Net ecosystem CO_2 exchange and controlling factors in a steppe——Kobresia meadow on the Tibetan Plateau

Knowledge of seasonal variation of net ecosystem CO2 exchange (NEE) and its biotic and abiotic controllers will further our understanding of carbon cycling process, mechanism and large-scale modelling. Eddy covariance technique was used to measure NEE, biotic and abiotic factors for nearly 3 years in the hinterland alpine steppe--Korbresia meadow grassland on the Tibetan Plateau, the present highest fluxnet station in the world. The main objectives are to investigate dynamics of NEE and its components and to determine the major controlling factors. Maximum carbon assimilation took place in August and maximum carbon loss occurred in November. In June, rainfall amount due to monsoon climate played a great role in grass greening and consequently influenced interannual variation of ecosystem carbon gain. From July through September, monthly NEE presented net carbon assimilation. In other months, ecosystem exhibited carbon loss. In growing season, daytime NEE was mainly controlled by photosynthetically active radiation (PAR). In addition, leaf area index (LAI) interacted with PAR and together modulated NEE rates. Ecosystem respiration was controlled mainly by soil temperature and simultaneously by soil moisture. Q10 was negatively correlated with soil temperature but positively correlated with soil moisture. Large daily range of air temperature is not necessary to enhance carbon gain. Standard respiration rate at referenced 10℃(R10) was positively correlated with soil moisture, soil temperature, LAI and aboveground biomass. Rainfall patterns in growing season markedly influenced soil moisture and therefore soil moisture controlled seasonal change of ecosystem respiration. Pulse rainfall in the beginning and at the end of growing season induced great ecosystem respiration and consequently a great amount of carbon was lost. Short growing season and relative low temperature restrained alpine grass vegetation development. The results suggested that LAI be usually in a low level and carbon uptake be relatively low. Rainfall patterns in the growing season and pulse rainfall in the beginning and at end of growing season control ecosystem respiration and consequently influence carbon balance of ecosystem.     

Response of canopy quantum yield of alpine meadow to temperature under low atmospheric pressure on Tibetan Plateau

An open-path eddy covariance system was set up in Damxung rangeland station to measure the carbon flux from July to October, 2003. The canopy quantum yield (α) of alpine meadow was calculated by the linear function between the net ecosystem carbon dioxide exchange (NEE) and the photosynthetic active radiation (PAR) under low light, and how it was influenced by the temperature was also discussed. Results showed that the canopy or decreased almost linearly with temperature, with the decrease in every 1℃increase of temperature similar to those measured on leaf level of C3 plant. At the beginning, the decrease of canopyαwith temperature was 0.0005 umol CO2·μmol-1 PAR; while it increased to 0.0008μmol CO2·μmol-1 PAR in September, showing a rising trend with plant growing stages. Compared with the canopy a calculated with rectangular hyperbola function, the value in the paper was lower. However, the method advanced here has the advantages in examining the relationship betweenαand the key environmental factors, such as temperature.     

高密度电阻率法的2.5维反演软件

介绍了不平地形条件下高密度电阻率法2.5维反演的算法和程序,该程序可用于九种常用电极装置观测结果的反演。对理论和实测数据的反演结果表明,该算法正确,程序运行稳定,反演效果很好。     

中国大陆主要块体现今变形状态的反演研究

本文利用中国大陆的GPS运动速度场,研究了其中的7个亚板块和14个构造块体的变形状态,并做了动力学解释。研究中,构造了一种运动-变形模型来提取观测数据中的变形信息。结果表明:南北构造带东西两侧应变状态表现出显著的差异,西部各亚板块或块体的主应变量值从约4.5×10-8.a-1到约1.3×10-8.a-1,东部则从约3.0×10-.8a-1到约0.4×10-.8a-1,表明东西两部应变量值有较大的落差,并且主压应变方向从西部的北北东向逐步转到东部北东东向。南北构造带表现为其不同段落的各块体的变形趋势和量级都有显著不同。川滇块体是东部与西部的结合部位,变形量较大,主压应变为3.4×10-8.a-1,反映了印度板块向北的推挤在川滇块体造成了较大变形。中国北部地区向东西两个方向运动,塔里木块体、准噶尔块体、天山块体向西,柴达木-祁连山块体、阿拉善块体向东。这种推挤力和太平洋板块阻碍、遏制作用,造成了华北块体、鄂尔多斯块体以拉张为主的应变和逆时针旋转。     

遥感地面辐射观测中的视场效应问题研究

以典型的垄行作物玉米为研究对象，提出了一种新的视场效应分析方法：网格模型法。该方法将目标空间和测量空间网格化，然后在网格空间计算观测视场内的组分比例，进而确定组合信号值。本文采用网格模型法分析了垄行作物亮叶、暗叶、亮土、暗土四分量在传感器视场中面积权重变化、空隙率的变化、方向亮温的变化、红波段反射率的变化、红外波段反射率的变化以及植被指数NDVI的变化率，研究了不同观测角度情况下视场效应的变化。     

大地测量反演模型准外部检验的进一步探讨

反演模型质量的好坏对反演结果及后期的反演解释影响很大.本文给出了大地测量反演模型准外部检验的基本理论,提出了观测数据的划分方法和反演模型准外部质量控制的标准,当没有先验信息对模型进行检验和约束且数据量很大、很复杂时,该法是一种很有效的检验方法.     

松花江干流（哈尔滨段）春季最低水位预测方法

利用1949~2003年松花江(哈尔滨段)最低水位资料,分析松花江干流(哈尔滨段)春季最低水位变化规律和典型枯水年成因,分析了其与松花江、嫩江等松花江流域面雨量的相关性,与拉尼娜、厄尔尼诺、太阳黑子等的关系。以松花江、嫩江、第二松花江流域7~11月面雨量总和及前一年松花江干流(哈尔滨段)最高水位为因子,预测2004~2013年松花江干流(哈尔滨段)最低水位。利用方差周期方法、均生函数方法对2004~2013年拉尼娜、厄尔尼诺、太阳黑子及松花江、嫩江、第二松花江流域月面雨量进行预测,并以此预测对2004~2013年松花江干流(哈尔滨段)最低水位进行订正,得出预测结论。     

宁夏鸳鸯湖电厂空冷气象条件分析

通过在宁夏鸳鸯湖电厂建立气温、风向、风速60 m梯度及地面观测站,与邻近的灵武市气象站展开为期一年的同步观测,获得实地观测资料。利用两地同步气象观测资料进行对比分析,揭示出电厂所在地气候特点。同时结合灵武市气象站1971~2000年观测资料,采用相关性分析方法,订正得到电厂地面历年气象要素特征值。结果表明,电厂风向和风速特征明显有别于邻近的灵武市气象站。分析结果主要用于该地火电厂空冷系统的安装与安全运行。     

近40 a石河子地区气候暖湿化特征分析

分析了40 a气温、降水及干旱指数的变化特征,结果表明:(1)近40 a石河子地区平均温度以0.3℃/10 a趋势上升,和全疆变化一致;该地区年、冬季、夏季气温总体呈上升趋势,20世纪60~70年代年、冬季、夏季气温呈降低的趋势,80~90年代气温呈增加趋势,80年代冬季升温比夏季升温明显,而90年代夏季升温比冬季明显。(2)降水总体趋势上升,降水增长率为12.5 mm/10 a,90年代平均降水比30 a均值偏多20.8%。(3)年平均干旱指数总体呈下降趋势,但趋势不明显,其减少率为-0.3/10 a。(4)石河子地区的温度、降水及干旱指数用M ann-kendall方法检验分别在不同年份发生了不同程度的突变。结果指出,石河子地区气候正在趋于暖、湿化,这对于本区绿洲的发展具有有利的一面。     

2003年11月13日岷县ML5.5级地震震源机制的矩张量反演

利用2003年11月13日岷县5.5级地震震中周围7个台站的数字记录反演了本次地震的矩张量,对所得结果与用P波初动符号的结果进行了比较,二者具有较好的一致性。结合该地区的地震分布和本次地震的余震分布,对可能的发震断层进行了讨论。