The reverse sediment transport trend between abandoned Huanghe River(Yellow River) Delta and radial sand ridges along Jiangsu coastline of China——an evidence from grain size analysis

To reveal the sediment transporting mechanism between the abandoned Huanghe River （Yellow River） Delta and radial sand ridges, “End Member” Model and grain size trend analysis have been employed to separate the “dynamic populations” in the surficial sediment particle spectra and to determine the possible sediment transporting pathway. The results reveal four “dynamic subpopulations”（EM1 to EM4） and two reverse sediment transporting directions： a northward transport tend from the radial sand ridges to mud patch, and a southward transport trend in deep water area outside the mud patch. Combined with the published hydrodynamic information, the transporting mechanism of dynamic populations has been discussed, and the main conclusion is that the transporting of finer subpopulations EM1 and EM2 is controlled by the “anticlockwise residual current circulation” forming during tidal cycle, which favor a northward transporting trend and the forming of mud patch on the north of radial sand ridges, while the transporting of coarser EM3 is mainly controlled by wind driven drift in winter, which favors a southward transporting direction.

Sediment transport in the Luanhe River delta:grain size trend analysis

Sediment grain size in the deltaic environment of the Luanhe River(LR),Liaoning,China,contains sediment transport pathway information useful in elucidating the shoreline change and fluvialmarine interaction.In this study,we utilized numerical partitioning of the sedimentary components and geostatistical grain size trend analysis(GSTA)to define the sediment transport pattern in the Luanhe River delta(LRD)and interpolated the sediment transport pattern using content changes of end numbers(EM).EM1(the mean grain size 7.12Ф,fine silt),EM2(2.37Ф,fine sand),and EM3(1.27Ф,medium sand)components were identified by the numerical partitioning by GSTA.Kriging interpolation method was used to interpolate the parameters of the grain size for the regular grid,and the interpolation radius was 0.015 decimal degree.We chose 0.09 decimal degree as the characteristic distance for GSTA in the semivariogram model using the geostatistical method.The FB(-)case(finer,better sorted and more negatively skewed)was adopted in GSTA for its satisfaction in the Global Moran’s I test.The result of the GSTA shows that the sediments in the south barriers(SBs)were transported to the southwest of the study area.The sediments in the north,in the SE direction of sediment transport trend from the river mouth,indicated that the sediments in the north of the study area were transported from the LR to the northern beaches,and to the south and east of the study area.The sediment transport trend that simplified by GSTA as the FB(-)case was approved by the content changes of sedimentary components(i.e.EM1,EM2,and EM3).In addition,the turbulent jet diffusion pattern indicated that the coarse sediments(EM3)were delivered by LR during the flood season,and the EM2 and EM1 were from wave and tide,respectively.

Trend and Dynamic Cause of Sediment Particle Size on the Adjacent Continental Shelf of the Yangtze Estuary

Based on the measured data in recent 20 years, the variation trends of the median grain size of the surface sediment, the sand-silt boundary and the mud area on the adjacent continental shelf of the Yangtze Estuary were analyzed in depth, and the effects of natural mechanism and human activities were discussed. The results show that： （1） In recent years （2006-2013）, the median grain size of sediment and the distribution pattern of grouped sediments in the adjacent continental shelf area to the Yangtze Estuary have presented no obvious change compared with those before 2006; （2） The median diameter of the surface sediment in the continental shelf area displayed a coarsening trend with the decrease of sediment discharge from the basin and the drop in suspended sediment concentration in the shore area; （3） In 2004-2007, the sand-silt boundary in the north part （31 ~30＇N） of the continental shelf area presented no significant changes, while that in the south part （31~30＇S） moved inwards; In 2008-2013, both the sand-silt boundaries in the north and south parts of the continental shelf area moved inwards, mainly due to the fact that in the dry season, a relatively enhanced hydrodynamic force of the tides was generated in the Yangtze River, as well as a decreased suspended sediment concentration and a flow along the banks in North Jiangsu; （4） The mud area where the maximum deposition rate is found in the Yangtze Estuary, tends to shrink due to the drop in sediment discharge from the basin, and the decrease in suspended sediment concentration in the shore area and erosion in the delta. Moreover, it tended to shift to the south at the same time because the implement of the training works on the deep-water channel of the North Passage changed the split ratio between the North and South Passages with an increase in the power of the discharged runoff in the South Passage.

北方主要河流水沙变异及其成因

为研究我国北方河流的水沙变异及主要成因,本文利用M-K检验法和水文量累积曲线法,分析了1950—2020年我国北方河流代表站径流量和输沙量的变化特征,探讨了影响北方河流水沙变化的主要因素。结果表明,淮河代表站年径流量没有明显的变化趋势,其他北方河流的年径流量具有减小或显著减小趋势;松花江代表站年输沙量无趋势变化,其他北方河流代表站年输沙量都有显著减少趋势;影响北方河流水沙变化的主要因素包括水土保持、水库拦沙、流域降水变化、引水引沙与泥沙综合利用、工程建设等,其中水土保持是北方河流流域保水减沙的主要措施,水库拦沙在江河水沙态势变异中发挥重要作用,流域降水变化也是北方河流水沙变异的影响因素,引水引沙与泥沙综合利用也对北方平原河流水沙变化发挥一定的作用。

罗玉沟流域水沙变化趋势及影响因素

[目的]探讨小流域水沙变化趋势及影响因素,为黄土高原丘陵沟壑区水土流失治理和水土保持措施布设提供参考依据。[方法]采取Spearman秩次相关检验方法、累积距平法和双累积曲线法等对黄土丘陵沟壑区罗玉沟流域1986—2016年降水量、径流量和输沙量变化趋势和演变过程进行分析。[结果](1) 1986—2016年罗玉沟流域年降水量趋势性变化不显著;流域年径流量和年输沙量变化具有明显的阶段性,以1993年为界,年径流量和年输沙量呈显著降低趋势。(2)降水和水土保持措施影响罗玉沟流域年径流量和输沙量,不同降水水平年,降水和水土保持措施对流域水沙变化的影响不同,水土保持措施使流域枯水年份径流量和输沙量减少最为显著。(3)水土保持措施对年径流量和年输沙量的减少贡献率分别为83.50%和80.97%。[结论]降水量变化不显著的情况下,水土保持措施对罗玉沟流域年径流量和年输沙量的减少起主导作用,水土保持综合治理对枯水年径流量和输沙量的影响幅度最大。

东昆仑东段浪木日地区地球化学异常信息提取方法研究及异常查证

青海沟里地区位于东昆仑造山带东段,根据水系沉积物地球化学测量已发现了多个矿床(点),具有较好的找矿潜力。本文选取沟里地区巴加别里赤尔幅(浪木日地区)1∶5万水系沉积物地球化学测量数据为研究对象,利用统计学方法和趋势面分析法两种方法进行异常信息提取。结果显示,趋势面分析法相较于传统统计法,圈定的异常面积更大、浓集中心更明确、分带特征更明显,且与已知矿床点的吻合度更高,整体上具有强化低背景异常的优势。同时利用趋势面分析法提取了3个元素组合,并对套合性和相关性突出,且与区内浪木日铜镍硫化物矿床相关的Cu-Zn-Cr-Co-Ni组合异常进行异常剖析。结合区内地质特征和浪木日矿区矿体分布情况,圈定了哲扎空龙洼东、龙里、瑙格木东和卡鲁南等找矿远景区,为区内下一步铜镍找矿工作提供了方向。

海南岛北部海湾表层沉积物粒度特征及输运趋势

对海南岛北部海湾(海口湾、铺前湾、木兰湾和东寨港)192站位的表层沉积物样品进行粒度分析,基于粒级组分划分沉积物类型,利用Flemming三角图式法进行沉积动力分区,采用二维粒径趋势分析模型(GSTA)分析沉积物输运趋势。结果表明:研究区表层沉积物类型包括砾、砂质砾、砂、粉砂质砂、砂质粉砂和粉砂,其中,砂分布面积最广,其次为粉砂质砂,沉积物粒度由南往北依次呈“细—粗”旋回式变化,近岸和口门外砂体分选性较好,东寨港内湾和琼州海峡中部沉积物分选性差。研究区整体以偏高能环境为主,物质输运方式包括河流输沙、海岸侵蚀、沿岸输沙和底床剥蚀,其中,北部海峡潮余流作用强劲,表层沉积物存在EW向输运趋势;海湾中部受波浪和潮流的共同影响,于白沙浅滩处(如意人工岛)形成一个沉积汇聚中心;河口区受波浪、径流和潮流季节交替性作用控制,洪季时口门形成的堆积沙体,在NE向浪和W向沿岸流的侵蚀搬运作用下,向西输运至海口湾;近岸区主要受波浪改造作用影响,其中,铺前湾和木兰湾海域沉积物由海向岸搬运,趋势与波浪和涨潮流作用方向一致;东寨港水动力条件较弱,沉积物无明显输运趋势。研究结果揭示了本区海湾现代沉积特征及陆海交互作用,可为海岸侵蚀防护、航道安全保障和海洋环境治理提供科学依据。

1960—2020年黄河、长江、珠江入海水沙通量演变特征

[目的]基于动态更新数据综合对比中国三大河流入海水沙通量的特征,为流域开发和管理提供依据。[方法]收集黄河(利津站)、长江(大通站)、珠江(高要站、石角站、博罗站)5个水文控制站1960—2020年实测数据,采用滑动平均法、Pettitt检验法、双累积曲线法以及小波变换分别对水沙通量的趋势性、变异性、周期性特征进行分析,采用交叉小波变换和小波相干谱探究径流量和泥沙量的共振周期与相干性。[结果]近60a黄河、长江、珠江入海水沙通量均发生了明显变化,黄河径流量和泥沙量在1986年突变减少,泥沙量在1997年二次突变减少;长江和珠江入海径流量未发生变异,泥沙量分别于1992,1999年突变减少。这三大河流入海水沙具有显著的年际和年代际周期特征,年代际共同演化周期分别集中于1980年以前、1990年以前和2000年以前。年际共同演化周期为5a,“丰—枯”转换频繁。交叉小波分析结果显示,黄河、长江和珠江的入海径流量和泥沙量在1965—1975年具有显著的1~3a的共振周期,以正相位演变为主。[结论]中国三大河流入海水沙具有显著的趋势性、变异性和周期性特征,可以据此进行的流域开发和管理更有效。

黄河下游近期来水来沙年内年际波动特征研究

为探究近20 a来黄河下游水沙新情势,基于花园口站1997—2020年实测资料,并对比同时段潼关站水沙数据,从趋势性、变异性、周期性、年内分布及水沙搭配5个方面,系统分析黄河下游来水来沙年内年际波动特征。结果表明,两站水量呈显著增加趋势、沙量呈显著减少趋势;潼关站水、沙量分别在2018年、2004年突变,花园口站水、沙量分别在2017年、2001—2002年显著突变;潼关站水、沙量变化主周期分别为14、13 a,平均周期为9.5 a,花园口站水、沙量变化主周期分别为13、12 a,平均周期为8 a;基于上述分析,将研究时段划分为5个阶段,各阶段两站流量年内分布不均匀度相近,经历了减小-增大的交替过程,含沙量年内分布有所差别;潼关站来沙系数、水沙系数分别呈逐阶段减小、增大趋势,花园口站来沙系数先减小后回升,水沙系数前期较小,Ⅱ—Ⅳ阶段增大,第Ⅴ阶段减小。在天然水沙变化与人工水沙调控综合作用下,近期黄河下游水沙过程呈明显的阶段性变化特征,水沙搭配总体相对较优。

闽江河口水下三角洲及周边海域现代沉积环境演化及其对人类活动的响应

【目的】河口三角洲是陆海相互作用的敏感地带,也是人类活动最为频繁的地区,研究人类活动对河口三角洲演化的影响,一直以来都是国际沉积学的研究重点和热点。【方法】以福建闽江河口水下三角洲为研究对象,通过水动力模拟和表层沉积物粒度分析,探讨了闽江河口水下三角洲及周边海域现代沉积环境演化。【结果与结论】研究区河口内潮流以往复流为主,在口外海域逐渐转变为旋转流,水下三角洲地区流速大,外海流速较小;沉积物类型以砂、粉砂和砂质粉砂为主,平均粒径平均值分别为1.57Φ、6.78Φ和5.62Φ,并且由河口向口外陆架方向沉积物粗颗粒组分含量逐渐减少,细颗粒组分含量逐渐增大;沉积物输运趋势显示,在闽江河口水下三角洲内,沉积物输运呈现向东、东南和东北方向,在口外海域沉积物呈现朝东南和东北离岸方向,以及向西北朝岸方向输运;基于粒度组成、粒度参数及站位水深多元统计分析,综合地理位置、沉积物源和水动力条件,将研究区现代沉积环境划分为4个沉积区;通过探讨不同控制因素下的河口水下三角洲沉积环境差异,揭示了不同沉积区的沉积环境对人类活动的响应。该研究结果可为河口资源开发和生态环境保护提供科学依据。

广西钦州湾外湾海域表层沉积物粒度特征及沉积环境

沉积物粒度特征是反映沉积作用、沉积环境和沉积动力条件的明显标志,为了解广西钦州湾外湾海域沉积环境,对研究区167组表层沉积物样品进行粒度测定,分析粒度参数特征并划分沉积物类型,运用Pejrup三角投图对研究区进行沉积动力环境分区,采用Gao-Collins粒径趋势分析法总结研究区表层沉积物的运移趋势。结果表明:研究区表层沉积物以粉砂和砂为主,分选系数差。Folk-Ward分类法的结果显示研究区表层沉积物类型共12种,以砂质粉砂、砂质泥和粉砂分布最广,分别占样品总数的22.16%、17.37%和14.97%。沉积动力分析显示研究区的沉积环境复杂,水动力整体表现出由湾口向外逐渐减弱的特征。粒径趋势分析表明研究区表层沉积物整体向湾口及潮流深槽(航道)方向运移。综合分析表明研究区的沉积环境主要受潮流、波浪及人类活动等的影响。研究成果可为港口建设、深水航道改扩建以及海洋牧场建设等提供科学参考。

黄河中游多沙粗沙区土壤水蚀时空变化及动态驱动力分析

[目的]揭示黄河中游多沙粗沙区2000-2020年土壤水蚀时空演变特征,分析其动态驱动力。[方法]基于RUSLE模型,计算多沙粗沙区逐年土壤水蚀模数,分析2000年、2005年、2010年、2015年、2020年土壤水蚀强度变化特征,利用Sen+MK趋势分析法结合Hurst指数探究土壤水蚀模数时空变化特征,使用参数最优地理探测器中的因子探测与交互探测量化年平均降水、海拔、坡度、植被覆盖度、土地利用/覆盖类型、土壤类型6个因子对土壤水蚀空间分布的解释力。[结果](1)2000-2020年5期多沙粗沙区中度、强烈、极强烈、剧烈侵蚀面积分别下降48.09%,77.93%,83.01%,36.13%;微度和轻度侵蚀面积分别上升46.22%,0.33%。现阶段多沙粗沙区以微度和轻度侵蚀为主,二者面积占比分别为62.49%,42.07%。(2)多沙粗沙区土壤水蚀模数总体年际变化呈波动显著下降趋势,由2000年的2214.89 t/(km^(2)·a)降至2020年的1169.44 t/(km^(2)·a)。2000-2020年多沙粗沙区土壤水蚀模数空间变化趋势主要表现为下降状态,面积占比为76.13%,未来仍将以下降状态为主,面积占比为62.50%。(3)6个因子间的交互作用解释力均大于单因子,且主要表现为非线性增强和双因子增强;多沙粗沙区土壤水蚀2000-2005年由降水和土地利用/覆盖主导,2010-2020年由植被覆盖度和土地利用/覆盖主导。[结论]2000-2020年多沙粗沙区土壤水蚀状况不断好转;未来共有62.50%的区域土壤水蚀模数为持续下降与未来下降状态,但仍有20.44%的区域存在上升的潜在风险;退耕还林还草工程改变土地利用/覆盖格局,使得多沙粗沙区土壤水蚀驱动力呈动态变化;在今后多沙粗沙区土壤水蚀防治,优化土地利用/覆盖格局时需要充分考虑坡度因子。

1986-2018年黄土丘陵区典型小流域不同水文年水沙变化

[目的]探讨黄土丘陵区罗玉沟典型小流域水沙变化趋势以及不同水文年径流输沙对水土流失治理的响应差异,量化降水和人类活动对流域水沙影响的相对贡献,以期为黄土丘陵第三副区流域水土流失治理和水资源管理提供参考。[方法]基于罗玉沟流域1986—2018年的降雨、径流、输沙等数据,采用Mann-Kendall检验法、累积距平法及双累积曲线法分析流域水沙变化趋势及驱动因素。[结果]1986—2018年罗玉沟流域河流由常流河转变为季节性河流,干河日数显著上升(p<0.01),2000年以来干河日数多在300 d以上;同期,罗玉沟流域径流输沙显著下降(p<0.05),与基准期1986—1993年相比,1994—2007年减水减沙率分别为61.9%,44.3%,2008—2018年径流输沙分别减少67.5%,76.4%;在2008—2018年平水年和枯水年间罗玉沟流域输沙模数分别为(1 080.0±107.5) t/km^(2),(167.8±111.4) t/km^(2),而在暴雨频发丰水年,输沙模数仍接近4 000 t/km^(2);流域产流产沙能力降低,水沙关系发生改变,相同径流条件下输沙量减少,即流域径流含沙量水平降低,开始变清;相比降雨变化而言,人类活动是流域水沙变化的主导因素,1994—2007年人类活动对减水减沙的贡献率分别为83.3%和79.5%,而2008—2018年人类活动的贡献率分别为91.8%,94.4%,表明流域水沙变化受人类活动影响越来越大,其中,坡改梯及退耕还林还草工程是主要影响因素。[结论]因沟道治理工程建设不足,罗玉沟流域在丰水年因沟道重力侵蚀导致流域输沙仍然剧烈,因此,需要加强沟道治理进一步减少流域水土流失。

鄱阳湖出口近10年水沙特征及变化初析

利用湖口水文站2012~2021年实测水沙资料,分析近10年鄱阳湖出口水沙基本特征及变化趋势,并对变化原因进行初步分析。结果表明:近10年鄱阳湖出湖输沙量呈减小趋势,鄱阳湖出湖年输沙量和含沙量出现明显的突变点在2017年左右;长江倒灌进入鄱阳湖的水量和沙量呈减小趋势,影响了出湖径流量和输沙量年内分配,但对全年鄱阳湖出湖水量和输沙量影响较弱;鄱阳湖区的采砂活动、河道冲刷对出湖输沙量影响较大。

东平湖表层沉积物重金属环境容量评价及趋势预测

湖泊沉积物环境容量是评价湖泊系统环境承载力的重要指标,可有效反映湖泊系统的稳定性和可持续发展能力。以黄河流域下游东平湖为研究对象,对表层沉积物中的As、Cd、Cr、Co、Cu、Hg、Mn、Ni、Pb、Tl和Zn共11种重金属元素进行采样和测定,采用统计分析和GIS技术对重金属含量及环境承载力空间分布进行讨论,并对重金属百年尺度环境容量变化趋势进行预测。结果表明:①研究区沉积物中As最大值超过土壤污染风险筛选值(允许限值),其余元素均低于允许限值。②重金属单项环境容量指数(P i)均值排序为:Hg>Pb>Cr>Ni>Zn>Cd>Cu>Co>Mn>Tl>As,其中As存在过载水平和警戒水平点位,Mn和Tl存在警戒水平点位;经计算,研究区综合容量指数(PI)介于中容量至高容量水平,而以“单项环境容量指数劣等水平”衡量的综合容量等级显示,研究区中容量至过载水平均有分布。③重金属静态年容量限值和动态年容量排序分别为:Mn>Zn>Cr>Ni>Cu>Pb>As>Co>Tl>Cd>Hg和Mn>Zn>Cr>Ni>Pb>Cu>Co>As>Hg>Cd>Tl;静态年容量限值和动态年容量分别在5~40年和5~15年年限内呈现由陡倾转缓的降低趋势,之后趋于平缓稳定;不同年限平均动态年容量均大于静态年容量限值,表现出对环境的容纳承载能力较好。本研究揭示了东平湖环境容量现状及未来变化趋势,可为湖泊环境质量评价和生态保护修复提供科学依据。

渭河下游河道冲淤影响因素及发展趋势分析

为探究渭河下游河道冲淤机理,基于多年原型观测资料,分析上游来水来沙情况、潼关高程变化与渭河下游河道冲淤的响应关系,并探讨预测渭河下游近期的冲淤趋势。结果表明:三门峡水库原型试验以来(2003—2020年),华县站水沙条件和潼关高程抬升仍是引起渭河下游河段淤积的主要原因;渭河下游在1960—2020年总体呈现“上冲下淤”,泥沙淤积重心逐渐上移,2002—2020年渭河全河段冲刷;目前渭河下游河道已经形成均衡的水沙关系和良好的河势布局,在未来的一段时间仍将保持全段冲刷或“上淤下冲”的冲淤状态,继续向维持平衡的冲淤关系发展。研究成果可为渭河下游的规划治理提供参考。

The application of geostatistics in grain size trend analysis： A case study of eastern Beibu Gulf

There are 71 surface sediment samples collected from the eastern Beibu Gulf. The moment parameters （i.e. mean size, sorting and skewness） were obtained after applying grain size analysis. The geostatistical analysis was then applied to study the spatial autocorrelation for these parameters; while range, a parameter in the semivariogram that meters the scale of spatial autocorrelation, was estimated. The results indicated that the range for sorting coefficient was physically meaningful. The trend vectors calculated from grain size trend analysis model were consistent with the annual ocean circulation patterns and sediment transport rates according to previous studies. Therefore the range derived from the semivariogram of mean size can be used as the characteristic distance in the grain size trend analysis, which may remove the bias caused by the traditional way of basing on experiences or testing methods to get the characteristic distance. Hence the results from geostatistical analysis can also offer useful information for the determination of sediment sampling density in the future field work.

Distributional characteristics of grain sizes of surface sediments in the Zhujiang River Estuary

Distributions of the parameters of sedimentary grain sizes and their correlations were studied to trace the sources of silts and their movement trends in the Zhujiang River Estuary based on the analyses of grain sizes from more than 1080 sedimentary samples. The distributions of the median diameter, public value, quartile deviation, and skewness of sediments were complex in the Zhuiiang River Estuary mainly because of the impact of the matter source regions, distances from the source regions, and hydrodynamic conditions, such as waves, tidal currents, and coastal currents. Analyses of the parameters of the grain sizes for the various types of sediments showed that the distributions of the surface sediments in the Zhujiang River Estuary were controlled by many factors. Their matter sources were mainly the sediments discharged from the runoffs and ebb tidal currents, and from the open sea. The sediments mainly moved by suspension movement. The silts formed a large area of sediments with suspended fine silts in the Zhujiang River Estuary by internal adjustment transportation in the area, and moved toward the western coast of the Zhujiang River Estuary under the effect of Coriolis forces and coastal currents.

A 50-years record of dichloro-diphenyl-trichloroethanes and hexachloro-cyclohexanes in lake sediments and penguin droppings on King George Island, Maritime Antarctic

Since the ban on the use of organochlorine pesticides （OCPs） such as dichloro-diphenyl-trichloroethane （DDT） and hexachlorocyclohexane（HCH） in agriculture, their levels have generally dropped. In a number of cases, however, the levels of these OCPs were found to be unchanging or even increasing after the ban. With the aim to unveil the possible causes of these exceptions, we collected two lake cores from King George Island, West Antarctica, and determined their accumulation flux profiles and temporal trends of these OCPs. In the lake core sediments with glacier meltwater input, the accumulation flux of DDT shows an abnormal peak around 1980s in addition to the expected one in 1960s. In the lake core sediments without glacier meltwater input, the accumulation flux of DDT shows a gradual decline trend after the peak in 1960s. This striking difference in the DDT flux profiles between the two lake cores is most likely caused by the regional climate warming and the resulted discharge of the DDT stored in the Antarctic ice cap into the lakes in the Antarctic glacier frontier. Furthermore, to investigate the change of OCPs loadings in the Antarctic coastal ecosystem, we reconstructed the HCH and DDT concentration profiles in penguin droppings and observed a gradual increase for the former and a continuous decrease for the latter during the past 50 years. The increase of HCH seems to be due to the regional warming from the early 1970s and the resulted HCH discharge to the coastal ecosystem by glaciers＇ meltwater and the illegal use of HCH in the Southern Hemisphere in the recent decade. The different temporal trends of HCH and DDT accumulation rate in the lake core with glacier meltwater input and the aged penguin droppings can be explained by their different water-soluble property.

Impacts of precipitation variation and soil and water conservation measures on runoff and sediment yield in the Loess Plateau Gully Region, China

The Loess Plateau of China has experienced a lengthy drought and severe soil erosion.Changes in precipitation and land use largely determine the dynamics of runoff and sediment yield in this region. Trend and mutation analyses were performed on hydrological data(1981–2012) from the Yanwachuan watershed in the Loess Plateau Gully Region to study the evolution characteristics of runoff and sediment yield. A time-series contrasting method also was used to evaluate the effects of precipitation and soil and water conservation(SWC) on runoff and sediment yield. Annual sediment yield declined markedly from 1981 to 2012 although there was no significant change in annual precipitation and annual runoff. Change points of annual runoff and annual sediment yield occurred in 1996 and 1997,respectively. Compared with that in the baseline period(1981–1996), annual runoff and annual sediment yield in the change period(1997–2012)decreased by 17.0% and 76.0%, respectively, but annual precipitation increased by 6.3%. Runoff decreased in the flood season and normal season, but increased in the dry season, while sediment yield significantly declined in the whole study period. The SWC measures contributed significantly to the reduction of annual runoff(137.9%) and annual sediment yield(135%) and were more important than precipitation. Biological measures(forestland and grassland) accounted for 61.04% of total runoff reduction, while engineering measures(terraces and dams) accounted for 102.84% of total sediment yield reduction. Furthermore, SWC measures had positive ecological effects. This study provides a scientific basis for soil erosion control on the Loess Plateau.