A STUDY ON THRESHOLDS IN THE CHANGE OF ALLUVIAL FAN AND DELTA OF THE HUANGHE RIVER, CHINA

In the river systems, the environmental change always undergoes a process from quantitative to qualitative change. The upper limit of the qualitative change is called threshold. When the process reaches or goes beyond the limit, the original event series will be replaced by the other event series. Investigations show that the evolution of the Huanghe River alluvial fan and delta has also under gone a process from quantitative to qualitative change. The geometric forms in each process are roughly the same. This threshold of the geometric forms not only provides us a quantitative index for plotting the periodicity of the alluvial fan and delta, but also is of importance for estimation of the trend of natural environmental change.It is shown that there are three periodic alluvial fans of the Huanghe River since the middle Holocene and four periodic delta since 1855 A.D., the thresholds of their geometric forms are from 0.93 to 0.94 and from 1.2 to 1.21 respectively.The changing trend in the past and the

Regional Mapping of Vertical Hydraulic Gradient Using Uncertain Well Data: A Case Study of the Toyohira River Alluvial Fan, Japan

Vertical hydraulic gradient (VHG) provides detailed information on 3D groundwater flows in alluvial fans, but its regional mapping is complicated by a lack of piezometer nests and uncertainty in conventional well data. Especially, determining representative depth of well screen in each well is problematic. Here, a VHG map of the Toyohira River alluvial fan, Sapporo, Japan, is constructed based on groundwater table elevation (GTE), using available well-data of various screen lengths and depths. The water-level data after 1988, when subway constructions are mostly completed in the city, are divided into those of shallow wells (≤20 m deep), and those of deep wells (>20 m deep). First, the GTE map is generated by kriging interpolation of shallow well data with topographic drift. Next, the individual VHG value of each deep well is calculated using its top, middle, and bottom elevations of the screen depths, respectively. The VHG maps of three cases are then obtained using neighborhood kriging. The VHG map of the bottom screen depths has proven most valid by cross-validation. The VHG map better visualizes that downward flows of groundwater are predominant over the fan. Positive area of VHG is mostly vanished around the fan-toe, indicating urbanization effect such as artificial withdrawals. A negative peak of VHG corresponds to recharge area, and is seen along the distinct losing section in the river. The negative peak also expands upstream to the fan-apex where a basement is suddenly depressed.

Soil evolution along an alluvial-loess transect in the Herat Plain,western Afghanistan

Afghanistan is located in the Eurasian loess belt,however,there is little information on the soils in the area.Loess has covered the Herat Plain in western Herat City,Afghanistan.Despite the diversity of landform and parent material,there is no information on the soil and landform evolution in this area.The objectives of this study were to identify the soils along a transect of different landforms in the Herat Plain and determine the role of geomorphic processes on the soil and landform evolution.Five pedons from an alluvial fan,the depression between alluvial fan and piedmont plain,saline and non-saline piedmont plains,and the flood plain of the Hariroud River,were sampled.Then,the physical-chemical properties,mineralogy,and micromorphology of the samples were determined.Results showed that the soil parent material in the piedmont plain is loess,whereas,in the flood plain it is a combination of loess and river alluvial sediments.Calcification,lessivage,salinization,and gleization are the most important pedogenic processes.The calcification and lessivage appear to be the result of a wetter climate during the late Quaternary,whereas the present topography causes the gleization and salinization.Clay coatings on carbonate nodules and iron nodules are abundant pedofeatures in the Btk(argillic-calcic)horizon.Iron oxides nodules are common in the soils of the flood plain.The formation of palygorskite in both alluvial-and loess-derived soils implies the onset of aridity and the trend of increase in environmental aridity in the region.It seems that after the formation of a well developed paleosol on the alluvial fan in a more humid climate in the past,the piedmont plain has been covered by loess deposits,and the calcification,gleization,and salinization cause the formation of weakly developed surficial soils.This study highlights the role of the late Quaternary climatic changes on the evolution of landforms and soils in western Afghanistan.

太子河冲洪积扇地下水水化学特征及成因分析

结合研究区已有的基础地质、水文地质资料,基于水化学数据,运用数理统计、舒卡列夫分类、Piper三线图、Schoeller图、Gibbs图、离子比值等方法,分析冲洪积扇不同区域地下水水化学特征,讨论不同区域地下水演化的主要控制因素,研究地下水水环境污染状况.结果表明:太子河冲洪积扇地下水受人类活动影响较弱,扇顶地下水水化学类型主要为HCO_(3)·SO_(4)-Ca型和HCO_(3)·SO_(4)·Cl-Ca型,扇中地下水水化学类型主要为HCO_(3)-Ca型和HCO_(3)·SO_(4)-Ca型,扇缘地下水水化学类型主要为HCO_(3)-Ca型.太子河冲洪积扇不同部位地下水演化受到的岩石风化作用和离子交换作用影响的强度和方式不同.太子河冲洪积扇地下水中“三氮”污染问题主要受采矿、冶金、化工等工矿活动和农业活动的影响,空间分布特征与人类活动密切相关.对太子河冲洪积扇地下水水化学类型和特征、水化学成因以及“三氮”污染现状的分析和研究,可为下一步地下水源地开发利用和可持续发展提供科学依据.

漳河山前冲洪积扇BK02孔古地磁定量分析及第四纪地层划分

冀西南平原西缘广泛发育的山前漳河冲洪积扇磁性地层研究尚不完善,其岩性组合特征、沉积环境与平原区建组剖面存在较大差异,第四纪地层精细化划分对比未充分建立。文章通过对位于漳河冲洪积扇西缘的第四纪标准钻孔BK02的岩心观察,根据沉积物颜色、沉积环境、岩性组合、沉积构造及旋回特征,将其第四纪地层松散沉积物划分为了T1~T6六个岩性段。通过对该孔第四纪沉积物地磁极性倒转序列分析,并结合14C、光释光等年代学测量成果,建立了该孔第四纪年代学框架,确定下更新统底界埋深为201.60 m,中更新统底界埋深为97.34 m,上更新统底界暂定为39.86 m,全新统底界埋深为13.75 m。

Distribution and land use characteristics of alluvial fans in the Lhasa River Basin,Tibet

In Lhasa River Basin(LRB),land suitable for settlement or living is experiencing a shortage of resources.Alluvial fans have the potential to alleviate this problem.However,basic information,such as the distribution and land use types of alluvial fans,is rarely studied.In this study,Google Earth,ArcGIS and visual interpretation were used to obtain the outlines,areas,quantities and distribution of alluvial fans.Meanwhile,to show the utilisation potential of alluvial fans,we analysed the land use,their distance from the roads,places(town and village)and rivers.The results showed 826 alluvial fans exist in LRB,with a total area of 1166.03 km2.The number of alluvial fans with areas between 0.1 and 1 km2 is 517,accounting for 62.59%of the total number of alluvial fans.Grassland is the dominant land use type,accounting for 68.70%of the total area of alluvial fans.The cropland area accounted for 2.16%of alluvial fans and accounted for 18.98%of the total cropland area in LRB.Exactly 93.70%,53.63%and 61.86%of the total number of alluvial fans were located within 5 km from the tertiary road,village,and river,respectively.To sum up,our survey results showed that alluvial fans are important land resources in LRB and may have huge utilisation potential.

Machine learning-based identification for the main influencing factors of alluvial fan development in the Lhasa River Basin,Qinghai-Tibet Plateau

Alluvial fans are an important land resource in the Qinghai-Tibet Plateau with the expansion of human activities. However, the factors of alluvial fan development are poorly understood. According to our previous investigation and research, approximately 826 alluvial fans exist in the Lhasa River Basin(LRB). The main purpose of this work is to identify the main influencing factors by using machine learning. A development index(Di) of alluvial fan was created by combining its area, perimeter, height and gradient. The 72% of data, including Di, 11 types of environmental parameters of the matching catchment of alluvial fan and 10 commonly used machine learning algorithms were used to train and build models.The 18% of data were used to validate models. The remaining 10% of data were used to test the model accuracy. The feature importance of the model was used to illustrate the significance of the 11 types of environmental parameters to Di. The primary modelling results showed that the accuracy of the ensemble models, including Gradient Boost Decision Tree,Random Forest and XGBoost, are not less than 0.5(R^(2)). The accuracy of the Gradient Boost Decision Tree and XGBoost improved after grid research, and their R^(2) values are 0.782 and 0.870, respectively. The XGBoost was selected as the final model due to its optimal accuracy and generalisation ability at the sites closest to the LRB. Morphology parameters are the main factors in alluvial fan development, with a cumulative value of relative feature importance of 74.60% in XGBoost. The final model will have better accuracy and generalisation ability after adding training samples in other regions.

The concept, characteristics and significance of fluvial fans

The concept and characteristics of fluvial fan are elucidated through literature review and case analysis.Firstly,the concept and terminology of fluvial fan are introduced.Secondly,the progress and controversy on the formation mechanism,analysis methods and sedimentary models of fluvial fan are elaborated,and fluvial fan is compared with alluvial fan,river and lacustrine delta.Finally,ten identification signs of the fluvial fan are proposed.It is found through the study that development and scale of fluvial fan are affected by external factors such as climate,tectonic,provenance and wind field.The facies and lithofacies association inside the fan are controlled by the activity of the internal channel.It is pointed that fluvial fans are widely distributed in the world not only today but also in the geological history.The occurrence of fluvial fan will change the traditional continental deposition system dominated by alluvial fan-river-lacustrine.Meanwhile,the research of fluvial fan will be of great significance in the fields of sedimentology and oil and gas exploration.

分支河流体系分类初探

通过综述国内外分支河流体系(DFS)的研究进展,总结了DFS的地貌特征和主要类型,并探讨了DFS形成和发育的控制因素。研究结果表明:(1)DFS不是新的或者特殊的河道类型,而是多种河道有规律的集合,地貌特征表现为水系网络从一点呈放射状展布,多种河型共同发育,河道几何形态变化大,沉积环境包括河道和河道间区域,沉积体系复杂;主要类型包括冲积扇、河流扇和巨型扇。(2)以DFS半径为关键指标,面积和坡度为辅助指标将DFS分为小型(冲积扇)、大型(河流扇)和巨型(巨型扇),小型DFS扇体半径小于30 km,面积小于100 km2,坡度大于1.0°;大型DFS半径为30~100 km,面积为100~1 000 km2,坡度小于1.0°;巨型DFS扇体半径大于100 km,面积大于1 000 km2,坡度小于0.5°,3种类型的分布范围有一定的交叉和重复,还需结合DFS的沉积水动力过程和沉积特征进行判别。(3)构造背景和气候是控制DFS形成与分布的最根本因素;流域面积、母岩性质直接影响DFS中沉积物供给总量、供给速率及成分和结构;地形坡度作为间接因素,与河流流量、流速等自生因素相结合,控制河道形态以及河道的分汊和决口,进而控制了DFS表面的沉积环境和沉积相分布。

Meandering of Tributaries of the Tigris River Due to Mass Movements within Iraq

Tigris and Euphrates are the main rivers in Iraq. The former has 5 main tributaries while the latter has no tributaries within Iraq. All these rivers exhibit meandering and/or shifting of their courses due to many reasons;such as mass movements and alluvial fan's development. The meandering and shifting of river courses due to mass movements is dealt with in this study. Many examples are given from different parts of Iraq within different rivers and streams. In each case, the geology of the involved area is described;the reasons of the shifting and/or meandering of the river course are given. GIS technique was used to determine the coverage of the involved area. Landsat, Google Earth and DEM images were used to indicate the suffered areas from shifting and meandering of the rivers and streams. When possible, age of the shifting and/or meandering of the river and stream courses was estimated;using exposure age determination;mainly depending on the presence of river terraces, erosional forms, vegetation cover and the maturity of the involved area. Some of the given examples of shifting of river courses were found to be still active;others are inactive. In many cases, indications for very large mass movement phenomena were seen. Moreover, some of the large involved areas are highly populated, others includes few houses and/ or farms. The majority of the meanders are developed due to mass movement phenomena;others are caused by alluvial fans and/or tectonic features, lime plunging of anticlines.

干旱气候下冲积扇—冲积平原曲流河沉积演化过程与展布——以新疆库车河现代沉积为例

【目的】针对近年来沉积学界研究热点冲积扇、季节性河流、分支河流体系与河流扇等不同沉积体的划分、体系归属讨论等问题。【方法】开展干旱气候下库车河现代冲积扇-冲积平原曲流河沉积演化过程分析,聚焦于不同沉积体的界限变化与控制因素研究。【结果】发现在干旱气候下受同一条河流(库车河)控制的沉积体,发育山间辫状河-冲积扇-冲积平原曲流河等多种类型沉积。由出山口至下游冲积平原内河水散失,库车河延伸100 km以上,逐一发育冲积扇扇根辫状河道、泥石流等沉积,扇中大面积的辫状分流河道带沉积,扇端单一径流河道(低弯度曲流河)沉积,并向下游演化为冲积平原上的高弯度曲流河沉积。【结论】山间辫状河-冲积扇-冲积平原上曲流河沉积体在平面上连续分布,河流形态、河道宽窄变化等与沉积坡度密切相关,砾质沉积物的砾径变化与沉积搬运距离呈负相关关系,沙质沉积物由近源-远源分布范围增大明显。各沉积体的展布范围受库车河不同类型河道展布控制并紧密关联,而河道类型的变化主要受控于沉积坡度、沉积物特征、水流量变化等。

滹沱河冲洪积扇生态环境及其演化

滹沱河冲洪积扇目前生态环境问题较为严重。文中以影响全区生态系统的主要因素——地下水为主线,将地表水和地下水作为一有机的整体,综合研究和分析滹沱河冲洪积扇生态环境演化的特征及其背景。调查研究表明,由于上游水库截流,导致滹沱河常年断流,河床干枯逐渐,沿岸生态环境恶化;平原区地下水的入渗补给被截,水位下降,使浅层地下水遭受工业废水和农业面源污染。水质检测分析表明,影响扇区地下水的常规无机组分是总硬度、铁、锰、硝酸盐氮等。扇区生态环境恶化的关键因素,除人们环保意识较差造成的污染外,主要源于扇区地表水断流,水位下降改变了地下水循环的路径,破坏了其补、迳、排固有的天然平衡,从根本上改变包气带水和土壤水的背景值,增加了地下水遭受污染的风险。据此提出要保证滹沱河有足够的生态用水,逐步修补和恢复扇区生态环境的建议。

山区侧向流对滹沱河冲洪积扇地下水补给与硝酸盐动态的影响

山区侧向补给是华北山前平原冲洪积扇含水层重要补给来源,影响平原区地下水水量和水质动态。近年来受极端气候和人类活动影响,山区对冲洪积扇平原区地下水的侧向补给机制及其对地下水硝酸盐动态的影响仍不明确。本研究以滹沱河冲洪积扇为研究区,利用水文观测、水化学和同位素示踪等方法,估算山区侧向补给通量和硝酸盐输移通量,揭示山区侧向补给与平原区地下水的补给关系,分析山区侧向补给对地下水硝酸盐分布的影响。根据水文地质条件,将采样点划分为4个子区:滹沱河冲洪积扇北部扇顶(Ⅰ区)、扇中(Ⅱ区)、滹沱河附近扇缘区(Ⅲ区)以及滹沱河冲洪积扇南部区域(Ⅳ区)。地下水硝酸盐动态监测数据表明,滹沱河北部的山区断面地下水硝酸盐浓度高于南部断面,平原区北部Ⅰ区和Ⅱ区地下水硝酸盐浓度高于南部Ⅳ区;且沿地下水流动方向,地下水硝酸盐浓度均值呈现Ⅰ区(105.28 mg·L^(−1))>Ⅱ区(99.22 mg·L^(−1))>Ⅳ区(37.10 mg·L^(−1))>Ⅲ区(23.08 mg·L^(−1))的空间分布特征。利用地下水氢氧同位素示踪揭示了山区侧向流对冲洪积扇北部地下水补给影响范围为扇顶和扇中,而冲洪积扇南部因地下水超采改变地下水流场,其影响范围主要为扇顶。利用达西定律计算2022年3月至2023年2月山区侧向流对滹沱河冲洪积扇平原区的补给量为2.10×10^(8)m^(3),硝酸盐通量为239.56×10^(5)kg,且北部山区侧向补给的水氮通量大于南部,这也是影响平原区地下水硝酸盐空间分布的重要原因。山区侧向补给对冲洪积扇平原区地下水量和水质的影响不容忽视,因此,实现源头综合治理,降低山区地下水污染物浓度,对下游平原区面源污染管理,防止地下水硝酸盐污染具有重要意义。

新疆乌苏四棵树河地区古新统至始新统冲积扇—滨湖交汇沉积露头解剖

完整的冲积扇—滨湖交汇沉积天然露头比较少见,一般利用钻井、地震或探地雷达等方法间接开展沉积特征研究。研究区出露地层完整连续,古近系古新统—始新统发育典型的冲积扇—滨湖交汇沉积。为了精细研究交汇相的沉积特征,通过对露头剖面的观察、取样及粒度分析等,描述了扇—湖交汇沉积的典型特征,探讨了其地质控制因素。研究表明:1)该剖面可分为“下、中、上”3层结构,下层主要由粗碎屑的砾岩、砂砾岩组成,分选、磨圆较差;中层岩石类型多样,主要由含砾砂岩、粗砂岩、细砂岩、粉砂岩组成;上层由红色或灰绿色泥岩、粉砂岩和细砂岩组成。2)下层发育漫流沉积、河道充填沉积,为冲积扇扇中和扇缘亚相;中层粗—细岩性频繁交互沉积,为扇—湖交汇带;上层粒度细且发育大量的浪成波痕,为滨湖沉积。3)该露头剖面扇—湖交汇过程总共有5期,沉积厚度约6 m,主要受造山运动和古气候条件共同控制。研究成果对准噶尔盆地周缘自二叠纪以来广泛发育的冲积扇—湖泊沉积环境的油气勘探具有指导意义。

基于PCA-APCS-MLR的地下水污染源定量解析研究

以中国东北地区典型工业基地沈阳浑河冲洪积扇为研究对象,采集区域内43个采样点水质样品,分析了16项地下水质关键指标,在水化学统计和水质分析确定水质等级及特征污染物的基础上,利用主成分分析(PCA)方法确定水质指标主要因子分类,运用Arc GIS软件刻画不同污染源的空间分布规律,利用绝对主成分得分多元线性回归受体模型(APCS-MLR)计算不同公因子对地下水质的贡献程度,并验证污染源解析结果的准确性.结果表明:研究区内地下水氮、磷和铁等元素超标严重,地下水水质演化受人类活动影响较大;4类主要污染因子分别是溶滤迁移作用因子(贡献率34.21%)、农业活动污染因子(贡献率20.13%)、地质环境背景因子(贡献率13.39%)和工业活动影响因子(贡献率8.97%),方差累计贡献率为75.64%;工业生产、生活污废水排放和农业生产中农药化肥使用是地下水主要污染源且多分布于沈阳西部、西北部和南部等地区,淋溶、迁移-富集作用和农业污染对地下水质影响较为明显,PCA-APCS-MLR模型预测浓度与实测浓度一致,该方法对于地下水污染源的计算分配具有良好的针对性,适用于地下水污染源解析.

苏里格气田苏76、苏77井区山西组岩相类型及沉积相

鄂尔多斯盆地北部苏76、苏77井区山西组为研究区主力气层。通过对控制全区的39口取心井山西组岩心的观察,将研究区早二叠世山西期岩相划分为块状基质支撑砾岩相(Gmm)、板状层理砂岩相(Sp)等19种岩相类型。分析各种岩相及其组合类型特征,并结合测井曲线特征和区域构造、沉积背景,确定了苏76、苏77井区山西组为冲洪积扇外扇沉积环境,划分出了辫状河道、河道间洼地、洪泛平原与泥炭沼泽3种亚相和若干种微相,建立了研究区山西期沉积模式图。综合研究认为,苏76、苏77区块山西期沉积物为受阴山古陆、伊盟古隆起控制形成的杭锦旗冲积扇群不断向南延伸的产物,辫状河道砂质心滩和砾砂质心滩为主要储集砂体。该成果为研究区开发方案编制提供了地质依据。

不同沉积体系储集层构型研究与展望

储集层构型自提出以来,研究范围从河流沉积体系逐步延伸到各种沉积体系。目前为止,针对曲流河沉积体系,形成了废弃河道定位、构型界面定期、相互关系定型的定量研究思路;针对辫状河沉积体系,逐步完善辫状河河道和心滩组合关系以及心滩内部构型模式;针对冲积扇沉积体系,寻求地下储集层的构型分级和识别模式;针对三角洲前缘沉积体系,精细水下分流河道内部加积体,河口坝内部增生体等构型要素划分。最后总结了不同沉积体系储集层构型研究中存在的问题和展望,认为建立其更加符合地下地质认识的构型模式,认识储集层构型动态响应特征以及与井网匹配关系将是储集层构型研究的趋势。

甘肃疏勒河冲积扇绿洲全新世孢粉组合和环境演化

通过甘肃疏勒河冲积扇九道沟下游剖面(JDG)沉积物系统的孢粉分析,探讨了这一极干旱区全新世植被和气候环境演化。约4.3m厚沉积剖面的孢粉组合特征清楚地反映了研究区全新世植被经历了6个发展演替阶段,从老而新依次为:针叶林为主的针阔混交林—灌丛草原;灌丛草原;疏林灌木草原;针叶树为主的针阔混交林—灌丛草原;草原植被;针叶林—灌木草原。与植被发展演替相对应的气候环境经历了凉较湿→温干→暖湿→温较湿→温干→凉较湿的变化。这些结果对于了解该地区全新世气候演化以及中国西北干旱区未来环境预测方面都具有重要意义。

济阳坳陷上第三系沉积相研究

本文综合运用地质、测井、地震和化验分析等资料,对济阳坳陷上第三系沉积特征进行了全面系统地研究,认为该时期发育冲积扇和河流2种沉积相类型,河流相可细分为4种亚相7种微相。通过单井和连井剖面相分析,研究了沉积相的演化规律,并编制出各时期的沉积相平面图,分析了物源区及古河流流向,指出了有利的油气储集相带。

北京平原区永定河冲洪积扇地下水水化学特征与演化规律

本文以北京市平原区永定河冲洪积扇地下水化学场的演化机理及地下水水循环规律为研究目的,根据水化学特征的水平分布及典型剖面上的演化过程研究,得到以下结论:1)从永定河冲洪积扇顶部补给区到扇缘排泄区,地下水水化学类型呈现水平分带性,潜水水化学类型由Ca-HCO3过渡到Ca·Mg-HCO3、Mg·Na-SO4,局部因人类活动影响出现Ca·Na-HCO3·SO4、Na·Ca-Cl或Ca·Mg-SO4型水;中深层承压水水化学类型由Ca·Mg·Na-HCO3或Ca·Na-HCO3过渡到Na-HCO3或Na-HCO3·SO4。2)永定河冲洪积扇上不同深度的地下水化学场受到了水岩相互作用影响,从冲洪积扇顶端到冲积扇扇缘的径流过程中主要发生了硫酸盐、硅酸盐和碳酸盐的溶滤作用和Na-Mg和Na-Ca离子交换作用。3)地下水流速从扇顶补给区向扇缘排泄区逐渐减小,硅酸盐、碳酸盐、硫酸盐和岩盐的水岩相互作用强度逐渐增强,地下水更新速度减慢。