SPOT卫星影像在德尔尼铜矿区域地质研究中的应用

利用卫星遥感影像对青海省德尔尼铜矿区的区域地质做了判释性研究 :( 1)判释出 3条左旋平移断层及一组羽式构造 ,并测得其中一条断层的左旋平移距离为 12 50m ,而在以往 1∶2 0万和 1∶5万的地质填图中均未发现这 3条断层的平移性质 ;( 2 )判释出作为蛇绿岩组成部分的地幔橄榄岩呈现与一般岩浆岩不同的影像特征。     

Decadal cimatic variations indicated by dulan tree-ring and comparison with other proxy data in China of the last 2000 years

Based on high-resolution tree-ring data from Dulan area of Qinghai Province, five spells have been divided: the warm period before 230’s A. D., the cold period between 240’s A. D. and 800’s A. D., the significantly warm period between 810’s A. D. and 1070’s, i. e. “Medieval Warm Period”, the cold period including the “Little Ice Age” 1420’ – 1870’s and the warming period since 1880’s. All the eleven coldest or warmest decades and several great abrupt changes took place before the Middle Ages, indicating that climatic system operated in great instability during the period 150’s – 1100’s A. D., Comparison of the tree-ring data with other temperature proxy data from East China, Guliya ice core as well as the south of Qinghai-Xizang Plateau shows that such great climatic events as Eastern Han warm period between the beginning of the 1st century and the previous fifty years of the third century, the cold period covering the span of the Wei, the Jin, and the Southern and Northern dynasties, the well-known “Medieval Warm Period” as well as the “Little Ice Age” appeared in these series such as East China and Dulan area. Only the first two climatic events were recorded conspicuously in Guliya ice core while the “Medieval Warm Period” and “Little Ice Age” is far weaker. Also, the well-defined “Medieval Warm Period” didn’t occurred in the south of Qinghai-Xizang Plateau. The warming since the 20th century is the warmest in the last 2000 years Guliya ice core, the second in Dulan area and East China, but it scarcely seems pronounced in the eastern part of Qinghai-Xizang Plateau. Foundation item: Under the auspices of the projects of the Chinese Academy of Sciences (KZ951-A1-204-02 and KZ951-A1 402-03). Biography: YANG Bao(1971–), male, a native of Yanggao County, Shanxi Province, Ph. D. His research interestinclude global change.     

基于脱钩指数和LMDI的青海省绿色低碳发展策略研究

推动青海省绿色低碳转型发展,既是推进黄河流域生态保护和高质量发展的迫切需要,也有助于缓解我国应对气候变化和碳减排工作压力。采用Tapio脱钩指数和对数平均迪氏指数(LMDI)分解法,在分析能源消费及碳排放变化与经济总量增长脱钩关系的基础上,对影响能源消费及碳排放的因素进行了分解研究,提出了推动青海省绿色低碳发展转型的着力点。主要结论：能源消费及碳排放与经济总量增长实现脱钩,且“十三五”时期“喇叭口”现象日益明显;人口和经济增长是能源消费和碳排放增长的主要驱动力;能源强度下降总体上减缓了能源消费和碳排放的增长,与第二产业能源消费强度变化密切相关;能源结构调整有效抑制了碳排放增长,且抑制作用不断增强;产业结构调整缓解能源消费需求的作用全面显现,但还需进一步调整第二产业结构。建议：提高有色金属冶炼、化工以及非金属矿物制品业等传统工业用煤效率和燃煤发电效率;减少对有色金属冶炼、化工等传统工业的过度依赖;推动风、光、水、火、储多能集约高效利用。     

Origin of Boron in the Gas Hure Salt Lake of NorthwesternQaidam Basin,China: Evidence from Hydrochemistry andBoron Isotopes

The Gas Hure Salt Lake(GHSL) in the northwestern Qaidam Basin, western China, is rich in boron(B)resources, but its B-resource origin is hardly known. Hydrochemical compositions and B isotope characteristics of different waters were collected around the GHSL, including the river water, stream water, spring water, salt-lake brine,intercrystalline brine, well water, drilling brine, and solar pond brine. The hydrochemical signatures suggest that silicates,carbonates and evaporates are the main B-bearing rocks during the water dynamic. The reservoir estimation of B resources shows that the Kulamulekesay River(KLMR) and the Atekan River(ATKR) contribute annually 18.3 tons and 22.84 tons of B, respectively, with a total amount of 11.72 × 10~4 tons of B during the past 5.7 ka. In comparison with the known B reservoir(32.96 × 10~4 tons) in the GHSL, a significant amount of B in the GHSL was probably recharged from deep fluids and sediments around the GHSL. The B concentration and B-enrichment degree are shaped by the evaporation process,which are highly elevated at the carnallite and bischofite stages.     

1961—2020年青海高原气候变化特征

选取1961—2020年青海高原50个地面气象观测站逐月气温（平均、最高、最低）、降水和风速资料,利用气候变化趋势转折判别模型（Piecewise Linear Fitting Model,PLFIM）、气候倾向率等方法,分析青海高原气候变化的时空分布和年代际趋势转折变化等特征。结果表明：〖JP2〗①近60年来青海高原年平均气温呈显著上升趋势,其中平均最低气温的升温速率尤为明显,为0.62 ℃〖DK〗·（10a）-1;年降水量呈波动上升趋势,进入21世纪后呈显著增加趋势,速率为39.9 mm〖DK〗·（10a）-1;年平均风速整体呈减小趋势,其中以茫崖站最为明显,风速减小速率为-0.56 m〖DK〗·s-1〖DK〗·（10a）-1。〖JP〗②年平均气温和平均最高气温在1972年和1983年发生了年代际趋势转折,平均最高气温第3次转折发生在2009年,平均最低气温没有发生明显的年代际趋势转折。年降水在1972年、1983年和2000年发生年代际趋势转折;年平均风速发生在1998年和2009年。③与旧气候态（1961—1990年）相比,新气候态下（1991—2020年）青海高原年平均气温、平均最高气温和平均最低气温的均值分别上升了1.16 ℃、1.22 ℃和1.81 ℃,向高温方向漂移,且概率密度分布形状更加偏平,气候趋于不稳定;④在全球变暖背景下,青海高原年平均气温和年降水量均呈增加趋势,其中年平均气温的增温速率远超中国、同纬度地区及全球平均水平;降水量年际波动较大,但整体呈增加趋势。     

气候变暖对青海高原地区植物物候期的影响

将青海高原划分为东部农业区、环青海湖区、三江源区和柴达木盆地4个地区,根据1983—2007年各个地区气象台站所观测的气象资料,利用统计学方法,分析了不同地区植物物候期对气候变化的响应。结果表明:东部农业区、环青海湖区、三江源区和柴达木盆地年平均气温均呈上升趋势。在气候变暖背景下,东部农业区、环青海湖区、三江源区植物返青普遍期呈提前趋势,柴达木盆地返青普遍期呈推迟趋势,4个地区黄枯普遍期均呈延迟趋势,植物生长季延长。年降水量各地变化趋势不同,年降水量和阶段降水对植物生长关键期的变化有一定影响,但与气温相比其影响相对较小。     

青海南部治多—杂多地区中二叠世火山岩特征及其构造环境

青海南部治多县杂多地区的中二叠世火山岩地质时代为中二叠世孤峰期至冷坞期,岩石类型为安山岩、玄武安山岩,属碱性玄武岩系列,Ti、P较高,Al较低,贫钾富钠,高REE,LREE显著富集,火山岩Zr/Nb比值变化为6.67～9.05,Hf/Th比值变化在0.29～0.35之间,Nb/Zr比值平均0.13,与大陆板内玄武岩一致,富集大离子亲石元素,高场强元素分异。地质及地球化学综合分析研究表明,青海南部治多县杂多地区的中二叠世火山岩形成于板内伸展拉张构造环境。     

A 1000-year record of Mg/Li and Li/Ca ratios of ostracod shells in Lake Qinghai,NE Tibetan Plateau

正1 Introduction Lake Qinghai,famous as the largest inland saline lake in China,located on the high-altitude northeastern Tibetan Plateau,and four junctional zones of the East Asian summer monsoon(EASM),Indian summer monsoon(ISM),East Asian winter monsoon and the westerly jet stream prevail,making it sensitive to global climate change     

风成沉积物粒度特征及其反映的青海湖周边近32 ka以来土地沙漠化演变过程

 湖东地区是青海湖周边土地沙漠化面积最大、程度最为严重的区域。选取青海湖湖东种羊场附近高度约为10 m的风蚀残丘（大水溏剖面）为研究对象,结合高密度采样和光释光测年,在对风成沉积物的粒度组成、粒度参数及粒度敏感指标进行分析的基础上,重建了32 ka以来青海湖周边的土地沙漠化演变过程。结果表明,32 ka BP以来青海湖周边土地沙漠化经历了末次冰期间冰阶（32～23.4 ka BP）的固结成壤期、末次冰期冰盛期（23.4～15 ka BP）的快速扩张期、末次冰期冰消期（15～10.4 ka BP）的缓慢减小期和全新世（10.4 ka BP至今）的快速缩小期4个阶段。     

青海湖水文特征及水位下降原因分析

青海湖自有记载以来,湖水位一直处于下降之中。通过分析流域内的各项水文因子的特征及湖泊水量平衡,看出流域内降水有逐步变小的趋势;湖泊长期处于水量收支负平衡中,致使湖水水位下降。降水变小及湖水位下降又改变了流域水文环境,使径流变小、径流系数下降。通过进一步分析发现,青海湖对降水变化的敏感性要大于其它因子的变化。