RELATIONSHIPS BETWEEN THE POSITION VARIATION OF THE WEST PACIFIC SUBTROPICAL HIGH AND THE DIABATIC HEATING DURING PERSISTENT INTENSE RAIN EVENTS IN YANGTZE-HUAIHE RIVERS BASIN

By using NCEP/NCAR daily reanalysis data and daily precipitation data of 740 stations in China, relationships between the position variation of the West Pacific subtropical high (WPSH) and the diabatic heating during persistent and intense rains in the Yangtze-Huaihe Rivers basin are studied. The results show that the position variation of WPSH is closely associated with the diabatic heating. There are strong apparent heating sources and moisture sinks in both the basin (to the north of WPSH) and the north of Bay of Bengal (to the west of WPSH) during persistent and intense rain events. In the basin, Q 1z begins to increase 3 days ahead of intense rainfall, maximizes 2 days later and then reduces gradually, but it changes little after precipitation ends, thus preventing the WPSH from moving northward. In the north of Bay of Bengal, 2 days ahead of strong rainfall over the basin, Q 1z starts to increase and peaks 1 day after the rain occurs, leading to the westward extension of WPSH. Afterwards, Q 1z begins declining and the WPSH makes its eastward retreat accordingly. Based on the complete vertical vorticity equation, in mid-troposphere, the vertical variation of heating in the basin is favorable to the increase of cyclonic vorticity north of WPSH, which counteracts the northward movement of WPSH and favors the persistence of rainbands over the basin. The vertical variation of heating in the north of Bay of Bengal is in favor of the increase of anti-cyclonic vorticity to the west of WPSH, which induces the westward extension of WPSH.

Architectural Model of a Dryland Gravel Braided River,based on 3D UAV Oblique Photogrammetric Data:A Case Study of West Dalongkou River in Eastern Xinjiang,China

Three-dimensional unmanned aerial vehicle(UAV)oblique photogrammetric data were used to infer mountainous gravel braided river lithofacies,lithofacies associations and architectural elements.Hierarchical architecture and lithofacies associations with detailed lithofacies characterizations were comprehensively described to document the architectural model,architectural element scale and gravel particle scale.(1)Nine lithofacies(i.e.,Gmm,Gcm,Gcc,Gci,Gcl,Ss,Sm,Fsm and Fl)were identified and classified as gravel,sand and fine matrix deposits.These are typical depositional features of a mountainous dryland gravel-braided river.(2)Three architectural elements were identified,including channel(CH),gravel bar(GB)and overbank(OB).CH can be further divided into flow channel and abandoned channel,while GB consists of Central Gravel bar(CGB)and Margin Gravel bar(MGB).(3)The gravel bar is the key architectural element of the gravel braided river,with its geological attributes.The dimensions of GBs and their particles are various,but exhibit good relationships with each other.The grain size of GB decreases downstream,but the dimensions of GB do not.The bank erosion affects the GB dimensions,whereas channel incision and water flow velocity influence the grain size of GB.The conclusions can be applied to the dryland gravel braided river studies in tectonically active areas.

Effects of Natural Processes on Sea Level Change along the West African Coastline

Coastal hazards induced by meteo-marine forcing are exacerbated by sea level change along the West African coastline. Changes in sea level are induced by ocean processes such as ocean heat content and river discharge. However, although these processes control largely change in sea level, they remain poorly understood. This study analyzes changes in ocean heat content, river discharge, and sea level and establishes an interconnection between these parameters using several statistical methods over the 1993-2021 period. Results showed a significant correlation between sea level and ocean heat content at 2000 m depth. The yearly minimum value appears in July from Cote d’Ivoire to Benin, whilst this value appears in June in Nigeria. The temporal variability of ocean heat content, river discharge and sea level along the West African coastline exhibits three or four periods interrupted by some breakpoints with unequal duration. The results indicate that the 1993-2000 period was dominated by an increasing ocean heat content along the coastline, while the period after the 2000s exhibits mostly a decreasing trend. Positive and negative trends characterized river discharge and sea level along this coastline. The result of multiple linear regression between sea level, river discharge and ocean heat content is a good approximation of sea level trend along the West African coastline. The results of this study could be used to predict future sea level trends along the coast.

Use of Topographic Map Evidence to Test a Recently Proposed Regional Geomorphology Paradigm: Wind River-Sweetwater River Drainage Divide Area, Central Wyoming, USA

Topographic map evidence from the Wyoming Wind River-Sweetwater River drainage divide area is used to test a recently proposed regional geomorphology paradigm defined by massive south- and southeast-oriented continental ice sheet melt water floods that flowed across the entire Missouri River drainage basin. The new paradigm forces recognition of an ice sheet created and occupied deep “hole” and is fundamentally different from the commonly accepted paradigm in which a pre-glacial north- and northeast-oriented slope would have prevented continental ice sheet melt water from reaching or crossing the Wind River-Sweetwater River drainage divide. Divide crossings (or low points) are identified as places where water once flowed across the drainage divide. Map evidence is interpreted first from the accepted paradigm perspective and second from the new paradigm perspective to determine the simplest explanation. Both paradigm perspectives suggest south-oriented water crossed the drainage divide, although accepted paradigm interpretations do not satisfactorily explain the large number of observed divide crossings and are complicated by the need to bury the Owl Creek and Bridger Mountains to explain why the Wind River now flows in a north direction through Wind River Canyon. New paradigm interpretations explain the large number of divide crossings as diverging and converging channel evidence (as in flood-formed anastomosing channel complexes), Owl Creek and Bridger Mountain uplift to have occurred as south-oriented floodwaters carved Wind River Canyon, and a major flood flow reversal (caused by ice sheet related crustal warping and the opening up of deep “hole” space by ice sheet melting) as being responsible for the Wind River abrupt turn to the north. While this test only addresses topographic map evidence, Occam’s Razor suggests the new paradigm offers what in science should be the preferred Wind River-Sweetwater River drainage divide origin interpretations.

西辽河平原浅层地下水中“三氮”分布特征及健康风险评价

通过测试地下水样品中“三氮”含量,采用非致癌风险评价模型进行健康风险评价.结果表明,与《地下水质量标准》(GB14848-2017)限值对比,硝酸盐氮超标率8%,主要分布在研究区东南部及西南部区域;氨氮超标率10%,主要分布在中部及南部区域.地下水中Ⅰ、Ⅱ、Ⅲ类水质占比83%;Ⅳ及Ⅴ类水水质占比17%.地下水样品中“三氮”总非致癌风险指数及总致癌性风险指数均低于美国环境保护署推荐的健康风险评价标准.整体上研究区“三氮”污染程度相对较轻,“三氮”污染区域主要分布于人类活动密集地区.健康风险评价可为地区地下水中“三氮”污染监控和治理提供技术参考.

海温异常对长江流域夏季典型旱涝的影响研究

为研究长江流域夏季旱涝特征及其与海温异常之间的关联性,基于中国326个气象站降水量、NCEP/NCAR再分析资料等,采用合成分析、EOF分解等方法,分析了长江流域夏季典型旱涝年的降水分布、同期大气环流及前期海温特征,并以2018年为例,初步揭示了2018年前期海温异常对大气环流的可能影响。结果表明:①长江流域夏季典型旱年,仅嘉陵江和岷沱江会表现出局部偏涝,全国为典型的Ⅰ类雨型,多雨区位于黄河流域及以北地区。前期冬季赤道太平洋表现出类拉尼娜的东冷西暖分布,同时黑潮区海温偏低,西风漂流区海温偏暖。受多海域协同作用,同期欧亚环流场上自西北向东南呈现出“+-+”三极型分布,东亚地区为自北向南“-+-”的EAP负位相。长江流域典型涝年,全国多为典型的Ⅱ类和Ⅲ类雨型,环流及海温呈现出相反特征。②2018年为典型的长江中下游偏旱年,仅在岷沱江降水偏多近3成,为历史第4多,与长江流域夏季降水的主模态正位相类似,解释方差达24%。③2018年前冬出现弱拉尼娜、春末夏初西风漂流区异常偏暖、NAT异常正位相,三者共同作用,使得东亚副热带西风急流偏北,东亚沿岸出现EAP负位相,大陆热低压明显偏强,东亚夏季风为1961年以来最强,同时副高脊线最北,造成夏季降水主雨带北推至华北、西北地区,岷沱江、嘉陵江异常多,而长江中下游异常少,为典型的Ⅰ类雨型。研究成果可为长江流域旱涝预测、水资源调度提供参考。

辽河流域防洪现状及重难点问题解决思路

在客观全面评估辽河流域防洪工程体系现状基础上,深入分析流域防洪情势变化,重点剖析西辽河流域防洪工程布局亟须优化调整、辽河干流洪水外排能力仍显不足、绕阳河防洪工程体系不完善等流域防洪重难点问题,探究构建辽河流域防洪保安新格局的规划路径。

基于改进三维生态足迹模型的珠江—西江经济带生态补偿价值测度及分区研究

生态补偿机制构建难点在于厘清补偿主客体、评估补偿优先时序及精准测算补偿标准,构建科学有效的生态补偿机制有助于流域上下游生态保护责任合理分配。本文以珠江—西江经济带地级市为研究单元,将改进三维生态足迹模型与生态系统服务价值估算相结合,测度2005—2020年各市生态补偿价值与标准,引入生态补偿优先级,最终划定优先支付、潜力支付、平衡、潜力受偿及优先受偿5类分区。结果表明:1)2020年经济带生态补偿赤字为288.09亿元,广州支付价值最高为185.14亿元,人均生态补偿标准为987.92元,仅崇左获生态补偿,受偿价值为0.68亿元,人均受偿标准为32.62元。2)广州、佛山与南宁长期为优先支付区;崇左长期为优先受偿区;肇庆、柳州及百色近年转为潜力支付区;来宾、贵港、梧州与云浮为平衡区;经济带优先受偿区与潜力受偿区逐步转为优先支付区、潜力支付区与平衡区。3)广州、佛山及南宁应率先支付生态补偿平衡经济带区际生态保护责任,协调区际生态保护共治关系;应优先给予崇左生态补偿以实现生态保护受益,获得生态环境治理的经济支持。

基于AHP-熵权法的望虞河西岸圩区活水调度方案多目标优选

以望虞河西岸的甘露圩和荡北圩为研究区,构建水动力-水质模型,选取恰当的水动力、水质和经济成本指标构建活水调度多目标评价指标体系,采用层次分析法和熵权法主客观相结合确定指标权重,决策单圩活水调度最优方案,并与圩区联合调度方案比较活水调度效果。结果表明:利用多目标评价指标体系可有效确定活水调度最优方案;甘露圩最优调度方案为陈家角闸和甘露港闸共同引水,徐家浜闸站以6 m^(3)/s流量抽排;荡北圩最优调度方案为黄塘河闸和五星河北闸引水,珠桥河闸站和五星河闸站共以9 m^(3)/s流量抽排;与单圩活水调度相比,两圩联合调度后畅流活水效果更优。

西辽河流域夏家店下层文化房址结构的分形分式与分期

在史前考古中,房址作为一个可以长期保存的建筑,分为居住址、窑址、窖穴等。房址的研究对新石器时代人类生活环境、生存条件、社会发展程度的研究有重要意义。本文将针对西辽河流域夏家店下层文化居住址进行详细研究,以探寻在房屋建造与居住过程中房址结构的变化,并对其进行分形分式与分期。

北京香山历史水系的开发与利用

北京香山在历史上就是著名的风景名胜,地下水资源丰富,拥有众多泉眼。随着香山地区的营建,香山水系也得到开发与利用,至清代达到鼎盛,水系不仅因借山势在静宜园中形成了泉、池、溪、瀑等多种形式的水景,而且其利用远及静明园等“三山五园”,甚至通州。通过对历史文献、样式雷图档、测绘图进行研究,结合田野调查等方法,梳理香山水景的类型与分布,分析香山地形的高差变化与水景之间的关系,总结历史上对于香山水系的开发与利用,并提出传承保护香山水系的建议。

江淮神书“唐忏”与百回本《西游记》的互动——以“梦斩泾河龙”为例

因江淮神书中“唐忏”所载“西游故事”与百回本《西游记》在情节、结构上有一定相似关系,所以自20世纪80年代后期江淮神书被发现以来,便一直备受学界关注,但遗憾的是关于两者关系却一直见仁见智。一般认定两者是单向度的影响关系,即百回本《西游记》以其强大的魅力,影响甚而修正了江淮神书故事。文章以“唐忏”中“梦斩泾河龙”(“斩龙故事”)为切入点,从这一故事形成发展的心理机制、结构构成两个角度,以《礼节传薄》等不同时期所载同题故事为参照,论证江淮神书与百回本《西游记》虽是来源于不同传播系统的两套西游故事,但两者在故事形成早期的确发生过互动,存在相互影响的痕迹。

西辽河流域红山文化人骨古DNA研究现状

作为六大考古学文化区之一的西辽河流域在中国文明发展史上具有重要的地位,其中红山文化的形成和发展模式一直是学术界关注的热点问题。目前,现代考古学已从动植物遗存、陶器、玉器等实物资料对红山文化进行了诸多研究与解析,但对创造这一地域文化的主体——人的研究还不是很充分。本文汇总了目前已发表的红山文化相关DNA研究,以期为后续的深入研究提供借鉴。

“东数西算”赋能黄河流域生态保护策略研究

“东数西算”是把我国东部算力资源转移到西部的数字新基建,符合数字经济自身发展规律和地理环境差异协同规律,具有历史的必然性和现实的必要性。实施“东数西算”重大工程可通过减少水土流失、降碳节能减排、减缓荒漠化进程、优化能源消费结构、促进数字治黄能力提升等具体策略的实施,有效赋能黄河流域生态保护。在习近平生态文明思想的指导下,实施“东数西算”重大工程,有助于实现经济社会发展数字化和绿色化的统一。

赣江饮用水水源地水环境特征及潜在污染风险研究

为保障居民饮用水安全,掌握饮用水水源地水环境特征及其潜在污染风险尤为重要。以赣江南昌市(西湖区段)的两个饮用水水源地断面(青云水厂、朝阳水厂)及其上下游断面作为研究主体,通过调查分析各断面水环境现状、推演水源地上游污染衰减扩散过程,根据GB 3838—2022《地表水环境质量标准》研判饮用水水源地水质安全水平;通过解析水体沉积物磷释放速率与磷形态特征,评估磷内源释放对饮用水水源地的污染风险。结果表明:①赣江(西湖区段)重点断面水质基本为Ⅱ类水,青云水厂断面化学需氧量(COD)在2022年6月超Ⅱ类水标准。②饮用水水源地断面上游存在规模型排污口——前湖电排站,污染扩散模型显示对其饮用水水源地水质存在降类威胁。③赣江(西湖区段)沉积物总磷(TP)含量整体为轻中度污染状态,沉积物磷形态以铁铝结合态无机磷(Fe/Al-Pi)为主,其次是中活性有机磷(MA-Po)和钙结合态无机磷(Ca-Pi),平均占比分别为32.56%,20.72%,19.40%,平均含量分别为123.17,78.36,73.38 mg/kg。有机质(OM)含量与TP含量(R=0.873,P≤0.05)、Fe/Al-Pi含量(R=0.949,P≤0.05)显著相关。④青云水厂断面磷释放速率(v P)最大,存在较高磷释放风险。建议持续监测饮用水水源地上下游断面水质,密切关注青云水厂断面水质TP指标变化;对前湖电排站来水进行定期检测与排查溯源,避免雨污混流或废水直排入河;加强沿岸饮用水水源保护区规范化建设与管理,减少人为活动对水环境的影响。研究成果可为科学保障城市饮用水安全提供一定参考。

用Sentinel-1卫星影像数据监测珠江西岸地表沉降

珠江西岸近年来频繁发生地面沉降、塌陷等地质灾害,对人民生命安全和经济发展造成了严重影响。为准确把该区域的地面沉降规律,利用合成孔径雷达干涉测量(Interferometric Synthetic Aperture Radar, InSAR)技术开展了沉降监测,通过约220景Sentinel-1A/B卫星影像数据,获取了珠江西岸2015—2022年的地表形变信息。结果表明珠江西岸整体变形较小,但珠海市金湾区、江门市江海区和新会区、中山市马安岛等局部区域沉降变形显著,最大沉降形变量超过350 mm。文中利用2012—2022年间的高分辨率历史存档光学影像数据,揭示了珠海市横琴新区局部区域的土地资源利用变化情况。最后分析软土层分布和人类活动综合作用是造成珠江西岸地表沉降的主要原因。

基于RS、GIS西辽河流域地下水与植被发育关系的探究

在水文地质学领域,人们一直非常关注干旱半干旱地区的水文地质和生态地质环境问题。遥感数据以其非接触、全面、精确并具有稳定数据质量的特点,被广泛应用于各个领域。本文利用遥感技术结合地下水数据,依据条件植被覆盖率的概念,研究西辽河流域适宜于植被生长的地下水位埋深。并对不同海拔、坡度范围内植被覆盖率的影响进行了探讨。结果表明,西辽河流域适宜于植被生长的地下水位埋深范围为2~6 m,在0~200 m的海拔范围内,条件植被覆盖率占46.23%。坡度在0°~5°范围内条件植被覆盖率占80.90%。研究结果对该区域生态环境监测和修复有指导价值,可帮助相关部门实施植被保护和管理。

西天山山地草甸不同坡向昆虫群落与植物多样性及功能性状的关系

【目的】阐明坡向对昆虫群落的影响,探究不同坡向昆虫群落与植物多样性及功能性状的关系。【方法】以西天山国家级自然保护区山地草甸为研究对象,通过野外植被和昆虫取样,分析阴坡、阳坡和坡顶3种生境的昆虫群落物种组成和多样性特征,探讨与植物多样性、功能性状的关系。【结果】1)该山地草甸的昆虫种类丰富多样,隶属于8目172种,双翅目(Diptera)和半翅目(Hemiptera)为优势类,分别占个体数的77.02%和21.32%。阴坡昆虫数量最多,为4 399头,其次为坡顶和阳坡,分别为2 750头和1 959头;2)昆虫群落特征指数在阳坡、阴坡、坡顶具有明显差异性,阳坡昆虫群落特征指数最高。3)植物多样性和功能性状对昆虫群落的影响具有差异性(P<0.01)。叶长与昆虫群落优势度指数和丰度指数具有显著相关性(P<0.01),株高与昆虫群落丰富度指数具有显著相关性(P<0.01),植物种类与昆虫多样性没有显著相关性。【结论】西天山保护区山地草甸植物功能性状中的叶长、株高是影响西天山山地草甸昆虫群落的主要因子。

超滤纳滤双膜工艺处理珠江西航道水源水的试验研究

针对广州市长距离引水运行成本大的问题,以本地珠江西航道水源开展预处理-常规工艺-超滤+纳滤双膜工艺试验研究,考察试验工艺对原水的处理效能,为广州市启动本地水源提供工艺、技术与参数支持。结果表明:预处理-常规工艺对水质常规污染物去除效果良好,常规出水基本满足国标,再经双膜工艺处理后,常规污染物浓度可进一步降低,纳滤出水色度、COD_(Mn)以及氨氮的浓度分别低至0.99度、0.84 mg/L以及0.02 mg/L。三维荧光及有机物相对分子质量分析结果表明,预处理-常规工艺可去除接近40%的荧光物质及小分子有机物,再经双膜工艺处理后,纳滤出水荧光物质去除超过80%,小分子有机物去除则超过60%。突发污染试验表明,预处理-常规工艺对新污染物去除效果有限,去除率约为20%~40%,而双膜工艺则具备高效应对常规污染物与新污染物的能力,增加双膜工艺后,试验工艺对两种常规污染物以及五种新污染物去除率均>90%。膜污染分析发现,造成超滤膜污染的主要荧光物质为色氨酸类蛋白质、类富里酸物质以及类腐殖酸物质,纳滤膜则主要为色氨酸类蛋白质,而造成两者膜污染的无机元素均主要为Ca、Si、Na、K等元素。

内蒙古西辽河流域水环境现状与对策研究

水环境是人类生命之源,与人们的生活息息相关,是生态环境最重要的部分。西辽河位于辽河上游,河道总长为829 km,92%以上的流域面积位于内蒙古。近年来,由于自然因素和人类活动的双重影响,西辽河干流以及支流出现长时间、多次断流。2001—2016年,西辽河干流年均断流天数为249 d。农业面积的快速扩张、大量灌溉用水的增加、地下水超采、河道断流等因素引发河湖湿地萎缩等一系列生态问题。因此,复苏西辽河水生态环境势在必行。分析内蒙古西辽河国考断面水质现状,根据现存问题与断流严重现状,提出建立健全长效机制等对策建议,为深入打好碧水保卫战、全面改善水环境质量、实现美丽河湖提供依据。