Agricultural Land Use and Rural Development

Agricultural land provides essential goods and services for human society, and it is the basis for ensuring food security and rural development. Under the background of rapid urbanization, population growth, and climate change, the use of agricultural land has intensified and changed on local, regio...

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collection Directory of Open Access Books
description Agricultural land provides essential goods and services for human society, and it is the basis for ensuring food security and rural development. Under the background of rapid urbanization, population growth, and climate change, the use of agricultural land has intensified and changed on local, regional, and global scales. Although these changes have met the growing food demand and adjusting dietary structure to some extent, they have also led to negative impacts such as deforestation, wetland reduction, water pollution and shortages, and soil degradation. In addition, the change in agricultural land use is not only a driving factor but also a result of rural development, especially in developing countries. Driven by urbanization and economic development, a large amount of agricultural land has been occupied by urban sprawl and a large number of rural laborers have migrated to cities, resulting in the abandonment of marginal cropland, the non-agricultural and non-grain use of high-quality cropland, as well as crop type changes. Optimizing the trade-offs and synergies between agricultural production, farmers' livelihoods, and ecological protection has become the scientific basis for rural revitalization and sustainable development. Therefore, it is critical to systematically study the changes in agricultural land use and rural development as well as their interaction, providing scientific and practical implications for food security and sustainable rural management.
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spelling doab-20.500.12854ir-1377262024-05-14T14:15:55Z Agricultural Land Use and Rural Development Zhang, Xueru Liu, Yaqun Xiao, Xingyuan newly increased cultivated land spatial–temporal pattern cultivated land vulnerability food security rural residential areas utilization quality type classification obstacle factor rural space commercialization land use change drivers different altitudes rural revitalization China conservation tillage technology agricultural technology extension social networks substitution effect complementary effect Chongqing green development Theil index optimal scale regression analysis GIS rural development spatial–temporal divergence driving factors Northeast China farmland fragmentation spatial–temporal characteristics Beijing–Tianjin–Hebei region Bavaria digital rural digital divide spatial differentiation Geodetector urban–rural relationship urban–rural integrated development land-use efficiency coupling coordination relationship geographic detector rural homestead consolidation rural restructuring “point-line-surface” rural settlements mountain area agglomeration and upgrading village off-farm work straw return PSM IV-probit model bivariate probit model livelihood stability location advantage geographic detector model muti-spatial perspective the Loess Plateau government attention large infrastructure cultivated-land protection reservoir area rural family population aging farmers’ willingness to withdraw from homestead with compensation homestead withdrawal compensation preference cognition of homestead value mediating effect water resources Yanhe watershed bivariate spatial autocorrelation spatial pattern evolution scenario simulation CLUE-S Model “production–living–ecological” functions vitality the farming–pastoral ecotone Tapio decoupling model comprehensive land consolidation urban–rural element integration element flow driving mechanism new rural collective economies (NRCE) mountain disasters resilience Resilience Index Measurement Analysis (RIMA) land use function urban–rural integration coupling spatial–temporal analysis land transfer peasant household social embeddedness neighbor behavior spatial probit model land transfer-in crop planting structure land use optimization carbon emission photovoltaic county-level cities urbanization carbon emission intensity potatoes poor areas spatial Durbin model thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBC Engineering: general Agricultural land provides essential goods and services for human society, and it is the basis for ensuring food security and rural development. Under the background of rapid urbanization, population growth, and climate change, the use of agricultural land has intensified and changed on local, regional, and global scales. Although these changes have met the growing food demand and adjusting dietary structure to some extent, they have also led to negative impacts such as deforestation, wetland reduction, water pollution and shortages, and soil degradation. In addition, the change in agricultural land use is not only a driving factor but also a result of rural development, especially in developing countries. Driven by urbanization and economic development, a large amount of agricultural land has been occupied by urban sprawl and a large number of rural laborers have migrated to cities, resulting in the abandonment of marginal cropland, the non-agricultural and non-grain use of high-quality cropland, as well as crop type changes. Optimizing the trade-offs and synergies between agricultural production, farmers' livelihoods, and ecological protection has become the scientific basis for rural revitalization and sustainable development. Therefore, it is critical to systematically study the changes in agricultural land use and rural development as well as their interaction, providing scientific and practical implications for food security and sustainable rural management. 2024-05-14T14:15:46Z 2024-05-14T14:15:46Z 2024 book ONIX_20240514_9783725805778_322 9783725805778 9783725805785 https://directory.doabooks.org/handle/20.500.12854/137726 eng application/octet-stream Attribution-NonCommercial-NoDerivatives 4.0 International https://mdpi.com/books/pdfview/book/8955 https://mdpi.com/books/pdfview/book/8955 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-7258-0578-5 10.3390/books978-3-7258-0578-5 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783725805778 9783725805785 494 open access
spellingShingle newly increased cultivated land
spatial–temporal pattern
cultivated land vulnerability
food security
rural residential areas
utilization quality
type classification
obstacle factor
rural space commercialization
land use change
drivers
different altitudes
rural revitalization
China
conservation tillage technology
agricultural technology extension
social networks
substitution effect
complementary effect
Chongqing
green development
Theil index
optimal scale regression analysis
GIS
rural development
spatial–temporal divergence
driving factors
Northeast China
farmland fragmentation
spatial–temporal characteristics
Beijing–Tianjin–Hebei region
Bavaria
digital rural
digital divide
spatial differentiation
Geodetector
urban–rural relationship
urban–rural integrated development
land-use efficiency
coupling coordination relationship
geographic detector
rural homestead consolidation
rural restructuring
“point-line-surface”
rural settlements
mountain area
agglomeration and upgrading village
off-farm work
straw return
PSM
IV-probit model
bivariate probit model
livelihood stability
location advantage
geographic detector model
muti-spatial perspective
the Loess Plateau
government attention
large infrastructure
cultivated-land protection
reservoir area
rural family population aging
farmers’ willingness to withdraw from homestead with compensation
homestead withdrawal compensation preference
cognition of homestead value
mediating effect
water resources
Yanhe watershed
bivariate spatial autocorrelation
spatial pattern evolution
scenario simulation
CLUE-S Model
“production–living–ecological” functions
vitality
the farming–pastoral ecotone
Tapio decoupling model
comprehensive land consolidation
urban–rural element integration
element flow
driving mechanism
new rural collective economies (NRCE)
mountain disasters
resilience
Resilience Index Measurement Analysis (RIMA)
land use function
urban–rural integration
coupling
spatial–temporal analysis
land transfer
peasant household
social embeddedness
neighbor behavior
spatial probit model
land transfer-in
crop planting structure
land use optimization
carbon emission
photovoltaic
county-level cities
urbanization
carbon emission intensity
potatoes
poor areas
spatial Durbin model
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBC Engineering: general
Agricultural Land Use and Rural Development
title Agricultural Land Use and Rural Development
title_full Agricultural Land Use and Rural Development
title_fullStr Agricultural Land Use and Rural Development
title_full_unstemmed Agricultural Land Use and Rural Development
title_short Agricultural Land Use and Rural Development
title_sort agricultural land use and rural development
topic newly increased cultivated land
spatial–temporal pattern
cultivated land vulnerability
food security
rural residential areas
utilization quality
type classification
obstacle factor
rural space commercialization
land use change
drivers
different altitudes
rural revitalization
China
conservation tillage technology
agricultural technology extension
social networks
substitution effect
complementary effect
Chongqing
green development
Theil index
optimal scale regression analysis
GIS
rural development
spatial–temporal divergence
driving factors
Northeast China
farmland fragmentation
spatial–temporal characteristics
Beijing–Tianjin–Hebei region
Bavaria
digital rural
digital divide
spatial differentiation
Geodetector
urban–rural relationship
urban–rural integrated development
land-use efficiency
coupling coordination relationship
geographic detector
rural homestead consolidation
rural restructuring
“point-line-surface”
rural settlements
mountain area
agglomeration and upgrading village
off-farm work
straw return
PSM
IV-probit model
bivariate probit model
livelihood stability
location advantage
geographic detector model
muti-spatial perspective
the Loess Plateau
government attention
large infrastructure
cultivated-land protection
reservoir area
rural family population aging
farmers’ willingness to withdraw from homestead with compensation
homestead withdrawal compensation preference
cognition of homestead value
mediating effect
water resources
Yanhe watershed
bivariate spatial autocorrelation
spatial pattern evolution
scenario simulation
CLUE-S Model
“production–living–ecological” functions
vitality
the farming–pastoral ecotone
Tapio decoupling model
comprehensive land consolidation
urban–rural element integration
element flow
driving mechanism
new rural collective economies (NRCE)
mountain disasters
resilience
Resilience Index Measurement Analysis (RIMA)
land use function
urban–rural integration
coupling
spatial–temporal analysis
land transfer
peasant household
social embeddedness
neighbor behavior
spatial probit model
land transfer-in
crop planting structure
land use optimization
carbon emission
photovoltaic
county-level cities
urbanization
carbon emission intensity
potatoes
poor areas
spatial Durbin model
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBC Engineering: general
topic_facet newly increased cultivated land
spatial–temporal pattern
cultivated land vulnerability
food security
rural residential areas
utilization quality
type classification
obstacle factor
rural space commercialization
land use change
drivers
different altitudes
rural revitalization
China
conservation tillage technology
agricultural technology extension
social networks
substitution effect
complementary effect
Chongqing
green development
Theil index
optimal scale regression analysis
GIS
rural development
spatial–temporal divergence
driving factors
Northeast China
farmland fragmentation
spatial–temporal characteristics
Beijing–Tianjin–Hebei region
Bavaria
digital rural
digital divide
spatial differentiation
Geodetector
urban–rural relationship
urban–rural integrated development
land-use efficiency
coupling coordination relationship
geographic detector
rural homestead consolidation
rural restructuring
“point-line-surface”
rural settlements
mountain area
agglomeration and upgrading village
off-farm work
straw return
PSM
IV-probit model
bivariate probit model
livelihood stability
location advantage
geographic detector model
muti-spatial perspective
the Loess Plateau
government attention
large infrastructure
cultivated-land protection
reservoir area
rural family population aging
farmers’ willingness to withdraw from homestead with compensation
homestead withdrawal compensation preference
cognition of homestead value
mediating effect
water resources
Yanhe watershed
bivariate spatial autocorrelation
spatial pattern evolution
scenario simulation
CLUE-S Model
“production–living–ecological” functions
vitality
the farming–pastoral ecotone
Tapio decoupling model
comprehensive land consolidation
urban–rural element integration
element flow
driving mechanism
new rural collective economies (NRCE)
mountain disasters
resilience
Resilience Index Measurement Analysis (RIMA)
land use function
urban–rural integration
coupling
spatial–temporal analysis
land transfer
peasant household
social embeddedness
neighbor behavior
spatial probit model
land transfer-in
crop planting structure
land use optimization
carbon emission
photovoltaic
county-level cities
urbanization
carbon emission intensity
potatoes
poor areas
spatial Durbin model
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBC Engineering: general
url ONIX_20240514_9783725805778_322