Study on the Source Parameters of Earthquakes in the Middle Eastern Area of North Tianshan in Xinjiang

By applying the empirical Green’s function method, we first proved that the source spectra in the middle eastern area of North Tianshan follow the ω -2 Brune model, and then, on this basis, obtained the source spectra for 105 earthquakes of ML 2.5～5.7 in the studied area upon removing the noise, instrument, propagation and site effects in the observational seismic S waveforms. Finally, we determined the source parameters such as the seismic moment, stress drop, source dimension, etc., based on the Brune model. The results show that there is a good linear correlation between scalar seismic moment, M0, and ML, which is Log 10 M0=1.10 ML + 17.20; The source radii range between 100～1500m; the stress drop, 1～16MPa with a predominant range of 1～10MPa. The relationship of the seismic moment versus corner frequencies indicates that there may exist two source scaling, that is, when M0<4×10 21 dyne5cm （equal to an ML4.0 event）, stress drop is weakly dependent on M0; whereas, when M0>4×10 21 dyne5cm, stress drop is independent of M0.

Age and Provenance of Loess deposits on the Northern Flank of Tianshan Mountain

The distribution, optically stimulated luminescence dating and granulometric properties suggest that the loess on the northern flank of Tian Shan should be divided into two types. One which is like mantle and is named type A, is located on the windward slopes and dated to about 54.5±5.73 Ka. The other, called type B, lies flatly on the terraces of the rivers or low hills and penetrated 30.8±2.05 Ka ago. Here we study the origin and the age of two types of loess, and a model of loess formation is proposed. The dust was entrained from the Gobi Desert located to the north of Tian Shan by the monsoon from Mongolia, obstructed by the high mountains and deposited on the windward slopes of the mountains. The rivers and flows then transported the aeolian loess to low terraces and piedmont alluvial plains.

Provenance of upper Permian-lowermost Triassic sandstones, Wutonggou low-order cycle, Bogda Mountains, NW China:implications on the unroofing history of the Eastern North Tianshan Suture

This study investigates the provenance of sedimentary rocks in Bogda Mountains, NW China, and reconstructs the lithology and unroofing history of the Eastern North Tianshan Suture. Petrographic point counting data of sandstones and compositions of conglomerates of upper Permian-lowermost Triassic Wutonggou low-order cycle from Zhaobishan, North Tarlong, Taodonggou, and Dalongkou sections in the southern and northern foothills of Bogda Mountains were used to interpret the temporal and spatial variations of lithology of the Eastern North Tianshan Suture, which is the sediment source area. Three compositional trends were identified. A trend of upwardincreasing quartz content and granitic pebbles in Zhaobishan section suggests a change from the undissected volcanic arc, accretionary wedge and trench setting to predominantly transitional volcanic arc and subordinate accretionary wedge and trench, in the eastern part of the Eastern North Tianshan Suture. In North Tarlong and Taodonggou sections, however, the lithic content decreases and the contents of quartz and granitic pebbles increase up sections. These trends indicate that the western part of the Eastern North Tianshan Suture changed from an undissected volcanic arc to the transitional volcanic arc, accretionary wedge and trench. No clear trend in the lithic-rich sandstones of the Dalongkou section indicates that sediments were derived from the undissected volcanic arc in the Eastern North Tianshan Suture and local rift shoulders. Compositional variations of studied rocks suggest that the Eastern North Tianshan Suture was an amalgamated complex with great spatial and temporal heterogeneities in lithology and experienced persistent unroofing during late Permian-earliest Triassic. This study reconstructs a key element of the Chinese Tianshan Suture and serves as an example to understand the unroofing processes of ancient sutures.

Climate Change and Its Effects on Runoff in the North of Tianshan,Xinjiang

[Objective] The aim was to study climate changes in northern Tianshan in Xinjiang and its influences on runoff. [Methed] Based on the runoff data for 54 years of Kenswatt station on Manas River and the climate date of 16 meteorological stations from 1957 to 2007 in the north of Tian- shan in Xinjiang, the climate change and temporal series of the annual runoff were studied by use of nonparametric test, wavelet analysis, R/S analysis and periodic trend superposition model. [ Result] The temperature, precipitation and annual runoff of Manas River increased significantly. The Hurst coefficients of both climate factors and the annual runoff were bigger than 0.5, which indicated that they would still keep an increasing trend. Temperature from 1957 to 1959 was low, precipitation was much, belonging to low temperature and more rain period. 1960s and 1970s were low temperature and less rain period. Temperature in 1980s was close to average value and precipitation was little. Since 1990s, it entered into high temperature and less rain period and was significant during 2000 and 2007. The temperature and precipitation changed in 1995 and 1996. Tempera- ture was＇significant in 11 and 22 years. Precipitation had 5, 8, 14 and 22 years of main cycle. The annual runoff and climate factors in Manasi River were increasing in different times. The annual runoff was related to climate factors, and temperature was closer to annual runoff than precipitation. [ Conclusion] The study provided theoretical basis for the reasonable configuration, ecological protection and agricultural production of water re- sources in north Tianshan in Xinjiang.

Analysis on Variations of the Temperature and Precipitation in North Slope Area of the Western Tianshan in Recent 50 Years

[Objective] The research aimed to analyze variation characteristics of the temperature and precipitation in north slope area of the Western Tianshan in recent 50 years.[Method] According to temperature and rainfall data from 1961 to 2010 at three meteorological stations in north slope area of the Western Tianshan,climate change in the zone in recent 50 years was analyzed by using linear trend analysis method and 5-year sliding average method.[Result] The temperature in north slope area of the Western Tianshan showed significant warming trend.The annual average temperature significantly increased at 0.3 ℃/10 a in recent 50 years.But rise rates of the temperature in different seasons were different:autumn> winter> spring> summer.The annual rainfall in north slope area of the Western Tianshan in recent 50 years overall presented relative increase trend.Seen from annual rainfall,it significantly increased at 16.9 mm/10 a.Seen from seasonal rainfall,except in autumn,rainfalls in other three seasons in the past 50 years all showed significant increase trends,with amplitude of 3.2-11.2 mm/10 a.The largest increase amplitude was in summer.After a small precipitation peak in the 1980s,autumn rainfall slightly declined in the past 20 years.[Conclusion] The climate in north slope area of the Western Tianshan become warm and wet.

新疆中天山北坡断裂带不同海拔高度土壤温度分布特征

研究中天山断裂带从高山带到准噶尔盆地边缘整个过渡带的土壤温度分布特征有助于理解干旱区土壤环境特征,从而为土地利用、农业生产提供依据。本文选取新疆中天山断裂带海拔高度呈梯度分布的6个气象站2005年至2020年各层土壤温度的日观测数据,利用统计方法分析了不同地形、不同深度土壤温度随海拔高度的变化特征以及不同海拔高度土壤温度随深度的变化特征。分析表明:中天山北坡土壤温度变幅随海拔高度的降低而升高。不同地形的土壤最高温和最低温的年温差浅层大于深层,由浅至深年最高温度和年最低温度出现的时间逐渐推迟;年内中天山北坡不同海拔高度0~20 cm的土壤日平均温度曲线大致呈余弦函数曲线,320 cm深度的土壤温度基本呈正弦函数分布,较0~20 cm地温的最高和最低晚3个月左右。研究区土壤温度随海拔高度降低呈现先升高后降低的趋势。在海拔为3539~600 m高度范围,土壤温度随着海拔的升高而降低。在600~441 m高度范围,土壤温度随着海拔的下降而下降;0~20 cm为土壤温度变化的活跃层,40 cm深度的土壤温度可称之为过渡层,320 cm深度称为土壤温度的稳定层,80~160 cm称为土壤温度的次稳定层。

天山北坡经济带城乡聚落格局变化与影响因素分析

以天山北坡经济带城乡聚落为研究对象,采用景观格局指数、地理信息系统(GIS)空间分析、位序-规模法等分析1980-2020年间城乡聚落格局的变化,结合地理探测器从自然、区位及社会经济因素探究城乡聚落格局的影响因素。结果表明:1980-2020年间,城乡聚落数量、规模持续扩张且趋于集聚,前20 a扩张以耕地、草地为主,后20 a以未利用地为主;城乡聚落密度变化显著,高密度区主要集中在各绿洲呈现“多核集中分布”特征,中密度区沿高密度区周围扩张,低密度区沿绿洲边缘分布并在非绿洲区有扩张;首位聚落规模发展较好,趋于位序-规模曲线,中型聚落略微发育,小型聚落数量持续减少;交通等区位因素是天山北坡城乡聚落格局的首位影响因素,社会经济因素次之,自然地理因素影响较小,各影响因素差异显著。

北天山巴音沟石炭纪安山岩岩石成因及构造意义

北天山增生杂岩带是北天山洋最终闭合的产物,对其中分布的晚古生代火山岩开展详细的地质学、年代学和地球化学研究对恢复古亚洲洋的构造演化历史具有重要的科学意义。笔者选取北天山增生杂岩带巴音沟石炭纪安山岩为研究对象,在详细的野外地质调查基础之上、对其开展系统的岩石学、矿物学、地质年代学以及全岩主微量地球化学综合分析。研究发现:①北天山巴音沟中的这套安山岩具有较低的全岩MgO含量(<3%),明显区别于典型的高镁安山岩(MgO>6%),但其具有较高的Mg#值(>45),结合其微量元素特征,表明安山岩形成于与板块俯冲相关的汇聚板块边缘,其中幔源物质参与了安山岩的形成和演化。②LA-ICP-MS锆石U-Pb加权平均年龄为(324.1±1.1)Ma(MSWD=1.5),代表了巴音沟安山岩的形成时代为早石炭世晚期的霍夫期。文中的北天山石炭纪安山岩是基性下地壳部分熔融形成的长英质熔体和幔源熔体混合的产物。结合区域地质资料,进一步限定了北天山洋在早石炭世晚期可能仍然没有闭合。

近30年天山北坡改进型遥感生态指数时空变化及其驱动因素

天山北坡是西北地区重要的生态功能区和重要经济带,受气候变化和人类活动的影响,脆弱的生态环境面临着巨大挑战,但目前对该地区生态环境质量时空变化、特征及驱动力的认识较少。为此,本文利用改进型遥感生态指数(ERSEI)、空间自相关分析、多元线性回归分析和地理加权分析方法揭示天山北坡1990、2000、2010和2020年4个时期生态环境质量时空变化、特征及其驱动因素。结果表明:(1)1990-2020年天山北坡ERSEI先大幅下降后逐渐恢复并持续上升,生态环境质量逐渐改善并趋于稳定,总体呈“东优西劣”的空间格局;(2)天山北坡生态环境对气候变化较为敏感,温度是ERSEI变化的最重要驱动因子;(3)不同驱动因素对ERSEI的影响存在显著的空间异质性,自然因素对局部ERSEI空间分异起主导作用,人为因素则对年际ERSEI变化产生重要影响。这表明气候变化和人类活动显著影响ERSEI变化,未来应科学规划各类经济活动,减缓气候变化效应,提升天山北坡生态安全和环境可持续性。

天山北坡城市群国土空间格局识别与时空变化分析

气候变化和人类活动大环境下,探索国土空间格局演化特征及其规律对进一步缓和绿洲地区人地矛盾有着重要的意义。以天山北坡城市群为例,选取2000、2010年和2020年3期土地利用数据及DEM数据,基于“三生”空间理论对天山北坡城市群国土空间结构数量与空间分布进行分析。结果表明:(1)20 a间天山北坡城市群“三生”空间类型面积呈不同程度的增减,其中水域和林地生态空间的转出量最多,牧草和其他生态空间两者间相互的转换数量最大;(2)研究区除阜康市、木垒哈萨克自治县、奇台县、石河子市及乌鲁木齐市的国土空间利用程度综合指数呈小幅度增加和递减外,其他县域呈逐年提高趋势;(3)生产空间的核密度高值区呈东南-西北条带状,连片分布于研究区的中部,而生态空间的核密度高值区则分布于研究区外围;生活空间的核密度高值区以乌鲁木齐市为中心呈点状分布,周围衍生出许多零碎的中值点,总体分布较为破碎,空间连接性较低。

Sensitivity of mountain runoff to climate change for Urumqi and Kaidu rivers originating from the Tianshan Mountains

The mountain watersheds of Kaidu River and Urumqi River, which separately originate from the south and north-side of the Tianshan Mountains in Xinjiang, are selected as the study area. The characteristics and trends on variation of temperature, precipitation and runoff, and the correlativity between temperature, precipitation, and runoffwere analyzed based on the past 40 years of observational data from the correlative hydrological and weather stations in the study areas. Various weather scene combinations are assumed and the response models of runoff to climate change are established in order to evaluate the sensitivity of runoff to climate change in the study areas based on the foregoing analysis, Results show that all variations of temperature, precipitation, and runoff overall present an oscillating and increasing trend since the 1960s and this increase are quite evident after 1990. There is a markedly positive correlation between mountain runoff, temperature, and precipitation while there are obvious regional differences of responding degree to precipitation and temperature between mountain runoff of Ummqi River and Kaidu River Basins Also, mountain runoff of Urumqi River Basin is more sensitive to precipitation change than that of Kaidu River Basin, and mountain runoff of Kaidu River Basin is more sensitive to temperature change than that of Ummqi River Basin.

Late Permian to Triassic intraplate orogeny of the southern Tianshan and adjacent regions, NW China

The South Tianshan Orogen and adjacent regions of Central Asia are located in the southwestern part of the Central Asian Orogenic Belt. The formation of South Tianshan Orogen was a diachronous, scissors-like process, which took place during the Palaeozoic, and its western segment was accepted as a site of the final collision between the Tarim Craton and the North Asian continent, which occurred in the late Palaeozoic. However, the post-collisional tectonic evolution of the South Tianshan Orogen and adjacent regions remains debatable. Based on previous studies and recent geochronogical data, we suggest that the final collision between the Tarim Craton and the North Asian continent occurred during the late Carboniferous. Therefore, the Permian was a period of intracontinental environment in the southern Tianshan and adjacent regions. We propose that an earlier, small-scale intraplate orogenic stage occurred in late Permian to Triassic time, which was the first intraplate process in the South Tianshan Orogen and adjacent regions. The later large- scale and well-known Neogene to Quaternary intraplate orogeny was induced by the collision between the India subcontinent and the Eurasian plate. The paper presents a new evolutionary model for the South Tianshan Orogen and adjacent regions, which includes seven stages： （I） late Ordovician-early Silurian opening of the South Tianshan Ocean; （11） middle Silurian-middle Devonian subduction of the South Tianshan Ocean beneath an active margin of the North Asian continent; （111） late Devonian-late Carboniferous closure of the South Tianshan Ocean and collision between the Kazakhstan-Yili and Tarirn continental blocks; （IV） early Permian post-collisional magmatism and rifting; （V） late Permian-Triassic the first intraplate orogeny; （Vt） Jurassic-Palaeogene tectonic stagnation and （VII） Neocene-Quaternary intraplate orogeny.

数字经济与实体经济耦合协调研究——基于天山北坡经济带的实证研究

数字经济与实体经济之间有着紧密的联系。通过对天山北坡经济带2016-2020年9个县市的面板数据进行统计分析,构建了数字经济和实体经济评价的基本框架,并通过耦合模型评价了二者的耦合协调程度。结果表明:2016-2020年,天山北坡经济带数字经济与实体经济发展耦合协调度总体呈上升趋势,除奎屯市以外,其他各县市都达到了失调以上;乌鲁木齐市发展一直很稳定,并且耦合协调度在一直上升。但由于各个县市之间仍存在着较大差距,所以总体的耦合协调度水平还不够高。因此,需要积极促进居民消费,大力发展工业;继续加强薄弱部门的基础设施建设;推动中小企业数字化转型。通过这些措施促进区域经济社会协调发展。

地形因子对天山北坡天山云杉林土壤有机碳的影响

【目的】研究地形因子对天山北坡天山云杉林土壤有机碳的影响。【方法】在新疆农业大学实习林场选取不同海拔、不同坡度和不同坡向的样地采集土壤样品,测定土壤有机碳含量并计算其碳密度。【结果】不同海拔梯度下,天山云杉林土壤有机碳含量介于41.65~77.67 g/kg,土壤有机碳密度介于9.47~14.27 kg/m^(2),土壤有机碳含量及密度均随着海拔的升高呈减少的趋势。0~20 cm土层坡度小于15°时,土壤有机碳含量表现为最高(105.08 g/kg),而当坡度达到30°~35°时,土壤有机碳含量最低;不同坡向上土壤有机碳含量从高到低依次为阴坡>半阴坡>半阳坡>阳坡,其中0~20 cm土层阴坡上土壤有机碳含量显著高于阳坡(P<0.05),20~60 cm土层土壤有机碳含量在各坡向之间差异不显著。【结论】天山北坡天山云杉林在高海拔区域内整个剖面土壤有机碳含量分布较低海拔区域相对均匀。坡向对土壤有机碳的再分配作用在20~60cm土层土壤中难以发挥作用。

吉尔吉斯斯坦布丘克造山型金矿床:来自流体包裹体、H-O-S同位素证据

吉尔吉斯斯坦北天山构造带的矿床学数据缺乏,制约了天山造山带境内外成矿对比。布丘克金矿床位于吉尔吉斯斯坦北天山构造带中部。金矿体为石英复脉,呈带状发育于NWW向韧性剪切带中。矿体倾向SSW,倾角60°~70°,赋矿围岩主要为侵入于早古生代变质碎屑杂岩中的正长斑岩。布丘克金矿床成矿期石英流体包裹体观察、石英H-O同位素、硫化物S同位素测试结果显示,布丘克金矿床石英脉中包裹体大小集中在2~10μm之间,类型以H2O-CO_(2)型、富CO_(2)型、水溶液型包裹体为主,成分以富CO_(2)、含CH4为特征。成矿流体具有中温(200~320℃)、低盐度(3%~7%NaCleqv)特征;石英δDV-SMOW值介于108.1‰~90.2‰之间,δ18O流体值介于4.86‰~9.26‰之间;黄铁矿δ34S分布在0‰左右(0.9‰~1.6‰)。综合本文数据、矿床地质特征、区域地质资料,本文认为布丘克金矿床为发育于吉尔吉斯斯坦北天山构造带内的造山型金矿床,韧性剪切带控制了成矿作用过程;成矿热液来自含碳地层的变质脱水作用,成矿物质来自深部岩浆岩。

中天山北坡冬季降雪变化及其影响因子分析

利用中天山北坡17个国家级气象站1978—2020年冬季逐日降水、气温要素等观测资料,采用多种统计方法,分析冬季降雪时空变化特征及其与气象因子的关系,结果表明:降雪日数和降雪量区域分布相似,均呈“城区多,山区少”分布特征;小雪日减少是导致总雪日减小的直接原因,中雪和暴雪显著增多是造成总降雪量增多的主要原因;持续1 d降水过程是冬季主要降雪过程,随着持续时间的增长,降水过程显著减少,≥5 d降水过程仅占2.8%;近43 a中天山北坡气候呈现较明显的暖湿化趋势,1987年、1994年分别发生降雪量由少变多和平均气温由低变高的突变;降雪量与年降水量、冬季平均最低气温、降雪日数呈显著正相关,年降水量越大、冬季最低气温越低、出现降雪日数越多,冬季降雪量就越大,反之越小。

东天山北坡荒漠区15种植物热值特征研究

灌木和半灌木是维持干旱和半干旱地区生态系统稳定性的重要植被类型。采集东天山北坡荒漠区的15种优势灌木和半灌木植物茎、枝、叶等器官样品,测定其热值、灰分、碳含量,研究灌木种类、器官、灰分含量和碳含量对灌木热值的影响及其相关性,以期为深入了解干旱地区典型沙漠环境下的物质和能量循环研究提供理论依据。结果表明:1)15种植物全株(地上)热值范围为14.21KJ/g(短叶假木贼)~19.87KJ/g(小檗),平均热值为18.38KJ/g,该值高于全球陆生植物平均热值;2)灌木物种科间热值和碳含量存在差异,豆科和菊科植物相对于蔾属和蓼科植物有更高的热值和碳含量;3)灌木植物茎、枝、叶的热值,灰分含量和碳含量也存在差异,植物各器官热值平均值大小顺序为茎>枝>叶,灰分含量平均值大小顺序为叶>枝>茎,碳含量平均值大小顺序为枝>茎>叶;4)热值与灰分之间呈现极显著负相关(P<0.01),与碳含量呈现极显著正相关(P<0.01)。

准噶尔—北天山盆山过渡带断裂系统发育特征及地质意义

准噶尔—北天山盆山过渡带自古生代以来经历了多期构造运动的叠加改造,断裂系统错综复杂,相互叠加,改造着褶皱构造的形态,控制着油气成藏过程。目前对盆山过渡带断裂体系的展布特征、发育规模和复杂程度缺少系统研究。本文综合运用野外踏勘、地震资料解释,结合断层像素长度、分形维数等定量分析方法,对研究区断裂系统发育特征和差异性进行了系统分析。研究认为:1)盆山过渡带断裂整体呈NWW向展布;以挤压构造样式为主,其次为走滑构造样式,反映研究区整体受控于压扭应力背景;北天山内部断裂构造样式、发育数量及规模多于山前带,反映了北天山内部地质构造和应力场的复杂性。2)盆山过渡带断裂发育具有很好的分形分维特征,山前带断裂分形维数值为1.207,北天山内部断裂分形维数值为1.485,表明北天山内部断裂构造发育和复杂程度明显高于山前带。3)盆山过渡带断裂的发育程度和复杂变形程度整体表现为由南向北、由东向西逐渐减弱,南北方向的差异与地层能干性及构造应力在传递过程中不断损耗,逐渐减弱有关;东西方向的差异与区域走滑断裂的调节和逆冲推覆过程中主应力面并非保持水平而是向东发生倾斜有关。研究成果对了解研究区应力场分布和指导山前带油气地质勘探具有重要意义。

天山北坡经济带城市NO_(2)污染的时空分布特征

基于2015-2020年近地面NO2质量浓度数据和2019年哨兵-5P TROPOMI卫星探测的对流层NO2柱浓度数据,采用相关性分析、趋势分析等方法探究新疆天山北坡经济带6个城市NO2污染的时空分布特征。结果表明:(1)从年均值来看,天山北坡经济带NO2质量浓度总体呈下降趋势,尤其2018-2020年下降明显。其中乌鲁木齐NO2质量浓度值最高、博乐最低。(2)从季度均值和月均值来看,各城市NO_(2)质量浓度季节变化明显,其中夏季最低、冬季最高;月均值呈“中间低、两头高”的变化特征。(3)从日均值来看,各城市NO2质量浓度大多呈现双峰型分布,分别出现在早上10:00和晚上23:00。(4)从空间分布来看,NO2柱浓度高值区多分布在人口密集和工业发达的城市地区,尤其是乌鲁木齐、昌吉、五家渠、石河子污染最为严重。

北天山中段地震精定位研究

为探究北天山中段主要发震构造,进一步明确重点监视区域。利用双差定位法对2010年6月至2021年12月期间在北天山中段发生的M_(S)≥1.5的1439个地震事件进行重定位。得到结果:①走时残差均值由-0.22 s变为0.0066 s,震源位置测定误差在东西向上平均为1.1 km,在南北向上平均为1.4 km,在垂直深度上平均为2.0 km。②地震主要分布在乌鲁木齐山前坳陷及南部区域,并未向准噶尔盆地延伸;局部地震震中向构造带趋近,呈现出一条走向近280°、一条近300°的地震活动带,分别与准噶尔南缘断裂带、亚马特断裂带走向基本一致。③由深度剖面显示,震源深度分散程度增加,0-50 km均有分布。以乌鲁木齐为界,东西两侧地震震源深度存在明显的差异,呈现出东深西浅的现象。通过对该区域精定位研究,初步探明准噶尔南缘断裂带、亚马特断裂带为该区域主要发震构造,盆山结合部地震较为活跃,因此准噶尔南缘断裂带及乌鲁木齐山前坳陷区将作为今后震情跟踪工作的重点监视区域。