Abstract
The Chinese Tianshan mountainous region (CTMR) is a typical alpine region with high topographic heterogeneity, characterized by a large altitude span, complex topography, and diverse landscapes. A significant increase in air temperature had occurred in the CTMR during the last five decades. However, the detailed, comprehensive, and systematical characteristics of climate warming, such as its temporal and spatial heterogeneity, remain unclear. In this study, the temporal and spatial heterogeneity of climate warming across the CTMR had been comprehensively analyzed based on the 10-day air temperature data gathered during 1961–2020 from 26 meteorological stations. The results revealed local cooling in the context of general warming in the CTMR. The amplitude of variation (AV) varied from −0.57 to 3.64 °C, with the average value of 1.19 °C during the last six decades. The lapse rates of the elevation-dependent warming that existed annually, and in spring, summer, and autumn are −0.5 °C/100 m, −0.5 °C/100 m, −0.7 °C/100 m, and −0.4 °C/100 m, respectively. The warming in the CTMR is characteristic of high temporal heterogeneity, as represented by the amplified warming at 10-d scale for more than half a year, and the values of AV were higher than 1.09 °C of the global warming during 2011–2020 (GWV2011–2020). Meanwhile, the amplitudes of warming differed greatly on a seasonal scale, with the rates in spring, autumn, and winter higher than that in summer. The large spatial heterogeneity of climate warming also occurred across the CTMR. The warming pole existed in the warm part, the Turpan-Hami basin (below 1000 m asl) where the air temperature itself was high. That is, the warm places were warmer across the CTMR. The cooling pole was also found in the Kuqa region (about 1000 m asl). This study could greatly improve the understanding of the spatio-temporal dynamics, patterns, and regional heterogeneity of climate warming across the CTMR and even northwest China.
Highlights
IntroductionGlobal surface temperature (GST) in the last 20 years (2001–2020) has increased by
The high values of average temperature (AAT) were mainly located in the margin of the Chinese Tianshan mountainous region (CTMR) with lower altitudes, including TP, KSH, KL, KP, KQ, AKS, SHSJF, and HM, where AATs were over 10 ◦ C
The low values of AAT were below 0 ◦ C and appeared in regions with high altitudes over 2400 m asl, including TEGT (−3.19 ◦ C)
Summary
Global surface temperature (GST) in the last 20 years (2001–2020) has increased by. The rate of long-term change and the amplitude of inter-annual variability differed from global to regional to local scales, between regions, and across climate variables [3]. The amplitude of GST over land was 1.59 ◦ C, larger than that over the ocean (0.88 ◦ C) [1]. Both the largest changes in temperature and the largest amplitude of year-to-year variations were observed in the Arctic. Tropical regions had experienced less warming than most others and exhibited smaller inter-annual variations in temperature [4].
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