生态环境学报
生態環境學報
생태배경학보
ECOLOGY AND ENVIRONMENT
2014年
11期
1776-1782
,共7页
张文源%王百田%杨光檄%张科利
張文源%王百田%楊光檄%張科利
장문원%왕백전%양광격%장과리
喀斯特%黄壤%降雨侵蚀力%侵蚀性降雨标准%产沙特征
喀斯特%黃壤%降雨侵蝕力%侵蝕性降雨標準%產沙特徵
객사특%황양%강우침식력%침식성강우표준%산사특정
karst%yellow soil%rainfall erosive agent%erosive rainfall standard%characteristics of sediment yield
侵蚀性降雨研究是坡面侵蚀计算的前提性工作,以往喀斯特黄壤区的有关研究多因数据序列较短难以得出有效结论,或更集中于微观过程的观测,不能推广到自然状况下大尺度上的研究应用。确立降雨侵蚀力指标结构及不同下垫面的侵蚀性降雨标准,并结合相关背景资料模拟流域降雨侵蚀状况,对于喀斯特黄壤区的水蚀预报具有重要价值。文章分别观测了贵州中部和西部2个小流域的耕地、草地和人工林地3种径流小区5年的降雨产沙数据。通过计算最小降雨侵蚀力偏差系数Rcv对应的雨量雨强标准,并应用错选度,剔除率和损失率3个指标进行对雨量和雨强标准进行评定,在此基础上分析该区域的侵蚀性降雨分布和不同下垫面的产沙特征,得出以下结论:1)降雨动能和最大30 min降雨强度乘积为计算降雨侵蚀力指标的最佳结构形式,降雨侵蚀力指标可以通过降雨量和最大30 min降雨强度乘积进行简易计算;2)黄壤裸地的侵蚀性降雨指标应采用最大30 min降雨强度,其值在9.6~10.2 mm·h-1之间,耕地的侵蚀性降雨指标应采用雨量标准,其值在15 mm左右,水土保持措施可明显提高侵蚀性降雨标准,较裸地和耕地分别提高55%和25%以上,复杂下垫面宜采用雨量标准,低植被覆盖下垫面宜采用最大时段雨强标准;3)贵州西部和中部侵蚀性降雨总量分别占年降雨总量的36%和38%,主要分布在5~8月,研究区年均降雨侵蚀力在1700~1800(MJ·mm·hm-2·h-1·a-1),明显低于同纬度带的红壤和紫色土;坡面产沙量年内分布极为不均,少数的暴雨贡献了绝大部分的产沙量;4)无人为干扰的灌木草地水土保持效果最佳,顺坡耕作玉米严重加剧土壤侵蚀,减少人为扰动是治理的关键。
侵蝕性降雨研究是坡麵侵蝕計算的前提性工作,以往喀斯特黃壤區的有關研究多因數據序列較短難以得齣有效結論,或更集中于微觀過程的觀測,不能推廣到自然狀況下大呎度上的研究應用。確立降雨侵蝕力指標結構及不同下墊麵的侵蝕性降雨標準,併結閤相關揹景資料模擬流域降雨侵蝕狀況,對于喀斯特黃壤區的水蝕預報具有重要價值。文章分彆觀測瞭貴州中部和西部2箇小流域的耕地、草地和人工林地3種徑流小區5年的降雨產沙數據。通過計算最小降雨侵蝕力偏差繫數Rcv對應的雨量雨彊標準,併應用錯選度,剔除率和損失率3箇指標進行對雨量和雨彊標準進行評定,在此基礎上分析該區域的侵蝕性降雨分佈和不同下墊麵的產沙特徵,得齣以下結論:1)降雨動能和最大30 min降雨彊度乘積為計算降雨侵蝕力指標的最佳結構形式,降雨侵蝕力指標可以通過降雨量和最大30 min降雨彊度乘積進行簡易計算;2)黃壤裸地的侵蝕性降雨指標應採用最大30 min降雨彊度,其值在9.6~10.2 mm·h-1之間,耕地的侵蝕性降雨指標應採用雨量標準,其值在15 mm左右,水土保持措施可明顯提高侵蝕性降雨標準,較裸地和耕地分彆提高55%和25%以上,複雜下墊麵宜採用雨量標準,低植被覆蓋下墊麵宜採用最大時段雨彊標準;3)貴州西部和中部侵蝕性降雨總量分彆佔年降雨總量的36%和38%,主要分佈在5~8月,研究區年均降雨侵蝕力在1700~1800(MJ·mm·hm-2·h-1·a-1),明顯低于同緯度帶的紅壤和紫色土;坡麵產沙量年內分佈極為不均,少數的暴雨貢獻瞭絕大部分的產沙量;4)無人為榦擾的灌木草地水土保持效果最佳,順坡耕作玉米嚴重加劇土壤侵蝕,減少人為擾動是治理的關鍵。
침식성강우연구시파면침식계산적전제성공작,이왕객사특황양구적유관연구다인수거서렬교단난이득출유효결론,혹경집중우미관과정적관측,불능추엄도자연상황하대척도상적연구응용。학립강우침식력지표결구급불동하점면적침식성강우표준,병결합상관배경자료모의류역강우침식상황,대우객사특황양구적수식예보구유중요개치。문장분별관측료귀주중부화서부2개소류역적경지、초지화인공임지3충경류소구5년적강우산사수거。통과계산최소강우침식력편차계수Rcv대응적우량우강표준,병응용착선도,척제솔화손실솔3개지표진행대우량화우강표준진행평정,재차기출상분석해구역적침식성강우분포화불동하점면적산사특정,득출이하결론:1)강우동능화최대30 min강우강도승적위계산강우침식력지표적최가결구형식,강우침식력지표가이통과강우량화최대30 min강우강도승적진행간역계산;2)황양라지적침식성강우지표응채용최대30 min강우강도,기치재9.6~10.2 mm·h-1지간,경지적침식성강우지표응채용우량표준,기치재15 mm좌우,수토보지조시가명현제고침식성강우표준,교라지화경지분별제고55%화25%이상,복잡하점면의채용우량표준,저식피복개하점면의채용최대시단우강표준;3)귀주서부화중부침식성강우총량분별점년강우총량적36%화38%,주요분포재5~8월,연구구년균강우침식력재1700~1800(MJ·mm·hm-2·h-1·a-1),명현저우동위도대적홍양화자색토;파면산사량년내분포겁위불균,소수적폭우공헌료절대부분적산사량;4)무인위간우적관목초지수토보지효과최가,순파경작옥미엄중가극토양침식,감소인위우동시치리적관건。
Erosive rainfall research is the basis of calculation of slope erosion. Because of the short data sequence, it is difficult to draw valid conclusions in previous research on yellow soil area in karst mountainous. Some studies focus on the micro process of observation that can't spread on the large scale application for natural conditions. To establish the erosive rainfall index and its standard for different underlying surface and simulate the condition of watershed rainfall-erosion with relevant background information have important significance to the water erosion prediction of yellow soil area in karst mountainous. Two small watershed are observed separately in the central and western of Guizhou from 2009 to 2013. The data of rainfall and sediment yield for plough, grassland and man-made forest runoff plot are recorded in each watershed. Then the minimum deviation factor of rainfall erosivity and their corresponding precipitation and rainfall intensity standard can be calculated by the runoff plots data. Relative error, elimination rate and loss rate have been used to evaluate the optimal erosive rainfall standard. On the basis of these results, relevant indexes about erosive rainfall and characteristics of sediment yield in different underlying surface were researched. The conclusions of the study can be drawn as follows:1) The best structure of rainfall erosive agent index is the product of rainfall kinetic energy and maximum 30 min rainfall intensity. Rainfall erosive agent index can be also calculated with the product of rainfall amount and maximum 30 min rainfall intensity. 2) The erosive rainfall index of bare yellow soil should use maximum 30min rainfall intensity with the value range from 9.6 to 10.2 mm·h-1, and the plough use rainfall amount standard better which is about 15mm. Soil and water conservation measures can increase erosive rainfall standard apparently. 3) Erosive rainfall account for 36%and 38%of the total rainfall in the central and western of Guizhou for the average year which mainly distribute form May to August. The rainfall erosivity for the average year is about 1 700~1 800(MJ·mm·hm-2·h-1·a-1)which is significantly lower than the red or purple soils on the same latitude. The annual distribution of the slope sediment yield is extremely uneven. A handful of rainstorms course most of the sediment yield. 4) The shrub grassland without human disturbance has the best effect of soil and water conservation. Corn planted with the measure of downslope cultivation can seriously intensify soil erosion. Reduce human disturbance is the key to management in soil and water conservation.