湖北农业科学
湖北農業科學
호북농업과학
2014年
11期
2520-2525
,共6页
王曦%黄璨%章如芹%严家平%Meuser Helmut%Makowsky Lutz
王晞%黃璨%章如芹%嚴傢平%Meuser Helmut%Makowsky Lutz
왕희%황찬%장여근%엄가평%Meuser Helmut%Makowsky Lutz
开采沉陷%降雨%坡地%土壤养分
開採沉陷%降雨%坡地%土壤養分
개채침함%강우%파지%토양양분
mining subsidence%rainfall%sloping fields%soil nutrient
为研究煤矿开采沉陷区域坡地土壤养分运移规律,采用室内降雨模拟方法,研究了降雨条件下沉陷区域坡地土壤养分随坡度变化的迁移规律、土壤养分含量的空间分布规律及随时间的变化规律。结果表明,降雨条件下,在一定沉陷坡度范围内,土壤养分含量随着坡度增加而减少。同一采样点不同深度,接近地表处的土壤养分含量随坡度的增加而大幅度减小,深层土壤的养分含量随坡度变化的幅度不大。坡度大于0°的坡面土壤养分含量从坡顶到坡底呈增加的趋势,接近地表处土壤养分含量从坡顶到坡底大幅度增加,深层土壤养分含量从坡顶到坡底缓慢增加。坡度大于0°的坡面在坡底附近区域出现了速效氮、速效钾、有机质的富集现象。接近地表处土壤速效氮、有机质含量随时间的增加而减少的趋势,速效磷含量随时间没有显著变化规律,接近地表处土壤速效钾含量随时间的增加而增加。
為研究煤礦開採沉陷區域坡地土壤養分運移規律,採用室內降雨模擬方法,研究瞭降雨條件下沉陷區域坡地土壤養分隨坡度變化的遷移規律、土壤養分含量的空間分佈規律及隨時間的變化規律。結果錶明,降雨條件下,在一定沉陷坡度範圍內,土壤養分含量隨著坡度增加而減少。同一採樣點不同深度,接近地錶處的土壤養分含量隨坡度的增加而大幅度減小,深層土壤的養分含量隨坡度變化的幅度不大。坡度大于0°的坡麵土壤養分含量從坡頂到坡底呈增加的趨勢,接近地錶處土壤養分含量從坡頂到坡底大幅度增加,深層土壤養分含量從坡頂到坡底緩慢增加。坡度大于0°的坡麵在坡底附近區域齣現瞭速效氮、速效鉀、有機質的富集現象。接近地錶處土壤速效氮、有機質含量隨時間的增加而減少的趨勢,速效燐含量隨時間沒有顯著變化規律,接近地錶處土壤速效鉀含量隨時間的增加而增加。
위연구매광개채침함구역파지토양양분운이규률,채용실내강우모의방법,연구료강우조건하침함구역파지토양양분수파도변화적천이규률、토양양분함량적공간분포규률급수시간적변화규률。결과표명,강우조건하,재일정침함파도범위내,토양양분함량수착파도증가이감소。동일채양점불동심도,접근지표처적토양양분함량수파도적증가이대폭도감소,심층토양적양분함량수파도변화적폭도불대。파도대우0°적파면토양양분함량종파정도파저정증가적추세,접근지표처토양양분함량종파정도파저대폭도증가,심층토양양분함량종파정도파저완만증가。파도대우0°적파면재파저부근구역출현료속효담、속효갑、유궤질적부집현상。접근지표처토양속효담、유궤질함량수시간적증가이감소적추세,속효린함량수시간몰유현저변화규률,접근지표처토양속효갑함량수시간적증가이증가。
Rainfall simulation experiment was made to study soil nutrient migration rule of slope in mining subsidence area. The changing rule of soil nutrient content under the influence of slope and spatio-temporal variation rules of soil nutrient were analyzed. The results showed that soil nutrient content was increased with the increase of slope in a certain slope range. Soil nutrient content of the soil near the surface were greatly reduced with the increase of the slope. Soil nutrient content of the soil in the deep changed slightly. When slope degree was more than 0°,soil nutrient content had a trend of increase from the top to the bottom of slope. Soil nutrient content of the soil near the surface changed greatly. Soil nutrient content of the soil in the deep changed slightly from the top to the bottom of slope. Available nitrogen, available potassium, organic matter were rich in the area near the bottom when the slope degree was more than 0°. Near the surface of earth, the content of soil organic matter and available nitrogen was decreased with the increase of time. Available p content didn’t change signifi-cantly with time. The content of soil rapidly-available potassium was increased with the increase of time.
