Remote sensing-derived land surface temperature trends over South Asia

Spatiotemporal changes in land surface temperature (LST) over South Asia were estimated using MODIS (moderate resolution imaging spectroradiometer) data from 2000 to 2021. We calculated the monthly and annual LST trends and magnitudes by applying the Mann–Kendall test and Sen's slope estimator...

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Veröffentlicht in:Ecological informatics 2023-05, Vol.74, p.101969, Article 101969
Hauptverfasser: Shawky, Mohamed, Ahmed, M. Razu, Ghaderpour, Ebrahim, Gupta, Anil, Achari, Gopal, Dewan, Ashraf, Hassan, Quazi K.
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Sprache:eng
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Zusammenfassung:Spatiotemporal changes in land surface temperature (LST) over South Asia were estimated using MODIS (moderate resolution imaging spectroradiometer) data from 2000 to 2021. We calculated the monthly and annual LST trends and magnitudes by applying the Mann–Kendall test and Sen's slope estimator at both ecoregion and pixel level. More ecoregions experienced daytime cooling than warming. Central and west South Asia showed the highest daytime cooling in December compared to the nighttime warming in the central and northwest in July and September. Nineteen ecoregions demonstrated monthly daytime cooling trends at the 99% confidence level (CL), with the highest record observed in ecoregion ‘Indus Valley desert’ in March with the magnitudes of −0.26 °C/yr. While the monthly and annual nighttime warming magnitude was the maximum in ‘Gissaro-Alai open woodlands’ in December (0.19 °C/yr at 95% CL), and ‘Indus River Delta-Arabian Sea mangroves’ at annual scale (0.06 °C/yr at 99% CL). To understand the influence of large-scale atmospheric oscillations on the trends, we also correlated the estimated LST trends with the selected oscillation indices. Sea surface temperature (SST) Niño 3.4 showed the most significant influence on the trends, where it was positively correlated with 38 ecoregions during nighttime over the year. A better understanding of temperature trends and impacts on South Asia would guide sustainable development and ensures the excessive demands on food, water, and energy supplies coping with the growing population. •Annual cooling magnitudes were more than warming in the ecoregions of South Asia.•Most ecoregions of South Asia exhibited significant daytime cooling in December.•Significant nighttime warming ecoregions was observed in July and September.•Natural vegetation and irrigated agriculture could be the influential factors of cooling.•PDO, SST, DMI and NAO exhibited positive correlations with the cooling trends.
ISSN:1574-9541
DOI:10.1016/j.ecoinf.2022.101969