黄河下游河道泥沙存贮-释放及其临界条件   总被引：1，自引：1，他引：0  

许炯心 《地理科学》2008,28(3):354-360

确定了黄河下游河道处于泥沙存贮-释放临界状态的水沙临界条件。当场次洪水平均含沙量小于31.68 kg/m³,或者来自中游多沙粗沙区场次洪水来沙量小于4 543×10⁴ t,下游河道将由泥沙存贮状态变为泥沙释放状态。当河口镇以上清水区径流占场次洪水总径流量比率大于0.70时,也会由泥沙存贮状态变为泥沙释放状态。场次洪水泥沙输移比随洪水平均流量的增到而增大,流量为4 000 m³/s(相当于平滩流量)时达到峰值,此后有所减少。这表明,平滩流量时泥沙存贮最少,低于平滩流量和高于平滩流量时泥沙存贮均增大。  相似文献   

水沙条件对黄河下游河道输沙功能的影响   总被引：4，自引：3，他引：1  

许炯心 《地理科学》2004,24(3):275-280

提出河道输沙功能指标F_s为进入某一河道的泥沙总量(干流与支流输入沙量之和)与输出这一河道的泥沙量之比。河道输沙功能与来水量和来沙量有密切关系,若来水减少,来沙增多,则河道输沙功能减弱。来沙中大于0.05 mm粗泥沙含量百分比与河道输沙功能指标成负相关。来沙系数、特别是粗泥沙的来沙系数,是决定黄河下游输沙功能的重要因子;来沙系数越大,则河道输沙功能指标越低。场次洪水的输沙功能指标随场次洪水最大含沙量的增大而降低,历年河道输沙功能指标随各年中高含沙水流频率的增高而降低。小浪底水库修建后,为我们通过调水调沙提高河道输沙功能提供可能。研究表明,场次洪水平均含沙量35 kg/m³,或场次洪水平均来沙系数为(0.015 kg·s)/m⁶,是在调水调沙中实现河道输沙功能优化的最优含沙量和最优来沙系数,平滩流量则是实现河道输沙功能最大化的最优流量级。  相似文献   

黄河宁蒙段河道过流能力     

白涛  哈燕萍  马盼盼  麻蓉  畅建霞 《中国沙漠》2018,38(5):1093-1098

宁蒙段河道过流能力过低是威胁黄河上游洪凌安全的关键因素,也是宁蒙河段水沙调控的重要影响因素。通过水位-流量关系曲线法确定了过流能力,对现状过流能力与历史过流能力进行对比分析,探讨了造成宁蒙河段河道过流能力过低的原因。结果显示：宁蒙河段自建站以来有剧烈的河床抬高和过流能力下降现象;宁蒙河段各断面的现状过流能力由5 200~6 200m³·s^-1降至1 500~2 200m³·s^-1,部分断面超过1 500m³·s^-1就会导致漫滩,过流能力大大降低。提出建设标准化堤防,提高宁蒙河段河道的过流能力;以标准化堤防为前提获得了宁蒙河段各断面的最大过流能力。  相似文献   

灌水量对土壤水肥分布与春小麦水分利用效率的影响   总被引：9，自引：4，他引：5  

赵良菊  肖洪浪  李新荣  罗芳  李守中 《中国沙漠》2005,25(2):256-261

通过对春小麦不同灌水量土壤剖面水分和可溶性养分分布、农田实际蒸散量、作物水分利用效率及生物指标等的测定与计算,对沙坡头层次性土壤种植春小麦最适宜灌水量进行了研究。结果表明:(1)在春小麦拔节期及扬花期,以500 m³·hm^-2、750 m³·hm^-2及1 000 m³·hm^-2水量灌溉,土壤剖面30~100 cm深度土壤含水量随灌水量的增加而明显增加。(2)拔节期3个灌溉水平土壤剖面可溶性养分含量分布的峰值均出现在 0~20 cm土层,但其浓度的下移随灌水量的增加而降低;扬花期土壤剖面可溶性养分含量的峰值随灌水量的增加而下移。在灌水量为500 m³·hm^-2时可溶性养分浓度最高。(3)作物耗水量和农田实际蒸散量均随灌水量的增加而增加,春小麦的水分利用效率则随灌水量的增加而降低,与灌水量为500 m³·hm^-2相比,灌水量为750 m³·hm^-2及1 000 m³·hm^-2时籽粒水分利用率分别降低83.33%和147.50%。可见,在该土壤上种植春小麦的最适宜灌水量为500 m³·hm^-2,灌水量可保持在土壤田间持水量40%左右。  相似文献   

沙漠人工植被区土壤呼吸初探   总被引：18，自引：9，他引：9  

张志山  谭会娟  王新平  张景光  周海燕  李新荣 《中国沙漠》2005,25(4):525-528

2003年9月底,在沙坡头铁路北面的1956年、1964年、1981年和1987年始植的人工植被区和流动沙丘的迎风坡,分别在阴天、晴天和雨后用CI301SR测定土壤呼吸速率,结果表明:土壤呼吸速率在各样地间、日期间和互作均达到极显著水平;尤其是雨后样地间的差异非常明显。1956年始植、1964年始植、1981年始植、1987年始植样地和流沙不同天气状况下的平均土壤呼吸速率分别为-0.1537μmol·s^-1·m^-2、-0.0995μmol·s^-1·m^-2、-0.0583μmol·s^-1·m^-2、-0.0754μmol·s^-1·m^-2和-0.0336μmol·s^-1·m^-2;阴天、晴天和雨后不同样地的平均土壤呼吸速率分别为-0.0342μmol·s^-1·m^-2、-0.0778μmol·s^-1·m^-2和-0.1403μmol·s^-1·m^-2。在沙漠人工植被区,影响土壤呼吸的主要因子是水分,其次是温度与植物群落类型和发育阶段。  相似文献   

青藏线伏沙梁段风沙危害及其防治   总被引：2，自引：1，他引：1  

于志勇 《中国沙漠》1997,17(2):180-184

伏沙梁地段的主要风向为WNW、W、NW和NE,8~15m/s的起沙风在3~8月盛行,风沙流运动呈摆动式,4月份风沙活动最强烈,合成风向为WNW,其合成输沙量为9.970 m³·a^-1·m^-1。当地以12 m/s、13 m/s两风速的输沙量最大,分别为2.556 m³·a^-1·m^-1和2.538 m³·a^-1·m^-1。纵向沙垄年前移量为2~5 m,沙垄脊线向南偏移,年偏移量为0.2~0.5 m。阻固结合的工程措施是当前采用的最有效措施。  相似文献   

无定河下游全新世古洪水研究          下载免费PDF全文

李晓刚  黄春长  庞奖励 《干旱区地理》2020,43(2):380-387

对无定河流域野外考察，在其下游苏家圪坨（SJGT）地点发现夹有古洪水滞流沉积物（SWD）的全新世剖面。古洪水SWD厚度30 cm，具有平行微薄层理特征，且直接覆盖在东汉文化层之上。室内分析结果表明古洪水SWD有着与2012年洪水SWD相似的沉积学特征，以粗粉沙为主，分选良好，磁化率和烧失量较小，说明它记录了一次无定河下游的大洪水事件。文化层光释光（OSL）测年结果显示该次古洪水事件发生在1 900~1 700 a BP。古洪水洪峰水位和洪峰流量分别为765.9 m和10 530 m³·s^-1。同时利用2012年洪水洪痕水位验证，在同一断面用相同参数恢复洪峰流量为1 030 m³·s^-1，实测洪峰流量为1 000 m³·s^-1，误差为3.09%，说明古洪水洪峰流量恢复结果合理可靠。研究结果延长了无定河下游洪水数据序列，对水资源、水能源的开发利用提供了科学依据。  相似文献   

内蒙古一次沙尘过程的数值模拟     

衣娜娜  姜学恭  董祝雷  于水燕  康晟炜 《中国沙漠》2020,40(3):115-126

利用WRF-chem模式耦合Shao04起沙参数化方案，研究了2015年内蒙古春季一次冷涡沙尘过程。对比分析模式模拟结果和Micaps、CLIPSO、PM₁₀观测资料后发现，WRF-chem可以较好地刻画沙尘的水平和垂直输送。此次沙源地主要分布在蒙古国南部、内蒙古中部偏北区域和浑善达克沙地。蒙古国南部和内蒙古中部偏北区域最大起沙量分别为77.4 g·m^-2和112.7 g·m^-2，最大干沉降分别为253.2 μg·m^-2·s^-1和427.2 μg·m^-2·s^-1，内蒙古中部偏北区域的沙尘柱总量（87.3 g·m^-2）大于蒙古国南部（41.3 g·m^-2）。浑善达克沙地土壤干燥，所以沙尘排放量（215.6 g·m^-2）、柱总量（132.7 g·m^-2）、沉降速率（809.3 μg·m^-2·s^-1）均较高。沙尘在锋前暖湿气流的抬升作用下，可以实现上对流层-下平流层之间的输送，高层的沙尘虽然浓度较低，却可以输送更远。沙尘气溶胶夜间增加大气层顶向上的长波辐射，同时加热大气，增加边界层高度。  相似文献   

三峡水库运行下洞庭湖盆冲淤过程响应与水沙调控阈值   总被引：4，自引：0，他引：4  

周永强  李景保  张运林  章新平  黎昔春 《地理学报》2014,69(3):409-421

以1951-2011 年洞庭湖区及荆江段干流主要控制站实测径流输沙量资料为依据,分析三峡水库不同蓄水阶段及不同调度方式下洞庭湖盆冲/淤响应,并提出上游来水来沙调控阈值。结果表明：① 荆南三（四）口流量与枝城站流量、荆南三（四）口输沙率存在极显著正相关（p < 0.0001）,决定系数r2分别为0.859 及0.895。② 与三峡水库蓄水运用前（1999-2002）相比,一、二期蓄水阶段及全面试验性蓄水阶段（2008.10-2011.12）洞庭湖盆年均冲淤量由+4796.4×10⁴ t 依次递减为+684.1×10⁴ t、+449.8×10⁴ t 及-559.6×10⁴ t,湖盆冲淤率由+70.25%分别降至+31.13%、+23.56%及-42.64%。③ 预泄调度及蓄水调度期,湖盆泥沙均由以淤积为主转变为以冲刷为主,防洪补偿调度期湖盆泥沙表现为淤积,而在补水调度运用期则表现为冲刷。④ 洞庭湖盆处于冲/淤临界平衡状态时的荆南三口平均流量、输沙率及含沙量分别为970.81 m³/s、466.82 kg/s 及0.481 kg/m³。并认为,为增强湖泊调蓄功能,必须进一步优化三峡水库调度方式,合理调控下泄水沙量。  相似文献   

黑河流域水资源生态环境安全问题研究   总被引：30，自引：14，他引：16  

张济世  康尔泗  姚进忠  陈仁升  蒲瑞丰 《中国沙漠》2004,24(4):425-430

对黑河流域水文资料进行分析计算发现, 由于有冰川补给流域水资源比较稳定, 最枯年和最丰年水资源量之比仅为1:2, 这在北方河流中是非常罕见的。多年平均水资源量为32.31亿m³·a^-1, 人均水资源量为1689m³·a^-1, 略低于国际上公认的人均水资源安全警戒线1000~1700m³·a^-1的上限。根据黑河流域水资源反复转化多次重复利用的特点, 扣除7.5亿m³·a^-1的生态用水量, 结合流域正在执行的综合整治和节水措施的推广, 目前水资源状况是安全的, 下游生态环境的危机可以通过水资源统一调配来解决。依据天然出山水资源变化和水土资源开发利用规模及额济纳旗生态环境状况, 在不增加土地灌溉规模并适当采取节水措施的前提下, 可以确定32.31亿m³·a^-1的天然来水量为流域水资源安全临界线, 28亿m³·a^-1的天然来水量为流域水资源安全警戒线。  相似文献   

Factors driving riverbed scouring and sedimentation in the Bayangaole to Toudaoguai reaches of the Upper Yellow River     

Suzhen Hou  Ping Wang  Yan Guo  Tian Hu 《地理学报(英文版)》2016,26(9):1305-1320

The Inner Mongolia reaches of the Yellow River face problems of severe sedimentation caused by a variety of complex factors. The sedimentation process in those reaches has been characterized using the sediment balance method, and the key factors affecting the process have been analyzed using the correlation analysis method. The results show that during the period 1952–2012 the Bayangaole (Bayan Gol) to Toudaoguai reaches in Inner Mongolia have undergone successive processes of accumulative sedimentation, then relative balance, and then accumulative sedimentation once again. The total annual sedimentation is 12.0341×10⁸ m³, of which accumulations from July to October account for 95.1% and the reaches from Sanhuhekou to Toudaoguai account for 98.5%. The main factor affecting scouring and sedimentation of the Bayangaole to Sanhuhekou reaches is the combined water and sediment condition. The critical conditions for equilibrium are an incoming sediment coefficient < 0.007 kg·s·m^–6 and a flow discharge > 700 m³·s^–1. The main factor affecting scouring and sedimentation of the Sanhuhekou to Toudaoguai reaches is the incoming sediment from the tributaries on the south bank and the combined water and sediment condition of the main stream. The critical conditions of the main stream for maintaining equilibrium status are a flow discharge of the main stream exceeding 800 m³·s^–1 and a comprehensive incoming sediment coefficient < 0.005 kg·s·m^–6. The incoming sediment from the tributaries has little impact on the main stream when the annual sediment load is less than 0.1×10⁸ t. The incoming sediment coefficient of the main stream and the incoming sediment from the tributaries both play vital roles in the riverbed evolution of the Inner Mongolia reaches, but the latter contributes the most.  相似文献   

HYDROLOGY AND GEOMORPHIC EFFECTS OF A HIGH-MAGNITUDE FLOOD IN AN ALPINE RIVER     

DAVID MORCHE  KARL-HEINZ SCHMIDT  TOBIAS HECKMANN  FLORIAN HAAS 《Geografiska Annaler: Series A, Physical Geography》2007,89(1):5-19

The catchment of the River Partnach, a torrent situated in a glacial valley in the Northern Calcareous Alps of Bavaria/Germany, was affected by a high‐magnitude flood on 22/23 August 2005 with a peak discharge of more than 16 m³s^‐1 at the spring and about 50 m³s^‐1 at the catchment outlet. This flood was caused by a long period of intense rainfall with a maximum intensity of 230 mm per day. During this event, a landslide dam, which previously held a small lake, failed. The flood wave originating from the dam breach transported a large volume of sediment (more than 50 000 m³) derived from bank erosion and the massive undercutting of a talus cone. This caused a fundamental transformation of the downstream channel system including the redistribution of large woody debris and channel switching. Using terrestrial survey and aerial photography, erosional and depositional consequences of the event were mapped, pre‐ and post‐event surfaces were compared and the sediment budget of the event calculated for ten consecutive channel reaches downstream of the former lake. According to the calculations more than 100 000 tonnes of sediment were eroded, 75% of which was redeposited within the channel and the proximal floodplain. A previous large flood which occurred a few weeks prior to the August 2005 event had a significant effect on controlling the impact of this event.  相似文献   

特枯水情对长江中下游悬浮泥沙的影响   总被引：3，自引：0，他引：3  

刘红  何青  徐俊杰  戴志军  陈吉余 《地理学报》2008,63(1):50-64

基于长江中下游气象资料、历史水沙资料和2006 年10 月现场水沙观测资料, 分析了 典型枯水年大通站的月均径流量和输沙率特征、2006 年特枯水情产生的气候背景以及对长江中下游含沙量和悬沙粒径产生的影响。分析表明, 枯水年长江干流输沙量有显著的减少, 2006 年特枯水情下大通站汛期输沙量仅占多年平均值(1985-2000 年) 的19.8%。在特枯水情 和三峡工程蓄水的背景下, 2006 年10 月长江中下游含沙量平均为0.057 kg/m³, 只占 2003-2005 年10 月平均值的20.6%。2006 年10 月长江中下游悬沙中值粒径平均为4.8 µm, 悬沙中值粒径只占多年平均值的26.3%, 占近期平均值的41.8%。含沙量、悬沙粒度和中游 河床冲淤特性的综合分析表明, 城陵矶-湖口河段水沙垂向交换强, 是三峡兴建以后近期河 道调整频繁的河段。洞庭湖和鄱阳湖对长江干流含沙量的贡献较大, 尤以鄱阳湖的贡献最大, 长江中下游其他支流对长江干流含沙量的贡献较小。汉江和巢湖对长江中下游悬沙粒径的影响相对较大, 而洞庭湖和鄱阳湖则对悬沙粒径的影响相对较小。  相似文献   

长江口水沙入海通量的观测与分析   总被引：31，自引：0，他引：31  

汪亚平  潘少明  WANG H.V  高建华  杨旸  王爱军  李占海  吴中 《地理学报》2006,61(1):35-46

在长江口用声学多普勒流速剖面仪（ADCP）进行走航式断面观测，结果表明，采集水样获取的悬沙浓度与ADCP记录的声学信号（后向散射强度）之间存在显著相关关系，因此可据ADCP声学数据获得沿观测断面的高时空分辨率的悬沙浓度剖面。分析结果表明．在徐六泾附近断面以往复流占优势．大潮期间单位时间最大水、悬沙通量值出现于涨潮期．落潮历时较长．落潮期水、悬沙通量分别大于涨潮期水、悬沙通量，净通量向海。长江口南槽拦门沙外侧主要为旋转流．涨潮期间内的水、悬沙通量均分别大于落潮期间的水、悬沙通量。2003年11月12日的观测结果表明．潮周期内通过徐六泾断面向海输运的水与悬沙通量分别为10^9m^3和10^8kg量级：径流量与悬沙输运率分别为10^4m^3／s和10^3kg／s量级。1998年以来徐六泾ADCP流量观测数据与同时间的大通径流量之间存在着显著的相关关系．故可由大通径流量估算徐六泾径流量。作为长江人海径流量．以作为历史资料整编的一种手段。结果表明，长江人海年径流总量略大于大通年径流总量：而在枯水期间人海径流量小于大通径流量。  相似文献   

Controls on overbank deposition in the Upper Mississippi River     

Michael M. Benedetti   《Geomorphology》2003,56(3-4):271

Floodplains contain valuable stratigraphic records of past floods, but these records do not always represent flood magnitudes in a straightforward manner. The depositional record generally reflects the magnitude, frequency, and duration of floods, but is also subject to storm-scale hysteresis effects, flood sequencing effects, and decade-scale trends in sediment load. Many of these effects are evident in the recent stratigraphic record of overbank floods along the Upper Mississippi River (UMR), where the floodplain has been aggrading for several thousand years. On low-lying floodplain surfaces in Iowa and Wisconsin, ¹³⁷Cs profiles suggest average vertical accretion rates of about 10 mm/year since 1954. These rates are slightly less than rates that prevailed earlier in the 20th Century, when agricultural land disturbance was at a maximum, but they are still an order of magnitude greater than long-term average rates for the Holocene. As a result of soil conservation practices, accretion rates have decreased in recent decades despite an increase in the frequency of large floods.The stratigraphic record of the Upper Mississippi River floodplain is dominated by spring snowmelt events, because they are twice as frequent as rainfall floods, last almost twice as long, and are sometimes associated with very high sediment concentrations. The availability of sediment during floods is also influenced by a strong hysteresis effect. Peak sediment concentrations generally precede the peak discharges by 1–4 weeks, and concentrations are usually low (<50 mg/l) during the peak stages of most floods. The lag between peak concentration and peak discharge is especially large during spring floods, when much of the runoff is contributed by snowmelt in the far northern reaches of the valley.The great flood of 1993 on the Mississippi River focused attention on the geomorphic effectiveness and stratigraphic signature of large floods. At McGregor, where the peak discharge had a recurrence interval of 14 years, the flood was most notable for its long duration (168 days above 1600 m³s⁻¹), high sediment concentrations (three episodes >180 mg/l), and large suspended load (1.71 Mt). The flood of 2001, despite its greater magnitude (recurrence interval 70 years), was associated with relatively low sediment concentrations (<60 mg/l). The 1993 and 2001 floods each left 30–80 mm of silty fine sand on most low-lying floodplain surfaces, but the 2001 flood produced sandy levees near the channel while the 1993 flood did not. The stratigraphic signature of these recent floods is more closely related to the duration and total suspended load of the event than to the magnitude of the peak discharge.  相似文献   

黄河内蒙河段河床冲淤演变特征及原因   总被引：4，自引：0，他引：4  

师长兴  范小黎  邵文伟  周园园  贺莉  颜明  闫云霞 《地理研究》2013,32(5):787-796

利用黄河内蒙段1962-2000年间4期大断面观测资料,计算了各期河床冲淤和河槽形态指标。发现从1962-2000年间前20年、中间9年及后9年,内蒙河段河槽500m²过水面积下河底高程发生了降低-升高-再升高的过程;河槽漫滩过水面积经历了升高-降低-再降低的过程,2000年只有1982年的大约一半;滩地经历了持续淤积过程,平均抬升0.25m;河槽宽深比值经历了变化不显著-增加-减小的过程。分析结果表明:气候变化、引水、水库拦沙和重点产沙支流来沙变化在河床冲淤和河床形态调整中作用较大;水库对径流的年内调节对1982年后河槽淤积贡献较大;来水来沙变化下河流多要素自动调整是造成河槽形态变化过程复杂的原因。  相似文献   

River sediment supply, sedimentation and transport of the highly turbid sediment plume in Malindi Bay, Kenya     

U. Kitheka Johnson 《地理学报(英文版)》2013,23(3):465-489

The paper presents results of a study on the sediment supply and movement of highly turbid sediment plume within Malindi Bay in the Northern region of the Kenya coast. The current velocities, tidal elevation, salinity and suspended sediment concentrations (TSSC) were measured in stations located within the bay using Aanderaa Recording Current Meter (RCM-9), Turbidity Sensor mounted on RCM-9, Divers Gauges and Aanderaa Temperature-Salinity Meter. The study established that Malindi Bay receives a high terrigenous sediment load amounting to 5.7 × 10⁶ ton·yr^?1. The river freshwater supply into the bay is highly variable ranging from 7 to 680 m³·s^?1. The high flows that are > 150 m³·s^?1 occurred in May during the South East Monsoon (SEM). Relatively low peak flows occurred in November during the North East Monsoon (NEM) but these were usually <70 m³·s^?1. The discharge of highly turbidity river water into the bay in April and May occurs in a period of high intensity SEM winds that generate strong north flowing current that transports the river sediment plume northward. However, during the NEM, the river supply of turbid water is relatively low occurring in a period of relatively low intensity NEM winds that result in relatively weaker south flowing current that transports the sediment plume southward. The mechanism of advection of the sediment plume north or south of the estuary is mainly thought to be due to the Ekman transport generated by the onshore monsoon winds. Limited movement of the river sediment plume southward towards Ras Vasco Da Gama during NEM has ensured that the coral reef ecosystem in the northern parts of Malindi Marine National Park has not been completely destroyed by the influx of terrigenous sediments. However, to the north there is no coral reef ecosystem. The high sediment discharge into Malindi Bay can be attributed to land use change in the Athi-Sabaki River Basin in addition to rapid population increase which has led to clearance of forests to open land for agriculture, livestock grazing and settlement. The problems of heavy siltation in the bay can be addressed by implementing effective soil conservation programmes in the Athi-Sabaki Basin. However, the soil conservation programmes in the basin are yet to succeed due to widespread poverty among the inhabitants and the complications brought about by climate change.  相似文献   

Late Pleistocene outburst flooding from pluvial Lake Alvord into the Owyhee River, Oregon   总被引：1，自引：0，他引：1  

Deron T. Carter  Lisa L. Ely  Jim E. O'Connor  Cassandra R. Fenton 《Geomorphology》2006,75(3-4):346

At least one large, late Pleistocene flood traveled into the Owyhee River as a result of a rise and subsequent outburst from pluvial Lake Alvord in southeastern Oregon. Lake Alvord breached Big Sand Gap in its eastern rim after reaching an elevation of 1292 m, releasing 11.3 km³ of water into the adjacent Coyote Basin as it eroded the Big Sand Gap outlet channel to an elevation of about 1280 m. The outflow filled and then spilled out of Coyote Basin through two outlets at 1278 m and into Crooked Creek drainage, ultimately flowing into the Owyhee and Snake Rivers. Along Crooked Creek, the resulting flood eroded canyons, stripped bedrock surfaces, and deposited numerous boulder bars containing imbricated clasts up to 4.1 m in diameter, some of which are located over 30 m above the present-day channel.Critical depth calculations at Big Sand Gap show that maximum outflow from a 1292- to 1280-m drop in Lake Alvord was  10,000 m³ s^− 1. Flooding became confined to a single channel approximately 40 km downstream of Big Sand Gap, where step-backwater calculations show that a much larger peak discharge of 40,000 m³ s^− 1 is required to match the highest geologic evidence of the flood in this channel. This inconsistency can be explained by (1) a single 10,000 m³ s^− 1 flood that caused at least 13 m of vertical incision in the channel (hence enlarging the channel cross-section); (2) multiple floods of 10,000 m³ s^− 1 or less, each producing some incision of the channel; or (3) an earlier flood of 40,000 m³ s^− 1 creating the highest flood deposits and crossed drainage divides observed along Crooked Creek drainage, followed by a later 10,000 m³ s^− 1 flood associated with the most recent shorelines in Alvord and Coyote Basins.Well-developed shorelines of Lake Alvord at 1280 m and in Coyote Basin at 1278 m suggest that after the initial flood, postflood overflow persisted for an extended period, connecting Alvord and Coyote Basins with the Owyhee River of the Columbia River drainage. Surficial weathering characteristics and planktonic freshwater diatoms in Lake Alvord sediment stratigraphically below Mt. St. Helens set Sg tephra, suggest deep open-basin conditions at  13–14 ka (¹⁴C yr) and that the flood and prominent shorelines date to about this time. But geomorphic and sedimentological evidence also show that Alvord and Coyote Basins held older, higher-elevation lakes that may have released earlier floods down Crooked Creek.  相似文献   

Sedimentological and Geomorphological Impacts of The Jökulhlaup (Glacial Outburst Flood) In January 2002 At Kverkfjöll, Northern Iceland     

Eleanor Lucy Rushmer 《Geografiska Annaler: Series A, Physical Geography》2006,88(1):43-53

Jökulhlaups (glacial outburst floods) are common hazards in many glaciated environments. However, research on the controls on the sedimentological and geomorphological impact of jökulhlaups is rare. Developing a more comprehensive understanding of flood impacts may be useful for hazard identification, prediction and mitigation. This study determines the controls on the sedimentological and geomorphological impact of a jökulhlaup in January 2002 at Kverkfjöll, northern Iceland. This jökulhlaup, caused by geothermal activity, reached a peak discharge of 490 m³s^?1 as recorded at a permanent gauging station 40 km downstream from the glacier snout. However, reconstructed peak discharges in the proximal part of the jökulhlaup channel near the glacier snout indicate a peak discharge of 2590 m³s^?1. The jökulhlaup hydrograph was characterized by a rapid rising stage and a more gradual falling stage. As a result, sedimentary and geomorphological impacts included poorly sorted, structureless, matrix‐supported deposits; massive sand units; clast‐supported units; ice‐proximal cobbles, rip‐up clasts and kettle‐holes; and steep‐sided kettle‐holes. These features are proposed to be characteristic of rapid rising stage deposition. Additionally, large‐scale gravel bars and bedload sheets prograded and migrated during the rapid rising stage. The development of these bedforms was facilitated by high bedload transport rates, due to high discharge acceleration rates during the rapid rising stage. During the more prolonged falling stage, there was sufficient time for sediment incision and erosion to occur, exhuming cobbles, ice blocks and rip‐up clasts, and creating well‐defined terrace surfaces. This study provides a clearer understanding of hydrological and sedimentological processes and mechanisms operating during jökulhlaups, and helps to identify flood hazards more accurately, which is fundamental for hazard management and minimizing risk.  相似文献