共查询到20条相似文献,搜索用时 31 毫秒
1.
L. Li Y. Wang C. Liu 《International Journal of Environmental Science and Technology》2014,11(6):1549-1562
Land use changes extensively affect soil erosion, which is a great environmental concern. To evaluate the effect of land use change on soil erosion in fast economic developing areas, we studied land use changes of Guangdong, China, from 2002 to 2009 using remote sensing and estimated soil erosion using the Universal Soil Loss Equation. We calculated the areas and percentage of each land use type under different erosion intensity and analyzed soil erosion changes caused by transitions of land use types. In addition, the impact of land use change on soil erosion in different river catchments was studied. Our results show that forest and wasteland land conversions induce substantial soil erosion, while transition from wasteland to forest retards soil loss. This suggests that vegetation cover changes significantly influence soil erosion. Any conversion to wasteland causes soil erosion, whereas expansion of forests and orchards mitigates it. The most significant increase in soil erosion from 2002 to 2009 was found in the Beijiang catchment corresponding to the transition from forest/orchard to built-up and wasteland. Soil erosion in the Xijiang catchment accelerated in this period due to the enormous reduction in orchard land. In Hanjiang catchment, erosion was alleviated and vegetation coverage greatly expanded owing to considerable transitions from wasteland and cropland to orchards. Field investigations validated our estimations and proved the applicability of this method. Measures including protecting vegetation, strict control of mining as well as reasonable urban planning should be taken to prevent successive soil erosion. 相似文献
2.
http://www.sciencedirect.com/science/article/pii/S1674987111001034 总被引:10,自引:0,他引:10
A comprehensive methodology that integrates Revised Universal Soil Loss Equation(RUSLE) model and Geographic Information System(GIS) techniques was adopted to determine the soil erosion vulnerability of a forested mountainous sub-watershed in Kerala,India.The spatial pattern of annual soil erosion rate was obtained by integrating geo-environmental variables in a raster based GIS method.GIS data layers including,rainfall erosivity(R),soil erodability(K),slope length and steepness(LS),cover management (C) and conservation practice(P) factors were computed to determine their effects on average annual soil loss in the area.The resultant map of annual soil erosion shows a maximum soil loss of 17.73 t h-1 y-1 with a close relation to grass land areas,degraded forests and deciduous forests on the steep side-slopes(with high LS ).The spatial erosion maps generated with RUSLE method and GIS can serve as effective inputs in deriving strategies for land planning and management in the environmentally sensitive mountainous areas. 相似文献
3.
Identification and prioritization of sub-watersheds for land and water management using InVEST SDR model: Rmelriver basin,Tunisia 总被引:1,自引:0,他引:1
Tunisia presents many favorable conditions for the outbreak of water erosion because of its climatic and physical characteristics. This phenomenon represents a serious threat to the natural resources of soil and water. The aim of the present study is to identify the most vulnerable areas in order to help managers implement an effective management program. Thematic layers and parameters were integrated in the InVEST (Integrated Valuation of Environmental Services and Trade-offs) SDR (Sediment Delivery Ratio). Soil loss and sediment yield were calculated by the model and compared to observed data. The Rmel river basin was divided into 17 sub-watersheds using the dam axis as the main outlet. Results reveal that approximately 60% of the basin presents soil loss more than 5 ton/ha/year. Soil erosion map demonstrates that soil erosion risk increases with increased slope gradient, especially in agricultural lands. Sub-catchment prioritizations have been fixed based on soil erosion risk. Results show that sub-catchment 16 presents the highest soil loss with a value of 65 ton/ha/year. Sub-catchment presenting high soil erosion risk needs to give a high priority in conservation planning. 相似文献
4.
遥感与GIS支持下的南桐矿区水土流失评价与区划 总被引:2,自引:0,他引:2
以重庆市南桐矿区为研究对象,运用遥感和GIS技术获取对水土流失影响较大的植被覆盖度、地形坡度、土地利用类型等信息并进行空间叠加分析,计算了水土流失类型及面积。研究结果表明,南桐矿区水土流失面积262.91km2,侵蚀模数2281t/(km2?a),水土流失强度以轻度和中度为主,其中轻度流失132.37km2,中度流失108.95km2。根据区域地貌类型以及水土流失特征,将研究区水土流失划分为盆边低山丘陵中强度流失区、北部坪状低山中轻度流失区和盆边中山轻度流失区三个类型区,盆边低山丘陵中强度流失区以中度流失为主;北部坪状低山中轻度流失区以轻度流失为主;盆边中山轻度流失区虽然以轻度流失为主,但微度流失也占有相当部分的比重。 相似文献
5.
Application of Universal Soil Loss Equation (USLE) to recently reclaimed badlands along the Adula and Mahalungi Rivers,Pravara Basin,Maharashtra 总被引:1,自引:0,他引:1
The rapid erosion of soil by wind and water has been a problem since man began cultivating the land. Moreover soil erosion, as a hazard, has always been associated mainly with agriculture in the tropical and semi-arid areas. Soil loss through rill, gully and sheet erosion is a major environmental problem in India. Among all the predictive equations developed to estimate soil loss, the most accepted, used, convenient and suitable technique, for smaller areas like hillslopes and fields, is the Universal Soil Loss Equation (USLE). This method has been applied to the cultivated fields on either side of the gullied banks of the Adula and Mahalungi rivers, to estimate soil loss from fields under different crops. Rainfall data from the IMD has been used for the purpose. Field slope measurements, textural analysis of soil and determination of soil organic matter have also been carried out. Finally the soil loss has been computed from the generated data. The results have been used to ascertain whether the soil loss in the area is within or beyond the tolerance limit. It has been found that the soil loss in these areas have exceeded the tolerance limit and hence require due attention. 相似文献
6.
桂江流域土壤侵蚀估算及其时空特征分析 总被引:2,自引:1,他引:1
桂江流域的水土流失现状研究对珠江三角洲的水生态安全有重要的现实意义。采用修正的通用土壤流失方程(RUSLE)估算了桂江流域的土壤侵蚀模数与年侵蚀总量,分析流域内土壤侵蚀的时空分布特征,探讨了影响该区域土壤侵蚀强度的自然与人文因素。结果表明,桂江流域51.8%的地表都在发生不同程度的土壤侵蚀。从全流域平均土壤侵蚀强度来看,属于中度侵蚀。从土壤侵蚀面积来看,约85%的地表处于微度、轻度与中度侵蚀。4-6月的全流域平均土壤侵蚀强度最大,侵蚀总量也是最大的。流域的土壤侵蚀主要发生在高程在30~600m的低山丘陵-高地地貌区内的林地与耕地中。流域内岩溶区的土壤侵蚀强度随着石漠化程度从无到中度逐渐增加,轻、中度石漠化区的土壤侵蚀强度达到强度侵蚀等级。 相似文献
7.
Soil erosion assessment and its verification using the Universal Soil Loss Equation and Geographic Information System: a case study at Boun,Korea 总被引:10,自引:0,他引:10
This study is aimed at the evaluation of the hazard of soil erosion and its verification at Boun, Korea, using a Geographic Information System (GIS) and remote sensing. Precipitation, topographic, soil, and land use data were collected, processed, and constructed into a spatial database using GIS and remote sensing data. Areas that had suffered soil erosion were analysed and mapped using the Universal Soil Loss Equation (USLE). The factors that influence soil erosion are rainfall erosivitiy (R) from the precipitation database, soil erodibility (K) from the soil database, slope length and steepness (LS) from the topographic database, and crop and management (C) and conservation supporting practices (P) from the land use database. Land use was classified from Landsat Thematic Mapper satellite images. The soil erosion map verified use of the landslide location data. Landslide locations were identified in the Boun area from interpretation of aerial photographs and field surveys. 相似文献
8.
The study presents the effect of soil erosion on vegetation, soil accumulation (SA), SA rate (SAR), soil quality, soil mass, and the soil organic carbon (SOC) pool in Brown Andosols and Histosols in a 24-km2 area in southwest Iceland. Undisturbed prehistoric soils were distinguished from disturbed historic soils using tephrochronology. Soil erosion has been severe during historic time (last 1135 yr), resulting in the increase of the soil mass deposited in soils covered by vegetation by a factor of 7.3-9.2 and net loss of soil in unvegetated areas. The SAR correlated positively with SOC sequestration. SOC is easily transported and, given the extensive accumulation of soil, the net effect of burial and subsequent reduction in decomposition is to increase SOC storage. Nevertheless, the increased accumulation and soil depletion has decreased soil quality, including the SOC, and reduced soil resistance to erosion with the depleted SOC contributing to enrichment of atmospheric CO2. The initial terrestrial disturbance was triggered by anthropogenic land use during the Medieval Warm Period, followed by volcanic activity approximately three centuries later. The combination of harsh climate during the Little Ice Age and drastic anthropogenic perturbations has led to land degradation at a catastrophic scale. 相似文献
9.
Assessment of soil erosion risk using SWAT model 总被引:3,自引:2,他引:1
Manel Mosbahi Sihem Benabdallah Mohamed Rached Boussema 《Arabian Journal of Geosciences》2013,6(10):4011-4019
Soil erosion is one of the most serious land degradation problems and the primary environmental issue in Mediterranean regions. Estimation of soil erosion loss in these regions is often difficult due to the complex interplay of many factors such as climate, land uses, topography, and human activities. The purpose of this study is to apply the Soil and Water Assessment Tool (SWAT) model to predict surface runoff generation patterns and soil erosion hazard and to prioritize most degraded sub-catchment in order to adopt the appropriate management intervention. The study area is the Sarrath river catchment (1,491 km2), north of Tunisia. Based on the estimated soil loss rates, the catchment was divided into four priority categories for conservation intervention. Results showed that a larger part of the watershed (90 %) fell under low and moderate soil erosion risk and only 10 % of the watershed was vulnerable to soil erosion with an estimated sediment loss exceeding 10 t?ha?1?year?1. Results indicated that spatial differences in erosion rates within the Sarrath catchment are mainly caused by differences in land cover type and gradient slope. Application of the SWAT model demonstrated that the model provides a useful tool to predict surface runoff and soil erosion hazard and can successfully be used for prioritization of vulnerable areas over semi-arid catchments. 相似文献
10.
Doug V. Prose 《Environmental Geology》1985,7(3):163-170
Soil compaction and substrate modification produced during large-scale armored military maneuvers in the early 1940s were
examined in 1981 at seven sites in California’s eastern Mojave Desert Recording penetrometer measurements show that tracks
left by a single pass of an M3 “medium” tank have average soil resistance values that are 50% greater than those of the surrounding
untracked soil in the upper 20 cm At one site, measurements made along short segments of track that have been visually eliminated
by erosion and deposition processes show a 73% increase in penetrometer resistance over adjacent, undisturbed soils Dirt roadways
at three former base camp locations could not be penetrated below 5–10 cm because of extreme compaction Soil bulk density
was not as sensitive an indicator of soil compaction as was penetrometer resistance Density values in the upper 10 cm of soil
are not significantly different between tank tracks and undisturbed soils at most sites, and roadways at two base camps show
an average increase in bulk density of only 12% over adjacent soils. Trench excavations across tank tracks show that physical
modifications of the substrate can extend vertically beneath a track to a depth of 25 cm and outward from a track’s edge to
50 cm These soil disturbances are probably major factors that encourage accelerated soil erosion throughout the manuever area
and also retard or prevent the return of vegetation to pre-disturbance conditions 相似文献
11.
土壤碳库是全球碳库的重要组成部分,其微小幅度的碳源汇变化就可以较显著的影响大气碳库。本文选择长江流域多目标区域地球化学调查覆盖区,利用多目标区域地球化学调查数据和第二次全国土壤普查数据计算了土壤碳密度及储量,对比了20年来土壤碳库变化趋势,并分析土壤碳源汇的影响因素。结果表明:从20世纪80年代到2000年,研究区大部分区域土壤有机碳密度明显增加,尤其成都平原西部的龙门山地区、雅安南侧地区和贵阳周边地区,其增加量约为312.38 TgC。导致研究区土壤碳库增加的主要因素是,林地草地等植被恢复性生长、农业耕作水平提高,土地利用变化对研究区土壤碳库变化的影响较小,土壤侵蚀因素对研究区的水田基本没有影响,但对旱地影响比较明显,而气候变化对该区域土壤碳库没有明显影响。 相似文献
12.
Hungry Valley, and arid basin situated within the Transverse Ranges of Southern California, has been utilized by off-road
vehicles (ORVs) since 1971. Loss of vegetation, severe soil erosion and gullying, alluvial fan formation, and increased sediment
discharge are the direct results of ORV activity in the valley. These hydrologic-geologic effects have been documented and
monitored utilizing sequential aerial photographs, ground surveys, and sediment transport measurements. Despite the increased
usage of ORVs on public lands, and the well-documented short-term physical environmental impacts, little data exists on erosion
or sediment transport rates in disturbed vs. adjacent undisturbed areas, the ability of natural vegetation to re-establish
itself, or the feasibility of site rehabilitation techniques or methods. 相似文献
13.
运用3S技术和不同水蚀区修正的土壤流失方程,对金沙江流域龙川江上游的水土流失量和需要治理的面积进行了数值模拟和定量研究.结果表明:①旱年1998年土壤流失总量为840069.19t,流失总面积为2293.7841km2;涝年1999年土壤流失总量为8690182.6t,流失总面积为2293.7841km2;1999年和1998年强度、重度和剧烈以上流失面积分别达85%和66.8%,该项指标1999年明显强于1998年.②从流失面积来看,1999年中度以上流失面积占流失总面积的35.2%,而1998年只占26%.③1988年和1999年防治强度分级中急需治理和需要治理的面积占总面积的比例分别为16.27%和14.63%.④模拟计算结果与实测值接近,说明该方法对西南红壤季风区的水土流失定量监测与分析具有准确、实用和方便的特点. 相似文献
14.
Shirin Mohammadkhan Hasan Ahmadi Mohammad Jafari 《Arabian Journal of Geosciences》2011,4(1-2):331-338
Soil erosion is the dominating factor of damaging roads in Iran. Roads are a critical component of civilization. Developing and maintaining the economic activity that is vital for the quality of modern life would be difficult without roads. Accelerated erosion and increased sediment yields resulting from changes in land use are critical environmental problems, and one of the important changes is road construction. Construction and condition of roadways are associated with direct and indirect impacts on soil erosion. This paper presents the relationship between soil erosion and some characteristics such as distance to roadway, slope, and parent material in Latian Watershed, Tehran Province, Iran. Soil erosion map was interpreted using aerial photos and GIS technology. Buffer zones, subdivided into 12 strips, each 0.2 km wide, which were located alongside roadway. The distribution patterns of various types of erosion were also identified by GIS by overlaying road buffer strips and soil erosion map. The results show that soil erosion landform such as land slide, badland, bank erosion, channel erosion, etc. found in buffer zones along both sides of roads. 相似文献
15.
Assessment of the effects of vegetation on soil erosion risk by water: a case of study of the Batta watershed in Tunisia 总被引:2,自引:1,他引:1
Mohamed Kefi Kunihiko Yoshino Yudi Setiawan Khemaies Zayani Mohamed Boufaroua 《Environmental Earth Sciences》2011,64(3):707-719
Soil erosion by water is a serious environmental problem which affects particularly the agriculture of developing countries.
Due to specific factors, such as high rainfall intensity, steep slopes and vegetation scarcity, Tunisia is prone to soil erosion.
Taking this into account, the main objective of this study was to estimate the soil erosion risk in the Batta watershed in
Tunisia using qualitative and quantitative erosion model with remote sensing data and geographic information system (GIS).
Moreover, a developed method that deals with evaluating the impact of vegetation on soil erosion by water is also applied.
This method used multi-temporal satellite images with seasonal variability and the transformed soil adjusted vegetation index
(TSAVI) which is appropriate in arid and semi-arid areas. For both erosion models, the results show that a large area of the
Batta watershed is seriously affected by erosion. This potentially high risk is due especially to severe slopes, poor vegetation
coverage and high soil erodibility in this watershed. Furthermore, the use of multi-temporal satellite images and vegetation
index show that the effect of vegetation is a significant factor to protect the soil against erosion. The risk is especially
serious in the summer season, but it decreases with the growth of vegetation cover in spring. Erosion model, combined with
a GIS and remote sensing, is an adequate method to evaluate the soil erosion risk by water. The findings can be used by decision
makers as a guideline to plan appropriate strategies for soil and water conservation practices. 相似文献
16.
H. G. Wilshire J. K. Nakata Susan Shipley Karen Prestegaard 《Environmental Geology》1978,2(5):295-319
The impacts of off-road vehicles on vegetation and soil were investigated at seven representative sites in the San Francisco
Bay area. Plant cover of grass and chaparral (with shrubs to 4 m tall) have been stripped by the two- and four-wheel vehicles
in use. Impacts on loamy soils include increased surface strength (as much as 275 bars), increased bulk density (averaging
18%) to depths of 90 cm or more, reduction of soil moisture by an average 43% to 30 cm depths, greatly reduced infiltration,
extension of the diurnal temperature range by as much as 12°C, and reduction of organic carbon by an average 33% in exposed
soils. Very sandy soils respond similarly to vehicular use except that moisture is increased and surface strength of beach
sand is decreased.
These physical and chemical impacts reduce the land's capability of restoring its vegetative cover, which in turn adversely
affects animal populations. Both the loss of plant cover and the physical changes caused by vehicles promote erosion. Measured
soil and substrate losses from vehicular use zones range from 7 to 1180 kg/m2. The estimated erosion rate of the Chabot Park site exceeds the rate of erosion considered a serious problem by a factor
30, it exceeds United States Soil Conservation Service tolerance values by a factor of 46, and it exceeds average San Francisco
Bay area erosion rates by a factor of 17. The resulting soil losses are effectively permanent. Neither the increased sediment
yield nor the increased runoff is accomodated on the sites of use, and both are causing adverse effects to neighboring properties. 相似文献
17.
基于网格数据的贵州土壤侵蚀敏感性评价及其空间分异 总被引:14,自引:1,他引:13
在通用土壤侵蚀方程的基础上,建立了土壤侵蚀敏感性评价指标体系,利用GIS方法对影响土壤侵蚀敏感性的单因子进行评价,并将各因子进行网格化,运用网格数据的空间叠加分析方法对贵州省土壤侵蚀敏感性进行综合评价。在此基础上探讨了贵州省土壤侵蚀敏感性空间分异规律。通过与已有的土壤侵蚀现状图比较,发现土壤侵蚀高敏感区与水土流失严重区并不吻合,并进一步指出,脆弱的喀斯特环境是产生严重水土流失和导致石漠化的地质基础,强烈的人类活动是加速这一过程的主要驱动力量。 相似文献
18.
The devastating effect of soil erosion is one of the major sources of land degradation that affects human lives in many ways which occur mainly due to deforestation, poor agricultural practices, overgrazing,wildfire and urbanization. Soil erosion often leads to soil truncation, loss of fertility, slope instability, etc.which causes irreversible effects on the poorly renewable soil resource. In view of this, a study was conducted in Kelantan River basin to predict soil loss as influenced by long-term land use/land-cover(LULC) changes in the area. The study was conducted with the aim of predicting and assessing soil erosion as it is influenced by long-term LULC changes. The 13,100 km~2 watershed was delineated into four sub-catchments Galas, Pergau, Lebir and Nenggiri for precise result estimation and ease of execution. GIS-based Universal Soil Loss Equation(USLE) model was used to predict soil loss in this study. The model inputs used for the temporal and spatial calculation of soil erosion include rainfall erosivity factor,topographic factor, land cover and management factor as well as erodibility factor. The results showed that 67.54% of soil loss is located under low erosion potential(reversible soil loss) or 0-1 t ha~(-1) yr~(-1) soil loss in Galas, 59.17% in Pergau, 53.32% in Lebir and 56.76% in Nenggiri all under the 2013 LULC condition.Results from the correlation of soil erosion rates with LULC changes indicated that cleared land in all the four catchments and under all LULC conditions(1984-2013) appears to be the dominant with the highest erosion losses. Similarly, grassland and forest were also observed to regulate erosion rates in the area. This is because the vegetation cover provided by these LULC types protects the soil from direct impact of rain drops which invariably reduce soil loss to the barest minimum. Overall, it was concluded that the results have shown the significance of LULC in the control of erosion. Maps generated from the study may be useful to planners and land use managers to take appropriate decisions for soil conservation. 相似文献
19.
Effects of gully erosion and gully filling on soil depth and crop production in the black soil region, northeast China 总被引:5,自引:0,他引:5
Honghu Liu Tianyu Zhang Baoyuan Liu Gang Liu G. V. Wilson 《Environmental Earth Sciences》2013,68(6):1723-1732
Gully erosion is a very serious problem in the black soil region of northeast China. Gully filling is often adopted for controlling gully erosion by local farmers and thus causes more serious soil erosion. In this study an ephemeral gully (EG, 74 m) and a classical gully (CG, 52 m) connected at the gully’s headcut were selected as the study site. Two comparisons were made to explore the effects of gully erosion and the subsequent gully filling on soil depth and soybean yield: (1) soil depth between 81 sample points in the study site and 11 reference points along the same slope with the gully; (2) soybean yield between 81 sample points in the study site and 30 baseline locations near the study site. The results indicated that gully erosion caused the reduction of soil depth and soybean yield. Although filling gullies with soil from adjacent areas seemed to be an expedient way to remediate the gullies, it resulted in substantial soybean yield reduction. Gully erosion reduced the soil depth and soybean yield in 74.4 and 83.9 % of the study site, respectively. The soybean yield reduction ratio was 34.5 % for the whole study site and 2.6 % for the black soil region. Soil depth was the most important soil property indicator to reduce yield. Every 1 cm decrease in soil depth in the areas adjacent to gullies due to infilling activities resulted in a 2 % decrease in yield. More significant was the deposition of sediment from gully erosion, which completely eliminated soybean yield. Currently, effective soil and water conservation measures are not known and adopted by local farmers extensively. In the future, once some measures for preventing soil erosion, in particular gully erosion, were proved effective, these technologies should be disseminated among local farmers. 相似文献
20.
Soil organic matter is a key soil component that plays a critical role in ecosystem functioning including soil productivity and resilience to erosion and drought. Most Arab countries are located in semi-arid and arid areas with dominance of drylands soils with poor organic matter content and soil quality. In line with the efforts of the FAO Global Soil Partnership (GSP) and French initiative for carbon sequestration (4 par mille); the soil organic carbon (OC) stock in the Arab countries was assessed and mapped using the FAO-UNESCO Digital Soil Map of the World (DSMW). The outputs must serve awareness raising both at the level of land users and decision makers. Results were compared with the only available national OC map, recently produced in Lebanon. Other national OC maps are under processing by the GSP and Intergovernmental Technical Panel on Soils (ITPS) within the Global Soil OC Map. Produced maps showed low OC stock in the topsoil of more than 69% of the cultivated soils with dominance of xerosols, arenosols, and lithosols. The average soil OC stock in the Arab countries is 37 ± 36 ton/ha in the topsoil and 78 ± 69 ton/ha in the standard soil depth. The total OC stock in the arable lands of the Arab countries was estimated at 50.5 gigatons (GT) with Sudan, Saudi Arabia and Algeria placed on top. The average total OC stock per one Arab country is 0.8 ± 1.7 million tons. Large standard deviation points to different pedoclimatic conditions but also to variable management and land use history. Water erosion and chaotic urban expansion caused the irreversible loss of 25 and 53.6 GT tons of OC, respectively. With increased pressure on limited soil resources, policies must address soil conservation and C sequestration to support soil productivity and improve food production. 相似文献