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Spatio-Temporal Characteristics of Global Warming in the Tibetan Plateau during the Last 50 Years Based on a Generalised Temperature Zone - Elevation Model

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  • Yanqiang Wei
  • Yiping Fang

Abstract

Temperature is one of the primary factors influencing the climate and ecosystem, and examining its change and fluctuation could elucidate the formation of novel climate patterns and trends. In this study, we constructed a generalised temperature zone elevation model (GTEM) to assess the trends of climate change and temporal-spatial differences in the Tibetan Plateau (TP) using the annual and monthly mean temperatures from 1961–2010 at 144 meteorological stations in and near the TP. The results showed the following: (1) The TP has undergone robust warming over the study period, and the warming rate was 0.318°C/decade. The warming has accelerated during recent decades, especially in the last 20 years, and the warming has been most significant in the winter months, followed by the spring, autumn and summer seasons. (2) Spatially, the zones that became significantly smaller were the temperature zones of −6°C and −4°C, and these have decreased 499.44 and 454.26 thousand sq km from 1961 to 2010 at average rates of 25.1% and 11.7%, respectively, over every 5-year interval. These quickly shrinking zones were located in the northwestern and central TP. (3) The elevation dependency of climate warming existed in the TP during 1961–2010, but this tendency has gradually been weakening due to more rapid warming at lower elevations than in the middle and upper elevations of the TP during 1991–2010. The higher regions and some low altitude valleys of the TP were the most significantly warming regions under the same categorizing criteria. Experimental evidence shows that the GTEM is an effective method to analyse climate changes in high altitude mountainous regions.

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  • Yanqiang Wei & Yiping Fang, 2013. "Spatio-Temporal Characteristics of Global Warming in the Tibetan Plateau during the Last 50 Years Based on a Generalised Temperature Zone - Elevation Model," PLOS ONE, Public Library of Science, vol. 8(4), pages 1-19, April.
    • Handle: RePEc:plo:pone00:0060044
    DOI: 10.1371/journal.pone.0060044
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    1. Tandong Yao & Lonnie Thompson & Wei Yang & Wusheng Yu & Yang Gao & Xuejun Guo & Xiaoxin Yang & Keqin Duan & Huabiao Zhao & Baiqing Xu & Jiancheng Pu & Anxin Lu & Yang Xiang & Dambaru B. Kattel & Danie, 2012. "Different glacier status with atmospheric circulations in Tibetan Plateau and surroundings," Nature Climate Change, Nature, vol. 2(9), pages 663-667, September.
    2. Johannes Oerlemans, 2009. "Freezes, floes and the future," Nature, Nature, vol. 462(7273), pages 572-573, December.
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    1. Zhenya Li & Zulfiqar Ali & Tong Cui & Sadia Qamar & Muhammad Ismail & Amna Nazeer & Muhammad Faisal, 2022. "A comparative analysis of pre- and post-industrial spatiotemporal drought trends and patterns of Tibet Plateau using Sen slope estimator and steady-state probabilities of Markov Chain," Natural Hazards: Journal of the International Society for the Prevention and Mitigation of Natural Hazards, Springer;International Society for the Prevention and Mitigation of Natural Hazards, vol. 113(1), pages 547-576, August.
    2. Shihai Wu & Jianzhong Yan & Liu Yang & Xian Cheng & Ya Wu, 2021. "Farmers and herders reclaim cropland to adapt to climate change in the eastern Tibetan Plateau: a case study in Zamtang County, China," Climatic Change, Springer, vol. 165(3), pages 1-23, April.

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