Vertebrate Paleontology in Tibetan Plateau: Progress and Prospects     

WANG Xiaoming  LI Qiang 《《地质学报》英文版》2013,87(Z1):889-891

  相似文献   

北麓河多年冻土区降水及河水稳定同位素特征分析          下载免费PDF全文

杨玉忠  吴青柏  贠汉伯 《水科学进展》2013,24(6):778-785

为了进一步全面理解和探索青藏高原水文水循环过程,采用同位素方法并结合气象资料对青藏高原北麓河区域2011年6~12月降水和河水稳定同位素时空特征进行分析。探讨了北麓河降水同位素与日平均气温、降水量之间的相互关系,同时也对比分析了北麓河降水和河水的同位素变化特征。结果表明:北麓河降水同位素在整个观测期内总体受温度控制,但存在季节变化,其中6~9月降水同位素受到温度和降水量效应的共同控制,9月以后则主要受温度的影响。河水同位素与降水同位素相似的变化特征,体现了降水补给特征,另外降水量也能够影响河水同位素变化:降水量小则降水对其影响较小,反之则大。与北麓河降水线相比,河水δ18O~δD关系的斜率和截距偏大,揭示该区域河水除了受大气降水的补给外,还受到区域水体内循环和蒸发分馏作用的影响。  相似文献   

青藏高原草地地上生物量和理论载畜量     

张宪洲  李猛  武建双  何永涛  牛犇 《资源与生态学报(英文版)》2022,13(1):129-141

准确模拟和预测草地地上生物量(Aboveground biomass,AGB)和理论载畜量对于维持草地生态系统平衡、优化放牧管理至关重要。当前很多研究以围栏外草地AGB为基础,估算了青藏高原草地AGB的现存量。但是,牛羊啃食后的草地AGB现存量无法准确评估草地理论载畜量。围栏内草地不受家畜采食影响,其年际变率由环境因子驱动,可视为草地潜在AGB (potential AGB,AGB_p),更适用于草地理论载畜量的评估。本研究以青藏高原345个围栏内AGB观测数据为基础,结合气候、土壤和地形数据,利用随机森林算法构建草地潜在地上生物量估算模型,并对当前气候条件(2000-2018年)和未来20年(2021-2040年)4种气候变化情景(SSP1-2.6、SSP2-4.5、SSP3-7.0和SSP5-8.5)下的草地AGB_p和高寒草地理论载畜量进行模拟与预测。结果表明:(1)随机森林算法可准确模拟当前气候条件下的青藏高寒草地AGB_p(R²=0.76,P<0.001);2000-2018年青藏高寒草地AGB_p平均值为102.4 g m^-2,时间上增加趋势不明显(P>0.05);AGB_p年际波动和生长季降水显著正相关(R²=0.57,P<0.001),和生长季温度日较差显著负相关(R²=0.51,P<0.001)。(2)当前气候条件下,青藏高寒草地平均理论载畜量为0.94 SSU ha^-1(standardized sheep unit ha^-1);在过去20年约有54.1%草地理论载畜量呈提升状态。(3)和当前相比,未来20年青藏高原中部和北部草地AGB_p和理论载畜量呈下降态势。因此,建议未来在厘清气候变化影响下草畜关系的基础上进行有针对性的草牧业规划和管理,以缓解区域气候变化引起的草畜矛盾。  相似文献   

藏北青南高原地表风蚀粗化特征     

张亚静  张春来  魏国茹  伍永秋  李文平 《地理研究》2022,41(10):2793-2807

藏北青南高原长期受风蚀影响,地表粗化现象明显。本研究系统采集该区东西向调查样带内表层（0~1 cm）与浅层（1~10 cm）土壤样品,通过粒度测定、构建能够表征土壤风蚀粗化程度的风蚀粗化指数（WECI）,分析该区地表风蚀粗化特征。结果表明：藏北青南高原土壤中砾石、极粗砂、粗砂等粗颗粒组分在表层土壤中含量较浅层土壤有所增加,自西向东逐渐减少;黏土与粉砂等细颗粒组分相反,表层较浅层土壤中含量明显下降,自西向东逐渐增加。从样带东部的高寒草甸区到中部高寒草原区和西部高寒草原与荒漠草原过渡区,表层土壤环境敏感组分逐渐变粗,各区域平均风蚀粗化指数依次为1.05、1.47和1.77,地表风蚀粗化趋于加剧。现有文献常用的土壤粒度分形维数与土壤质地粗化度是刻画土壤质地粗细程度的静态指标,无法衡量风蚀导致的地表颗粒组成变化,本文构建的风蚀粗化指数克服了上述不足,且具有风蚀动力学依据。  相似文献   

CO2 processes in an alpine grassland ecosystem on the Tibetan Plateau     

PEI Zhiyong  OUYANG Hua  ZHOU Caiping  XU Xingliang 《地理学报》2003,13(4):429-437

In this paper, the CO2 concentrations profile from 1.5 m depth in soil to 32 m height in atmosphere were measured from July 2000 to July 2001 in an alpine grassland ecosystem located in the permafrost area on the Tibetan Plateau, which revealed that CO2 concentrations varied greatly during this study period. Mean concentrations during the whole experiment in the atmosphere were absolutely lower than the CO2 concentrations in soil, which resulted in CO2 emissions from the alpine steppe soil to the atmosphere. The highest CO2 concentration was found at a depth of 1.5 m in soil while the lowest CO2 concentration occurred in the atmosphere. Mean CO2 concentrations in soil generally increased with depth. This was the compositive influence of the increasing soil moistures and decreasing soil pH, which induced the increasing biological activities with depth. Temporally, the CO2 concentrations at different layers in air remained a more steady state because of the atmospheric turbulent milking. During the seasonal variations, CO2 concentrations at surface soil interface showed symmetrical patterns, with the lowest accumulation of CO2 occurring in the late winter and the highest CO2 concentration in the growing seasons.  相似文献   

Quaternary geomorphological evolution of the Kunlun Pass area and uplift of the Qinghai-Xizang (Tibet) Plateau   总被引：6，自引：0，他引：6  

Yongqiu Wu  Zhijiu Cui  Gengnian Liu  Daokai Ge  Jiarun Yin  Qinghai Xu  Qiqing Pang 《Geomorphology》2001,36(3-4)

There is a set of Late Cenozoic sediments in the Kunlun Pass area, Tibetan Plateau, China. Paleomagnetic, ESR and TL dating suggest that they date from the Late Pliocene to the Early Pleistocene. Analyses of stratigraphy, sedimentary characteristic, and evolution of the fauna and flora indicate that, from the Pliocene to the early Quaternary (about 5–1.1 Ma BP), there was a relatively warm and humid environment, and a paleolake occurred around the Kunlun Pass. The elevation of the Kunlun Pass area was no more than 1500 m, and only one low topographic divide existed between the Qaidam Basin and the Kunlun Pass Basin. The geomorphic pattern in the Kunlun Pass area was influenced by the Kunlun–Yellow River Tectonic Movement 1.1–0.6 Ma BP. The Wangkun Glaciation (0.7–0.5 Ma) is the maximum Quaternary glaciation in the Pass and in other areas of the Plateau. During the glaciation, the area of the glaciers was 3–5 times larger than that of the present glacier in the Pass area. There was no Xidatan Valley that time. The extreme geomorphic changes in the Kunlun Pass area reflect an abrupt uplift of the Tibet Plateau during the Early and Middle Pleistocene. This uplift of the Plateau has significance on both the Plateau itself and the surrounding area.  相似文献   

黄土高原地区退耕还林工程的农户响应与影响因素——以甘肃定西大牛流域为例   总被引：13，自引：6，他引：7  

马岩  陈利顶  虎陈霞 《地理科学》2008,28(1):34-39

以甘肃省退耕还林(草)重点实施区为例,通过问卷调查和定量回归分析,研究农户对退耕还林(草)工程的认识和态度。总体上农民有较高的生态环境保护意识,对退耕还林(草)政策的认识基本持积极支持的态度;年龄、文化程度、家庭人口、劳动力数量、人均耕地数量、退耕还林(草)面积是影响农户环保意识和对退耕还林(草)态度的主要因素,农业和非农业农户之间存在一定差异。  相似文献   

黄土高原作物产量及水土流失地形分异模拟   总被引：5，自引：0，他引：5  

徐勇  杨波  刘国彬  刘普灵 《地理学报》2008,63(11):1218-1226

退耕坡地是近年来黄土高原整治生态环境和控制水土流失的有效措施。基于WIN_YIELD 软件, 以延安燕沟流域为例,利用2005 年延安站的逐日气象数据和燕沟流域地貌、土壤及土地利用等资料, 模拟分析了不同地形高程、坡度和坡向条件下不同作物产量及水土流失的分异特征。结果表明： 在黄土高原, 地形坡度是影响作物产量、径流和泥沙的重要因素, 地形高程和坡向的影响普遍较微弱; 地形坡度越大, 作物产量越低, 高粱和玉米在坡度为25^o 时的产量模拟值分别较0^o 时下降15.44%和14.32%, 大豆、绿豆和马铃薯的下降幅度依次为5.26%、4.67%和3.84%; 产生径流和泥沙随地形坡度的增大而增大, 在坡度20^o左右存在一个高值区间; 不同作物的水土保持效益由高到低依次为大豆、绿豆(豆类)、马铃薯、玉米和高粱; 坡度小于5^o的坡耕地可以不进行梯田改造, 坡度大于15^o 的坡耕地应及早实现退耕还林还草。  相似文献   

TRMM多卫星降水分析资料揭示的青藏高原及其周边地区夏季降水日变化   总被引：8，自引：0，他引：8       下载免费PDF全文

白爱娟  刘长海  刘晓东 《地球物理学报》2008,51(3):704-714

本文在对比了TRMM多卫星降水分析TMPA(TRMM Multi-satellite Precipitation Analysis)资料和中国643个气象站观测降水量时空分布的基础上,采用2002~2006年夏季TMPA每小时降水量资料,用合成分析和谐波分析的方法研究了青藏高原及其周边地区夏季降水量和降水频率的日变化特征.分析结果表明,平均降水量和降水频率日变化谐波分析的标准振幅显示出青藏高原地区夏季降水具有显著的日变化特征,高原中部地区对流活动日变化最强,其次是高原西南方向的印度半岛地区.谐波分析的位相表明降水量和降水频率最大值出现的时间具有选择性,高原中部降水量最大值多集中在傍晚前后,高原以东的四川盆地通常在夜晚,尤其是在后半夜达到最大值,而长江上游和中下游地区对流活动则分别在上午和下午最为活跃.青藏高原以东地区降水量日变化的位相明显不同于其他陆地地区,也不同于高原中部,具有自西向东传播的信号,四川盆地的夜雨现象可能是高原地区对流活动日变化自西向东传播的结果.  相似文献   

Temporal variation in soil detachment under different land uses in the Loess Plateau of China   总被引：9，自引：0，他引：9  

Guang‐hui Zhang  Ming‐ke Tang  X. C. Zhang 《地球表面变化过程与地形》2009,34(9):1302-1309

Measurements of temporal variations in soil detachability under different land uses are badly needed to develop new algorithms or evaluate the existing ones for temporal adjustment of soil detachability in continuous soil erosion models. Few studies have been conducted in the Loess Plateau to quantify temporal variations in detachment rate of runoff under different land uses. The objectives of this study were to investigate the temporal variations of soil detachment rate under different land uses and to further identify the potential factors causing the change in detachment rate in the Loess Plateau. Undisturbed soil samples were collected in the fields of arable land (millet, soybean, corn, and potato), grassland, shrub land, wasteland, and woodland and tested in a laboratory flume under a constant hydraulic condition. The measurements started in mid‐April and ended in early October, 2006. The results showed that soil detachment rate of each land use fluctuated considerably over time. Distinctive temporal variation in detachment rate was found throughout the summer growing season of measurement in each land use. The maximum detachment rates of different land uses varied from 0·019 to 0·490 kg m^–2 s^–1 and the minimum detachment rates ranged from 0·004 to 0·092 kg m^–2 s^–1. Statistical analysis using a paired‐samples t‐test indicated that variations in soil detachment rate differed significantly at the 0·05 level between land uses in most cases. The major factors responsible for the temporal variation of soil detachment were tillage operations (such as planting, ploughing, weeding, harvesting), soil consolidation, and root growth. The influence of tillage operations on soil detachment depended on the degree of soil disturbance caused by the operations. The consolidation of the topsoil over time after tillage was reflected by increases in soil bulk density and soil cohesion. As soil bulk density and cohesion increased, detachment rate decreased. The impact of root density was inconclusive in this study. Further studies are needed to quantify the effects of root density on temporal variations of soil detachment. This work provides useful information for developing temporal adjustments to soil detachment rate in continuous soil erosion models in the Loess Plateau. Copyright © 2009 John Wiley & Sons, Ltd.  相似文献