Land-use and land-cover changes have important effects on ecology, human systems, the environment, and policy at both global and regional scales. Thus, they are closely related to human activities. The extraction of more details about land-use change and grassland degradation is necessary to achieve future sustainable development in Inner Mongolia. The current study presents the patterns and processes of land-use changes over space and time, while also analyzing grassland degradation that is based on an analysis of land-use changes using a transition matrix, the Markov chain model and Moran’s I index, and a combination of long-time-scale remote sensing data as the data source. The major results indicate the following. (1) In 1990̿...
Large-scale, long time-series, and high-precision land-use mapping is the basis for assessing the ev...
In recent years, steppe degradation in North China has become a serious environmental problem. Most ...
The changes in land cover patterns in the Mongolian Plateau can reveal the regional status of sustai...
Land-use and land-cover changes have important effects on ecology, human systems, the environment, a...
Land use/cover change (LUCC) is one of the major environmental changes and has become a hot topic in...
This study investigates the regional differences in the land use change since 2000 in Inner Mongolia...
During the past decades, overuse of land resources has increasingly contributed to environmental cri...
Understanding the spatiotemporal changes in landscape patterns and their driving factors in Inner Mo...
Land change science (LCS) strives to understand and model land-use change, which will further advanc...
The Mid-eastern Inner Mongolia of China, a typical agro-pastoral transitional zone, has undergone ra...
Understanding the causes and consequences of land use and land cover change in drylands is crucial f...
Ecosystem services (ESs) and their transformations in northern China play a crucial role in regional...
Landsat TM/ETM+ sensor data has proven to be a highly effective data source for vegetation and land ...
The semi-arid grasslands in Inner Mongolia (IM) are under increasing stress owing to climate change ...
Inner Mongolia in China is a typically arid and semi-arid region with vegetation prominently affecte...
Large-scale, long time-series, and high-precision land-use mapping is the basis for assessing the ev...
In recent years, steppe degradation in North China has become a serious environmental problem. Most ...
The changes in land cover patterns in the Mongolian Plateau can reveal the regional status of sustai...
Land-use and land-cover changes have important effects on ecology, human systems, the environment, a...
Land use/cover change (LUCC) is one of the major environmental changes and has become a hot topic in...
This study investigates the regional differences in the land use change since 2000 in Inner Mongolia...
During the past decades, overuse of land resources has increasingly contributed to environmental cri...
Understanding the spatiotemporal changes in landscape patterns and their driving factors in Inner Mo...
Land change science (LCS) strives to understand and model land-use change, which will further advanc...
The Mid-eastern Inner Mongolia of China, a typical agro-pastoral transitional zone, has undergone ra...
Understanding the causes and consequences of land use and land cover change in drylands is crucial f...
Ecosystem services (ESs) and their transformations in northern China play a crucial role in regional...
Landsat TM/ETM+ sensor data has proven to be a highly effective data source for vegetation and land ...
The semi-arid grasslands in Inner Mongolia (IM) are under increasing stress owing to climate change ...
Inner Mongolia in China is a typically arid and semi-arid region with vegetation prominently affecte...
Large-scale, long time-series, and high-precision land-use mapping is the basis for assessing the ev...
In recent years, steppe degradation in North China has become a serious environmental problem. Most ...
The changes in land cover patterns in the Mongolian Plateau can reveal the regional status of sustai...