农业工程学报
農業工程學報
농업공정학보
2013年
21期
214-222
,共9页
曾永年%靳文凭%王慧敏%谭柳霞
曾永年%靳文憑%王慧敏%譚柳霞
증영년%근문빙%왕혜민%담류하
土地利用%遥感%建设用地%扩张%耕地流失%退耕还林%青海高原东部农业区
土地利用%遙感%建設用地%擴張%耕地流失%退耕還林%青海高原東部農業區
토지이용%요감%건설용지%확장%경지류실%퇴경환림%청해고원동부농업구
land use%remote sensing%construction%expansion%the decrease of cultivated land%return farmland to forests%eastern part of Qinghai Plateau
为探究中国西部耕地流失规律,该文利用1999年、2009年遥感数据提取青海高原东部农业区耕地变化信息,分析耕地流失量和空间分布,并结合地形数据、经济社会发展基础数据等用 Logistic 方法定量分析耕地流失的主要影响因素。结果表明:1999年至2009年间,青海高原东部农业区耕地面积净减少1393.25 km2,耕地流失1811.78 km2,其中转化为建设用地157.05 km2,退耕还林/草1654.73 km2。坡度>25°的耕地中78.82%已进行了退耕还林/草,说明青海高原东部农业区退耕还林/草成效显著。耕地流失去向评价结果表明,海拔对建设用地扩张的贡献率为-66.46%,坡度对退耕还林/草的贡献率高达91.25%,说明青海高原东部农业区建设占用和生态退耕的合理性。该研究为区域社会经济的可持续发展提供依据。
為探究中國西部耕地流失規律,該文利用1999年、2009年遙感數據提取青海高原東部農業區耕地變化信息,分析耕地流失量和空間分佈,併結閤地形數據、經濟社會髮展基礎數據等用 Logistic 方法定量分析耕地流失的主要影響因素。結果錶明:1999年至2009年間,青海高原東部農業區耕地麵積淨減少1393.25 km2,耕地流失1811.78 km2,其中轉化為建設用地157.05 km2,退耕還林/草1654.73 km2。坡度>25°的耕地中78.82%已進行瞭退耕還林/草,說明青海高原東部農業區退耕還林/草成效顯著。耕地流失去嚮評價結果錶明,海拔對建設用地擴張的貢獻率為-66.46%,坡度對退耕還林/草的貢獻率高達91.25%,說明青海高原東部農業區建設佔用和生態退耕的閤理性。該研究為區域社會經濟的可持續髮展提供依據。
위탐구중국서부경지류실규률,해문이용1999년、2009년요감수거제취청해고원동부농업구경지변화신식,분석경지류실량화공간분포,병결합지형수거、경제사회발전기출수거등용 Logistic 방법정량분석경지류실적주요영향인소。결과표명:1999년지2009년간,청해고원동부농업구경지면적정감소1393.25 km2,경지류실1811.78 km2,기중전화위건설용지157.05 km2,퇴경환림/초1654.73 km2。파도>25°적경지중78.82%이진행료퇴경환림/초,설명청해고원동부농업구퇴경환림/초성효현저。경지류실거향평개결과표명,해발대건설용지확장적공헌솔위-66.46%,파도대퇴경환림/초적공헌솔고체91.25%,설명청해고원동부농업구건설점용화생태퇴경적합이성。해연구위구역사회경제적가지속발전제공의거。
Western development and a series of ecological environmental regulation projects have been carried out in West China since 1999. In order to solve the contradictions among economic construction, ecological environment construction, and the protection of cultivated land, it is important to understand and master where and the reason why cultivated land changed. Taking Haidong, which is located in the eastern part of Qinghai Plateau, as the study area, this paper applied a comprehensive remote sensing classification method which is based on the geographical division of land use to classify the 1999 and 2009 remote sensing data. The areas of cultivated land that changed and remained were extracted respectively from the results of their classification in 1999 and 2009 to analyze the main direction and spatial distribution of the cultivated land conversion. Then combined with the terrain data, as well as economic and social development data, this paper analyzed the main factors that affected cultivated land conversion quantitatively by a Logistic method. The results showed that from 1999 to 2009, the area of cultivated land in the eastern agricultural area of the Qinghai Plateau decreased by 1393.25 km2, and 1811.78 km2 of cultivated land converted to constructive land and forests/grass. This includes 157.05 km2 of cultivated land that converted to land for construction, which was mainly distributed in cultivated land with a gradient below 2°and altitude below 2600m, and 1695.73 km2 of cultivated land with steep and high altitudes between 2600m and 3200m returned to forests or pasture. That 78.82%of the cultivated land with a gradient over 25°returned cultivated land to forests or grass, indicates that projects of returning farmland to forests or grass have resulted in the noticeable achievements in Eastern agricultural region of the Qinghai Plateau. The result of cultivated land change indicated that the decrease of cultivated land can be divided into two parts:one is occupied by constructive land, and the other is the ecological conversion of the arable land. Therefore, we can turn the problem of why cultivated land decreased into the problem of which factors are the main ones that affect the expansion of land for construction and returning farmland to forests respectively. Given the availability of data, the related factors in this article included altitude, slope, aspect, distance to stream, distance to river or lake, distance to straightway, distance to highway, distance to administrative station, and population density. Logistic is a good tool to analyze these factors. The analysis of these factors showed that the contribution of altitude is-66.46%for the expansion of land for construction, namely a higher altitude equaling less land for construction. The contribution of the slope for returning farmland to forest (grassland) is as high as 91.25%, which indicates that the land conversion project in eastern part of Qinghai Plateau was effectively implemented according to policy. Finally, this paper reached the conclusion that the occupation of land for construction purposes and ecological restoration from farmlands are working in a rational and powerful manner in the eastern agricultural area of the Qinghai Plateau. This study helped to reconcile the conflicts among ecological construction, economic development, and the protection of cultivated land, and provides the basis for further sustainable development of the regional economy.