Impacts and Countermeasures of Climate Change on Animal Husbandry in Qinghai Plateau and Its Surrounding Area

The paper aims to study the impacts and countermeasures of climate change on animal husbandry in Qinghai plateau and its surrounding area,and evaluate the effect of countermeasures.Results showed that：First,the annual mean temperature,annual mean maximum temperature and annual mean minimum temperature showed an increasing trend in Qinghai plateau during the time from 1961 to 2008; the annual precipitation had not obvious change,but the obvious feature of seasonal change; wind speed and sunshine hours showed a decreasing trend during the time from 1961 to 2008.Secondly,under the current climate condition,grassland productivity showed a decreasing trend,and the grassland theoretical capacity affected by grassland productivity decreased too; warm winter was in favor of livestock overwintering safely,which resulted in a high level of the survival rate of young stock; temperature increasing and precipitation decreasing were beneficial to the fatness of livestock,but the meat yield of livestock was affected by some negative factors such as grassland degradation; livestock diseases had a close relationship with weather condition,and adverse weather condition may arose many diseases of livestock.Thirdly,in view of the current problems of livestock production,we took a series of countermeasures including grass industry construction,livestock improvement,developing new modes of animal husbandry,control and prevention of stockbreeding diseases and insect pests and recovery of meteorological disasters,which played a important role in promoting grassland productivity,solving the problem of the imbalances between livestock and forage,protecting the ecological environment and improving livestock performance.

青藏高原周边地区持续性暴雨特征分析

长江上游的暴雨是造成该区域和长江中下游洪涝的主要因子,研究长江上游的青藏高原周边地区持续性暴雨特征对防灾减灾有着重要意义。应用历史天气图资料、NCEP 1°×1°再分析资料和国家气象信息中心提供的气候整编降水资料,采用统计和天气学方法,分析了1961 2011年青藏高原周边地区持续性暴雨特征。研究表明,青藏高原周边地区局地持续性暴雨通常持续3～4天,持续时间最长的暴雨发生在湖北武汉,为10天。整体上,高原地区较周边地区暴雨发生率相对低,局地持续性暴雨有4个降水高频中心,西藏东南部降水高频中心的波密发生频次最高,为15次;四川西部至中东部暴雨高频区持续性暴雨发生范围最广;另2个高频区为云南南端及湖北中东部地区。青藏高原东侧的西南地区区域持续性暴雨以持续3天为主,7月发生频率最高,21世纪以来,暴雨中心有向东移动的趋势。通常持续性暴雨过程伴随高原低值系统活动,其中西南低涡是最主要的影响系统。

青藏-喜马拉雅构造域演化的转折时期

青藏高原的形成演化为全球新生代最宏伟的地球动力学运动和最重要的地学事件。其深远的影响几乎涉及地学的所有领域;影响范围广阔,在东南亚和中亚形成了有直接响应关系的、广阔的喜马拉雅构造域,并涉及东亚、西亚、北亚和周邻海域等更广阔的地区,称其为青藏-喜马拉雅构造域。青藏高原的演化具有明显的阶段性,从其对周邻地域的影响来看,可分为印度板块与亚欧板块之间的软碰撞、硬碰撞早期的陆内拼接和晚期的青藏地区相对整体变形3大阶段。软碰撞(60～44Ma)的影响范围主要限于雅江碰撞缝合带及其附近。在硬碰撞早期的陆内拼接阶段((44～22±2)Ma),构造变形、岩浆活动、变质作用和成矿效应等主要发生在今青藏高原内部及边缘,仅通过深大走滑断裂对高原周邻广阔地区局部产生较明显影响。在硬碰撞晚期((22±2)Ma至今),青藏高原所在地区各块体之间发生不同层次较为强烈的挤压缩短汇聚,进而拼接,直至彼此镶嵌焊接为一个相对联系密切、较为完整的整体,高原所在地区才开始进入相对整体的变形阶段;印度与亚欧板块的进一步碰撞和波及高原的主要地质事件及深部作用才开始对周邻地域产生较明显的影响。渐新世末—中新世早期((20±2～4)Ma)为青藏高原形成演化的重要转折时期。以此为界限,在之前和之后,高原内部的构造变形、沉积充填、岩浆活动、变质作用和成矿效应等差别明显。这表明,在此转折时期前后,青藏高原的地球动力学环境发生了重大改变。此后,高原演化进入了相对整体运动和变形阶段,对周邻广阔地域的山隆盆降、矿产聚散、环境变迁等方面开始有显著影响并逐步增强,青藏-喜马拉雅构造域始呈阶段性地向外扩展、形成。与东—东南亚滨太平洋等地区的区域研究对比表明,青藏高原的构造动力学环境发生重大转变,其动力来源并不限于高原所在地区,具有更为广阔的区域地球动力学背景。

青藏高原及其周边干旱区气候变化特征与GLDAS适用性分析

青藏高原及其周边干旱区的水循环过程对全球变化的响应十分敏感。基于观测资料驱动的全球陆面数据同化系统(GLADS)能为区域尺度水循环变化研究提供更全面的数据。利用GLADS数据,首先对青藏高原及其周边干旱区进行气候区划分,分析了各气候区内气温和降水的时空分布和变化特征;然后检验了GLDAS数据在青藏高原地区的适用性;最后探讨了模拟期间地表水循环关键要素的时空变化特征及区域水资源分配格局。结果表明,各气候区在2000-2007年比1979-1994年平均气温上升了0.65～0.97℃,增幅明显提高。不同区域降水量变化各异,干旱区和半干旱区2000-2007年比1979-1994年平均年降水量分别升高了14mm和25mm。1979-1994年间GLDAS气温、降水数据在青藏高原及其周边地区适用性较高;极端干旱区气温数据与中国地面气温格点数据之间的均方根误差仅为0.41℃;在各气候区GLDAS数据与APHRODITE平均降水差值均小于0.18mm·d-1,但2000-2007年数据质量有待提高。研究时段内研究区域水循环处于动态平衡状态。2000年以来青藏高原及其周边干旱区径流量、蒸发量呈增长趋势的区域明显扩大,且幅度大幅上升,但变化量级存在不确定性。新疆大部分地区水循环变化特征表现为暖干向暖湿转变。青藏高原及其周边干旱区自2000年以来水循环有所加强,降水仍主要用于蒸发,多年平均径流系数大多小于0.2。

1998年青藏高原东部及其邻近地区大气热源与南海夏季风建立的关系

利用 1998年 5 8月南海季风试验期间的站点观测资料及NCEP再分析资料 ,计算了大气热源和水汽汇 ,并分析了南海季风爆发前后季风区对流层温度演变及其热力机制。结果表明 :南海夏季风的爆发与季风区对流层中高层南北温度梯度的逆转密切相关。南北温度梯度最先在孟加拉湾以东季风区发生逆转 ,半个月后在印度半岛及其以西地区逆转。季风爆发前中南半岛北部对流层中高层的迅速增温是由感热和潜热共同造成的 ,而华南及南海北部地区的增温则是由暖平流所致。 5、6月高原东部对流层中高层由非绝热加热造成的显著增温对东亚夏季风的北进和维持是非常重要的。 5、6月高原地区热源以感热为主 ;7。

青藏高原及邻区层控型铅锌矿时空分布特征

青藏高原古生代—中生代复杂的多岛弧盆系演化和新生代高原急剧隆升的构造格局造就了层控型铅锌矿特定的时空分布和成矿作用的分带性。在不同类型的构造单元内具有特征的成矿专属性和矿床类型。青藏高原及周缘层控型铅锌矿有多时代成矿的特点,寒武系和泥盆系是主要赋矿层位。古生代—中生代铅锌矿含矿层岩相古地理具有多样性,以台地相作为控矿优势相,尤其以白云岩作为容矿岩石的矿床居多。另外新生代地层作为主要容矿层之一,发育有大型甚至特大型的层控铅锌矿体,为低温热卤水运移充填矿床。推测青藏高原在新生代快速隆升是该类矿床富集成矿的重要控矿因素。随着研究的深入和勘查的进展,这种新生代矿床将在该区显示出巨大的找矿潜力。

GRAPES_Meso模式对2011年夏季青藏高原东部及周边区域的预报检验

青藏高原东部及周边地区地势呈阶梯状分布,是天气预报模式预报的难点。为了了解新版GRAPES_Meso模式在该区域的预报性能,利用统计方法对比了GRAPES_Meso模式新版(V3.1模式)与旧版(V2.5模式)在2011年夏季(6-8月)预报结果,还对比了V3.1模式在高、中、低三种地形高度的预报差异,得到以下主要结论:(1)同化系统升级后,各要素的误差明显减小,初始场质量有了较大提高,尤其在对流层中高层,各要素的改善幅度依次为相对湿度>纬向风>经向风>位势高度>温度;(2)对于降水预报,无论是6 h还是24 h累加降水,V3.1模式的TS评分都高于V2.5模式,尤其是大雨和暴雨预报,V3.1模式能明显减小漏报率、提高日平均降水准确率,但对空报率和云南以西的虚假降水改善不明显;(3)V3.1模式预报的位势高度、温度、风场和相对湿度误差垂直分布廓线与V2.5模式的不同,V3.1模式可以改进整层的经向风、纬向风和相对湿度、对流层中高层的位势高度、500 hPa以下的温度,但位势高度误差增长速度大于V2.5模式,对流层中低层的南风预报偏强,500hPa以上相对湿度误差仍很大;(4)V3.1模式在不同地形高度的预报结果对比发现,除700 hPa的位势高度和温度外,三种地形高度的各要素误差都是在初始时刻差异最小,随着预报时长增长,误差差异不断增大,这表明V3.1模式各要素的误差增长受地形影响明显。

气候变化对青海高原及周边地区畜牧业的影响及应对措施

总结了气候变化对青海高原及周边地区畜牧业的影响,并对各地所采取的应对措施进行了评价。结果表明：①1961~2008年青海高原年平均气温和年平均最高气温和年平均最低气温均呈显著增加趋势;年降水量几乎无明显变化,但具有显著的季节变化特点;风速和日照时数逐年减小。②在当前气候变化条件下,草地生产力呈减少趋势,受其影响,草场理论载畜量也呈减小趋势;暖冬较有利于牲畜安全越冬,幼畜成活率维持在一个较高水平;气温升高,降水减少有利于牲畜抓膘育肥,但牲畜产肉量还受草场退化等众多负面因子的影响;家畜疾病与气象条件关系密切,不利的气象条件可引发家畜的许多疾病。③针对当前畜牧业生产所面临的问题,各地采取了草业建设、畜种改良、发展畜牧业新模式、牧业病虫害防治、气象灾害防御等措施,其在提高草地生产力、解决草畜失衡、保护生态环境和提高牲畜性能等方面发挥了重大作用。

青藏高原热力作用对南海及周边区域夏季气候的影响研究进展

针对青藏高原热力强迫作用对东亚夏季风强度、南海夏季风爆发早晚、南海周边区域旱涝的影响,以及在全球变暖背景下其对降水格局的影响等科学研究进行了总结回顾,并就青藏高原热力作用对南海周边区域夏季气候的影响科学问题进行了探讨。研究表明,高原冬春积雪异常通过影响雪盖反照率、改变辐射平衡和通过积雪-水文效应改变土壤湿度两个途径来影响东亚夏季风;通过改变大陆-海洋经向热力对比影响南海季风爆发早晚;通过改变西太平洋副高位置和季风环流变化来影响华南和长江流域夏季降水的分布。在全球变暖背景下,青藏高原感热加热的减弱可能对降水年代际"南涝北旱"格局的形成具有重要贡献。随着全球变暖减缓,青藏高原中部和东部的感热呈现出复苏态势,"南涝北旱"的降水格局分布在将来有可能被打破。

青藏高原东北边缘及毗邻地区历史时期的人地关系及其演进

以人地相互作用为主线 ,本文探讨了历史时期青藏高原东北边缘及毗邻地区人地关系演进的时空背景、作用模式和基本特点 ,针对三个阶段人地相互作用的主导因素和动力机制的差异 ,分别建立了“气候波动主导下的人地交互作用模式”、“地缘格局主导下的人地地域互动模式”和“土地承载力限制下的人地关系循环模式”。

青藏高原东北缘及其毗邻地区人地关系地域系统研究

青藏高原东北缘及其毗邻地区人地系统具有国内其他地区无法比拟的多样性、过渡性与不稳定性特征 ,是极富人地关系研究理论与实践意义的地区。本文基于调查和实证分析 ,探讨了该地区人地系统地域分异的成因及其人地系统体系构成 ,重点对研究区内几个主要人地系统类型分别进行了三个方面的详细分析。并以协调论和可持续发展理论为指导 ,阐明了优化研究区人地系统和协调研究区人地关系的合理途径。

青藏高原东北边缘及毗邻地区自然环境与人地系统响应

在综合评价青藏高原东北边缘及毗邻地区的地貌、水文、气候、景观及自然环境特征的基础上 ,重点探讨了该地区人地系统对自然环境的响应 ,从而为人地关系的调控提供依据。

近10年青藏高原及其周边湍流通量变化的数值模拟

应用改进地表粗糙度的中尺度模式WRF模拟青藏高原及其周边地区2004-2013年地表湍流通量的变化特征,结果发现,自2004-2013年以来,青藏高原中部和东南部地区感热通量增加,分别增加了9. 952 W·m^-2·(10a)-1和14. 595 W·m^-2·(10a)^-1;青藏高原其他区域感热减小,减少了-4. 473 W·m^-2·(10a)^-1;青藏高原周边东南部横断山脉增加了9. 928 W·m^-2·(10a)^-1,云贵高原地区增加了9. 868 W·m^-2·(10a)^-1和江南丘陵地区增加了15. 177 W·m^-2·(10a)^-1;其他周边地区感热减小,减少的量级为-10. 26 W·m^-2·(10a)^-1。青藏高原东部地区潜热有较弱的增加[1. 175 W·m^-2·(10a)^-1],青藏高原其他区域都减小[-3. 762 W·m^-2·(10a)^-1];青藏高原东侧四川盆地、南侧孟加拉湾附近以及周边北部地区减弱,分别为-0. 27,-2. 416和-2. 287 W·m^-2·(10a)^-1;周边其他地区潜热通量都有不同程度的增加,我国东南部江浙地区有较强的增加[11. 385 W·m^-2·(10a)^-1],印度半岛增加的幅度不大[2. 988 W·m^-2·(10a)^-1],云贵高原以东缅甸增加[9. 287 W·m^-2·(10a)^-1]和黄土高原增加[1. 160 W·m^-2·(10a)^-1],但云贵高原是减少的[-2. 705 W·m^-2·(10a)^-1]。

Monitoring lake changes of Qinghai-Tibetan Plateau over the past 30 years using satellite remote sensing data

During the years 2006–2009,lakes in the Qinghai-Tibetan Plateau(QTP)were investigated using satellite remote sensing strategies.We report the results of this investigation as well as follow-up research and expanded work.For the investigation,we mainly focused on lakes whose areas are more than 1 km2.The remote sensing data that we used included 408 scenes of CBERS CCD images and 5 scenes of Landsat ETM?images in Qinghai Province and Tibet Autonomous Region.All these data were acquired around years 2005–2006.Besides remote sensing images,we also collected 1,259 topographic maps.Numbers and areas of lakes were analyzed statistically,which were then compared with those coming from the first lake investigation(implemented between the1960s and 1980s).According to our investigation,up to and around year 2005–2006,the total number of lakes in the QTP was 1,055(222 in Qinghai and 833 in Tibet),accounting for more than 30%of that of China.Thirty newborn lakes with area[1 km2were found,and 5 dead lakes with initial area[1 km2were also found.Among those 13 big lakes([500 km2),Yamzhog Yumco had seriously shrunk,and it has continued to shrink in recent years;Qinghai Lake had shrunk during the period,but some new researches indicated that it has been expanding since the year 2004;Siling Co,Nam Co,and Chibuzhang Co had expanded in the period.We divided the newborn lakes into six categories according to their forming reasons,including river expansion,wetland conversion,etc.The changes of natural conditions led to the death of four lakes,and human exploitation was the main reason for the death of Dalianhai Lake in Qinghai.We picked out three regions which were sensitive to the change of climate and ecological environment:Nagqu Region,Kekexili Region,and the source area of the Yellow River(SAYR).Lakes in both Nagqu and Kekexili have been expanded;meanwhile,most lakes in the SAYR have obviously been shrunk.These regional patterns of lake changes were highly related to variations of temperature,glacier,precipitation,and evaporation.Our investigation and analysis will provide references for researches related to lake changes in the QTP and the response to climate fluctuations.

Energy exchange of an alpine grassland on the eastern Qinghai-Tibetan Plateau

The seasonal variability in the surface energy exchange of an alpine grassland on the eastern Qinghai- Tibetan Plateau was investigated using eddy covariance measurements. Based on the change of air temperature and the seasonal distribution of precipitation, a winter season and wet season were identified, which were separated by transitional periods. The annual mean net radiation （Rn） was about 39 % of the annual mean solar radiation （Rs）. Rn was relatively low during the winter season （21% of Rs） compared with the wet season （54 % of Rs）, which can be explained by the difference in surface albedo and moisture condition between the two seasons. Annually, the main consumer of net radiation was latent heat flux （LE）. During the winter season, sensible heat flux （H） was dominant because of the frozen soil condition and lack of precipita- tion. During the wet season, LE expended 66 % of Rn due to relatively high temperature and sufficient rainfall cou- pled with vegetation growth. Leaf area index （LAI） had important influence on energy partitioning during wet season. The high LAI due to high soil water content （θv） contributed to high surface conductance （go） and LE, and thus low Bowen ratio （β）. LE was strongly controlled by Rn from June to August when gc and θv were high. During the transitional periods, H and LE were nearly equally parti- tioned in the energy balance. The results also suggested that the freeze-thaw condition of soil and the seasonal distribution of precipitation had important impacts on the energy exchange in this alpine grassland.

Structural framework and its evolution in Chasang area of Qiangtang Basin in northern Tibetan

Through comprehensive research on the various geophysical and geological data acquired recently, we consider that the Chasang area in the western uplift of Qiangtang is a huge south-dipping block which is overlapped by several east-west trending blocks rather than a simple and palaeo-doming existing for a long time. The structural and geophysical features of the area, which only alone limited between Shuanghu and Rongma districts, are of no regional significance. Their development is closely related with the approximately south-north trending transform faults developed during the Mesozoic era on the east and west sides of the area and their later continuous movement. The compressing, overlapping and uplifting of the Chasang area began at the stage of reversing of the Qiangtang Basin during the Lower Cretaceous, which is in direct relation with Bangonghu-Dingqing limited ocean's closure and the convergence of the neighboring blocks. The compression and overlapping of the area have further developed and reformed

Sr-Nd-Pb Isotopic Compositions of the Neogene Eolian Deposits in the Xining Basin and Implications for Their Dust Sources

The Neogene eolian deposits in the Xining Basin are valuable archive for studying the evolution of the Asian monsoon system and geomorphic processes of Northwest China. The Neogene eolian deposits that paleomagnetically dated at about 14 Ma probably were sourced from the middle and west Qinghai-Tibetan Plateau（QTP） as indicated by elemental compositions and magnetic properties. This study provides the Sr-Nd-Pb isotopic ratios of different sediments（gravels from the river terraces, Neogene eolian deposits and Quaternary loess） in the Xining Basin. The results show that：（1） Sr-Nd isotopic compositions of terrace gravels are different from those of the Neogene and Quaternary eolian deposits, although the Nd isotope ratios of gravel on the 10 th terrace（T10） and eolian deposits are similar.（2） Pb isotopic compositions of river gravels are obviously different from the eolian deposits in the Xining Basin. However, Pb isotopic compositions of eolian deposits in the basin are similar to those of eolian deposits in the central Chinese Loess Plateau.（3） Sr-Nd-Pb isotope results indicate that the Neogene eolian deposits in the Xining Basin were probably sourced from remote areas outside of the basin by long-distance transportation. The Qaidam Basin is probably an important source area for the eolian deposits in the Xining Basin.