Spatio-temporal patterns and driving forces of recent (1992—2015) land cover change in countries along the Belt and Road Initiative
- Vol. 26, Issue 6, Pages: 1220-1235(2022)
Published: 07 June 2022
DOI: 10.11834/jrs.20219201
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海凯,王思远,涂平,杨瑞霞,马元旭,梁娟珠,刘卫华,吴林霖.2022.“一带一路”沿线国家1992年—2015年土地覆盖变化的时空格局及其驱动力分析.遥感学报,26(6): 1220-1235
Hai K,Wang S Y,Tu P,Yang R X,Ma Y X,Liang J Z,Liu W H and Wu L L. 2022. Spatio-temporal patterns and driving forces of recent (1992—2015) land cover change in countries along the Belt and Road Initiative. National Remote Sensing Bulletin, 26(6):1220-1235
土地覆盖变化影响局域的能源和水平衡,并在全球范围内促进碳的净排放。基于欧空局气候变化倡议项目最新发布的1992年—2015年300 m分辨率的全球土地覆盖数据集,本文分析了1992年—2015年“一带一路”沿线主要土地覆盖类型变化的时空特征及其驱动力。研究结果表明:1992年—2015年沿线耕地、草地和建设用地面积分别增加190.00
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,森林、灌木、湿地和水体面积分别减少61.14
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。2000年—2015年与1992年—2000年相比,沿线土地覆盖变化的区域空间格局基本一致,但区域变化呈现了新的特征。东南亚区建设用地扩张明显加速,耕地面积增速下降,森林面积减速上升,灌木面积减速下降明显;东亚区建设用地持续高速扩张,耕地面积持续减少,森林面积减速明显下降,草地面积持续增加;中东欧区建设用地扩张速度明显下降,耕地面积减速上升;俄罗斯建设用地扩张持续缓慢,森林面积稳中有升,草地和灌木面积增速下降。分析进一步显示人口增长、气候变化、社会经济发展和政府相关政策是造成沿线国家土地覆盖变化的主要驱动因素。
Land Use/Cover Change (LUCC) impacts local energy and water balance and promotes a net carbon emission to the atmosphere globally. Based on the latest released annual ESA Climate Change Initiative (CCI) global land cover dataset
which provides long time sequenced land cover changes at 300 m resolution from 1992 to 2015
the spatio-temporal characteristics and driving forces of major land cover change along the Belt and Road Initiative were analyzed. Results indicated that cropland
grassland
and built-up land increased by 190.00×10
3
km
2
57.97×10
3
km
2
and 260.39×10
3
km
2
respectively
whereas forest
shrub
wetland
and water decreased by 61.14×10
3
km
2
34.22×10
3
km
2
74.28×10
3
km
2
and 44.41×10
3
km
2
respectively. In addition
the spatial patterns of land cover changes during 2000—2015 in the Belt and Road Initiative was consistent with that of the period 1992—2000. However
some new characteristics of land cover changes emerged in different regions of the Belt and Road Initiative in 2000—2015. The rates of built-up land expansion and forest loss increased in Southeast Asia
whereas the rates of cropland growth and shrub loss decreased significantly. The built-up land continued to expand at a high speed
and the area of grassland increased in East Asia
whereas the area of cropland continued to decrease
and the rate of forest loss has dropped significantly. The expansion rate of built-up land decreased in Central and Eastern Europe
whereas the rate of cropland shrinkage accelerated. In Russia
built-up land expansion slowed down continually
and forest area increased slightly. In addition
the growth rates of grassland and shrub decreased in Russia. The analysis further shows that population growth
climate change
socio-economic development
and government-related policies are the main drivers of land cover change in countries along the Belt and Road Initiative.
遥感土地覆盖变化“一带一路”沿线时空特征驱动力
remote sensingland cover changethe Belt and Road Initiativespatio-temporal characteristicsdriving forces
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