机构地区:[1]Key Laboratory of Agricultural Remote Sensing(AGRIRS),Ministry of Agriculture/Institute of Agricultural Resources and Regional Planning,Chinese Academy of Agricultural Sciences [2]Agricultural Information Institute,Chinese Academy of Agricultural Sciences [3]Laboratory for Earth Surface Processes,Ministry of Education,College of Urban and Environmental Sciences,Peking University [4]Department of Land Resources and Environment Studies,School of Geography and Planning,Sun Yat-Sen University [5]Chinese Academy of Agricultural Sciences-Ghent University Joint Laboratory of Global Change and Food Security
出 处:《Journal of Geographical Sciences》2018年第11期1672-1684,共13页地理学报(英文版)
基 金:National Key Research and Development Program of China,No.2017YFD0300201;National Natural Science Foundation of China,No.41401116;Ministry of Finance of China through the Non-Profit National Research Institute,No.Y2017JC30;Field Strategic Research Project of Medium and Long-Term Development Strategy of China’s Engineering Science and Technology,No.2016-ZCQ-08
摘 要:Spatial distribution changes in major crops can reveal important information about cropping systems. Here, a new centroid method that applies physics and mathematics to spatial pattern analysis in agriculture is proposed to quantitatively describe the historical centroids of rice, maize and wheat in China from 1949 to 2014. The geographical centroids of the rice area moved 413.39 km in a 34.32° northeasterly (latitude 3.08°N, longitude 2.10°E) direction at a speed of 6.36 km/year from central Hunan province to Hubei province, while the geographical centroids of rice production moved 509.26 km in the direction of 45.44° northeasterly (latitude 3.22°N, longitude 3.27°E) at a speed of 7.83 km/year from central Hunan province to Henan province. The geographical centroids of the maize area and production moved 307.15 km in the direction of 34.33° northeasterly (latitude 2.29°N, longitude 1.56°E) and 308.16 km in the direction of 30.79° northeasterly (latitude 2.39°N, longitude 1.42°E), respectively. However, the geographical centroids of the wheat area and production were randomly distributed along the border of Shanxi and Henan provinces. We divided the wheat into spring wheat and winter wheat and found that the geographical centroids of the spring wheat area and production were distributed within Inner Mongolia, while the geographical centroids of winter wheat were distributed in Shanxi and Henan provinces. We found that the hotspots of crop cultivation area and production do not always change concordantly at a lar-ger, regional scale, suggesting that the changing amplitude and rate of each crops' yield differ between different regions in China. Thus, relevant adaptation measures should be taken at a regional level to prevent production damage in those with increasing area but decreasing production.ger, regional scale, suggesting that the changing amplitude and rate of each crops' yield differ between different regions in China. Thus, relevant adaptation measures should be taken at a Spatial distribution changes in major crops can reveal important information about cropping systems. Here, a new centroid method that applies physics and mathematics to spatial pattern analysis in agriculture is proposed to quantitatively describe the historical centroids of rice, maize and wheat in China from 1949 to 2014. The geographical centroids of the rice area moved 413.39 km in a 34.32° northeasterly (latitude 3.08°N, longitude 2.10°E) direction at a speed of 6.36 km/year from central Hunan province to Hubei province, while the geographical centroids of rice production moved 509.26 km in the direction of 45.44° northeasterly (latitude 3.22°N, longitude 3.27°E) at a speed of 7.83 km/year from central Hunan province to Henan province. The geographical centroids of the maize area and production moved 307.15 km in the direction of 34.33° northeasterly (latitude 2.29°N, longitude 1.56°E) and 308.16 km in the direction of 30.79° northeasterly (latitude 2.39°N, longitude 1.42°E), respectively. However, the geographical centroids of the wheat area and production were randomly distributed along the border of Shanxi and Henan provinces. We divided the wheat into spring wheat and winter wheat and found that the geographical centroids of the spring wheat area and production were distributed within Inner Mongolia, while the geographical centroids of winter wheat were distributed in Shanxi and Henan provinces. We found that the hotspots of crop cultivation area and production do not always change concordantly at a lar-ger, regional scale, suggesting that the changing amplitude and rate of each crops' yield differ between different regions in China. Thus, relevant adaptation measures should be taken at a regional level to prevent production damage in those with increasing area but decreasing production.ger, regional scale, suggesting that the changing amplitude and rate of each crops' yield differ between different regions in China. Thus, relevant adaptation measures should be taken at a
关 键 词:geographical centroid rice MAIZE WHEAT China
分 类 号:S315[农业科学—作物栽培与耕作技术]
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