土壤侵蚀的中子活化示踪法研究

利用中子活化示踪法研究坡面土壤的侵蚀过程,发现坡面的相对侵蚀量从坡脚到坡顶随坡长的变化符合Weibull分布,其形状参数主要受降雨量、降雨历时和径流深度的影响,尺度参数主要与平均雨强、I₃₀相关.坡面在侵蚀的同时也发生沉积,一般来说短历时高强度的降雨沉积量较小,而长历时低强度的降雨沉积量较大,某一部位侵蚀产沙的沉积量与其距离之间有y=axb的关系.坡面径流直接影响着坡面的输移比,当径流深和径流系数较高时,输移比接近于1,否则输移比降低.     

黄土陡坡降雨冲刷试验及其三维颗粒流流-固耦合模拟

针对坡角为70°的黄土边坡,进行2.7 mm/min降雨强度下的室内坡面冲刷试验。根据边坡冲刷破坏的过程特征,将边坡侵蚀方式演变过程归纳为试验初期的片蚀、中期的细沟侵蚀、到后期的切沟侵蚀和坍塌。试验中坡顶处侵蚀强度大于其他部位,当坡面形成上下贯通的切沟之后,水流开始掏蚀沟槽底部土体,随着冲刷的持续,切沟两侧土体强度降低,坡顶土体发生坍塌。以此为基础利用三维颗粒流软件PFC3D对边坡降雨冲刷过程进行流-固耦合模拟,在模拟颗粒大变形的同时得到颗粒运动轨迹、孔隙率、流体单元内流速等重要参数,这些参数的定量变化过程反映了降雨过程中边坡遭受侵蚀程度及水流侵蚀能力的分布规律:坡顶处侵蚀最为强烈、水流侵蚀能力最强,且两者随高度降低呈减小趋势,与室内试验结果一致。     

利用REE示踪法研究坡面侵蚀过程

次降雨条件下坡面侵蚀形态的演变过程和细沟的发生发展过程是土壤侵蚀规律研究中的重点和难点。利用REE示踪法,采取沿坡面垂直分层布设的新的试验方法,通过室内模拟降雨试验,对坡面侵蚀演变过程进行了探索性研究。结果表明:降雨初期坡面侵蚀以面蚀为主,细沟出现后,坡面侵蚀加剧;随着降雨时间的延续,累积面蚀量和细沟侵蚀量逐渐增加,但后者的增加速率大于前者,面蚀占总侵蚀量的比率随降雨时间呈曲线形式逐渐递减,细沟侵蚀则逐渐增加;试验结束时细沟侵蚀量为面蚀量的2～4倍。本研究为定量区分和研究坡面侵蚀过程中面蚀和细沟侵蚀量,面蚀向细沟侵蚀的转变以及细沟侵蚀发生、发育提供了新的思路和解决途径。     

辽西黄土陡坡的冲刷破坏机制

以70°辽西黄土陡坡为例,在降雨强度为2.7 mm/min条件下对边坡坡面冲刷破坏特征进行了室内物理试验模拟。试验发现：随着降雨的持续坡面水流能量不断增加,致使侵蚀强度增强;边坡的侵蚀方式从试验初期的片蚀,到中期的细沟侵蚀,最后演化为坡顶部的切沟侵蚀和坍塌。基于试验成果,采用SEEP/W程序对降雨条件下边坡降雨入渗规律进行数值模拟,发现在降雨过程中坡顶部所产生的水头压力最大,随高度降低呈减小趋势;运用PFC2D颗粒流软件从微观角度对坡体土颗粒运动情况进行模拟,结果发现位于坡顶的颗粒最先被径流冲刷带走,且下落速度很快。经对比表明：数值模拟结果和物理模拟试验现象基本一致,可为进一步研究黄土边坡冲刷破坏规律提供参考。     

小流域岩土侵蚀规律研究——以子洲县周家圪崂乡桥沟小流域为例

桥沟小流域位于子洲县周家圪崂乡东部,系黄河四级支流,面积19km^2。桥沟主沟长5．75km,坡降12．8％,沟谷切深100m左右。流域内地貌为黄土梁峁及沟壑,出露地层主要有侏罗系砂泥岩、新近系（原为第三系）红土和第四系黄土。黄土层中下部含地下水,在黄土与基岩接触带,多有下降泉溢出。从地层岩性上看,第四系黄土分布广,厚度大,结构松散,遇水易解体。岩土侵蚀环境地质类型有三：一是降雨对谷坡面的面状冲刷一坡面侵蚀;二是地表径流对谷底的侧蚀一沟谷侵蚀,三是滑塌对谷坡坡体的破坏一重力侵蚀。三种侵重力蚀的防治措施各有侧重点,对于坡面侵蚀的防治措施主要是退耕还林种草,改造微地貌;对于沟谷及重力侵蚀的防治措施主要是沟道坝系建设,即在重力侵蚀及沟谷侵蚀发育区下游,修建淤地坝,从而抬高侵蚀基准,减少重力侵蚀的发生。     

坡沟系统坡面径流流态及水力学参数特征研究

利用变坡度坡沟系统概化模型和人工模拟降雨试验,定量分析了在60、90和130mm/h降雨强度下坡沟系统坡面径流流态及水力学参数特征。结果表明,上方汇水和降雨强度的增大使坡沟系统水流雷诺数和弗劳德数呈明显增大,水流流态由缓流演变为急流,坡面水流阻力系数明显减小,从而使坡沟侵蚀产沙量显著增大。     

四川西昌“3·30”火烧区响水沟火后泥石流成灾机理

2020年3月30日,西昌市经久乡发生森林大火,响水沟流域植被被林火大面积烧毁,同年雨季,响水沟流域内多条沟道暴发泥石流,其中1#、2#、3#沟毗邻居民房屋和耕地,影响较为严重。通过野外调查、遥感解译和室外试验,以响水沟1#、2#、3#沟为研究对象,分析了不同林火烈度下,渗透特征、坡面侵蚀和沟道侵蚀的差异,从而揭示响水沟火后泥石流的成灾机理。结果表明,林火是泥石流暴发的重要诱因,火后泥石流的降雨阈值会明显降低。林火干扰导致坡面土壤的渗透系数表现出不同程度的降低,林火烈度越严重的区域,渗透系数越小,降雨更大比例地转化为坡面径流参与到坡面侵蚀。随降雨次数的增多,轻度、中度、重度火烧区域的坡面土壤侵蚀深度均增加;中度、重度林火烈度的侵蚀深度差异不大,且明显高于轻度区域,说明当林火烈度达到中度时,坡面土壤便会受到较大程度的侵蚀。地形条件相似的沟道,林火烈度越严重,泥石流侵蚀能力越强,最终体现于沟道两岸崩滑体数量越多,沟道宽度和深度越大。     

黄土区切沟对不同植被下土壤水分时空变异的影响

为掌握切沟对土壤水分时空变异的影响,选取水蚀风蚀交错区两个典型切沟样点为研究对象。采用时间序列分析和经典统计学方法,从土壤水分时间变化特征和空间分布格局两方面探讨。结果表明:距沟道不同距离下土壤储水量差异明显。300 cm处样点可作为测定尺度下土壤储水量平均值。土壤水分在垂直方向上的变异受植被特征影响,沟道影响较小。坡面土壤储水量的空间分布呈现不同的分布格局。坡顶风速大,土壤水分蒸发快,坡中处土壤储水量最高,为949.9 mm,距切沟越近土壤水分快速散失,坡下土壤水分接近4%,亏缺严重。杏树地土壤储水量远高于柠条地,柠条地土壤储水量分布较为单一。土壤蒸发、植被、沟道等因素使得坡面土壤水分分布更加复杂。     

细沟形态演变对坡面水沙过程的影响

为探明细沟形态演变对坡面产流产沙的互反馈作用,采用室内模拟降雨和三维地形扫描等手段对细沟形态演变中的水沙变化过程进行了研究。试验分析了黄土在不同雨强（66 mm/h、94 mm/h和127 mm/h）条件下,不同细沟发育阶段的水沙过程变化规律。结果表明,黄土细沟形态演变过程对产沙的影响较大,而对产流的影响较弱。径流量的变化过程主要取决于土体透水性、土壤的结皮作用以及产流方式,坡面产流量有先增大后减小最后趋于平稳的趋势;产沙量的变化过程与细沟发育进程有明显的对应关系,尤其是坡面地貌信息熵与产沙量和侵蚀速率的相关系数分别达到0.954和0.916,细沟的出现会加剧侵蚀,使含沙量明显增加;不同雨强下坡面产沙的变化规律基本相同,细沟沟网稳定后的产沙量与降雨强度呈正相关关系。     

坡面松散砾石土侵蚀过程及其特征研究

砾石土因其含砾、粉细砂和粘性土,具有级配宽、不均匀系数大、透水性强等特点,在土石坝防渗体土料和工程防渗墙中得到广泛应用。目前的研究多针对砾石土在工程应用方面,对于坡面松散砾石土降雨淋滤作用导致土体细粒成分流失、土体组构改变以至影响土体力学性质变化以及坡面物质稳定性变化等系列研究并不多见。利用人工降雨装置,进行了人工降雨坡面松散砾石土降雨淋滤试验,开展了砾石土侵蚀过程及其特征初步试验研究。试验表明,降雨作用下砾石土斜坡表面土体形态变化具有明显的阶段性特征,随着坡长的增加,产流率和侵蚀模数成线性增加,径流量随降雨时间跳跃和波动性增加,径流泥沙含量随降雨时间的增加以近似幂函数曲线关系递减。     

Influences of revegetation mode on soil water dynamic in gully slope of the Chinese Loess hilly–gully region

Gully slope is one of the most active areas of soil erosion in small watershed of the Chinese Loess hilly–gully region. Although its soil erosion has been effectively controlled with the implementation of the “Grain-for-Green Program” in this region, the soil water storage and distribution have been also impacted. In particular, unreasonable revegetation model has aggravated the water shortage, which may in turn threaten the health of ecosystems. However, yet little is known about the effect mechanism of vegetation on soil water in the gully slope. In this study, we examined the relationship between two revegetation modes, including afforestation (i.e. black locust forest) and natural revegetation (i.e. the grassland), and soil water in a depth of 0–120 cm of the gully slope, during the rainy season. The results showed that the effect of the vegetation to the soil water was smaller than that of the precipitation. Furthermore, the response of soil water to the environmental factors was higher in afforestation vegetation due to its lower soil water content, resulting in higher space dependence for soil water, compared to the natural revegetation. The lower soil water content of the black locust forest was mainly caused by its higher recession rate, not its supply. The soil water was deficient for a long time, caused by afforestation, with a shallower formation depth of the dried soil layer and stronger desiccation degree. However, this deficient could not be effectively relieved until in wet year. In comparison with the ridge slope, the effect of vegetation to soil water in gully slope was stronger, with greater water consumption in afforestation vegetation and the higher water storage in natural revegetation. From the aspect of water resources conservation on the water scale, the natural revegetation was the optimal revegetation mode in the gully slope of the loess hilly region.

     

陇东黄土塬区不同下垫面条件下侵蚀产沙的降雨阈值

根据陇东黄土高塬沟壑区典型小流域——南小河沟流域1954—2014年实测降雨产沙资料,应用降雨侵蚀力偏差系数法研究不同土地利用类型及空间尺度下侵蚀产沙的雨量阈值、雨强阈值及复合阈值标准,并通过对比分析确定了最优降雨阈值标准。结果表明:① 对于林地和草地坡面小区,其雨量阈值标准平均值（21.0 mm）较裸地（8.7 mm）和农地（9.7 mm）坡面小区分别提高了141%和116%,植被措施能够显著提高降雨阈值标准。② 杨家沟林地小流域的雨量阈值标准为16.5 mm,低于布设在该流域的林地坡面小区,同时对比董庄沟草地小流域及其坡面和全坡面小区的雨量阈值标准,其大小亦为:草地坡面尺度 > 草地全坡面尺度 > 草地小流域尺度,由此可见,降雨阈值标准会随着空间尺度增大而减小。③ 降雨阈值标准综合评价结果表明,各样点最优降雨阈值标准均为P≥a或I₃₀≥b这一复合因子标准,而在降雨单因子阈值标准中,对于农耕地和裸地坡面小区,宜采用最大30 min雨强（I₃₀）标准;对于经过水土流失治理的下垫面,宜采用雨量（P）标准。该研究可为区域土壤侵蚀预报提供参考。     

Effects of gully erosion and gully filling on soil depth and crop production in the black soil region, northeast China

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.     

黄土丘陵区土壤侵蚀链垂直带水沙流空间分布

采用多坡段组合模型、人工模拟降雨实验研究了土壤侵蚀链垂直带水沙流空间分布变化特征。结果表明:愈向下坡方向的坡段产流量愈大,单位面积、单位时间的产流量按坡段排列为:谷坡>梁峁坡下部>梁峁坡中部>梁峁坡上部。雨强为29.7mm/h时,坡面上没有沟蚀发育;雨强为60.5mm/h时,细沟主要分布在梁峁坡下部和谷坡处;雨强为90 2mm/h时,各种侵蚀形态在坡面均有较好发育,细沟的出现部位一直伸展到梁峁坡中部和上部之间。由于上坡来水来沙的作用,梁峁坡的产沙量增大了20.2%～63.5%,谷坡的产沙量增大了42.9%～74.5%。     

Using GIS-based distributed soil loss modeling and morphometric analysis to prioritize watershed for soil conservation in Bago river basin of Lower Myanmar

Bago River is an important river in Myanmar. Although shorter than other rivers, it has its own river system, and people along the river rely heavily on it for their daily lives. The upper part of the watershed has changed rapidly from closed forest to open forest land in the 1990s. Since the recent degradation of the forest environment, annual flooding has become worse during the rainy season in Bago City. This paper aims at determining soil conservation prioritization of watershed based on soil loss due to erosion and morphometric analysis in the Bago Watershed by integrating remote sensing and geographic information system (GIS) techniques. In this study, soil erosion of the Bago watershed was determined using the Universal Soil Loss Equation. Such factormaps as rainfall, soil erodibility, slope length gradient, and crop management were compiled as input parameters for the modeling; and the soil loss from 26 sub-watersheds were estimated. Then, the soil erosion maps of the Bago watershed for 2005 were developed. The resulting Soil Loss Tolerance Map could be utilized in developing watershed management planning, forestry management planning, etc.     

降雨条件下微生物技术治理崩岗侵蚀

崩岗是中国花岗岩地区危害最大的一种土壤侵蚀方式,坡面防护是崩岗侵蚀治理的重要措施。为研究微生物诱导碳酸钙沉淀（MICP）技术在花岗岩崩岗侵蚀区冲刷防护中应用的可行性,以福建省崩岗最为发育的安溪县官桥镇花岗岩土质覆盖层为研究对象,进行降雨条件下微生物治理崩岗的模型试验研究。采用喷洒加固法对崩岗坡面进行处理,然后利用降雨模拟系统冲刷坡面,最后分析了MICP加固技术对泥沙产量及坡面侵蚀深度的影响。结果表明：与未加固边坡相比,MICP固化边坡泥沙产量由未加固的7648.43 g下降至266.61 g,较加固之前降低了96.51%;最大侵蚀深度由未加固的60 mm下降至除个别侵蚀坑外边坡表面基本未发生侵蚀。     

小降雨事件对土壤水分及植物水势空间差异性的影响

本文以云南省蒙自市断陷盆地高原面上典型封闭式岩溶洼地小流域为研究对象,研究小降雨事件对土壤水分及植物水势的影响。结果表明:（1）在研究区内小降雨事件一般只能补给10 cm以上的土壤,因此在旱季（强降雨事件发生前）,土壤水分随着深度的增加整体呈变小的趋势;受洼地地形影响,整个土壤剖面（0 ~ 80 cm）的土壤水分存在从坡顶到洼地底部逐渐增加,苹果树叶水势逐渐升高的现象;受地质背景的影响,土石质坡地平均土壤水分比石质坡地土壤水分高2.67%,相对应的土石质坡地苹果树受干旱胁迫的程度要低于石质坡地。（2）通过观测对比发现,8天内12次的小降雨事件可以使0~10 cm土壤水分整体上略有升高,但并未能完全改变0~10 cm土壤水分洼地底部大于两侧坡地,而土石质坡地高于石质坡地的特征。（3）小降雨事件虽然只能补给0~10 cm的土壤水分,但由于坡地地区苹果树根系分布较浅（5~30 cm）,部分浅层分布的苹果树根系已能吸收到水分,另一方面小降雨事件具有降温、增湿,减少太阳辐射的作用,可以减小苹果树蒸腾作用,从而降低苹果树叶水势,因此推测小雨事件可以明显减轻苹果树受干旱胁迫的程度