Spatio-temporal evolution of Ecologically-sustainable land use in China's Loess Plateau and detection of its influencing factorss
文章来源:信息中心 | 发布时间:2022-07-01
文章来源:信息中心 | 发布时间:2022-07-01 | 【打印】 【关闭】
Spatio-temporal evolution of Ecologically-sustainable land use in China's Loess Plateau and detection of its influencing factors
QU Lu-lu1 LIU Yan-sui1,2* CHEN Zong-feng1
Ecological land (Eco-land) is a basic resource for human beings to survive, and eco-land use is a strategy, a way to manage the land resource.
So, ecologically-sustainable land use is essential for human beings to survive. This paper investigates the spatiotemporal characteristics and mechanisms of urban-rural eco-land using a new and innovative integration way based on eco-land change data in China's Loess Plateau (LP) prefecture level cities and explores factors of eco-land change. The spatial difference characteristic of eco-land among different level cities in the LP is that: small cities > big cities >middle cities. From 2009 to 2016, the eco-land in the LP from the perspective of urban-rural areas has changed significantly. Significant differences of urban-rural eco-land were identified among various urban growth types, and all the cities in the LP were
further classified into four types based on eco-land change trend, with type A and B cities identified as the vital zone and major zone. Taking the eco-fragile region Loess Plateau (LP) as an example, our results demonstrated that the migrants to cities in LP could relieve ecological pressures and promote restoration of ecological vegetation. We have demonstrated that urbanization and the influence of government policy can be discerned through the quantification of the spatial-temporal change of eco-land and suggest that combining both urban and rural eco-land can support more effective land use decisions and provide theoretical basis for the practical application of urban planning, policy -making and sustainable development. What’s more, governments should strive to population mobility and restore vegetation to sustain this fragile ecological environment.
