突发性山地水土灾害与地形地貌的相关性研究

利用GIS技术对庆元县山地灾害与地形、地貌、坡度和坡向作空间叠置分析结果表明:山地灾害发生密度,以高丘地形、凝灰岩低丘地貌、东南向缓坡最高;山地灾害绝对发生量,则以低山地形、凝灰岩低山地貌、东南向斜坡地段最大。

黄河中游地区水土灾害机理与灾害链效应研究进展

黄河中游地区水土灾害分布广、类型多、突发性强,且往往灾害链生、后果严重,威胁人居安全与社会稳定,制约区域高质量发展、生态文明建设,亟待从根本上厘清水土灾害与生态环境互馈机制,深化对黄河中游地区水土灾害群发机理及链生效应研究。为此,立足于分析黄河中游地区水土灾害问题,详细梳理了与之有关的山洪成灾规律、崩滑流灾害群发机理、水土灾害链效应、水土灾害与生态环境互馈作用等方面的国内外研究现状与发展动态,探讨了黄河中游地区水土灾害研究趋势和面临的挑战,分析了未来水土灾害研究亟须突破的关键科学问题,并基于地球系统科学思想提出了相关研究建议。在复杂地质条件、极端气候变化和强烈人类工程活动影响下,黄河中游地区水土灾害群发机理与灾害链效应研究的主要方向有:极端降雨作用下山洪成灾规律,地貌-气候耦合作用下崩滑流灾害群发机理,考虑生态影响的水土灾害链放大与消减效应,水土灾害与生态环境互馈作用机制。亟待突破的关键科学问题有:从耦合联动孕灾角度揭示地质、地表、气候过程与土水灾害群发响应机制,从致灾效应角度揭示水土灾害链动力学过程与致灾效应评价,从地质安全与生态安全角度建立水土灾害与生态环境互馈理论,进而提出基于水土灾害与生态环境互馈效应评价的生态减灾技术。研究建议:以地球系统科学理论为指导,突出学科交叉融合,从“地、域、河”空间尺度阐明黄河中游地区水土灾害的区域模式、动力学机制、灾害链生与生态环境互馈效应,从人地协调观角度建立黄河中游地区水土灾害综合风险评估模型与防控理论。

农田条状取土引发的水土灾害与防治修复措施

本文基于对汾河灌区地下水浅埋地区灌溉农田的调查,分析和揭示了农田条状取土引发的水土灾害,并提出可行的防治修复措施。农田条状取土导致土壤养分缺失、农田涝害渍害以及土壤盐碱化等灾害。回填被挖掉的土,科学合理的施用有机肥,加强农田管理,是防止和修复受害农田的有力措施。

《水土保持研究》投稿须知

1研究目标与范围。《水土保持研究》是由中国科学院主管,中国科学院水利部水土保持研究所主办的地球科学类的学术期刊。本刊研究范围主要包括:土壤侵蚀、旱涝、滑坡、泥石流、风蚀等水土流失灾害的现状与发展动态;水土流失规律研究、监测预报技术研发成就与监测预报结果;水土流失治理措施与效益分析;水土流失地区生态环境建设与社会经济可持续发展研究;计算机、遥感工程、生物工程等边缘学科新技术、新理论、新方法在水土保持科研及其实践中的应用;国外水土流失现状及水土保持研究新动态等。

《水土保持研究》投稿须知

1研究目标与范围《水土保持研究》是由中国科学院主管,中国科学院水利部水土保持研究所主办的地球科学类的学术期刊。本刊研究范围主要包括:土壤侵蚀、旱涝、滑坡、泥石流、风蚀等水土流失灾害的现状与发展动态;水土流失规律研究、监测预报技术研发成就与监测预报结果;水土流失治理措施与效益分析;水土流失地区生态环境建设与社会经济可持续发展研究;计算机、遥感工程、生物工程等边缘学科新技术、新理论、新方法在水土保持科研及其实践中的应用;国外水土流失现状及水土保持研究新动态等。

川中丘陵区坡耕地水土流失灾害的综合治理

川中丘陵区坡耕地水土流失灾害的综合治理王治国，王艳（遂宁市市中区水土保持办公室）川中丘陵区，地跨８４个县（区），土地总面积１２．１万平方公里，占全省土地总面积的２１．３％，人口６４１７万，占全省总人口的６１．１％，是我国典型农业为主的地区之一。一、川...

抽水蓄能电站建设期水土流失及其次生灾害风险评价

[目的]对抽水蓄能电站建设期水土流失及其次生灾害风险进行评价,对涉及的要素特征进行筛选分析,为提高工程建设期绿色安全施工水平提供科学支持。[方法]采用层次分析法结合模糊综合评价法,从3个维度共选取了8个一级指标和34个二级指标进行分析评价。[结果]构建了抽水蓄能电站建设期水土流失及其次生灾害风险评价模型,并划分为5个风险等级,将模型应用于安徽省绩溪抽水蓄能电站的研究表明该电站在建设期水土流失风险灾害等级为3级,属一般安全等级。结合该工程建设期的实情,验证了模型的可行性。[结论]抽水蓄能电站选址在很大程度上决定着工程建设期水土流失及其次生灾害风险等级。采用该方法评价风险等级为3级及以下的工程,可在确保工程水土保持措施按照要求落实建设的基础上,增强建设期水土保持监测水平。应重点关注建设期弃渣堆置不合规及取弃土过程中的潜在土壤流失量,防微杜渐,避免水土流失及其次生灾害现象的发生。

21世纪防治水土流失灾害的对策和建议

建国以来，党和政府对水土保持工作十分重视，采取一系列重大措施来控制水土流失恶化，已取得了很好的成效，但水土流失的灾害尚很严重，存在的主要问题如下：一是水土流失的严重性和危害性，尚未引起各级领导和全社会的高度重视，以牺牲生态环境换取近期利益的事屡见不鲜...

毕节地区水土流失灾害分析

本文从地质因素、气候因素、植被因素、人为因素分析毕节地区水土流失灾害的特点、形成原因,用Fuzzy聚类分析的方法将该地区划分为三类区域,根据水土流失灾害的现状,提出防治对策。

银川地区水土质量恶化趋势及对策探讨

本文阐明了在人为因素强烈参与、脆弱的自然生态环境条件下,银川地区已经出现的耕地减少并恶化、水源紧张且污染、水土流失与沙化及地方病等多种渐发性灾害,并提出了一些治理对策和方法。

清代以来四川西部山区水土问题的考察

加快开发我国西部地区 ,是国家的一项全局性发展战略。而山区的水土问题 ,即是开发中首先应予关注的一个重大问题。此文以四川西部山区水土为题进行考察 ,概述了清代以来山区水土资源状况 ,分析了水土灾害及其致灾原因 ,对开发四川西部山区及江源之水北调黄河问题 ,提出了有待思考的一些见解和建议。

沙质海岸综合体的群发性灾害及其防护技术

分析和讨论了我国沙质海岸综合体自然和人为灾害的现状 ,提出了应开展的研究内容以及灾害防护技术。

适应大规模山地灾害排序的数学模型DEA

对于大规模的水土流失灾害,如何按其危害程度进行合理排序,以便采取轻重缓急的相应措施是防灾对策亟待解决的课题。2006年日本学者因幡雄起等人应用包络分析法对其山口县22 000个水土流失灾害危险地点的资料,系统地进行排序确定位次,解决了大规模水土流失灾害预防对策运算耗时问题;并针对涉及评价因素较多的水土流失灾害危险地点的排序问题,提出了解决办法;实践验证了此模型的合理性。期待在将来实施防灾事业的排序中得到应用。此方法不只应用于水土流失灾害的排序中,同样还可在其他大规模资料的处理中应用;在本项研究中,计算时应用的4个主要因素是以本项研究的实例提出的,在今后应用中,可根据其内容进行增减。此项研究对我国进行水土流失灾害防治有一定的参考价值。

城市也该防水土流失

城市也该防水土流失城市水土流失问题，早就随着城市建设而产生，只是过去城市建设规模小，发展速度慢，水土流失问题不是那么突出，没有引起人们的重视。可是，到八十年代末和九十年代初，城市化进程加快，各项基础设施蓬勃发展，特别是房地产热，各类开发区兴起，水土流...

综合运用经济、行政和法律手段进一步搞好我省水土保持工作

综合运用经济、行政和法律手段进一步搞好我省水土保持工作省水利厅周庆华水土保持是一项生产性、防护性和社会性很强的山区建设工作，是除害兴利、造福子孙的伟大事业。农业生产离不开水土资源，工矿、铁路、交通及水利电力工程等生产建设项目，需要有一个良好的自然生态...

Experience of Planning the Local Climate Change Adaptation Plan in Taoyuan

Based on the experience of emergency operation on earthquake and flooding in local and foreign countries, the secondary disasters of fire, damage of critical infrastructure usually harmed lives or disturbed living condition. In order to safeguard people＇s lives and property safety, Taoyuan City Government, except for elementary public facilities, added standardized disaster prevention parks and detention ponds in the zone-expropriation project at Chunglu area. The zone-expropriation project at Chunglu, Taoyuan is designed for 487,600 residents in 2021. The area of public facilities of park, school, road and green land is 50.7 ha, 41.88% of total development area of 122.06 ha, in which, the capacity of disaster prevention parks at Chunglu area is designed for 3,164 refugee in 7.54 ha. An underground storage construction, withstand 7-magnitude earthquake, could supply the amount of water consumption of 3 L daily per person, lasting at least four weeks. The capacity of two detention ponds is 87,800 m3. During normal times, the disaster prevention park and detention ponds can be used as a recreational space for residents. When a disaster occurs, shelters are set up in the parks to accommodate residents to protect lives and property. And, detention ponds could adjust outflow discharge into neighborhood drainage system to mitigate disaster happening. Because the construction of standardized disaster prevention park with climate change needs much more land area, the acquisition of private land area is very difficult either general acquisition or zone expropriation in urban area. During each stage of zone expropriation, the support of landlord and Mayor Wu is very important. By means of public participation, information meeting was held hundreds times and revised content according to landlord＇s positive opinion. Moreover, the design idea and content was discussed with consultant-company mutually from time to time. Fortunately, this project is finished successfully and got award from Public Construction Council of Taiwan in 2014.

The Relationship Between Vegetation Characteristics and Altitudes in Transitional Permafrost Zone in Xidatan, Qinghai-Tibetan Plateau

Many studies showed that permafrost has profound influence on alpine ecosystem. However, former researches were mainly focused on typical points by temporal scales. There were few studies about the correlation between vegetation characteristics and different altitudes covering a large region in spatial pattern, especially in transitional permafrost(TP). There were continuous permafrost(CP) discontinuous permafrost(DCP) and seasonal frozen ground(SFG) in this study region. The types of permafrost changed from SFG to DCP, and finally become CP as the altitudes of Xidatan increase. In this paper, 112 845 points interpreted by HJ1-B(environment and disaster monitoring and prediction small satellite constellation), vegetation investigation points, thawing layer thickness research sites, ground temperature and water content observation plots were used to examine the spatial pattern of vegetation which were located in different altitudes in Xidatan, a typical TP region, in Qinghai-Tibetan Plateau. Vegetation characteristics, soil moisture content(SMC) and thaw depths were collected in 15 August to 25 August2012. Characteristics of vegetation were mainly represented by fractional vegetation cover(FVC) derived from the normalized difference vegetation index(NDVI), as well as above ground biomass(AGB). In this paper, we analyzed that the distinction of vegetation characteristics in each range through statistics data. These ranges were divided by varied altitudes. For examples, the ranges were divided into 50 m or 100 m. In this study we use a large area plots method to further discuss the relationship between the features of vegetation and the different regions of permafrost based on altitudes shifts in Xidatan. A diagram described the vegetation characteristics variability with rising altitudes in transitional permafrost region was drawn in this paper. Our results illustrated the FVCs first increased in SFG region and then decreased in DCP zone slowly, and in CP region FVCs soared then dropped dramatically. With the altitudes increased, the curve of FVCs indicated a parabolic distribution except a little difference in the first 200 m range.

我国多发自然灾害

"自然灾害"是人类依赖的自然界中所发生的异常现象。