中国温带草原净初级生产力的时空变化及其对气候变化的响应

Spatiotemporal Change of Net Primary Productivity and Its Response to Climate Change in Temperate Grasslands of China.

作者信息

Ma Rong, Xia Chunlin, Liu Yiwen, Wang Yanji, Zhang Jiaqi, Shen Xiangjin, Lu Xianguo, Jiang Ming

机构信息

Northeast Institute of Geography and Agroecology, Chinese Academy of Sciences, Changchun, China.

College of Mapping and Geographical Sciences, Liaoning Technical University, Fuxin, China.

出版信息

Front Plant Sci. 2022 May 24;13:899800. doi: 10.3389/fpls.2022.899800. eCollection 2022.

DOI:10.3389/fpls.2022.899800

PMID:35685016

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9171389/

Abstract

The temperate grasslands in China play a vital part in regulating regional carbon cycle and climate change. Net primary productivity (NPP) is a crucial index that reflects ecological function of plants and the carbon sequestration capacity of grassland ecosystem. Climate change can affect NPP by changing vegetation growth, but the effects of climate change on the NPP of China's temperate grasslands remain unclear. Based on MODIS data and monthly climate data during 2000-2020, this study explored the spatiotemporal changes in grassland NPP and its response to climate change in temperate grasslands of China. We found that the annual NPP over the entire China's temperate grasslands increased significantly by 4.0 gC/m/year from 2000 to 2020. The annual NPP showed increasing trends for all the different grassland vegetation types, with the smallest increase for temperate desert steppe (2.2 gC/m/year) and the largest increase for temperate meadow (5.4 gC/m/year). The correlation results showed that increased annual precipitation had a positive relationship with the NPP of temperate grasslands. Increased summer and autumn precipitation could increase grassland NPP, particularly for the temperate meadow. With regard to the effects of temperatures, increased temperature, particularly the summer maximum temperature, could decrease annual NPP. However, increased spring minimum temperature could increase the NPP of temperate desert steppe. In addition, this study found, for the first time, an asymmetric relationship between summer nighttime and daytime warming and the NPP of temperate meadow. Specifically, nighttime warming can increase NPP, while daytime warming can reduce NPP in temperate meadow. Our results highlight the importance of including seasonal climate conditions in assessing the vegetation productivity for different grassland types of temperate grasslands and predicting the influences of future climate change on temperate grassland ecosystems.

摘要

中国的温带草原在调节区域碳循环和气候变化方面发挥着至关重要的作用。净初级生产力（NPP）是反映植物生态功能和草原生态系统碳固存能力的关键指标。气候变化可通过改变植被生长来影响NPP，但气候变化对中国温带草原NPP的影响仍不明确。基于2000 - 2020年的MODIS数据和月度气候数据，本研究探讨了中国温带草原NPP的时空变化及其对气候变化的响应。我们发现，2000年至2020年期间，中国整个温带草原的年NPP显著增加，增幅为4.0 gC/m/年。所有不同草原植被类型的年NPP均呈增加趋势，其中温带荒漠草原增幅最小（2.2 gC/m/年），温带草甸增幅最大（5.4 gC/m/年）。相关结果表明，年降水量增加与温带草原的NPP呈正相关。夏季和秋季降水量增加可提高草原NPP，特别是对于温带草甸。关于温度的影响，温度升高，尤其是夏季最高温度升高，会降低年NPP。然而，春季最低温度升高可提高温带荒漠草原的NPP。此外，本研究首次发现温带草甸夏季夜间和白天变暖与NPP之间存在不对称关系。具体而言，夜间变暖可增加NPP，而白天变暖会降低温带草甸的NPP。我们的结果凸显了在评估温带草原不同草地类型植被生产力以及预测未来气候变化对温带草原生态系统影响时纳入季节气候条件的重要性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5bd8/9171389/3bddb11f3250/fpls-13-899800-g001.jpg

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中国温带草原净初级生产力的时空变化及其对气候变化的响应

Spatiotemporal Change of Net Primary Productivity and Its Response to Climate Change in Temperate Grasslands of China.

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