With the growing need for resources brought about by economic development, countries throughout the world have attached greater importance to the development and exploitation of marine resources.However,the scope and ...With the growing need for resources brought about by economic development, countries throughout the world have attached greater importance to the development and exploitation of marine resources.However,the scope and sphere of marine resources development are limited by the development level of marine resources technology.This paper introduces the achievements and problems of China’s marine resources development and exploitation,as well as the achievements,advantages and disadvantages in the scientific and technological development of our marine resources.It also discusses the general aims,key fields,preferred options and advanced techniques in the development of marine resources technology during the 11<sup>th</sup> Five-Year Plan,and offers policy suggestions for enhancing the creative abilities of marine resources technology.展开更多
Landforms are an important factor determining the spatial pattern of cropland through allocation of surface water and heat. Therefore, it is of great importance to study the change in cropland distribution from the pe...Landforms are an important factor determining the spatial pattern of cropland through allocation of surface water and heat. Therefore, it is of great importance to study the change in cropland distribution from the perspective of geomorphologic divisions. Based on China's multi-year land cover data(1990, 1995, 2000, 2005, 2010 and 2015) and geomorphologic regionalization data, we analyzed the change in cropland area and its distribution pattern in six geomorphologic regions of China over the period of 1990-2015 with the aid of GIS techniques. Our results showed that the total cropland area increased from 177.1 to 178.5 million ha with an average increase rate of 0.03%. Cropland area decreased in southern China and increased in northern China. Region I(Eastern hilly plains) had the highest cropland increase rate, while the cropland dynamic degree of Region IV(Northwestern middle and high mountains, basins and plateaus) was significantly higher than that of other regions. The barycenter of China's cropland shifted from northern China to the northwest over the 25-year period. Regions IV and I were the two regions with the greatest increase of cropland. Region II(Southeastern low and middle mountains) and Region V(Southwestern middle and low mountains, plateaus and basins) were the main decreasing cropland regions. The area of cropland remained almost unchanged in Region III(Northern China and Inner Mongolia eastern-central mountains and plateaus) and Region VI(Tibetan Plateau). The loss of cropland occurred mostly in Regions I and II as a result of growing industrialization and urbanization, while the increase of cropland occurred mainly in Region IV because of reclamation of grassland and other wasteland. These analyzing results would provide fundamental information for further studies of urban planning, ecosystem management, and natural resourcesconservation in China.展开更多
Desertification control is a crucial way to enhancing the ecological conditions of arid and semi-arid regions, and maintaining sustainable development globally. Designing and improving an ecological compensation mecha...Desertification control is a crucial way to enhancing the ecological conditions of arid and semi-arid regions, and maintaining sustainable development globally. Designing and improving an ecological compensation mechanism for desertification control has great significance related to achieving balance amongst the needs of different economic subjects and the assurance of a sustained and stable supply of desert ecosystem services. In this paper,(1) the theoretical bases of ecological compensation for desertification control were re-analyzed;(2) the research status and challenges of three important topics related to ecological compensation for desertification control were systemically discussed, including compensation standards, ecosystem service supply-consumption process and multi-scale effects, and resource-environment basis and policy orientation;(3) a research framework of ecological compensation for desertification control based on the process of desert ecosystem service supply–flow–consumption was proposed;(4) and finally, seven priority research issues were discussed, which aimed to support ecological compensation policy-making and ecological engineering implementation for desertification control.展开更多
基金"Strategic Studies upon Marine Resources Development and Protection Technology".On the subject of"Strategic Studies upon the Social Development Technology of the Ministry of Science and Technology".
文摘With the growing need for resources brought about by economic development, countries throughout the world have attached greater importance to the development and exploitation of marine resources.However,the scope and sphere of marine resources development are limited by the development level of marine resources technology.This paper introduces the achievements and problems of China’s marine resources development and exploitation,as well as the achievements,advantages and disadvantages in the scientific and technological development of our marine resources.It also discusses the general aims,key fields,preferred options and advanced techniques in the development of marine resources technology during the 11<sup>th</sup> Five-Year Plan,and offers policy suggestions for enhancing the creative abilities of marine resources technology.
基金National Natural Science Foundation of China,No.41421001,No.41590845,No.41571388National Key Basic Research Program,No.2015CB954101
文摘Landforms are an important factor determining the spatial pattern of cropland through allocation of surface water and heat. Therefore, it is of great importance to study the change in cropland distribution from the perspective of geomorphologic divisions. Based on China's multi-year land cover data(1990, 1995, 2000, 2005, 2010 and 2015) and geomorphologic regionalization data, we analyzed the change in cropland area and its distribution pattern in six geomorphologic regions of China over the period of 1990-2015 with the aid of GIS techniques. Our results showed that the total cropland area increased from 177.1 to 178.5 million ha with an average increase rate of 0.03%. Cropland area decreased in southern China and increased in northern China. Region I(Eastern hilly plains) had the highest cropland increase rate, while the cropland dynamic degree of Region IV(Northwestern middle and high mountains, basins and plateaus) was significantly higher than that of other regions. The barycenter of China's cropland shifted from northern China to the northwest over the 25-year period. Regions IV and I were the two regions with the greatest increase of cropland. Region II(Southeastern low and middle mountains) and Region V(Southwestern middle and low mountains, plateaus and basins) were the main decreasing cropland regions. The area of cropland remained almost unchanged in Region III(Northern China and Inner Mongolia eastern-central mountains and plateaus) and Region VI(Tibetan Plateau). The loss of cropland occurred mostly in Regions I and II as a result of growing industrialization and urbanization, while the increase of cropland occurred mainly in Region IV because of reclamation of grassland and other wasteland. These analyzing results would provide fundamental information for further studies of urban planning, ecosystem management, and natural resourcesconservation in China.
基金National Natural Science Foundation of China,No.71573245National Key Research and Development Program of China,No.2016YFC0501002
文摘Desertification control is a crucial way to enhancing the ecological conditions of arid and semi-arid regions, and maintaining sustainable development globally. Designing and improving an ecological compensation mechanism for desertification control has great significance related to achieving balance amongst the needs of different economic subjects and the assurance of a sustained and stable supply of desert ecosystem services. In this paper,(1) the theoretical bases of ecological compensation for desertification control were re-analyzed;(2) the research status and challenges of three important topics related to ecological compensation for desertification control were systemically discussed, including compensation standards, ecosystem service supply-consumption process and multi-scale effects, and resource-environment basis and policy orientation;(3) a research framework of ecological compensation for desertification control based on the process of desert ecosystem service supply–flow–consumption was proposed;(4) and finally, seven priority research issues were discussed, which aimed to support ecological compensation policy-making and ecological engineering implementation for desertification control.
