Water Appropriation Systems for Adapting to Water Shortages in Iraq

Climate variability and population growth have intensified the search internationally for measures to adapt to fluctuations in water supplies. An example can be found in the lower part of the transboundary Tigris‐Euphrates Basin where water shortages in 2008‐2009 resulted in high economic costs to irrigation farmers. Losses to irrigators in the lower basin have made a compelling case to identify flexible methods to adapt to water shortage. Few published studies have systematically examined ways to enhance the flexibility of water appropriation systems to adapt to water shortage. This article addresses an ongoing challenge in water governance by examining how profitability at both the farm and basin levels is affected by various water appropriation systems. Four water appropriation systems are compared for impacts on farm income under each of three water supply scenarios. Results show that a (1) proportional sharing of water shortages among provinces and (2) unrestricted water trading rank as the top two appropriation systems. The shadow price of water for irrigation rises from zero at a full water supply level to US$93/1,000 m³ when supply falls to 20% of full levels. Similar methods could be used to analyze challenges facing the design or implementation of water appropriation systems in the world's irrigated regions.     

干旱灾害风险评估的研究进展

干旱灾害风险评估是风险管理和减灾管理的基础,其成果可以为救灾减灾提供科学依据.对干旱灾害系统的复杂性与非线性以及干旱灾害风险评估的程序、方法模型与研究内容等进展进行了综述.在此基础上,展望了干旱灾害风险评估的综合性、动态性等发展趋势,并预测了进一步研究的重点.     

苗期玉米根叶对干旱胁迫的生理响应

采用人工控制水分的方法,研究了干旱胁迫下苗期玉米(ZeamaysL.)根系和叶片的生理指标,用以明确苗期玉米根系和叶片对干旱的生理响应。研究结果表明,苗期中度干旱胁迫处理条件下,玉米根系和叶片均表现出对干旱胁迫的生理响应,并各具特点。与对照相比,干旱胁迫使玉米根系和地上部的生物量降低,叶片中的叶绿素含量显著降低、叶片光合面积减小,根冠比增大。干旱胁迫使玉米根系比表面积增大,根系氧化活力和还原活力增强。干旱胁迫导致玉米叶片的光合功能降低,初始荧光升高,初始光系统Ⅱ(PSⅡ)的原初光能转换效率、PSⅡ潜在活性、潜在光合作用活力均受到抑制。干旱胁迫下玉米叶片和根系脂质过氧化作用增强,根系和叶片中的游离脯氨酸含量升高。     

西南地区干旱规律与节水农业发展问题

除西藏以外的中国西南地区人口、耕地和农林牧渔总产值分别占全国的19.2%、19.1%和14.9%,是我国十分重要且潜力巨大的农产品生产基地。干旱是制约本区农业发展的重要因素。文章分析了西南地区的干旱特征,揭示出该区季节性干旱严重、区域性干旱突出、干旱类型多、连旱频率大的干旱规律,提出对农业生产危害最严重的干旱类型是春旱、夏旱和伏旱。从自然和经济开发的角度,分析了该区干旱的主要成因是降雨分布不均、水资源可利用率低、水土流失严重和水利工程滞后。在此基础上,提出了提高降雨利用率、提高水资源开发程度及大力发展生物节水技术的对策,特别是农业结构调整、抗旱作物选用、节水农耕农艺技术和发展经济植物篱(埂)等生物节水技术。     

试论湖北省伏旱的环流特征

通过对湖北省几个典型伏旱年的同期环流特征的分析,揭示了与湖北严重伏旱灾害密切联系的几中大气环流系统,并进行了分型。指出,造成严重伏旱的主要天气系统有西太平洋副热高压,西风带环流和西太平洋台风,并根据伏旱期大气环流的不同型式,将造成湖北伏旱的环流特征主要归结为两类,一是副高势力强盛,西伸强烈,稳定控制长江中下游地区;中高纬度向环流占优势;台风活动较少,另一类是副高压势力较弱,主体位于太平洋面上空,西     

陕西省干旱灾害的农业风险评估

分析了陕西干旱发生的时空规律,以缺水率划分干旱标准,评价陕西各季农业干旱状况,并对1949～1990年共42a粮食产量序列进行滑动平均模拟,以粮食减产百分率评估全省干旱灾害等级,得出干旱损失评估模式,使陕西干旱灾害的评估由定性到定量,为其它灾害的定量评估提供了经验。     

陕西省农业旱灾系统及农业旱灾灾情模型研究

为试图解决当前有关干旱（旱灾）指标的片面性,本文提出了农业旱灾系统（ＡＤＳ）,并设计了描述农业旱灾灾情的模型：Ｅ＝ｋ＊Ｍ＊Ｈ＊Ａ。农业旱灾系统由气象干旱（Ｍ）、水利抗旱（Ｈ）、农业承旱（Ａ）及农业旱灾灾情（Ｅ）等四个要素组成。每一要素均由若干区域性指标进行刻划。在分析陕西省农业旱灾特点的同时,建立了陕西省农业旱灾系统的框架,并利用各种资料分析了陕西省农业旱灾灾情。分析结果表明,由该模型计算的陕西省各县级单位的农业旱灾灾情和几十年来的实际资料是相吻合的,模型是可靠的。而且,通过模型和实际情况的对比,能够为研究农业旱灾灾情形成机制提供更好的佐证。     

气候变暖背景下西南地区干旱灾害风险评估

论文利用全国基准基本站地面气温、降水资料,NCAR/NCEP土壤湿度资料及各类经济数据,采用加权综合评价法对西南地区干旱灾害风险因子进行分析,结果表明：四川和云南致灾因子危险性较高,气候变暖后四川东南部、云南和贵州西部危险性增加;西南地区中部到东南部成灾环境敏感性较高,气候变暖后四川东部、贵州及云南东部敏感性增加;承灾体易损性主要分布于西南中东部地区,人口密度、经济密度、耕地面积比重越高的地区易损性程度越高;四川中部、云南东北部、贵州南部及重庆西部防灾减灾能力较高。西南地区干旱灾害风险最高区域为云南东部、四川东部、贵州西部及重庆大部分地区;气候变暖后四川东南部、云南西部危险性明显增加。     

两种植物根际促生菌对博落回抗干旱及富集铀性能的增强作用研究

采用土壤盆栽试验,通过在博落回(Macleaya cordata)根际单独接种荧光假单胞菌(Pseudomonas fluorescens)、单独接种绿针假单胞菌橙色亚种(Pseudomonas chlororaphis subsp. aurantiaca)及同时接种这两种菌,研究了这两种植物根际促生菌对博落回抗干旱及富集铀性能的增强作用.结果表明:在干旱胁迫下,单独接种荧光假单胞菌、单独接种绿针假单胞菌橙色亚种及同时接种这两种菌后,博落回的生物量分别增加了35.03%、21.01%和17.33%,相对含水量分别增加了26.90%、19.31%和29.48%,叶绿素总量分别增加了71.11%、48.47%、12.85%,脯氨酸含量分别降低了71.70%、64.91%和61.35%.在干旱和铀同时胁迫下,单独接种荧光假单胞菌、单独接种绿针假单胞菌橙色亚种及同时接种这两种菌后,博落回对铀的总富集量分别提高了109.52%、66.67%和42.86%.可见,两种植物根际促生菌对博落回抗干旱和富集铀性能的增强作用表现为:单独接种荧光假单胞菌单独接种绿针假单胞菌橙色亚种同时接种这两种菌.实验结果可为干旱地区铀污染土壤的植物修复提供参考.     

Changes in Hydrology of the Ganges Delta of Bangladesh and Corresponding Impacts on Water Resources

The Ganges Delta in Bangladesh is an example of water‐related catastrophes in a major rural river basin where limitations in quantity, quality, and timing of available water are producing disastrous conditions. Water availability limitations are modifying the hydrologic characteristics especially when water allocation is controlled from the upstream Farakka Barrage. This study presents the changes and consequences in the hydrologic regime due to climate‐ and human‐induced stresses. Flow duration curves (FDCs), rainfall elasticity, and temperature sensitivity were used to assess the pre‐ and post‐barrage water flow patterns. Hydrologic and climate indices were computed to provide insight on hydro‐climatic variability and trend. Significant increases in temperature, evapotranspiration, hot days, heating, and cooling degree days indicate the region is heading toward a warmer climate. Moreover, increase in high‐intensity rainfall of short duration is making the region prone to extreme floods. FDCs depict a large reduction in river flows between pre‐ and post‐barrage periods, resulting in lower water storage capacity. The reduction in freshwater flow increased the extent and intensity of salinity intrusion. This freshwater scarcity is reducing livelihood options considerably and indirectly forcing population migration from the delta region. Understanding the causes and directions of hydrologic changes is essential to formulate improve water resources management in the region.