生态学报
生態學報
생태학보
ACTA ECOLOGICA SINICA
2008年
5期
2042-2051
,共10页
杨开宝%刘国彬%吴发启%孙宝胜
楊開寶%劉國彬%吳髮啟%孫寶勝
양개보%류국빈%오발계%손보성
黄土丘陵沟壑区%小流域%生态建设%水环境
黃土丘陵溝壑區%小流域%生態建設%水環境
황토구릉구학구%소류역%생태건설%수배경
hilly and gully loess area%watershed%ecological construction%hydrological and environmental responses
从流域产流规律及水土保持措施改变引起的土壤水分状况和流域蒸散发的变化等方面评价了黄土丘陵沟壑区泉家沟流域水土保持措施变化对流域水分生态环境的影响.结果表明:水土保持与生态建设过程改变了土地利用结构,对小流域水环境变迁具有很大的影响作用,主要表现在:减少地表径流量,径流模数1996~2000年平均较1980~1985年减少了36.1%;不同治理措施土壤水分状况不同,灌木林地、人工草地和乔木林地均存在深度和厚度不等的土壤"干层";不同地貌部位土壤储水差异很大,阴坡的水分环境优于阳坡,沟底优于峁顶,缓坡优于陡坡;林草措施对流域总蒸散量起着决定性作用,1991~1995年流域林草地面积达到最大,总蒸散量也达到最大,与治理初期相比,总蒸散量累计增加了56.3 mm.
從流域產流規律及水土保持措施改變引起的土壤水分狀況和流域蒸散髮的變化等方麵評價瞭黃土丘陵溝壑區泉傢溝流域水土保持措施變化對流域水分生態環境的影響.結果錶明:水土保持與生態建設過程改變瞭土地利用結構,對小流域水環境變遷具有很大的影響作用,主要錶現在:減少地錶徑流量,徑流模數1996~2000年平均較1980~1985年減少瞭36.1%;不同治理措施土壤水分狀況不同,灌木林地、人工草地和喬木林地均存在深度和厚度不等的土壤"榦層";不同地貌部位土壤儲水差異很大,陰坡的水分環境優于暘坡,溝底優于峁頂,緩坡優于陡坡;林草措施對流域總蒸散量起著決定性作用,1991~1995年流域林草地麵積達到最大,總蒸散量也達到最大,與治理初期相比,總蒸散量纍計增加瞭56.3 mm.
종류역산류규률급수토보지조시개변인기적토양수분상황화류역증산발적변화등방면평개료황토구릉구학구천가구류역수토보지조시변화대류역수분생태배경적영향.결과표명:수토보지여생태건설과정개변료토지이용결구,대소류역수배경변천구유흔대적영향작용,주요표현재:감소지표경류량,경류모수1996~2000년평균교1980~1985년감소료36.1%;불동치리조시토양수분상황불동,관목임지、인공초지화교목임지균존재심도화후도불등적토양"간층";불동지모부위토양저수차이흔대,음파적수분배경우우양파,구저우우묘정,완파우우두파;림초조시대류역총증산량기착결정성작용,1991~1995년류역림초지면적체도최대,총증산량야체도최대,여치리초기상비,총증산량루계증가료56.3 mm.
Certain aspects of hydrological and environmental response to conservation practices and land use pattern changes in the Quanjiagou watershed in the hilly and gully loess area were assessed, such as runoff, dynamics of soil moisture and evaportranspiration. The results showed that soil-water conservation practices and ecological construction had significant influence on the hydrological and environmental processes of the watershed. Surface runoff was decreased by 36.1% from 1980 to 2000. Soil moisture status varied greatly with different erosion control practices: shrub land, grassland and timber forestland all had "dry layer" in the soil profile with different thicknesses and depths. There existed great differences in soil water storages with different landform position. The north-facing slopes had better hydrological environment in the soil than the south-facing slopes, and gully bottoms were better than hilltops and gentle slopes, better than steep slopes. Forest and grass practices played a decisive role in evapotranspiration. The total evapotranspiration reached a maximum in 1991-1995, and cumulative evapotranspiration increased by 56.3mm compared to the start of erosion control.
