乔世荣, 徐霞, 黄奕钦. 中国内陆沿海地区1986—2015年极端气候指数对生态系统脆弱性的影响[J]. 北京师范大学学报(自然科学版), 2024, 60(3): 438-446. DOI: 10.12202/j.0476-0301.2022331
引用本文: 乔世荣, 徐霞, 黄奕钦. 中国内陆沿海地区1986—2015年极端气候指数对生态系统脆弱性的影响[J]. 北京师范大学学报(自然科学版), 2024, 60(3): 438-446. DOI: 10.12202/j.0476-0301.2022331
QIAO Shirong, XU Xia, HUANG Yiqin. Impact of extreme climate change on ecosystem vulnerability in the Chinese coastal areas[J]. Journal of Beijing Normal University(Natural Science), 2024, 60(3): 438-446. DOI: 10.12202/j.0476-0301.2022331
Citation: QIAO Shirong, XU Xia, HUANG Yiqin. Impact of extreme climate change on ecosystem vulnerability in the Chinese coastal areas[J]. Journal of Beijing Normal University(Natural Science), 2024, 60(3): 438-446. DOI: 10.12202/j.0476-0301.2022331

中国内陆沿海地区1986—2015年极端气候指数对生态系统脆弱性的影响

Impact of extreme climate change on ecosystem vulnerability in the Chinese coastal areas

  • 摘要: 基于1986—2015年气象数据、净初级生产力(NPP)数据集,计算了典型极端气候指数和生态系统脆弱性,从时间和空间2个维度分析NPP以及极端气候的时空变化特征,揭示中国内陆沿海地区陆地生态系统脆弱性空间分布特征,进一步探讨不同生态系统脆弱性对极端气候指数的响应特征.结果表明:1)1986—2015年,中国内陆沿海地区呈现偏暖的趋势,平均温度上升1.2 ℃,具体表现为暖昼时间(Tx90p)、暖夜时间(Tn90p)呈增加趋势,冷昼时间(Tx10p)、冷夜时间(Tn10p)则呈减少趋势,每日气温极值 (TXx、TNx、TXn、TNn)呈增加趋势,气温日较差(DTR)呈降低趋势,夜间气温上升幅度大于日间;极端降水呈现南增北减的空间分布特征.2)陆地生态系统脆弱性呈现出显著的地理空间差异性,脆弱性最高的地区位于北部,东北地区中部以及华北地区存在明显的高脆弱性区域,具体表现为该区域恢复力较低.3)极端气候指数与陆地生态系统脆弱性之间具有显著的关联性,均表现为显著的负相关,日夜温差(DTR)与陆地生态系统的脆弱性呈显著正相关.

     

    Abstract: Frequency and intensity of global extreme climate events have been increasing over the past century. As the transitional area between sea and land, the coastal ecosystems in China are significantly affected by extreme climates due to the large and extended north-south span of China. Meteorological data and net primary productivity (NPP) dataset from 1986 to 2015 were used to calculate typical extreme climate index and ecosystem vulnerability, to analyze spatial and temporal variations of NPP and extreme climate, to reveal spatial distribution characteristics of terrestrial ecosystem vulnerability in the Chinese coastal areas, and to further examine the response characteristics of different ecosystem vulnerability to extreme climate index. The inland coastal areas of China showed a warming trend from 1986 to 2015, with an average temperature increase of 1.2 degrees Celsius. Tx90p (warm day days) and Tn90p (warm night days) showed an increasing trend; Tx10p (cold day days) and Tn10p (cold night days) showed a decreasing trend. TXx, TNx, TXn, TNn (daily temperature extremes) showed an increasing trend, DTR (daily temperature range) showed a decreasing trend. The increase in temperature at night is greater than during the day. Extreme precipitation exhibits a spatial distribution characteristic of increasing in the south and decreasing in the north. Vulnerability of the terrestrial ecosystem shows significant geographical and spatial differences. Region with the highest vulnerability is located in the north; high vulnerability regions are present in the middle of Northeast China and North China, as reflected in the low resilience of the region. There is a significant correlation between the extreme climate index and the vulnerability of the terrestrial ecosystem, which shows a significant negative correlation. The DTR (day night temperature difference) is significantly positively correlated with the vulnerability of the terrestrial ecosystem.

     

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