农业工程学报
農業工程學報
농업공정학보
2013年
4期
213-221
,共9页
蒋尚明%金菊良%许浒%周玉良%王友贞
蔣尚明%金菊良%許滸%週玉良%王友貞
장상명%금국량%허호%주옥량%왕우정
干旱%粮食%数学模型%影响因素%经验模态分解法%集对分析%综合影响率
榦旱%糧食%數學模型%影響因素%經驗模態分解法%集對分析%綜閤影響率
간한%양식%수학모형%영향인소%경험모태분해법%집대분석%종합영향솔
drought%grain%mathematical models%impact factors%Empirical Mode Decomposition%Set Pair Analysis%comprehensive effect rates
针对江淮分水岭易旱区粮食单产波动的复杂性与非平稳性问题,运用经验模态分解方法对粮食单产及其影响因子进行多层次、多时间尺度分解,并采用集对分析理论分析粮食单产波动分量与其影响因子之间的相关性,从而定量化分析各影响因子对粮食单产波动的综合影响率,得出自然灾害受灾率对粮食单产波动的综合影响率为31.26%,在此基础上,通过分析旱灾和自然灾害对粮食生产的危害程度,求取旱灾对粮食单产波动的综合影响率为17.13%,该研究为该区旱灾综合治理与粮食生产决策提供科学依据.
針對江淮分水嶺易旱區糧食單產波動的複雜性與非平穩性問題,運用經驗模態分解方法對糧食單產及其影響因子進行多層次、多時間呎度分解,併採用集對分析理論分析糧食單產波動分量與其影響因子之間的相關性,從而定量化分析各影響因子對糧食單產波動的綜閤影響率,得齣自然災害受災率對糧食單產波動的綜閤影響率為31.26%,在此基礎上,通過分析旱災和自然災害對糧食生產的危害程度,求取旱災對糧食單產波動的綜閤影響率為17.13%,該研究為該區旱災綜閤治理與糧食生產決策提供科學依據.
침대강회분수령역한구양식단산파동적복잡성여비평은성문제,운용경험모태분해방법대양식단산급기영향인자진행다층차、다시간척도분해,병채용집대분석이론분석양식단산파동분량여기영향인자지간적상관성,종이정양화분석각영향인자대양식단산파동적종합영향솔,득출자연재해수재솔대양식단산파동적종합영향솔위31.26%,재차기출상,통과분석한재화자연재해대양식생산적위해정도,구취한재대양식단산파동적종합영향솔위17.13%,해연구위해구한재종합치리여양식생산결책제공과학의거.
China’s food production and food security relates not only to the social stability and national security, it also affects the world food security situation. After the founding of New China, China's grain production has made remarkable achievements to solve the food problem of the 22% of the population, with 7% of the world’s arable land. But as China's population growth and per capita cultivated land decreases continuously, the need to protect the national security of food production and to maintain social stability, received the wide attention of numerous experts and scholars. Since 1952, China's total grain output increased, which can be completely attributed to the grain yield increase. Grain yield levels and its fluctuation directly influence food production and its stability. In the hilly region of the Huaihe and Yangtze River, the average year’s food production for 12-14 million t, accounting for about 45% of the total grain output in Anhui province, is one of the main producing areas of grain and oil in Anhui province. But due to particular climatic conditions, geographical location, geographical characteristics and the impact of human activity, frequent drought disasters occur in history. In particular, in the dry-zone in Hilly region of Huaihe and Yangtze River, due to higher terrain, backbone River less, and far away from the rivers, lakes and reservoirs, no lead water conditions, irrigation guarantee rate lower, the suffering drought disasters, and the existence of a large number of easy to dry land, it is one of the most arid regions of Anhui province. Through integrated management of cultivated land in drought-prone areas, raising the level of grain yield per unit area is the important strategic task and the main way to guarantee the safety of grain production in the hilly region of the Huaihe and Yangtze Rivers. Therefore, how to fully exert the cultivated land potential yield and stable increase grain yield, appear particularly important. Based on this, application of empirical mode decomposition (EMD) for grain yield and influencing factors of multi-level, multi-time scale decomposition, and reasonable use of set pair analysis (SPA) theory were used to analyze correlations between fluctuations in grain yield per hectare components and corresponding impact factors. Then the data was used to formulate a quantitative analysis of the influence factors on comprehensive effect rates of fluctuation of grain yield per hectare. On this basis, through the analysis of the impact drought and natural disaster on grain production of hazard degree, the data was used calculate the comprehensive effect rates of drought on fluctuations of grain yield per hectare. The analysis results of the series models in easy arid regions of the Huaihe and Yangtze River watershed shows that the series models has been a good combination of EMD and SPA theory, achieved on grain yield per hectare fluctuation at different time scales and quantitative multi-factor analysis, to find out the comprehensive effect rates of drought on fluctuations of grain per unit yield in easy arid regions of the Huaihe and Yangtze River watershed. It can provide a scientific basis for the comprehensive management of drought and food production decision-making in the hilly region of the Huaihe and Yangtze River, and has a certain value of popularization and application.