Quantifying impacts of climate and human activities on the grassland in the Three-River Headwater Region after two phases of Ecological Project

Xiaogang Ning , Ning Zhu , Yafei Liu , Hao Wang

Geography and Sustainability ›› 2022, Vol. 3 ›› Issue (2) : 164 -176.

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Geography and Sustainability ›› 2022, Vol. 3 ›› Issue (2) :164 -176. DOI: 10.1016/j.geosus.2022.05.003
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Quantifying impacts of climate and human activities on the grassland in the Three-River Headwater Region after two phases of Ecological Project

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Abstract

The Three-River Headwater Region (TRHR) of China is a typical representative of the alpine environment in the Central Asian plateau and the alpine grassland in the world. Grassland degradation is one of its serious ecological problems. The purpose of this study is to quantify the joint impacts of climate and human activities on grassland changes in TRHR after two phases of Ecological Conservation and Construction Project (Ecological Project). Grassland vegetation coverage is selected as an indicator for analyzing grassland changes. We adopt Sen+Mann-Kendall trend analysis, residual trend analysis and correlation analysis methods to analyze the trends in spatial-temporal changes and driving factors of grassland in TRHR from 2000 to 2019. The results show that: (1) The grassland has been mainly restored, and the degraded grassland area only accounts for 1.66% of TRHR. After the implementation of the first phase of the Ecological Project, the percentage of restored grassland area has significantly increased from 8.82% to 24.57%, and slightly decreased during the second phase. (2) The establishment of national nature reserves and the implementation of the Ecological Project have changed the situation that “the grassland inside the reserve is worse than that outside the reserve”. (3) Grassland restoration is mainly affected by the joint effects of climate and human activities. Nevertheless, grassland degradation is mainly affected by human activities such as overgrazing and grassland reclamation. All of these findings can enrich our understanding of grassland restoration in TRHR. Artificial measures have certain limitations in promoting grassland restoration. Natural restoration should be considered when human beings strengthen ecological conservation and transform their production and life styles.

Keywords

Three-River Headwater Region / Ecological Conservation and Construction Project / Grassland degradation / Driving factors / Human activities

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Xiaogang Ning, Ning Zhu, Yafei Liu, Hao Wang. Quantifying impacts of climate and human activities on the grassland in the Three-River Headwater Region after two phases of Ecological Project. Geography and Sustainability, 2022, 3(2): 164-176 DOI:10.1016/j.geosus.2022.05.003

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Declaration of Competing Interest

The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

Acknowledgments

This research is jointly Funded by Key Technologies Research and Development Program of China (Grant No. 2017YFC0404503) and Funding project for basic scientific research operations of China’s Central Public Welfare Scientific Research Institutes (AR2117).

References

Publishing order | Descend order by publishing year | Descend order by cited within
[1]

Cai, B.F., Yu, R., 2009. Advance and evaluation in the long time series vegetation trends research based on remote sensing. J. Remote Sens. 13 (6), 1170-1186 (in Chinese).
[2]

Du, J.Z., Wang, G.X., Li, Y.S., 2015. Rate and causes of degradation of alpine grassland in the source regions of the Yangtze and Yellow Rivers during the last 45 years. Acta Pratac. Sin. 24 (6), 5-15 (in Chinese).
[3]

Fan, J.W., Shao, Q.Q., Liu, J.Y., Wang, J.B., Harris, W., Chen, Z.Q., Zhong, H.P., Xu, X.L., Liu, R.G., 2010. Assessment of effects of climate change and grazing activity on grassland yield in the Three Rivers Headwaters Region of Qinghai-Tibet Plateau, China. Environ. Monit. Assess. 170 (1-4), 570-584.
[4]

Han, Z., Song, W., Deng, X., Zheng, X., Xu, X.L., 2018. Grassland ecosystem responses to climate change and human activities within the Three-River Headwaters region of China. Sci. Rep. 8 (1), 9079.
[5]

Huang, S.W., Kong, J.M., 2016. Assessing land degradation dynamics and distinguishing human-induced changes from climate factors in the Three-North Shelter Forest Region of China. ISPRS Int. J. Geo-Inf. 5 (9), 158.
[6]

Huang, S.W., Li, X.S., Wu, B.F., Pei, L., 2012. The distribution and drivers of land degradation in the Three-North Shelter Forest of China during 1982-2006. Acta Geogr. Sin. 67 (5), 589-598 (in Chinese).
[7]

Jia, K., Yao, Y.J., Wei, X.Q., Gao, S., Jiang, B., Zhao, X., 2013. A review on fractional vegetation cover estimation using remote sensing. Adv. Earth Sci. 28 (7), 774-782 (in Chinese).
[8]

Jiang, C., Zhang, L.B., 2015. Climate change and its impact on the eco-environment of the Three-Rivers Headwater Region on the Tibetan Plateau, China. Int. J. Environ. Res. Public Health 12 (10), 12057-12081.
[9]

Jiang, C., Zhang, L.B., 2016. Effect of ecological restoration and climate change on ecosystems: A case study in the Three-Rivers Headwater Region, China. Environ. Monit. Assess. 188 (6), 382.
[10]

Li, H.X., Liu, G.H., Fu, B.J., 2011. Response of vegetation to climate change and human activity based on NDVI in the Three-River Headwater Region. Acta Ecol. Sin. 31 (19), 5495-5504 (in Chinese).
[11]

Li, M.M., Wu, B.F., Yan, C.Z., Zhou, W.F., 2004. Estimation of vegetation fraction in the upper Basin of Miyun reservoir by remote sensing. Resour. Sci. 26 (4), 153-159 (in Chinese)
[12]

Li, X.R., Sun, L., Zhu, J.S., Wei, J., 2016. Extraction of vegetation coverage in arid areas based on multi-scale remote sensing data collaboration. Chin. J. Ecol. 35 (5), 1394-1402 (in Chinese).
[13]

Liu, J.Y., Shao, Q.Q., Fan, J.W., 2013. Evaluation and enlightenment of the ecological effects of the Three Rivers Source Ecological Project. J. Nat. 35 (1), 40-46 (in Chinese).
[14]

Liu, J.Y., Xu, X.L., Shao, Q.Q., 2008. The spatial and temporal characteristics of grassland degradation in the Three-River Headwaters Region in Qinghai province. Acta Geogr. Sin. 63 (4), 364-376 (in Chinese).
[15]

Liu, S.L., Sun, Y.X., Zhao, H.D., Liu, Y.X., Li, M.Q., 2021. Grassland dynamics and their driving factors associated with ecological construction projects in the Three Rivers Headwater Region based on multi-source data. Acta Ecol. Sin. 41 (10), 3865-3877 (in Chinese).
[16]

Liu, X.F., Ren, Z.Y., Lin, Z.H., Liu, Y.X., Zhang, D.H., 2013a. The spatio-temporal changes of vegetation coverage in the Three-River Headwaters Region in recent 12 years. Acta Geogr. Sin. 68 (7), 897-908 (in Chinese).
[17]

Liu, X.F., Yang, Y., Ren, Z.Y., Lin, Z.H., 2013b. Changes of vegetation coverage in the Loess Plateau in 2000-2009. J. Desert Res. 33 (4), 1244-1249 (in Chinese).
[18]

Liu, X.F., Zhang, J.S., Zhu, X.F., Pan, Y.Z., Liu, Y.X., Zhang, D.H., Lin, Z.H., 2014. Spatiotemporal changes in vegetation coverage and its driving factors in the Three-River Headwaters Region during 2000-2011. J. Geogr.Sci. 24 (2), 188-302.
[19]

Ma, H.X., Chen, C.C., Song, Y.Q., Ye, S., Hu, Y.M., 2018. Analysis of vegetation cover and its driving factors over the past 10 years in Qinghai Province. Res. Soil Water Conserv. 25 (6), 137-145 (in Chinese).
[20]

Qian, S., Fu, Y., Pan, F.F., 2010. Climate change tendency and grassland vegetation response during the growth season in Three-River Source Region. Sci. China Earth Sci. 53 (10), 1506-1512.
[21]

Ruan, Z., Kuang, Y.Q., He, Y.Y., Zhen, W., Ding, S., 2020. Detecting vegetation change in the Pearl River Delta Region based on time series segmentation and residual trend analysis (TSS-RESTREND) and MODIS NDVI. Remote Sens. 12 (24), 4049.
[22]

Shao, Q.Q., Fan, J.W., Liu, J.Y., Huang, L., Cao, W., Xu, X.L., Ge, J.S., Wu, D., Li, Z.Q., Gun, G.L., Nie, X.M., He, T., Wang, L.Y., Bing, L.F., Li, Q.J., Chen, Z.Q., Zhang, G.Q., Zhang, L.X., Yang, Y.S., Yang, F., Zhou, W.F, Liu, L.L., Qi, Y.G., Zhao, G.S., Li, Y.Z., 2016. Assessment on the effects of the first-stage ecological conservation and restoration project in Sanjiangyuan region. Acta Geogr. Sin. 71 (1), 3-20 (in Chinese).
[23]

Shao, Q.Q., Liu, J.Y., Huang, L., Fan, J.W., Xu, X.L., Wang, J.B., 2013. Integrated assessment on the effectiveness of ecological conservation in Sanjiangyuan National Nature Reserve. Geogr. Res. 32 (9), 1645-1656 (in Chinese).
[24]

Sun, Q.L., Li, B.L., Li, F., et al., 2016. Review on the estimation of net primary productivity of vegetation in the Three Rivers Headwater Region, China. Acta Geogr. Sin. 71 (9), 1596-1612 (in Chinese).
[25]

Tian, H.J., Cao, C.X., Chen, W., Bao, S.N., Yang, B., Ranga, B.M., 2015. Response of vegetation activity dynamic to climatic change and ecological restoration programs in Inner Mongolia from 2000 to 2012. Ecol. Eng. 82, 276-289.
[26]

Wu, D., Wu, H., Zhao, X., Zhou, T., Tang, B.J., Zhao, W.Q., Jia, K., 2014. Evaluation of spatiotemporal variations of global fractional vegetation cover based on GIMMS NDVI Data from 1982 to 2011. Remote Sens. 6 (5), 4217-4239.
[27]

Xiao, T., Wang, C.Z., Feng, M., Qu, R., Zhai, J., 2014. Dynamic characteristics of vegetation coverage in the Three-River Headwaters Region from 2000 to 2011. Acta Agrestia Sin. 22 (1), 39-45 (in Chinese).
[28]

Xiu, L.N., Yan, C.Z., Qian, D.W., Xing, Z.P., 2019. Analysis of spatial-temporal change and driving forces of vegetation in Loess Plateau under background of ecological engineering. Bull. Soil Water Conserv. 39 (4), 214-221+228+2 (in Chinese).
[29]

Xu, J.X., Fang, S.B., Zhang, T.B., Zhu, Y.C., Wu, D., Yi, G.H., 2020. NDVI changes and its correlation with climate factors of the Three-River Headwater region in growing seasons during 2000-2016. Remote Sens. L. Resour. 32 (1), 237-246 (in Chinese).
[30]

Xu, W.X., Gu, S., Zhao, X.Q., Xiao, J.S., Tang, Y.H., Fang, J.Y., Zhang, J., Jiang, S., 2011. High positive correlation between soil temperature and NDVI from 1982 to 2006 in alpine meadow of the Three-River Source Region on the Qinghai-Tibetan Plateau. Int. J. Appl. Earth Obs. Geoinf. 13 (4), 528-535.
[31]

Xu, X.L., Wang, L., Li, J., Cai, H.Y., 2017. Analysis of the grassland restoration trend and degradation situation in the "Three-River Headwaters" region since the implementation of the ecological project. J. Geo-Inf. Sci. 19 (1), 50-58 (in Chinese).
[32]

Zhang, Y., Ye, A, 2021. Quantitatively distinguishing the impact of climate change and human activities on vegetation in mainland China with the improved residual method. GISci. Remote Sens. 58 (2), 235-260.
[33]

Zhang, Y., Zhang, C.B., Wang, Z.Q., Yang, Y., Li, J.L., 2017a. Spatiotemporal dynamics of grassland coverage in response to climate change from 1982 to 2012 in the Three Rivers Source region, China. Pratac. Sci. 34 (10), 1977-1990 (in Chinese).
[34]

Zhang, Y., Zhang, C.B., Wang, Z.Q., Yang, Y., Zhang, Y.Z., Li, J.L., An, R., 2017b. Quantitative assessment of relative roles of climate change and human activities on grassland net primary productivity in the Three-Rivers Source Region, China. Acta Pratac. Sin. 26 (5), 1-14 (in Chinese).
[35]

Zhang, Z.N., Qi, Y.J., Zhang, Y., 2018. Study of human influence on Chifeng vegetation change based on residual trend method. Ecol. Econ. 34 (9), 206-211 (in Chinese).
[36]

Zheng, C.J., Zeng, Y., Zhao, Y.J., Gao, W.W., Zhao, D., Wu, B.F., 2016. Analysis of land cover changes in Southwestern China since the 1990s. Acta Ecol. Sin. 36 (23), 7858-7869 (in Chinese).
[37]

Zoungrana, B.J., Conrad, C., Thiel, M., Amekudzi, L.K., Da, E.D., 2018. MODIS NDVI trends and fractional land cover change for improved assessments of vegetation degradation in Burkina Faso, West Africa. J. Arid Environ. 153, 66-75.
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