天山南、北坡典型河流出山径流对气候变化响应的分析对比

基于有关水文、气象台站的降水、气温和径流观测资料,对天山南、北坡的代表性河流——开都河与乌鲁木齐河上游山区径流变化及其对气候变化的响应进行了分析。在此基础上建立山区径流对气候变化的响应模型,假定不同的气候情景组合,就两条河流出山径流对气候变化的敏感性进行分析对比。结果表明,近40余年,两条河流山区年降水量、平均气温及径流总体上均呈波动状上升态势。一方面径流与降水、气温的变化呈明显的正相关关系;另一方面山区径流对降水、气温变化的响应的程度存在着明显的区域性差异,即乌鲁木齐河出山径流对降水变化的响应程度明显强于开都河,而开都河出山径流对气温变化的敏感性要高于乌鲁木齐河。     

天山南、北坡河流出山径流对气候变化的敏感性分析——以开都河与乌鲁木齐河出山径流为例

选取开都河与乌鲁木齐河山区流域为研究区域,利用有关水文气象台站1960-2005年的观测资料,对研究区域的气温、降水与出山径流的变化特征及趋势进行了分析,并根据研究区域气候变化的特征与趋势及出山径流与山区降水、气温之间的关系,假定不同的气候情景组合,建立山区径流对气候变化的响应模型,以揭示天山南、北坡河流出山径流对气候变化的响应及其差异.结果表明,开都河与乌鲁木齐河山区径流与气温、降水量均呈正相关关系,受山区降水、气温持续增加和上升的影响,出山径流总体呈上升趋势,1990年代以后的升幅尤为显著;相对而言,乌鲁木齐河山区径流对降水变化更为敏感,而开都河出山径流对气温变化的敏感性略甚于气温.     

1960年以来中国天山冰川面积及气候变化

Based on the statistics of glacier area variation measured in the Chinese Tianshan Mountains since 1960,the response of glacier area variation to climate change is discussed systematically.As a result,the total area of the glaciers has been reduced by 11.5% in the past 50 years,which is a weighted percentage according to the glacier area variations of 10 drainage basins separated by the Glacier Inventory of China (GIC).The annual percentage of area changes (APAC) of glaciers in the Chinese Tianshan Mountains is 0.31% after the standardization of the study period.The APAC varies widely for different drainage basins,but the glaciers are in a state of rapid retreat,generally.According to the 14 meteorological sta-tions in the Chinese Tianshan Mountains,both the temperature and precipitation display a marked increasing tendency from 1960 to 2009 at a rate of 0.34℃·(10a)-1 and 11 mm·(10a) -1,respectively.The temperature in the dry seasons (from November to March) increases rapidly at a rate of 0.46℃·(10a)-1,but the precipitation grows slowly at 2.3 mm·(10a)-1.While the temperature in the wet seasons (from April to October) grows at a rate of 0.25℃·(10a)-1,but the precipitation increases at 8.7 mm·(10a)-1.The annual and seasonal climatic trends ac-celerate the retreat of glaciers.     

Impact of climate change on the surface water of Kaidu River Basin

To reveal the changing trend and annual distribution of the surface water hydrology and the local climate in the Bayanbuluk alpine-cold wetlands in the past 50 years, we used temperature, precipitation, different rank precipitation days, evaporation, water vapor pressure, relative humidity, dust storm days and snow depth to analyze their temporal variations. We conclude that there were no distinct changes in annual mean temperature, and no obvious changes in the maximum or minimum temperatures. Precipitation in warm season was the main water source in the wetlands of the study area and accounted for 92.0% of the annual total. Precipitation dropped to the lowest in the mid-1980s in the past 50 years and then increased gradually. The runoff of the Kaidu River has increased since 1987 which has a good linear response to the annual precipitation and mean temperature in Bayanbuluk alpine-cold wetland. Climate change also affected ecosystems in this area due to its direct relations to the surface water environment.     

开都河流域气候变化对地表水的影响

1IntroductionWetlands, forests and oceans are the three main ecosystems with the highest ecological values in the world. According to the data of United Nations Environment Programme in 2002, the annual production value of the wetland ecosystems per hecta…     

天山东段冰雪消融与产汇流水文过程——以乌鲁木齐河源区为例

应用天山北坡乌鲁木齐河源区1 号冰川、空冰斗和总控3 个水文断面2011 年5-9 月每10min 实测水位数据、15 min 的气温、降水数据、1 号冰川消融及空冰斗区积雪观测数据,采用排除和不排除降水对冰雪消融产流影响的研究方法,系统分析了不同冰川覆盖率下水文断面冰雪消融特征及产汇流过程。结果表明：（1） 乌鲁木齐河源区3 个水文断面流量昼夜差异明显,1 号冰川水文断面白天径流大于夜晚径流,空冰斗和总控断面则相反;3 个断面流量亦具有显著日变化过程,且流量峰值大小和到来的时间存在差异。（2） 在排除与不排除降水两种天气影响下,1 号冰川最大流量滞后最高气温分别为1~3 h 和0~1 h;空冰斗断面分别为10~16 h和13 h,总控断面分别为5~11 h 和6~7 h,反映了1 号冰川从消融产流到汇流时间最短,空冰斗积雪消融产流时间最长,总控位于二者之间,同时亦反映伴随降水过程冰雪融水汇流迅速,即从产流到汇流时间有一定的缩短。（3） 影响3 个水文断面流量变化的因素不同,冰川区热量条件是影响1 号冰川水文断面的关键,1 号冰川在过去20 余年间,冰内、冰下排水道变得更为单一,对融水的阻滞和贮存作用弱化,融水汇流过程变得更为迅速。（4） 冰川覆盖山区流域水文断面在冰川消融期的流量过程线变化及最大流量与最高气温时滞变化规律在一定程度上对于认识冰川覆盖率有差异背景下的流域下垫面水系演化、冰雪消融过程及水文断面径流补给具有重要的指示意义。     

Hydrological processes of glacier and snow melting and runoff in the Urumqi River source region,eastern Tianshan Mountains,China

Hydrological processes were compared, with and without the influence of precipitation on discharge, to identify the differences between glacierized and non-glacierized catchments in the Urumqi River source region, on the northern slope of the eastern Tianshan Mountains, during the melting season (May-September) in 2011. The study was based on hydrological data observed at 10-min intervals, meteorological data observed at 15-min intervals, and glacier melting and snow observations from the Empty Cirque, Zongkong, and Urumqi Glacier No.1 gauging stations. The results indicated that the discharge differed markedly among the three gauging stations. The daily discharge was more than the nightly discharge at the Glacier No.1 gauging station, which contrasted with the patterns observed at the Zongkong and Empty Cirque gauging stations. There was a clear daily variation in the discharge at the three gauging stations, with differences in the magnitude and duration of the peak discharge. When precipitation was not considered, the time-lags between the maximum discharge and the highest temperature were 1-3 h, 10-16 h, and 5-11 h at the Glacier No.1, Empty Cirque, and Zongkong gauging stations, respectively. When precipitation was taken into consideration, the corresponding time-lags were 0-1 h, 13 h, and 6-7 h, respectively. Therefore, the duration from the generation of discharge to confluence was the shortest in the glacierized catchment and the longest in the catchment where was mainly covered by snow. It was also shown that the hydrological process from the generation of discharge to confluence shortened when precipitation was considered. The factors influencing changes in the discharge among the three gauging stations were different. For Glacier No.1 station, the discharge was mainly controlled by heat conditions in the glacierized region, and the discharge displayed an accelerated growth when the temperature exceeded 5°C in the melt season. It was found that the englacial and subglacial drainage channel of Glacier No.1 had become simpler during the past 20 years. Its weaker retardance and storage of glacier melting water resulted in rapid discharge confluence. It was also shown that the discharge curve and the time-lag between the maximum discharge and the highest temperature could be used to reveal the evolution of the drainage system and the process of glacier and snow melting at different levels of glacier coverage.     

乌鲁木齐河流域气候变化的区域差异特征及突变分析

利用乌鲁木齐河流域气象站的气温和降水资料,运用一元回归分析法和5年趋势滑动,进行了气候变化的趋势分析。结果表明:乌鲁木齐河流域的年平均气温在20世纪60-80年代偏低,90年代以后偏高,即80年代前呈下降趋势,90年代后呈上升趋势,并且秋、冬季升温幅度较大;60年代降水量最少,之后逐渐增多,2000年以来迅速增多;气温变化在空间上表现出上游气温低于下游,秋、冬季气候变暖明显早于春、夏季;降水变化的空间差异也明显。在此基础上,利用滑动T检验法、YAMAMOTO检验信噪比(SNR)、Mann-Kendall法、Cramer法和Pettitt法进行气候突变分析。结果表明:乌鲁木齐河流域气温降水突变不明显,不同方法检验的结果不太一致;春、夏季气温可能在1997年发生突变,而秋、冬季在80年代末90年代初发生突变。     

树木年轮记录的天山北坡中部过去338 a降水变化

 利用位于天山北坡中部9个气象站的降水资料与采自该地区的21个树木年轮年表序列进行分析。结果表明,9个气象站上年8月到当年7月的平均降水量与树木年轮标准化年表具有很好的相关性,最高单相关达到0.612（P<0.0001）。分析发现,生长季前期及春材形成期的降水变化对天山山区树木年轮径向生长量起着决定性作用。用四工河东白杨沟、呼图壁河赛热克巴依萨依、呼图壁河希热克久热特、四工河西白杨沟、奎屯河兰能果尔南5个标准化年表较好地重建了天山北坡中部近338 a来上年8月到当年7月的降水量,重建方程的方差解释量达到60.0%,经过统计检验和历史资料验证,表明重建序列是可靠的。对过去338 a天山北坡中部降水变化的特征分析表明,近338 a间,天山北坡中部降水大体经历了8个偏干和8个偏湿阶段,偏湿年份与偏干年份基本持平。最长的偏干阶段是1705—1750年,最干旱的阶段为1960—1989年,最干旱年份是1796年、1944年和1974年,降水偏少程度均大于27%;最长的偏湿阶段是1917—1959年,1690—1904年间为降水最为丰沛的时期。天山北坡中部338 a降水具有两年左右的变化准周期,在1751年发生了明显的由少到多的突变,在1958年前后发生了明显的由多到少的突变。     

天山乌鲁木齐河源区大西沟表土花粉散布特征

在天山乌鲁木齐河源区大西沟垂直植被带表土孢粉分析及植被调查的基础上，对大西沟垂直带的植被与表土孢粉的关系进行了探讨。从表土孢粉百分比含量可划分出4个孢粉带，其对应的植被带分别为高山垫状植被、高山草甸、亚高山草甸和云杉(Picea)林带。孢粉百分含量基本上反映了大西沟地区垂直植被带分布的特征。云杉、麻黄(Ephedra)、藜科(Chenopodiaceae)和蒿属(Artemisia)等植物花粉明显表现为超代表性。山谷上升气流在天山山地垂直植被带的表土孢粉散布中起着重要的作用。     

开都河天山出山径流量年际变化特征与洪水频率分析

随着塔里木河流域近期综合治理的深入进行,其源流之一开都河径流的变化与其趋势已逐渐成为国内外科学家关注的热点问题。当前塔里木河干流下游的生态恢复在较大程度上依赖开都河,利用开都河丰水期向塔河下游进行应急输水的方式短期是可行的,长期实施则潜伏着危机。如果在开都河进入水文枯水期时进行输水,则不仅影响开都河流域的生态环境,还将影响塔河下游“绿色走廊”治理目标的实现。因此,根据开都河近50年水文资料,利用滑动平均、频率分析等方法,分析了开都河径流量、洪峰流量的年际变化特征和规律。结果表明:开都河丰枯水期变化较平稳,1987年后其出径流量呈增加的趋势。同时,还计算出了不同重现期的洪峰设计值。     

近36年新疆天山山区气候暖湿变化及其特征分析

根据天山山区10个气象台站1971-2006年的历史气候资料,采用线性回归、最大熵谱、Mann-Kendall和自然正交分解(EOF)等方法,对近36年的年平均气温、降水量、最大可能蒸散量和下垫面湿润指数等气候要素的基本变化特征进行了分析,结果表明:(1) 近36年天山山区年平均气温呈升高趋势,降水量呈增多趋势,年最大可能蒸散量呈减少趋势,下垫面湿润指数呈增大趋势.受其综合影响,近36年天山山区气候呈较明显的暖湿化变化趋势. (2) 突变检测表明,天山山区年平均气温在1976年发生了突变性的升高,降水量和湿润指数在1986年发生了突变性的增大,而最大可能蒸散量在1986年发生了突变性的减小.(3) 36年里,降水量和湿润指数的变化不存在＜36年的显著周期,而温度变化具有＞36年、9年、4年和2.4年的显著周期,最大可能蒸散量变化具有＞36年、5.1年和2.4年的显著周期.(4) 10站的年平均气温、降水量、最大可能蒸散量和湿润指数等四要素的最主要空间分布特征均是同向变化.     

天山北坡土地利用/覆被及生态系统服务功能变化

土地利用/覆被变化及其生态效应是生态环境演变最重要的因素之一,其研究对于促进区域生态经济协调发展有重要意义。以天山北坡土地利用/覆被数据为基础,分析了土地利用/覆被与生态系统服务功能的时空特征及其差异。结果表明:1989年到2000年研究区草地、未利用土地面积明显减少,其它类型土地面积在增加,奇台县土地利用变化动态度最高,乌鲁木齐最低;区域生态系统服务功能从1989年的31 993.31×106元增加到2000年的32 126.27×106元,增加量为132.96×106元,增长率为0.42%,其中,增长最多的是奇台县,下降最大的是玛纳斯县;山前倾斜平原圈是土地利用/覆被变化与生态系统服务功能价值变化的集中区域。天山北坡生态系统服务价值没有降低不能说明生态环境得到了良好的维护与保育,将来区域发展必须加强生态环境保护力度。     

60-year changes and mechanisms of Urumqi Glacier No. 1 in the eastern Tianshan of China,Central Asia

Worldwide examination of glacier change is based on detailed observations from only a small number of glaciers. The ground-based detailed individual glacier monitoring is of strong need and extremely important in both regional and global scales. A long-term integrated multi-level monitoring has been carried out on Urumqi Glacier No. 1 (UG1) at the headwaters of the Urumqi River in the eastern Tianshan Mountains of Central Asia since 1959 by the Tianshan Glaciological Station, Chinese Acamedey of Sciences (CAS), and the glaciological datasets promise to be the best in China. The boundaries of all glacier zones moved up, resulting in a shrunk accumulation area. The stratigraphy features of the snowpack on the glacier were found to be significantly altered by climate warming. Mass balances of UG1 show accelerated mass loss since 1960, which were attributed to three mechanisms. The glacier has been contracting at an accelerated rate since 1962, resulting in a total reduction of 0.37 km² or 19.3% from 1962 to 2018. Glacier runoff measured at the UG1 hydrometeorological station demonstrates a significant increase from 1959 to 2018 with a large interannual fluctuation, which is inversely correlated with the glacier's mass balance. This study analyzes on the changes in glacier zones, mass balance, area and length, and streamflow in the nival glacial catchment over the past 60 years. It provides critical insight into the processes and mechanisms of glacier recession in response to climate change. The results are not only representative of those glaciers in the Tianshan mountains, but also for the continental-type throughout the world. The direct observation data form an essential basis for evaluating mountain glacier changes and the impact of glacier shrinkage on water resources in the interior drainage rivers within the vast arid and semi-arid land in northwestern China as well as Central Asia.     

Impacts of climate change and agricultural activities on water quality in the Lower Kaidu River Basin,China

In the context of climate change and over-exploitation of water resources, water shortage and water pollution in arid regions have become major constraints to local sustainable development. In this study, we established a Soil and Water Assessment Tool (SWAT) model for simulating non-point source (NPS) pollution in the irrigation area of the lower reaches of the Kaidu River Basin, based on spatial and attribute data (2010–2014). Four climate change scenarios (2040–2044) and two agricultural management scenarios were input into the SWAT model to quantify the effects of climate change and agricultural management on solvents and solutes of pollutants in the study area. The simulation results show that compared to the reference period (2010–2014), with a decline in streamflow from the Kaidu River, the average annual irrigation water consumption is expected to decrease by 3.84x10⁸ m³ or 8.87% during the period of 2040–2044. Meanwhile, the average annual total nitrogen (TN) and total phosphorus (TP) in agricultural drainage canals will also increase by 10.50% and 30.06%, respectively. Through the implementation of agricultural management measures, the TN and TP in farmland drainage can be reduced by 14.49% and 16.03%, respectively, reaching 661.56 t and 12.99 t, accordingly, and the increasing water efficiency can save irrigation water consumption by 4.41 x10⁸ m³ or 4.77%. The results indicate that although the water environment in the irrigation area in the lower reaches of the Kaidu River Basin is deteriorating, the situation can be improved by implementing appropriate agricultural production methods. The quantitative analysis results of NPS pollutants in the irrigation area under different scenarios provide a scientific basis for water environmental management in the Kaidu River Basin.

     

天山乌鲁木齐河源1号冰川致冷效应的小气候观测

高山冰川以其下垫面的致冷效应形成独特的冰川小气候.为研究冰川小气候特征,2007年7月在天山乌鲁木齐河源1号冰川表面及末端冰碛上架设5台自动气象站,并进行了为期一个月的基本气象要素的观测.以观测数据为基础,描述和分析了与冰川致冷效应有关的冰川区温度与湿度变化特征、冰面逆温、温跃现象、冰川风现象,并就冰川致冷效应对局地对...     

开都河流域上下游过去50 a气温降水变化特征分析

利用开都河流域上下游4个气象台站（上游巴音布鲁克,下游焉耆、和静、和硕）1960-2009年的气温、降水资料,采用趋势分析与距平等统计方法,分析了近50 a来开都河流域的主要气象要素变化特征。研究发现：（1）1960-2009年开都河流域上下游年平均气温均呈明显上升趋势,增长强度分别为0.27 ℃/10 a和0.22 ℃/10 a。2000年后气温升高尤其显著,上游和下游的气温分别较50 a平均水平偏高0.97 ℃和0.69 ℃。该流域年最高温没有明显增加,而上下游年最低气温分别上升0.41 ℃/10 a和0.61 ℃/10 a,并与年平均气温有较好的相关性。通过对不同年代际各月气温的分析,发现该地区气温季节性特征在过去50 a发生了明显的变化。主要表现为冬季气温总体上升,夏季气温相对稳定,冬季与夏季温差逐渐减小,季节性呈变弱趋势。上游年代际间气温季节变化较下游更明显;（2）开都河流域降水主要集中在夏季,近50 a上下游降水量均呈增加趋势且上游达显著水平。上下游在降水分布及变化特征上有较大差异,上游年平均降水总量（273 mm）明显高于下游（77 mm）,且上游降水量增加强度（9.13 mm/10 a）高于下游（5.34 mm/10 a）。降水量年代际之间有一定差异,降水波动主要是在夏季,上游降水量的波动性大于下游。     

增温增湿环境下天山山区降雪量变化

基于APHRO’s气温和降水数据集,运用气温阈值模型,分析了1961~2015年间天山山区降雪量变化特征。研究表明,自1961年以来,天山山区升温趋势显著,速率为0.027℃/a,且冬半年的升温速度大于夏半年。同时,3 000 m海拔以上区域的平均气温上升到0℃左右。冬季降水的增加速率为0.42 mm/a（P<0.01）,春季和夏季的降水量呈减少趋势。降雪量变化时空差异显著,3 000 m海拔以上区域降雪随气温的升高而增加,而3 000 m以下区域降雪随气温的升高而减少。最大降雪量气温是控制降雪变化的关键因子,当平均气温低于最大降雪量气温时,随气温升高降雪量呈增加趋势;当平均气温高于最大降雪量气温时,随气温升高降雪量呈减少趋势。     

中国天山冰川变化脆弱性研究

冰川是重要的淡水资源,对社会经济发展和生态环境影响显著,而其变化的脆弱性也关乎区域生态服务和经济可持续发展。本文以中国天山为例,基于脆弱性的暴露度、敏感性、适应能力构建涵盖自然地理特征、人口状况、社会经济水平、农业发展和社会服务等因素的冰川变化脆弱性框架,并以此针对性构建评价指标体系,探析天山冰川变化脆弱性的空间特征,采用地理探测器模型探讨自然、社会、经济和人口等因素对冰川变化适应能力的影响及交互作用。结果表明：① 脆弱性等级由西部地区向东部地区呈降低趋势,且水平差异显著。天山东部地区脆弱性最低、中部地区次之、西部地区较高。② 暴露度、敏感性和适应能力在空间上分别存在明显正相关与负相关,表明区域范围内冰川变化具有高暴露、高敏感地区往往适应能力较低,进而导致脆弱性较高;反之,脆弱性较低。③ 天山应对冰川变化能力的空间异质性是自然、社会、经济和人口因素共同作用的结果。其中,第二、三产业产值、城镇人口数、城镇固定资产投资与年末单位从业人员等因素具有主导作用。     

天山乌一号冰川物质平衡特征的统计分析

利用天山乌鲁木齐河源一号冰川物质平衡的多年观测资料,通过数学统计方法提取主成分,获得影响该冰川物质平衡的主要因素,通过成分矩阵的旋转获得表示冰川物质平衡特征的两个主因子,其中第一主因子为影响冰川物质平衡的常年因子,代表该冰川的多年持续变化方向与趋势,第二主因子为影响冰川物质平衡的年际因子,代表该冰川在平衡年内的物质平衡变化特征。常年因子的持续下降反映了冰川持续后退的现实,年际因子在上世纪80年代中期以后突然强劲上升,实际上是冰川物质平衡水平提高,平衡年内积累量和消融量都增加的表现,清晰地指示了西北地区气候由暖干向暖湿的转型。常年因子是冰川物质平衡变化的主导因子,控制了冰川变化的方向。常年因子具有较好的周期性,以6年周期最为明显,但其形成原因尚不明。年际因子周期性不明显,但可以看出其周期与太阳黑子变化具有相关性,同时受到常年因子的影响。