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宋文起, 王志恒. 2023. 近30年来中国气温、降水和水分盈亏的趋势及其变化[J]. 气候与环境研究, 28(1): 1−16. doi: 10.3878/j.issn.1006-9585.2022.21042
引用本文: 宋文起, 王志恒. 2023. 近30年来中国气温、降水和水分盈亏的趋势及其变化[J]. 气候与环境研究, 28(1): 1−16. doi: 10.3878/j.issn.1006-9585.2022.21042
SONG Wenqi, WANG Zhiheng. 2023. Trends and Changes in Temperature, Precipitation, and Water Surplus and Deficit in China over the Last 30 Years [J]. Climatic and Environmental Research (in Chinese), 28 (1): 1−16. doi: 10.3878/j.issn.1006-9585.2022.21042
Citation: SONG Wenqi, WANG Zhiheng. 2023. Trends and Changes in Temperature, Precipitation, and Water Surplus and Deficit in China over the Last 30 Years [J]. Climatic and Environmental Research (in Chinese), 28 (1): 1−16. doi: 10.3878/j.issn.1006-9585.2022.21042

近30年来中国气温、降水和水分盈亏的趋势及其变化

Trends and Changes in Temperature, Precipitation, and Water Surplus and Deficit in China over the Last 30 Years

  • 摘要: 解析气候变化的主要特征可为认识气候变化如何影响生态系统过程提供基础数据,也可为气候变化应对提供科技支撑。近几十年来,中国区域内的气温快速升高,对生态系统造成了极大的影响。但关于温度和降水时间变化趋势是否存在转折以及区域上是否存在差异的研究还较少。并且过去几十年的气温和降水变化已引起了水分盈亏的显著改变,而关于我国水分盈亏变化趋势的研究仍显不足,充分了解不同地区水分盈亏的变化,可以帮助我们更好地理解该地区的干湿变化,提升水资源的管理和利用效率。本文基于中国2479个气象站点的观测数据,利用分段回归方法分析了1981~2015年间年平均温度、年降水量以及水分盈亏的时间变化趋势及其转折点的时空格局,主要结果如下:(1)1981~2015年全国平均温度显著增加,且具有明显的阶段变化特征和地区差异:1991~1995年云南、东北北部温度变化发生转折,云南1991年之后开始显著增温。东北南部、华北大部分地区温度发生转折的时间为1996~2000年,南部沿海地区温度发生转折的时间为2001~2005年,转折点之前温度显著增加,转折点之后温度增加停滞。(2)1981~2015年中国降水量的时间变化趋势在不同地区之间具有显著差异,西部干旱地区及山东半岛等地区,年降水量显著增加,而西南地区降水量显著减少。在陕西、山西等地降水量时间变化趋势发生转折,降水量在转折点之前显著降低,转折点之后显著增加。全国大部分地区降水日数减少,降水强度增加,极端降水事件的频率增加。(3)1981~2015年中国大部分地区的水分盈亏量、标准化降水蒸散指数显著下降,中国整体上呈现干旱化的趋势。水分盈亏量的时间变化趋势在山西、陕西、云南等地发生转折,陕西、山西等地水分盈亏转折点之前减少,转折点之后增加;云南等地水分盈亏转折点之前增加,转折点之后减少。

     

    Abstract: Dissecting the main features of climate change offers basic data for understanding how climate change affects ecosystem processes and provides scientific and technological support for climate change response. Over the last few decades, the rapid increase in temperature in the Chinese region has had a significant impact on ecosystems. However, few studies have hitherto focused on whether there are transitions in temperature and precipitation temporal trends and whether there are regional differences. Furthermore, the temperature and precipitation changes in the past decades have caused significant changes in moisture gain/loss levels, while the trends of moisture gain/loss in China have received poor attention. A sufficient understanding of the changes in moisture gain/loss levels in different regions can help us better understand the dry and wet changes in the region and improve the efficiency of water resource management and usage. Analyzing the temporal and spatial distribution of the turning points of temperature and precipitation changes will help understand the change trend of water profit and loss and spatial differences. Based on the observational data of 2479 meteorological stations in China, this study uses the segmented regression method to analyze the temporal change trends of annual average temperature, annual precipitation, and water surplus and loss from 1981 to 2015, and the temporal and spatial patterns of turning points. The main results are the following. (1) The national average temperature increased significantly from 1981 to 2015, which demonstrated obvious phase-change characteristics and regional differences: In Yunnan and in northern and northeastern regions, the temperature changed between 1991 and 1995, while the temperature in Yunnan began to increase significantly after 1991. The temperature transition period in most parts of southern Northeast and North China occurred between 1996 and 2000, and the temperature transition period in the southern coastal areas occurred between 2001 and 2005. The temperature increased significantly before the turning point, while it stagnated after the turning point. (2) The temporal precipitation trend in China from 1981 to 2015 significantly differs between different regions. In the arid areas of the western regions and the Shandong Peninsula, the annual precipitation increased significantly, while the precipitation in the southwestern region decreased significantly. In Shaanxi, Shanxi, and other places, the temporal trend of precipitation has turned. The precipitation decreased significantly before the turning point and increased significantly after the turning point. In most parts of the country, the number of precipitation days has decreased, the precipitation intensity has increased, and the frequency of extreme precipitation events has increased. (3) From 1981 to 2015, the water surplus and loss and the standardized precipitation evapotranspiration index in most areas of China dropped significantly, and China showed a trend of aridification. The temporal change trend of water surplus and loss occurred in Shanxi, Shaanxi, Yunnan, andYunnan. Shaanxi, Shanxi, and Yunnan decreased before the water surplus and loss turning point and increased after the turning point; Yunnan and other places increased before the water surplus and loss turning point and decreased after the turning point.

     

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