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Showing items 37 through 45 of 733.
Land use conflicts induced by human activities cause accelerated soil erosion. The response of soil erosion to spatial conflict in production-living-ecological space (PLES) is not clearly understood.
Growing cities face severe land use conflicts. Urban expansion and the densification of existing built areas are increasing the pressure on green spaces, which are key for climate change adaptation. Planning procedures embroiled in these land use conflicts are often complicated and slow.
With the development of the green food industry, land conflicts are gradually escalating, and the coordinated development of competitiveness level and land use efficiency is crucial to the green food industry.
Accurate identification of land use conflicts is an important prerequisite for the rational allocation of land resources and optimizing the production–living–ecological space pattern. Previous studies used suitability assessment and landscape pattern indices to identify land use conflicts.
In the context of China’s new round of land reform, narrowing the scope of land expropriation, standardising the procedures for land expropriation, and building a unified urban and rural construction land market have become the objectives of land expropriation reform.
According to the World Bank, approximately 55% of the population lives in cities and a growing trend is expected in the future.
The Qinghai-Tibetan Plateau (QTP), known as the “Third Pole of the Earth”, contains fragile ecosystems and is sensitive to global environmental changes.
Knowledge of hydrologic connectivity is important to grasp the hydrological response at a basin scale, particularly as changes in connectivity can have a negative effect on the environment.
This investigation aims to assess the changes of Land Use/Land Cover (LULC) and its impact on ecosystem services value in Damietta Governorate, Egypt. To fulfill this aim, Landsat data of TM5 in 2001, ETM in 2011 and OLI in 2021 were used.