Dynamic Variability in Daily Temperature Extremes and Their Rela-tionships with Large-scale Atmospheric Circulation During 1960-2015 in Xinjiang, China

ZHANG Kexin; DAI Shengpei; DONG Xiaogang

doi:10.1007/s11769-020-1106-3

Article Contents

Article Navigation > Chinese Geographical Science > 2020 > 30(2): 233-248

ZHANG Kexin, DAI Shengpei, DONG Xiaogang. Dynamic Variability in Daily Temperature Extremes and Their Rela-tionships with Large-scale Atmospheric Circulation During 1960-2015 in Xinjiang, China[J]. Chinese Geographical Science, 2020, 30(2): 233-248. doi: 10.1007/s11769-020-1106-3

Citation:

ZHANG Kexin, DAI Shengpei, DONG Xiaogang. Dynamic Variability in Daily Temperature Extremes and Their Rela-tionships with Large-scale Atmospheric Circulation During 1960-2015 in Xinjiang, China[J]. Chinese Geographical Science, 2020, 30(2): 233-248. doi: 10.1007/s11769-020-1106-3

Dynamic Variability in Daily Temperature Extremes and Their Rela-tionships with Large-scale Atmospheric Circulation During 1960-2015 in Xinjiang, China

doi: 10.1007/s11769-020-1106-3

1. School of Management Science, Guizhou University of Finance and Economics, Guiyang 550025, China;
2. Yangzhou Hongshuo Environmental and Biological Engineering Research Co. Ltd., Yangzhou 225157, China;
3. Institute of Scientific and Technical Infor-mation, Chinese Academy of Tropical Agricultural Sciences, Haikou 571101, China;
4. College of Geography and Environmental Science, Northwest Normal University, Lanzhou 730070, China

Funds:

Under the auspices of Natural Science Foundation of Jiangsu Province (No. BK20171292), China Postdoctoral Science Foundation (No. 2017M611922, 2018T110559), Postdoctoral Science Foundation of Jiangsu Province (No. 1701186B)

Received Date: 2018-10-22

Abstract

Climate changes are likely to increase the risk of numerous extreme weather events throughout the world. The objectives of this study were to investigate and analyze the temporal-spatial variability patterns of temperature extremes based on daily maximum (TX) and minimum temperature (TN) data collected from 49 meteorological stations in Xinjiang of China during 1960-2015. These temperature data were also used to assess the impacts of altitude on the temperature extremes. Additionally, possible teleconnections with the large-scale circulation pattern (the El Nino-Southern Oscillation, ENSO and Arctic Oscillation, AO) were investigated. Results showed that all percentile indices had trends consistent with warming in most parts of Xinjiang during 1960-2015, but the warming was more pronounced for indices derived from TN compared to those from TX. The minimum TN and maximum TX increased at rates of 0.16℃/10 yr and 0.59℃/10 yr, respectively during 1960-2015. Accordingly, the diurnal temperature range showed a significant decreasing trend of -0.23℃/10 yr for the whole study area. The frequency of the annual average of the warm events showed significant increasing trends while that of the cold events presented decreasing trends. Over the same period, the number of frost days showed a statistically significant decreasing trend of -3.37 d/10 yr. The number of the summer days and the growing season showed significant increasing trends at rates of 1.96 and 2.74 d/10 yr, respectively. The abrupt change year of each index was from the 1980s to the 1990s, showing that this periodic interval was a transitional phase between cold and warm climate change. Significant correlations of temperature extremes and elevation included the trends of tropical nights, growing season frequency, and cold spell duration indicator. This result also indicated the clear and complex local influence on climatic extremes. In addition, the relationship between each index of the temperature extremes with large-scale atmospheric circulation (ENSO and AO) demonstrated that the influence of ENSO on each index of the temperature extremes was greater than that of the AO in Xinjiang.
- climate variability,
- temperature extremes,
- altitude,
- atmospheric circulation,
- Xinjiang, China

References

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Dynamic Variability in Daily Temperature Extremes and Their Rela-tionships with Large-scale Atmospheric Circulation During 1960-2015 in Xinjiang, China

1. School of Management Science, Guizhou University of Finance and Economics, Guiyang 550025, China;

2. Yangzhou Hongshuo Environmental and Biological Engineering Research Co. Ltd., Yangzhou 225157, China;

3. Institute of Scientific and Technical Infor-mation, Chinese Academy of Tropical Agricultural Sciences, Haikou 571101, China;

4. College of Geography and Environmental Science, Northwest Normal University, Lanzhou 730070, China

Funds:

Received Date: 2018-10-22

Key words:

Abstract:

Climate changes are likely to increase the risk of numerous extreme weather events throughout the world. The objectives of this study were to investigate and analyze the temporal-spatial variability patterns of temperature extremes based on daily maximum (TX) and minimum temperature (TN) data collected from 49 meteorological stations in Xinjiang of China during 1960-2015. These temperature data were also used to assess the impacts of altitude on the temperature extremes. Additionally, possible teleconnections with the large-scale circulation pattern (the El Nino-Southern Oscillation, ENSO and Arctic Oscillation, AO) were investigated. Results showed that all percentile indices had trends consistent with warming in most parts of Xinjiang during 1960-2015, but the warming was more pronounced for indices derived from TN compared to those from TX. The minimum TN and maximum TX increased at rates of 0.16℃/10 yr and 0.59℃/10 yr, respectively during 1960-2015. Accordingly, the diurnal temperature range showed a significant decreasing trend of -0.23℃/10 yr for the whole study area. The frequency of the annual average of the warm events showed significant increasing trends while that of the cold events presented decreasing trends. Over the same period, the number of frost days showed a statistically significant decreasing trend of -3.37 d/10 yr. The number of the summer days and the growing season showed significant increasing trends at rates of 1.96 and 2.74 d/10 yr, respectively. The abrupt change year of each index was from the 1980s to the 1990s, showing that this periodic interval was a transitional phase between cold and warm climate change. Significant correlations of temperature extremes and elevation included the trends of tropical nights, growing season frequency, and cold spell duration indicator. This result also indicated the clear and complex local influence on climatic extremes. In addition, the relationship between each index of the temperature extremes with large-scale atmospheric circulation (ENSO and AO) demonstrated that the influence of ENSO on each index of the temperature extremes was greater than that of the AO in Xinjiang.

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Reference (65)

[1]	Abatan A A, Abiodun B J, Lawal K A et al., 2016. Trends in extreme temperature over Nigeria from percentile-based threshold indices. International Journal of Climatology, 36(6):2527-2540. doi:10.1002/joc.4510
[2]	Alexander L V, Zhang X, Peterson T C et al., 2006. Global observed changes in daily climate extremes of temperature and precipitation. Journal of Geophysical Research:Atmosphere, 111(D5):D05109. doi:10.1029/2005JD006290
[3]	Bonsal B R, Zhang X, Vincent L A et al., 2001. Characteristics of daily and extreme temperatures over Canada. Journal of Climate, 14(9):1959-1976. doi:10.1175/1520-0442(2001)014<1959:codaet>2.0.co;2
[4]	Braganza K, Karoly D J, Hirst A C et al., 2004. Simple indices of global climate variability and change Part II:attribution of climate change during the twentieth century. Climate Dynamics, 22(8):823-838. doi:10.1007/s00382-004-0413-1
[5]	Caesar J, Alexander L V, Trewin B et al., 2011. Changes in temperature and precipitation extremes over the Indo-Pacific region from 1971 to 2005. International Journal of Climatology, 31(6):791-801. doi:10.1002/joc.2118
[6]	Chen J L, Wilson C R, Tapley B D 2013. Contribution of ice sheet and mountain glacier melt to recent sea level rise. Nature Geoscience, 6(7):549-552. doi:10.1038/ngeo1829
[7]	Chen S, Chen X G, Xu J T 2016. Assessing the impacts of temperature variations on rice yield in China. Climatic Change, 138(1-2):191-205. doi:10.1007/s10584-016-1707-0
[8]	Chen Y, Zhai P M 2013. Persistent extreme precipitation events in China during 1951-2010. Climate Research, 57:143-155. doi:10.3354/cr01171
[9]	Chen Y N, Deng H J, Li B F et al., 2014. Abrupt change of temperature and precipitation extremes in the arid region of Northwest China. Quaternary International, 336:35-43. doi:10.1016/j.quaint.2013.12.057
[10]	Choi G, Collins D, Ren G Y et al., 2009. Changes in means and extreme events of temperature and precipitation in the Asia-Pacific Network region, 1955-2007. International Journal of Climatology, 29(13):1906-1925. doi:10.1002/joc.1979
[11]	Donat M G, Alexander L V, Yang H et al., 2013. Updated analyses of temperature and precipitation extreme indices since the beginning of the twentieth century:the hadex2 dataset. Journal of Geophysical Research:Atmosphere, 118(5):2098-2118. doi:10.1002/jgrd.50150
[12]	Degaetano A T, Allen R J 2002. Trends in twentieth-century temperature extremes across the United States. Journal of Climate, 15(22):3188-3205. doi:10.1175/1520-0442(2002) 015<3188:TITCTE> 2.0.CO;2
[13]	Fu G B, Chen S L, Liu C M et al., 2004. Hydro-climatic trends of the Yellow River Basin for the last 50 years. Climatic Change, 65:149-178. doi:10.1023/b:clim.0000037491.95395.bb
[14]	Fontaine B, Janicot S, Monerie P A, 2013. Recent changes in air temperature, heat waves occurrences, and atmospheric circulation in northern Africa. Journal of Geophysical Research:Atmosphere, 118(15):8536-8552. doi:10.1002/jgrd.50667
[15]	Gao Y, Feng Q, Liu W et al., 2015. Changes of daily climate extremes in Loess Plateau during 1960-2013. Quaternary International, 371:5-21. doi:10.1016/j.quaint.2014.08.052
[16]	García-Herrera R, Díaz J, Trigo R M et al., 2010. A review of the European summer heat wave of 2003. Critical Reviews in Environmental Science and Technology, 40(4):267-306.doi:10.1080/10643380802238137
[17]	Goossens C H, Berger A 1986. Annual and seasonal climatic variations over the northern hemisphere and Europe during the last century. Annales Geophysicae, 4(4):385-400.
[18]	Goswami B N, Venugopal V, Sengupta D et al., 2006. Increasing trend of extreme rain events over India in a warming environment. Science, 314(5804):1442-1445. doi:10.1126/science. 1132027
[19]	Grinsted A, Moore J C, Jevrejeva S 2004. Application of the cross wavelet transform and wavelet coherence to geophysical time series. Nonlinear Processes in Geophysics, 11(5-6):561-566. doi:10.5194/npg-11-561-2004
[20]	Grotjahn R, Black R, Leung R et al., 2016. North American extreme temperature events and related large scale meteorological patterns:a review of statistical methods, dynamics, modeling, and trends. Climate Dynamics, 46(3-4):1151-1184. doi:10.1007/s00382-015-2638-6
[21]	Guan Y H, Zhang X C, Zheng F L et al., 2015. Trends and variability of daily temperature extremes during 1960-2012 in the Yangtze River basin, China. Global and Planetary Change, 124:79-94. doi:10.1016/j.gloplacha.2014.11.008
[22]	Guan Y H, Zheng F L, Zhang X C et al., 2017. Trends and variability of daily precipitation and extremes during 1960-2012 in the Yangtze River basin, China. International Journal of Climatology, 37(3):1282-1298. doi:10.1002/joc.4776
[23]	Hegerl G C, Zwiers F W, Stott P A et al., 2004. Detectability of anthropogenic changes in annual temperature and precipitation extremes. Journal of Climate, 17(19):3683-3700. doi:10.1175/1520-0442(2004)017<3683:doacia>2.0.co;2
[24]	Hundecha Y, Bárdossy A, 2005. Trends in daily precipitation and temperature extremes across western Germany in the second half of the 20th Century. International Journal of Climatology, 25(9):1189-1202. doi:10.1002/joc.1182
[25]	Huo Z L, Dai X Q, Feng S Y et al., 2013. Effect of climate change on reference evapotranspiration and aridity index in arid region of China. Journal of Hydrology, 492:24-34. doi:10.1016/j.jhydrol.2013.04.011
[26]	IPCC, 2013. Climate Change 2013:The Physical Science Basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge, UK and New York, NY:Cambridge University Press.
[27]	Jiang F Q, Hu R J, Wang S P et al., 2013. Trends of precipitation extremes during 1960-2008 in Xinjiang, the northwest China. Theoretical and Applied Climatology, 111(1-2):133-148. doi:10.1007/s00704-012-0657-3
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Dynamic Variability in Daily Temperature Extremes and Their Rela-tionships with Large-scale Atmospheric Circulation During 1960-2015 in Xinjiang, China

doi: 10.1007/s11769-020-1106-3

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