Ижил төстэй зүйлс: Agricultural Land Use and Rural Development
- Spatial Optimization and Sustainable Development of Land Use
- Rural Land Use in China
- Rethinking the Man-Land Relations in China
- Revija za Geografijo
- Regional Sustainable Development of Yangtze River Delta, China
- Rural Space Modeling
- Sustainable Land Use and Management
- The Impact of Social and Ecological Factors on Coupled Human-Environment Systems
- Karst Land System and Sustainable Development
- Spatio-Temporal Analysis of Urbanization Using GIS and Remote Sensing in Developing Countries
- Eco-Sensitive Areas: Ecosystem Services, Protected Lands, and Current Challenges
- Sustainable Rural Development: Strategies, Good Practices, and Opportunities Ⅱ
- Land Perspectives: People, Tenure, Planning, Tools, Space, and Health
- Impacts of Land Use Pattern in Metropolitan Area
- Sustainable Rural Development: Strategies, Good Practices and Opportunities
- Geographical Analysis and Modeling of Urban Heat Island Formation
- Agricultural Landscape Stability and Sustainable Land Management
- Spatial Planning and Land-Use Management
- Sustainable Use of Soils and Water: The Role of Environmental Land Use Conflicts
- Urban-Rural-Partnerships
- Dynamic Agriculture in East Asia: Land-Livelihood Interactions
- Mountains under Pressure
- Land-Use Modelling in Planning Practice
- Geographic Information Systems and Cartography for a Sustainable World
Сэдэв: newly increased cultivated land
- Сэдэв: cultivated land vulnerability
- Сэдэв: food security
- Сэдэв: rural residential areas
- Сэдэв: utilization quality
- Сэдэв: type classification
- Сэдэв: obstacle factor
- Сэдэв: rural space commercialization
- Сэдэв: land use change
- Сэдэв: drivers
- Сэдэв: different altitudes
- Сэдэв: rural revitalization
- Сэдэв: China
- Сэдэв: conservation tillage technology
- Сэдэв: agricultural technology extension
- Сэдэв: social networks
- Сэдэв: substitution effect
- Сэдэв: complementary effect
- Сэдэв: Chongqing
- Сэдэв: green development
- Сэдэв: Theil index
- Сэдэв: optimal scale regression analysis
- Сэдэв: GIS
- Сэдэв: rural development
- Сэдэв: spatial–temporal divergence
- Сэдэв: driving factors
- Сэдэв: Northeast China
- Сэдэв: farmland fragmentation
- Сэдэв: spatial–temporal characteristics
- Сэдэв: Beijing–Tianjin–Hebei region
- Сэдэв: Bavaria
- Сэдэв: digital rural
- Сэдэв: digital divide
- Сэдэв: spatial differentiation
- Сэдэв: Geodetector
- Сэдэв: urban–rural relationship
- Сэдэв: urban–rural integrated development
- Сэдэв: land-use efficiency
- Сэдэв: coupling coordination relationship
- Сэдэв: geographic detector
- Сэдэв: rural homestead consolidation
- Сэдэв: rural restructuring
- Сэдэв: “point-line-surface”
- Сэдэв: rural settlements
- Сэдэв: mountain area
- Сэдэв: agglomeration and upgrading village
- Сэдэв: off-farm work
- Сэдэв: straw return
- Сэдэв: PSM
- Сэдэв: IV-probit model
- Сэдэв: bivariate probit model
- Сэдэв: livelihood stability
- Сэдэв: location advantage
- Сэдэв: geographic detector model
- Сэдэв: muti-spatial perspective
- Сэдэв: the Loess Plateau
- Сэдэв: government attention
- Сэдэв: large infrastructure
- Сэдэв: cultivated-land protection
- Сэдэв: reservoir area
- Сэдэв: rural family population aging
- Сэдэв: farmers’ willingness to withdraw from homestead with compensation
- Сэдэв: homestead withdrawal compensation preference
- Сэдэв: cognition of homestead value
- Сэдэв: mediating effect
- Сэдэв: water resources
- Сэдэв: Yanhe watershed
- Сэдэв: bivariate spatial autocorrelation
- Сэдэв: spatial pattern evolution
- Сэдэв: scenario simulation
- Сэдэв: CLUE-S Model
- Сэдэв: “production–living–ecological” functions
- Сэдэв: vitality
- Сэдэв: the farming–pastoral ecotone
- Сэдэв: Tapio decoupling model
- Сэдэв: comprehensive land consolidation
- Сэдэв: urban–rural element integration
- Сэдэв: element flow
- Сэдэв: driving mechanism
- Сэдэв: new rural collective economies (NRCE)
- Сэдэв: mountain disasters
- Сэдэв: resilience
- Сэдэв: Resilience Index Measurement Analysis (RIMA)
- Сэдэв: land use function
- Сэдэв: urban–rural integration
- Сэдэв: coupling
- Сэдэв: spatial–temporal analysis
- Сэдэв: land transfer
- Сэдэв: peasant household
- Сэдэв: social embeddedness
- Сэдэв: neighbor behavior
- Сэдэв: spatial probit model
- Сэдэв: land transfer-in
- Сэдэв: crop planting structure
- Сэдэв: land use optimization
- Сэдэв: carbon emission
- Сэдэв: photovoltaic
- Сэдэв: county-level cities
- Сэдэв: urbanization
- Сэдэв: carbon emission intensity
- Сэдэв: potatoes
- Сэдэв: poor areas
- Сэдэв: spatial Durbin model
- Сэдэв: thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: g...
Сэдэв: spatial–temporal pattern
- Сэдэв: cultivated land vulnerability
- Сэдэв: food security
- Сэдэв: rural residential areas
- Сэдэв: utilization quality
- Сэдэв: type classification
- Сэдэв: obstacle factor
- Сэдэв: rural space commercialization
- Сэдэв: land use change
- Сэдэв: drivers
- Сэдэв: different altitudes
- Сэдэв: rural revitalization
- Сэдэв: China
- Сэдэв: conservation tillage technology
- Сэдэв: agricultural technology extension
- Сэдэв: social networks
- Сэдэв: substitution effect
- Сэдэв: complementary effect
- Сэдэв: Chongqing
- Сэдэв: green development
- Сэдэв: Theil index
- Сэдэв: optimal scale regression analysis
- Сэдэв: GIS
- Сэдэв: rural development
- Сэдэв: spatial–temporal divergence
- Сэдэв: driving factors
- Сэдэв: Northeast China
- Сэдэв: farmland fragmentation
- Сэдэв: spatial–temporal characteristics
- Сэдэв: Beijing–Tianjin–Hebei region
- Сэдэв: Bavaria
- Сэдэв: digital rural
- Сэдэв: digital divide
- Сэдэв: spatial differentiation
- Сэдэв: Geodetector
- Сэдэв: urban–rural relationship
- Сэдэв: urban–rural integrated development
- Сэдэв: land-use efficiency
- Сэдэв: coupling coordination relationship
- Сэдэв: geographic detector
- Сэдэв: rural homestead consolidation
- Сэдэв: rural restructuring
- Сэдэв: “point-line-surface”
- Сэдэв: rural settlements
- Сэдэв: mountain area
- Сэдэв: agglomeration and upgrading village
- Сэдэв: off-farm work
- Сэдэв: straw return
- Сэдэв: PSM
- Сэдэв: IV-probit model
- Сэдэв: bivariate probit model
- Сэдэв: livelihood stability
- Сэдэв: location advantage
- Сэдэв: geographic detector model
- Сэдэв: muti-spatial perspective
- Сэдэв: the Loess Plateau
- Сэдэв: government attention
- Сэдэв: large infrastructure
- Сэдэв: cultivated-land protection
- Сэдэв: reservoir area
- Сэдэв: rural family population aging
- Сэдэв: farmers’ willingness to withdraw from homestead with compensation
- Сэдэв: homestead withdrawal compensation preference
- Сэдэв: cognition of homestead value
- Сэдэв: mediating effect
- Сэдэв: water resources
- Сэдэв: Yanhe watershed
- Сэдэв: bivariate spatial autocorrelation
- Сэдэв: spatial pattern evolution
- Сэдэв: scenario simulation
- Сэдэв: CLUE-S Model
- Сэдэв: “production–living–ecological” functions
- Сэдэв: vitality
- Сэдэв: the farming–pastoral ecotone
- Сэдэв: Tapio decoupling model
- Сэдэв: comprehensive land consolidation
- Сэдэв: urban–rural element integration
- Сэдэв: element flow
- Сэдэв: driving mechanism
- Сэдэв: new rural collective economies (NRCE)
- Сэдэв: mountain disasters
- Сэдэв: resilience
- Сэдэв: Resilience Index Measurement Analysis (RIMA)
- Сэдэв: land use function
- Сэдэв: urban–rural integration
- Сэдэв: coupling
- Сэдэв: spatial–temporal analysis
- Сэдэв: land transfer
- Сэдэв: peasant household
- Сэдэв: social embeddedness
- Сэдэв: neighbor behavior
- Сэдэв: spatial probit model
- Сэдэв: land transfer-in
- Сэдэв: crop planting structure
- Сэдэв: land use optimization
- Сэдэв: carbon emission
- Сэдэв: photovoltaic
- Сэдэв: county-level cities
- Сэдэв: urbanization
- Сэдэв: carbon emission intensity
- Сэдэв: potatoes
- Сэдэв: poor areas
- Сэдэв: spatial Durbin model
- Сэдэв: thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: g...
- Agricultural Land Use and Rural Development
- Advances in Water Resource Monitoring and Modelling: Water Quantity and Quality Issues