内陆水质遥感不确定性：问题综述

内陆水质遥感是目前定量遥感领域的热点与难点,多种不确定性因素影响了内陆水质遥感的研究进展。较系统地总结了国内外近年来内陆水质遥感监测存在的突出问题与影响水质遥感监测精度的关键因素,具体从内陆水体光学特性的复杂性、大气校正的复杂性与水面反射光校正的不确定性、反演算法与生物光学模型的复杂性与区域性、现有传感器监测内陆水质在性能方面的局限性以及影响因素的复杂性与综合性几个方面进行了阐述,并指出了内陆水质遥感监测的研究重点与发展方向。     

Calibrating a FDR sensor for soil moisture monitoring in a wetland in Central Kenya

The recent transformation of wetlands into farmland in East Africa is accelerating due to growing food-demand, land shortages, and an increasing unpredictability of climatic conditions for crop production in uplands. However, the conversion of pristine wetlands into sites of production may alter hydrological attributes with negative effects on production potential. Particularly the amount and the dynamics of plant available soil moisture in the rooting zone of crops determine to a large extent the agricultural production potential of wetlands. Various methods exist to assess soil moisture dynamics with Frequency Domain Reflectometry (FDR) being among the most prominent. However, the suitability of FDR sensors for assessing plant available soil moisture has to date not been confirmed for wetland soils in the region. We monitored the seasonal and spatial dynamics of water availability for crop growth in an inland valley wetland of the Kenyan highlands using a FDR sensor which was site-specifically calibrated. Access tubes were installed within different wetland use types and hydrological situations along valley transects and soil properties affecting soil moisture (organic C, texture, and bulk density) were investigated. There was little variation in soil attributes between physical positions in the valley, and also between topsoil and subsoil attributes with the exception of organic C contents. With a root mean squared error of 0.073 m³/m³, the developed calibration function of the FDR sensor allows for reasonably accurate soil moisture prediction for both within-site comparisons and the monitoring of temporal soil moisture variations. Applying the calibration equation to a time series of profile probe readings over a period of one year illustrated not only the temporal variation of soil moisture, but also effects of land use.     

Testing resilience thinking in a poverty context: Experience from the Niger River basin

Resilience thinking is an important addition to the range of frameworks and approaches that can be used to understand and manage complex social–ecological systems like small-scale fisheries. However, it is yet to lead to better environmental or development outcomes for fisheries stakeholders in terms of food security, improved livelihoods and ecological sustainability. This paper takes an empirical approach by focusing on the fundamentals of resilience thinking to evaluate its usefulness in developing relevant management interventions in small-scale fisheries in the Niger River Basin in West Africa. The paper presents the outputs of a participatory assessment exercise where both fishery communities and local experts were involved at two different scales. The resilience frame used was designed to facilitate the identification of socially defined thresholds that help delineate the desirability of the current system configuration and provides a diagnosis framework that tailors management solutions to problems in local context. The analysis highlights some key contributions from resilience thinking to the challenge of diagnosis in small-scale fisheries management in developing countries, as well as important contributions that emerge from taking a pragmatic and critical approach to its application.     

Spatio-temporal changes in land cover and aquatic macrophytes of the Danube floodplain lake

The aquatic vegetation of ?í?ov Lake in the Danube floodplain, which is listed in the Ramsar Convention, was investigated to address three main questions: (1) how have landscape composition and the structures of the lake and its buffer zone changed from the mid-20th century; (2) how have species richness and the abundance of the aquatic macrophyte assemblage in this lake ecosystem changed over the last 34 years; and (3) which landscape metrics can best explain these temporal changes for floating-leaved macrophytes? Two methodological approaches, remote sensing and botanical field surveys, were applied. Historical (1949, 1970, 1990) and contemporary (2006) aerial photographs were analysed to determine land cover. Landscape configuration and structure were analysed using eight landscape metrics selected in advance to measure spatio-temporal changes and the fragmentation of the lake ecosystem and its corresponding buffer zone. The species diversity, abundance and distribution of true aquatic macrophytes were surveyed eleven times in five survey stretches between 1973 and 2007.At the landscape level, a decrease in the area covered by floating-leaved macrophytes, as well as an increase in open water surface and fragmentation of the land cover classes in the lake ecosystem, were recorded from 1949 to 2006. Overall, 30 true aquatic macrophytes were found from 1973 to 2007. Species richness did not change considerably, but the abundance of aquatic species fluctuated over the years. Three groups of true aquatic vegetation, based on common structural characteristics, were found in 1973–1983, 1989–2002, and 2004–2007 over the last 34 years. The landscape metrics NP, PD, LPI, and SHDI, which all express patterns of landscape fragmentation mostly indicate temporal changes in floating-leaved macrophytes.     

我国内陆盐碱化沼泽的功能与开发利用

在系统论述我国内陆盐碱化沼泽分布和特征基础上,分析了内陆盐碱化沼泽形成的环境背景及其多样的生态环境功能,探讨了内陆盐碱化沼泽开发利用中存在的问题,如加重区域“三化”趋势,造成区域水资源紧张等。为内陆盐碱化沼泽的可持续发展和合理开发利用提供科学依据。     

曲流河扇相模式及应用

分支河流体系的讨论有助于促进各类冲积体系的分类学研究,并可促进源—汇体系分析的定量化。博茨瓦纳的奥卡万戈（Okavango）曲流河扇是分支河流体系的典型代表,具有独特的沉积学、水文学和地貌学特征,主要特点如下：①河道形态属于单线曲流河道向下游分叉型,顺流方向产生弯度不一的分支河道网络,从顶点向下游方向,河道呈放射状,由河谷内的限制性河道变为盆地内的非限制性河道;②顺斜坡向下,河道分叉作用增强,河道的尺度和规模减小,受物源控制,无论是曲流河道还是低弯度河道,皆为砂质载荷,河道宽度、水体深度和沉积物粒度虽有系统变化但不显著,且在极低的坡度控制下,随着流量的减少,河道由曲流河逐渐变为低弯度河,河道形态转化的主要影响因素是坡度、流量、沉积物粒级和河岸强度;③根据湿地和河道分布特征,可将扇体划分为补给河谷、近源扇、中部扇和远端扇4个亚环境：补给河谷以单线曲流带和不同规模的迂回坝发育为特征,近源扇主要为泥炭限制的分支河道和河间沼泽沉积,中部扇主要为曲流河和低弯度河沉积,沼泽减少,漫滩增加,远端扇为宽浅型的非限定性河道,以沙岛林地之间的漫滩沉积为主;④沉积物主要为未固结的石英砂,主要来源于卡拉哈里盆地近代风成沉积,砂质纯净,分选和磨圆俱佳,缺乏细粒杂基,粒间细粒组分主要为生物成因的硅藻、植硅石和有机物质,亦见有方解石和二氧化硅胶结物。  对现代曲流河扇体系进行调查的重要目的就是研究地下类似沉积体系的分布。通过对我国大型含油气盆地相关“内陆三角洲”沉积特征和沉积规律的重新认识,可为油气资源的勘探开发提供预测模式。鄂尔多斯盆地山西组沉积时期,沉积作用受盆地北缘物源控制,来自北部物源的碎屑物质在宽阔的湿地平原上发育了多套分支河流沉积体系,主要为曲流河扇沉积体系。顺着沉积斜坡向下,河道的尺度和规模减小,沉积物粒度变细,煤层和暗色泥岩厚度变小,缺乏明显的三角洲前缘沉积环境及稳定的前三角洲深水相。沉积组合主要表现为分支河道砂岩、漫岸细粒沉积与湿地泥岩及薄煤层的互层,为大气田的形成奠定了沉积基础。     

西北内陆盆地的红层类型与砂岩型铀矿

本文在调研我国西北内陆盆地中的红层与砂岩型铀矿关系的基础上,提出了一个以沉积相和红化成因为基础的红层分类:把内陆盆地中的红层分为陆解阶段形成的冲积平原红层和浅湖红层;成岩后生阶段形成的河流冲积红层、三角洲红层和沙漠红层;以及表生风化阶段形成的溅泼红(次生红层)等6类红层。并依据这6类红层的特征、产出构造环境,以及含矿主岩到各类红层的Eh、pH、Th/U、Fc~(3+)/Fc~(2+)、Sr/Ba等地化特征值的变化,确定了它们与砂岩型铀矿的关系,即陆解阶段岩石红化时为开放环境,活性铀易于流失,对成矿不利;而成岩后生阶段,岩石红化时的环境为封闭系统,对成矿有利,能形成铀矿床。     

内陆河流域分布式日出山径流模型——以黑河干流山区流域为例

应用常规的气象水文数据并结合GIS,建立了一个适合西北干旱区内陆河山区流域的以日为步长的分布式径流模型,并对黑河干流山区出山径流进行了模拟计算和讨论。模型以子流域作为最小的产流、汇流单元,根据植被覆盖将各子流域分为裸地区、乔木区、牧草区和冰川区,并根据实际调查将土壤分为 3层,各分区单独进行水量平衡计算。产流过程以土壤储水能力和储水量表征,而储水能力和储水量等则由土壤的孔隙度、干密度和厚度等表征。入渗原理基于土壤储水率平衡原理,并考虑重力势的作用。实际蒸散发与蒸发力和土壤体积含水量的乘积成正比,不同的土壤和植被具有不同的调节参数。模拟结果表明,模拟效果较差的原因是区域日降水过程具有较大的随机性,难以用有限的站点合理计算区域日降水量。寻找一个合适的区域日降水量计算方法是目前少资料大型流域分布式水文模型模拟成功的关键。     

围栏养蟹利用与女山湖沉水植物资源保护

本文对亚洲中部地区内陆湖泊近百年来的变化及其变化的原因,特别是气候因素进行了考察与分析,位于我国内蒙古东部及蒙古高原北部的湖泊,近百年来其变化以及水位上涨与面积扩张为主,产生这种湖泊水位上升的原因与该地区降水增加有关。     

中国内陆高原正极性雷电的观测实验研究

叙述了１９９７年夏季中日两国科学家在甘肃平凉地区合作进行的有关正极性雷电的综合观测实验情况,包括地布局,所采用的技术手 取得的主要结果。实验中采用人工引发雷电技术并取得了两次成功,其中一次是利用“空中解发”方式,即火箭拖带的细钢丝下端不直接接地,而是通过一段绝缘尼龙线与接地的另一段细钢丝相连。用这种方式可以更真实地再现自然雷电的初始过程。实验中观测到了空中导线两端先导的双向传输现象;电流、电场变化