水利信息化
水利信息化
수리신식화
WATER RESOURCES INFORMATIONZATION
2013年
6期
33-38
,共6页
章重%张秀平%田佳%雷声%李伊林
章重%張秀平%田佳%雷聲%李伊林
장중%장수평%전가%뢰성%리이림
抚河%遥感%尾闾及入湖口%河道演变%影响因素
撫河%遙感%尾閭及入湖口%河道縯變%影響因素
무하%요감%미려급입호구%하도연변%영향인소
Fu River%remote sensing%tail and estuary%river channel evolution%affecting factors
基于遥感和地理信息系统技术,以1973--2009年的鄱阳湖枯水期遥感影像作为主要数据源,利用影像分类原理提取抚河尾闾及入湖口的河道滩地信息,研究40年来河道滩地的演变规律,并分析引起形态变化的主要因素。具体为:通过定量和矢量叠加方法提取抚河尾闾河道及入湖口的平面形态特征,结果表明,抚河尾闾青岚湖入口处心洲扩,河道东移,河段滩地交替演变,部分河道顺直,入湖口具有河口淤高湖和岸线向湖中心推进的特点;演变受自然和人为因素的影响,其中河道采沙、航道疏浚、植树造林等人为活动影响更大。研究结果对抚河尾闾的河势控制、河道整治及岸线开发利用、生态环境保护提供技术支持。
基于遙感和地理信息繫統技術,以1973--2009年的鄱暘湖枯水期遙感影像作為主要數據源,利用影像分類原理提取撫河尾閭及入湖口的河道灘地信息,研究40年來河道灘地的縯變規律,併分析引起形態變化的主要因素。具體為:通過定量和矢量疊加方法提取撫河尾閭河道及入湖口的平麵形態特徵,結果錶明,撫河尾閭青嵐湖入口處心洲擴,河道東移,河段灘地交替縯變,部分河道順直,入湖口具有河口淤高湖和岸線嚮湖中心推進的特點;縯變受自然和人為因素的影響,其中河道採沙、航道疏浚、植樹造林等人為活動影響更大。研究結果對撫河尾閭的河勢控製、河道整治及岸線開髮利用、生態環境保護提供技術支持。
기우요감화지리신식계통기술,이1973--2009년적파양호고수기요감영상작위주요수거원,이용영상분류원리제취무하미려급입호구적하도탄지신식,연구40년래하도탄지적연변규률,병분석인기형태변화적주요인소。구체위:통과정량화시량첩가방법제취무하미려하도급입호구적평면형태특정,결과표명,무하미려청람호입구처심주확,하도동이,하단탄지교체연변,부분하도순직,입호구구유하구어고호화안선향호중심추진적특점;연변수자연화인위인소적영향,기중하도채사、항도소준、식수조림등인위활동영향경대。연구결과대무하미려적하세공제、하도정치급안선개발이용、생태배경보호제공기술지지。
Based on remote sensing technology and GIS technology, this paper collects the representative remote sensing images of dry season from 1973 to 2009 in Poyang Lake as main data source. It uses image classification principle to extract channel information of Fu river tail and estuary. It studies the evolvement rule of river shoal evolution in recent 40 years, and analyzes the main factors influencing the morphological changes. The specific is through the method of quantification and vector superposition to extract the surface morphological characteristics of Fu river trail channel and estuary. The result shows that the heart state in extrance of QingLan lake expanding, the river eastward-moving, the river and shoal evoluting alternately, part of river straight. The characteristics of the estuary include estuary silt piled high and shoreline propulsion to the lake center. Evolution is affected by natural and human factors, of which the river sand, waterway dredging, afforestation and other human activities influence is greater. This study result provides technical support for the river regime control, river regulation and exploitation and utilization of coastline, ecological environment protection of Fu River tail.