Abstract
During the second half of the 20th century, eastern Northwest China experienced a warming and drying climate change. To determine whether this trend has continued or changed during the present century, this study systematically analyzes the characteristics of warming and dry–wet changes in eastern Northwest China based on the latest observational data and World Climate Research Programme (WCRP) Coupled Model Intercomparison Project Phase 6 (CMIP6) collection data. The results show that eastern Northwest China has warmed continuously during the past 60 years with a sudden temperature change occurring in the late 1990s. However, the temperature in the 2000s decreased slowly, and that in the 2010s showed a warming trend. The amount of precipitation began to increase in the late 1990s, which indicates a contemporary climate transition from warm-dry to warm-wet in eastern Northwest China. The contribution of precipitation to humidity is significantly more than that of temperature. Long-term and interannual variations dominate the temperature change, with the contribution of the former much stronger than that of the latter. However, interannual variation dominates the precipitation change. The warming accelerates from period to period, and the temperature spatial consistently increased during the three most recent climatic periods. The precipitation decreased from 1961–1990 to 1981–2010, whereas its spatial consistency increased from 1981–2010 to 1991–2019. The significant warming and humidification which began in the late 1990s and is expected to continue until the end of the 21st century in the medium emission scenario. However, the current sub-humid climate will not easily be changed. The warming could cause a climate transition from warm temperate to subtropical by 2040. The dry-to-wet climate transition in eastern Northwest China could be related to a synergistic enhancement of the East Asian summer monsoon and the westerly circulation. This research provides a scientific decision-making basis for implementing western development strategies, ecological protection, and high-quality development of the Yellow River Basin Area as well as that for ecological construction planning and water resource management of eastern Northwest China.
Highlights
The eastern region of Northwest China, located on the Qinghai–Tibet Plateau slope, has a complex topography and diverse landforms
The previous analysis showed that eastern Northwest China has been warming continuously since 1961 and has became wetter since the late 1990s
It is expected that the temperature will reach 12.3 °C in 2040, which would cause the climate in eastern Northwest China to transition from warm temperate to subtropical
Summary
The eastern region of Northwest China, located on the Qinghai–Tibet Plateau slope, has a complex topography and diverse landforms. This area is located at the northern edge of summer monsoon activity and experiences the most sensitive and prominent summer monsoon effects. The sensitive climate and fragile ecological environment of this region are crucial in the global environmental system [2]. As the confluence area of the Yellow River Basin’s upper reaches, this region has a climate that affects the ecological construction and highquality development of the Yellow River Basin area. Climate change in this region has long been a vital issue that has been studied extensively by researchers and the Chinese government [3,4]
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