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An approach to gully erosion is presented in this paper. The approach is based on general equations derived from theoretical considerations. The equations apply to a situation of intense erosion rate, such as at peak discharge during the few critical rainstorms, able to generate or to widen gullies.Equations linking gully widening to gully deepening are derived. They do not depend on the way in which concentrated flow aggressiveness is estimated. The equation expressing gully width/depth relationship was successfully compared with data from the literature.When runoff aggressiveness was estimated through unit stream power and bottom flow shear stress, the width/discharge relationships found were similar to those expected on the basis of previous studies (e.g., Leopold and Maddock [U. S. Geol. Surv. Prof. Pap. 252 (1953) 57 pp.]) even if slope gradient explicitly appears in contrast with empirical evidence. Only threshold conditions for gullies indicate that flow shear stress (for laminar flow conditions) can explain the observed trends. This astonishing result most probably indicates that gully initiation needs more complex contexts to be explained than the one here used (based on a Montgomery and Dietrich [1994. Landscape dissection and drainage area–slope thresholds. In: M.J. Kirkby (ed.), Process Models and Theoretical Geomorphology. Wiley, 221–246] approach).A selection of the proposed equations have been arranged into a research model and an example of the outcome has been given for two situations typical of cropland in southern Tuscany (Italy). The results indicate that the spatial distribution of soil characteristics and of land use influences significantly gully generation and evolution. This further confirms that gully morphological thresholds cannot be explained by simple approaches. 相似文献
63.
Soil moisture variability along transects over a well-developed gully in the Loess Plateau,China 总被引:1,自引:0,他引:1
Knowledge of soil moisture distributions in gullies, which are highly variable spatially and temporally, is important for both restoring vegetation and controlling erosion in them, but little attention has been paid to this spatio-temporal variability to date. Therefore, we examined soil moisture profiles and their variability along three transects traversing sidewalls of a well-developed gully with steep slopes in a hilly area of the Chinese Loess Plateau. We took intensive measurements at 20-cm intervals from 0 to 160 cm depth, using a portable time domain reflectometer, from September 3 to October 20 2009 and from April 5 to July 20 2010. The results indicate that the mean, standard deviation and coefficient of variation of moisture content vary with time, their responses to precipitation vary at different depths, and moisture content is most variable when mean values are moderate (15–20%). Revised fitting functions developed and introduced by Famiglietti et al. (2008) captured with confidence the relationship between spatial variability (SD and CV) and spatial mean of moisture content (RMSE ranging from 0.0015 to 0.0293). Soil moisture clearly varied along the transects, the vertical distribution of soil moisture differed in different seasons, and correlation analysis showed that soil texture influenced the variability of surface soil moisture more strongly than terrain attributes (except during distinct rainfall events, when this pattern reversed). The results presented here should improve understanding of spatio-temporal variations in soil moisture profiles in well-developed gullies in the Loess Plateau, and potentially elsewhere. 相似文献
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针对宁南黄土丘陵区存在的生态脆弱、环境恶化的突出问题,对黄土丘陵区不同生态恢复过程中的土壤水分变化进行了研究。研究结果表明:在退化山地的植被恢复过程中,0 ̄60cm土层,土壤水分含量随恢复年限的增长而增加,在60cm土层以下,土壤含水量随着退耕年限的不断增长不断减小;对于不同恢复方式的土壤水分含量,88542水平沟>人工草地>鱼鳞坑>天然草地;对于不同植被类型的土壤水分含量,草地>灌木地>林地;对于不同地形的土壤水分含量,阴坡>半阴坡>阳坡,坡下部>坡中部>坡上部,并且随着坡度的不断增加,土壤水分含量不断减小。 相似文献
66.
赣南山地丘陵区崩岗侵蚀阶段发育的研究 总被引:11,自引:3,他引:11
牛德奎 《江西农业大学学报》1990,12(1):29-36
崩岗是我国南方红壤区的一种重要的侵蚀类型,在江西赣南风化花岗岩山地丘陵区发育得相当普遍.根据崩岗形成特点,可将其发育过程划分成四个阶段,即网状细沟阶段、阶梯沟阶段、深沟阶段和崩岗扩展阶段.崩岗的形成和发展受多方面因素的影响;深厚松散的花岗岩风化物是崩岗的物质基础;暴雨径流和土体自重是崩岗发育的主要动力;地质作用和岩体节理结构可引起抗蚀力的减低;地表植被遭受严重破坏成为崩岗的必要前提. 相似文献
67.
Vincent Chaplot Jacqueline BrownPhesheya Dlamini Tarryn EusticeJean-Louis Janeau Graham JewittSimon Lorentz Lauren MartinCharmaine Nontokozo-Mchunu Ernest OakesPascal Podwojewski Sylvain RevilCornelia Rumpel Nhlakanipho Zondi 《Agricultural Water Management》2011,98(11):1704-1710
Gully erosion is one of the main causes of soil loss in drylands. Understanding the dominant mechanisms of erosion is important to achieve effective erosion control, thus in this study our main objective was to quantify the mechanisms involved in gully bank retreat as a result of three processes, falling of entire soil aggregates, transport of soil material by splash and by water running along gully banks (runoff), during rainfall events. The study was conducted in the sloping lands of the KwaZulu-Natal province, a region that is highly affected by gully erosion. Artificial rain was applied at 60 mm h−1 for 45 min at the vertical wall of a gully bank typical to the area. The splash material was collected by using a network of 0.045 m2 buckets. The sediments in the running water were assessed by sampling the runoff collected from a microplot inserted within the base of the bank, and collecting the fallen aggregates after the rainfall simulation was complete. Results indicated that the overall erosion for the simulation was 721 g m−2 h−1. Runoff erosion proved to be the dominant mechanism and amounted to 450 g m−2 h−1, followed by splash and fall down of aggregates (about 170 g m−2 h−1). Gully bank retreat occurred at a rate of 0.55 mm h−1 and assuming that the soil bulk density is 1.3 g cm−3, this corresponds to a retreat of 8.8 mm y−1. Extrapolations to the watershed level, where about 500 m2 of gully bank are observed per hectare, would lead to an erosion rate of 4.8 t ha−1 y−1. These limited results based on a simulated storm show that the three main mechanisms (runoff, splash and fall down of aggregates) are responsible for the retreat of gully banks and that to mitigate gully erosion, appropriate measures are required to control all three mechanisms. Further research studies are needed to confirm and to scale up, both in time and space, as these data are obtained at one location and from a single artificial storm. 相似文献
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"5.12"汶川地震后,龙溪河碱坪沟流域内堆积了大量的松散固体物质,成为参与泥石流形成的主要物源。碱坪沟于2009—2010年先后3次暴发大规模泥石流灾害。通过对碱坪沟的地形、水源和物源条件的分析发现,该流域地形和水源条件满足泥石流形成的条件,且在地震前后未发生显著变化,而物源条件已经成为影响该区域泥石流形成与发展的主要因素。基于流域物源量与物源固结效应的研究结果表明,在5a内碱坪沟泥石流灾害较活跃,可能暴发大规模泥石流灾害。5~10a后,在降雨条件不发生较大变化以及不暴发大地震的情况下,流域内泥石流规模和频率会逐渐减小,只有在低频率暴雨作用下才可能暴发大规模泥石流灾害。 相似文献
70.