Contribution of urban expansion to surface warming in high-altitude cities of the Tibetan Plateau

Zhong, Yali; Chen, Shuqing; Mo, Haihua; Wang, Weiwen; Yu, Pengfei; Wang, Xuemei; Chuduo, Nima; Ba, Bian

Contribution of urban expansion to surface warming in high-altitude cities of the Tibetan Plateau

Yali Zhong (), Shuqing Chen (), Haihua Mo (), Weiwen Wang (), Pengfei Yu (), Xuemei Wang (), Nima Chuduo () and Bian Ba ()
Additional contact information
Yali Zhong: Jinan University
Shuqing Chen: Jinan University
Haihua Mo: Jinan University
Weiwen Wang: Jinan University
Pengfei Yu: Jinan University
Xuemei Wang: Jinan University
Nima Chuduo: Lhasa Meteorological Administration
Bian Ba: Lhasa Meteorological Administration

Climatic Change, 2022, vol. 175, issue 1, No 6, 22 pages

Abstract: Abstract Large-scale climate change on the Tibetan Plateau (TP), the world’s Third Pole, has attracted extensive attention, while studies of urban climate on the TP have been sporadic. Here, we quantify urban expansion on the TP and its contribution to surface warming of typical plateau cities based on existing literature, observations, and numerical simulations. Large-scale warming of the surface atmosphere over the TP during 1975–2021 is estimated to be 0.31 [0.19 to 0.47] °C decade−1 based on a set of rural meteorological sites, while the atmospheric warming of six typical highland cities on the TP during the same period is estimated to be 0.44 [0.31 to 0.53] °C decade−1. This means that urbanization contributed about 30% of the warming in these cities. Lhasa is one of the cities with the strongest warming over the TP. The contribution of urban expansion to Lhasa’s air temperature increase is approximately 40%, which can be estimated using both observations and numerical simulations. The urban expansion footprint of Lhasa and its contribution to the spatial pattern and diurnal variation of atmospheric and land surface warming are quantified. The contribution of urbanization to the near-surface air temperature and land surface temperature of Lhasa from 2000 to 2020 is estimated to be 0.44 [0.39 to 0.49] °C and 1.44 [1.32 to 1.56] °C, respectively. These results provide potential global implications for urban studies in plateau areas.

Keywords: Tibetan Plateau; High-altitude city; Urbanization; Urban warming; Urban heat island (search for similar items in EconPapers)
Date: 2022
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DOI: 10.1007/s10584-022-03460-6

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