小叶锦鸡儿(Caragana microphylla)群落蒸散发模拟

基于2016、2017年生长季原位气象监测数据,利用Shuttleworth-Wallace(S-W)模型模拟了科尔沁沙地主要固沙植物小叶锦鸡儿(Caragana microphylla)群落的蒸散发,对蒸散组分进行了拆分,并利用涡度相关系统对模拟蒸散发值进行了验证。结果表明:2016、2017年生长季小叶锦鸡儿群落蒸散发量分别为345.4、325.2 mm,土壤蒸发量分别为93.8、83.8 mm,植被蒸腾量分别为251.6、241.4 mm,土壤蒸发占总蒸散发分别为27.2%、25.8%。30 min尺度上模拟值与实测值一致性较高,模拟精度大体表现为晴天>阴天>雨天。持续干旱和降水后,小叶锦鸡儿蒸腾耗水规律明显不同,持续干旱时期小叶锦鸡儿保持较低的蒸腾耗水,且具有明显的"午休"现象,连续降水后小叶锦鸡儿"午休"消失,蒸腾耗水增强。饱和水汽压差是影响小叶锦鸡儿蒸散发的主要因子。     

气候变暖背景下中国干旱变化的区域特征

在全球气温日趋升高和极端降水增加的气候背景下,近年来中国干旱变化特征异常突出,新形势下需进一步深入认识干旱发生特征及影响机制。利用1960-2014年中国527个气象站逐日气温和降水量数据,选用改进的综合气象干旱指数（MCI）作为干旱监测指标,详细分析了中国各区域干旱强度、次数和持续时间变化特征及其差异性。结果表明：1960年以来,中国各区域干旱程度加重,范围增大,次数增多,持续时间增长。干旱特征发生了明显的区域变化,各个区域干旱变化差异显著。西南、华中、华北和华南区域干旱程度明显加重,主要是重度以上干旱次数较多。华北和西南干旱年数最多,为45年,其他地方为35~36年,华北重度以上干旱年份最多,为14年,其次是东北和华南的7年。干旱发生时间和区域也有随机性,中国各区域四季都有可能发生干旱,干旱不仅发生在北方干旱和半干旱区域,在南方湿润和半湿润区域同样发生。各区域以夏旱为主,东北以春旱和夏旱居多,华南以秋旱为主。干旱持续时间不等,有时高达9个月。有些区域年内干旱呈单峰型,有些区域为双峰型。气候变暖背景下,中国各个区域干旱呈加重趋势。     

随机森林算法在全球干旱评估中的应用

干旱是发生频率最高,造成社会、经济损失和生态破坏最严重、最广泛的自然灾害之一,因此对干旱进行可靠、有效的评估十分重要.本文以月平均降水、月平均温度、月最高温度、月最低温度、土壤湿度、蒸散发、NDVI、叶绿素荧光等作为解释变量,以基于SPI的干旱等级作为目标变量,采用随机森林算法,以2007-2012年的数据作为训练数据...     

"拉尼娜"与"厄尔尼诺"

从2007年夏天开始,“怪天气”频繁造访世界各地。南亚次大陆和半个非洲遭遇洪水袭击,澳大利亚持续干旱。到了2008年年初,我国南方遭遇雨雪冰冻灾害,澳大利亚又从旱灾变成了涝灾,而这一切背后都有着“拉尼娜”的神秘身影。2008年的冰冻灾害和今年的极端干旱让人联想到了全球变暖。     

Habitat range of two alpine medicinal plants in a trans-Himalayan dry valley, Central Nepal

Understanding of the habitat range of threatened Himalayan medicinal plants which are declining in their abundance due to high anthropogenic disturbances is essential for developing conservation strategies and agrotechnologies for cultivation. In this communication, we have discussed the habitat range of two alpine medicinal plants, Aconitum naviculare （Bruehl） Stapf and Neopicrorhiza scrophulariiflora （Pennel） Hong in a trans-Himalayan dry valley of central Nepal, Manang district. They are the most prioritized medicinal plants of the study area in terms of ethnomedicinal uses. A. naviculare occurs on warm and dry south facing slopes between 4090-4650 m asl along with sclerophyllous and thorny alpine scrubs, while N. scrophulariiflora is exclusively found on cool and moist north facing slope between 4000 and 4400 m asl where adequate water is available from snow melt to create a suitable habitat for this wetland dependent species. The soil in rooting zone of the two plants differs significantly in organic carbon （OC）, organic matter （OM）, total nitrogen （N） and carbon to nitrogen （C/N） ratio. Due to cool and moist condition of N. scrophulariiflora habitat, accumulation of soil OC is higher, but soil N content is lower probably due to slow release from litter, higher leaching loss and greater retention in perennial live biomass of the plant. The C/N ratio of soil is more suitable in A. navuculare habitat than that of N scrophulariiflora for N supply. Warm and sunny site with N rich soil can be suitable for cultivation ofA. naviculare, while moist and cool site with organic soil for N. scrophulariiflora. The populations of both the plants are fragmented and small. Due to collection by human and trampling damage by livestock, the population of A. naviculare was found absent in open areas in five of the six sampling sites and it was confined only within the bushes of alpine scrubs. For N. serophulariiflora, high probability of complete receding of small glaeiers may be a new threat in future to its habitat. The information about habitat conditions, together with the information from other areas, ean be useful to identify potential habitats and plan for cultivation or domestication of the two medieinal plants.     

云参数法干旱遥感监测模型的完善

在原有的云参数法干旱遥感监测模型的基础上,对云参数进行时间空间修正,得到了具有时间空间普适性的新型云参数法干旱遥感监测模型.首先分析了云参数随时空变化的规律即云参数影响函数,并分析确定修正函教的函数形式,然后联合遥感数据和同步地面实测20 cm深度土壤湿度数据确定修正函数,最后通过定权方式确定改进型干旱遥感监测模型.利用FY-2C数据进行了全国范围干旱遥感监测实验,同时与传统方法的监测结果进行对比分析,认为新型模型对空间时间大尺度条件下的干旱监测结果更准确可信.     

亚非副热带西风急流入口区位置及动能异常对中国华北盛夏年代际干旱的影响

研究使用了欧洲中期天气预报中心(ECMWF)提供的全球再分析数据,通过局地多尺度能量涡度分析法(MS-EVA)研究7-8月亚非急流入口区域的位置及能量变化对华北地区干旱的影响.结果发现:7月亚非急流入口区域在1997年之后有明显的北抬趋势,使得北大西洋及欧洲辐射的能量更易进入急流;8月亚非急流入口区域在1997年后有东...     

干旱区水与发展信息全球网络——国际干旱半干旱区地下水建模培训研讨会暨亚洲区域会议

G-WADI(Water and Development Information for Arid Lands-A G1obal Network,干旱区水与发展信息全球网络)是联合国教科文组织(UNESCO)国际水文计划(IHP)启动的针对干旱区水文研究的项目,旨在通过建立全球网络全方位提升对干旱区水系统的理解,增强干旱区水资源合理利用开发的能力.2006年中国科学院寒区旱区环境与工程研究所(以下简称"寒旱所")开展内陆河研究的主要流域--黑河流域成功加入G-WADI试验流域网络.     

Characteristics and variations of the East Asian monsoon system and its impacts on climate disasters in China

Recent advances in studies of the structural characteristics and temporal-spatial variations of the East Asian monsoon （EAM） system and the impact of this system on severe climate disasters in China are reviewed. Previous studies have improved our understanding of the basic characteristics of horizontal and vertical structures and the annual cycle of the EAM system and the water vapor transports in the EAM region. Many studies have shown that the EAM system is a relatively independent subsystem of the Asian- Australian monsoon system, and that there exists an obvious quasi-biennial oscillation with a meridional tripole pattern distribution in the interannual variations of the EAM system. Further analyses of the basic physical processes, both internal and external, that influence the variability of the EAM system indicate that the EAM system may be viewed as an atmosphere-ocean-land coupled system, referred to the EAM climate system in this paper. Further, the paper discusses how the interaction and relationships among various components of this system can be described through the East Asia Pacific （EAP） teleconnection pattern and the teleconnection pattern of meridional upper-tropospheric wind anomalies along the westerly jet over East Asia. Such reasoning suggests that the occurrence of severe floods in the Yangtze and Hualhe River valleys and prolonged droughts in North China are linked, respectively~ to the background interannual and interdecadal variability of the EAM climate system. Besides, outstanding scientific issues related to the EAM system and its impact on climate disasters in China are also discussed.     

干旱半干旱地区草原灌丛荒漠化及其生物地球化学循环

干旱和半干旱地区草地生态系统木本植物入侵及其导致的草原灌丛化已经成为全球范 围普遍发生的现象, 是草地沙化和荒漠化的一个重要标志。干旱生态系统中, 此种类型的植被变 化将对区域和全球生物地球化学循环产生显著影响。过度放牧、区域气候干旱化和自然火过程是 导致灌丛入侵和发展的主要控制因子。草原灌丛化过程中, 草地生态系统分布较为均匀的土壤养 分及相关元素在水平和垂直方向发生分异, 关键生命元素C、N、P 、S 生物地球化学循环的变化 将对全球气候变化产生显著作用。全球气候变化与草原灌丛荒漠化之间存在潜在的反馈机制, 人 类扰动的影响将使这种反馈作用变得更加迅速和灵敏。