBs have reduced significantly at a 90% level of confidence, which contributed to the acceleration of LST rise in the country due to global warming. The spatial analysis during the specific years showed that an increase in LST can be seen with the reduction of SWBs. Furthermore, the reduction of 100 m2 of SWBs can reduce the LST of the surrounding regions from −1.2 to −2.2 °C.
Highlights
Rises in temperature have been noticed all over the world due to the emission of greenhouse gasses [1,2,3,4]
The relationship between land surface temperature (LST) and surface water bodies (SWBs) was evaluated in this study to understand the impact of reducing SWBs on the rapid temperature rise of Bangladesh
moderate resolution imaging spectroradiometer (MODIS) LST and water mask data for the period 2000–2015 were used for this purpose
Summary
Rises in temperature have been noticed all over the world due to the emission of greenhouse gasses [1,2,3,4]. South Asia is one of the most vulnerable regions due to climate change where the temperature has been rising more than the global average [3,7,8,9]. The impact of the rising temperature is more prevalent in the South Asian country of Bangladesh due to the poor adaptation capacity. Surface water bodies (SWBs) play an important role in buffering the effects of global warming induced temperature rise and help in climate adaptation and resiliency (Millennium Ecosystem Assessment 2005). Due to high heat capacity, water needs a high amount of heat energy to change its temperature. This makes water bodies capable of limiting the rise of air temperature. The positive influence of SWBs on the cooling of the microclimate of the surrounding regions indicates that more SWBs can help in better adaptation to climate change
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