农业工程学报
農業工程學報
농업공정학보
2013年
21期
223-232
,共10页
王金满%郭凌俐%白中科%杨睿璇%张萌
王金滿%郭凌俐%白中科%楊睿璇%張萌
왕금만%곽릉리%백중과%양예선%장맹
土地复垦%土壤%植被%排土场%黄土区%交互影响
土地複墾%土壤%植被%排土場%黃土區%交互影響
토지복은%토양%식피%배토장%황토구%교호영향
land reclamation%soils%vegetation%dump%loess area%interaction
恢复受损的土壤和植被是矿区生态恢复的关键,植被恢复过程的实质是植被-土壤复合生态系统相互作用的过程。该文通过典型小区调查的方法,选择山西平朔州安太堡露天煤矿复垦排土场为研究区,分析了不同复垦年限(3、5、10、12和17 a)土壤环境因子和乔木林地植被生物量的动态演变规律,建立了黄土区露天煤矿排土场复垦土壤环境因子和乔木林地植被生物量Logistic演替模型,并构建了土壤-植被交互影响的偏微分方程组。相关系数及显著性检验表明所建立的土壤各环境因子演变模型和乔木林复垦地的植被生物量演变模型有效,能够很好地反映排土场的土壤因子和植被生物量的动态演变过程;随着复垦年限的增加,研究区土壤环境因子质量不断提升并逐渐接近原地貌,土壤因子和植被生物量都呈S型变化,符合Logistic生长演替模型;土壤环境因子与植被生物量二者交互作用明显,符合Kolmogorov捕食模型。该研究可为黄土区露天矿排土场土地复垦与生态恢复提供理论依据。
恢複受損的土壤和植被是礦區生態恢複的關鍵,植被恢複過程的實質是植被-土壤複閤生態繫統相互作用的過程。該文通過典型小區調查的方法,選擇山西平朔州安太堡露天煤礦複墾排土場為研究區,分析瞭不同複墾年限(3、5、10、12和17 a)土壤環境因子和喬木林地植被生物量的動態縯變規律,建立瞭黃土區露天煤礦排土場複墾土壤環境因子和喬木林地植被生物量Logistic縯替模型,併構建瞭土壤-植被交互影響的偏微分方程組。相關繫數及顯著性檢驗錶明所建立的土壤各環境因子縯變模型和喬木林複墾地的植被生物量縯變模型有效,能夠很好地反映排土場的土壤因子和植被生物量的動態縯變過程;隨著複墾年限的增加,研究區土壤環境因子質量不斷提升併逐漸接近原地貌,土壤因子和植被生物量都呈S型變化,符閤Logistic生長縯替模型;土壤環境因子與植被生物量二者交互作用明顯,符閤Kolmogorov捕食模型。該研究可為黃土區露天礦排土場土地複墾與生態恢複提供理論依據。
회복수손적토양화식피시광구생태회복적관건,식피회복과정적실질시식피-토양복합생태계통상호작용적과정。해문통과전형소구조사적방법,선택산서평삭주안태보로천매광복은배토장위연구구,분석료불동복은년한(3、5、10、12화17 a)토양배경인자화교목임지식피생물량적동태연변규률,건립료황토구로천매광배토장복은토양배경인자화교목임지식피생물량Logistic연체모형,병구건료토양-식피교호영향적편미분방정조。상관계수급현저성검험표명소건립적토양각배경인자연변모형화교목림복은지적식피생물량연변모형유효,능구흔호지반영배토장적토양인자화식피생물량적동태연변과정;수착복은년한적증가,연구구토양배경인자질량불단제승병축점접근원지모,토양인자화식피생물량도정S형변화,부합Logistic생장연체모형;토양배경인자여식피생물량이자교호작용명현,부합Kolmogorov포식모형。해연구가위황토구로천광배토장토지복은여생태회복제공이론의거。
Loess Plateau is one of the typical opencast coal mining areas in China with its broken topography, loose soil structure, and destroyed natural vegetation, and the ecological environment is fragile in this area. Coal mining has formed a large waste dump, which had imposed great damage on the surface of the landscape. It not only occupied a large amount of land, but also influenced the animal and plant development;it is a serious threat to the ecological environment. Reconstruction of the damaged soil and vegetation is the key to ecological restoration in the mining area, and the process of vegetation restoration actually is an interaction process of a complex ecosystem between vegetation and soil. The typical plot survey method was used to analyze the dynamic succession law of soil environmental factors and vegetation biomass with reclamation years (3, 5, 10, 12 and 17a) in the Shanxi Antaibao opencast coal mine dump. A logistic succession model of reclaimed soil environmental factors and vegetation biomass land arbor forest in the Loess area opencast mine dump were constructed in this study, and the interactions of partial differential equations between soil and vegetation were built. The results indicated as follows:(1) soil organic matter, total nitrogen, available P, and available K had an S-shaped (logistic curve) increasing with reclamation years and soil bulk density gradually decreased. (2) Using SPSS software to fit the equation model, the correlation coefficients of the models were high and the significance tests were less than 0.05, the soil environment factor models and the arbor vegetation biomass model in the reclaimed land was effective, and the dynamic character of the soil factor and vegetation biomass could be well reflected. (3) All reclaimed soil environmental factors (organic matter, total nitrogen, available P, available K, and soil bulk density) gradually closed to those of the original landscape and gradually become stable with reclamation years. Soil environmental factors play a key role in the restoration process of vegetation, and the stabilizing process of soil environmental factors also was the process of vegetation growth which tended to stabilize. The vegetation volume gradually increased with reclamation years under the influence of the soil environmental factors, and which also had a logistic growth trend. The logistic model of arbor vegetation biomass fit well and can reflect the dynamic succession law of arbor vegetation biomass. The organic matter and total nitrogen are the main factors to influence the biomass of vegetation. (4) Interaction between soil and vegetation was significant, and it fitted the Kolmogorov predator-prey model. The relationship between them can be expressed by a partial differential equations model. This research can provide theoretical basis for land reclamation and ecological restoration in the loess area of an opencast coal mine.