基于V指数的他念他翁山中段冰川槽谷形态特征及影响因素分析   总被引：1，自引：1，他引：0  

葛润泽  张威  李亚鹏  赵贺  唐倩玉  柴乐 《冰川冻土》2021,43(3):714-723

冰川槽谷作为冰川作用区分布最典型的冰川地貌之一,对其形态特征及影响因素的研究,有助于揭示冰川发育的动力学过程.基于V指数模型及MATLAB半自动提取方法,分析并探讨了他念他翁山中段冰川槽谷形态发育特征及造成槽谷形态差异的影响因素.结果表明:研究区共发育206条冰川槽谷,大多为"U"形或偏"U"形,长4.5～26 km之...  相似文献   

冰川槽谷横剖面定量化研究方法及其影响因素   总被引：2，自引：2，他引：0  

姚盼  王杰 《冰川冻土》2015,37(4):1028-1040

冰川槽谷(“U”形谷)是冰川与下伏基岩相互作用的结果, 是典型的冰蚀地形, 对其定量化研究是了解冰川作用过程以及冰川槽谷演化过程的重要途径. 二次多项式(y=A+Bx+Cx²)和幂函数(y=ax^b)是定量描述冰川槽谷形态的两种较普遍的方法, 二次多项式可以描述冰川槽谷的整体形态且不需要考虑高程基准面的选择, 但是该方法不能用于槽谷间的比较且其只能较准确地描述接近抛物线的横剖面; 幂函数不但可以反映不同作用过程形成的谷地, 还能在不同横剖面间进行比较, 但幂函数在应用过程过会受到坐标原点选取、 对数变化、 后期堆积以及横剖面不对称的影响, 其运用过程更加复杂. 此外, 相同的幂函数指数b可能指示不同的槽谷形态, 形态比率FR的引入并与指数b结合起来使对槽谷形态的描述更加全面. 从冰川动力和外部环境方面出发, 影响槽谷形态的因素主要有冰川作用时间、 基岩的抗侵蚀能力、 岩性的分布以及裂隙、 冰量、 气候、 构造和冰川性质, 后三者对槽谷形态的定量化影响需要进一步进行探讨. 运用不同地区槽谷形态参数所做b~FR图探讨了山地冰川槽谷的发育模式, 发现山地冰川槽谷存在对应于两种不同冰川性质的相反的发育模式, 但是由于岩性、 气候等其他因素的影响, 造成了冰川槽谷发育模式有时出现了不对应的情况.  相似文献   

白马雪山冰川槽谷发育的形态特征及其影响因素探讨     

张威  毕伟力  李永化  董应巍  于治龙  李洋洋 《第四纪研究》2013,33(3)

白马雪山地处横断山脉腹地,对于重建西南季风影响区的环境变迁以及探讨冰川作用特点具有重要科学意义.这里保留着典型的晚第四纪冰川侵蚀地貌,其中冰川槽谷发育特征明显.本文运用抛物线形态参数、梯级宽深比、形态比率等定量分析冰川槽谷的研究方法,对保存在白马雪山主峰扎拉雀尼(5429m)东北坡的两条简单冰川槽谷的形态特征进行分析.采用7个典型剖面的形态特征参数与其他地区对比,探讨冰川槽谷发育的可能影响因素如水热条件、冰川性质、冰川规模、岩性特点、冰川作用时间等.结果显示:白马雪山冰川槽谷抛物线形态参数b值为1.779,明显小于冰川性质相同的螺髻山(1.835),主要是由于区域降水条件的不同所造成的差异,而与冰川性质不同天山乌鲁木齐河源区(1.825)冰川槽谷的形态特征的差异,可能与冰川规模、作用时间以及岩性条件密切相关;梯级宽深比中槽谷形态参数沿程变化可以反映冰川流动过程中的动力变化,梯级宽深比中的形态参数Af和Bf值最大处对应的谷肩位置接近雪线位置.根据槽谷谷肩的位置确定末次冰期早期/中期的雪线高度为4140m,这与用地貌法如冰斗底部高程法、侧碛堤最大高度法和冰川末端至冰斗后壁最大高度法等综合确定的雪线高度4092m基本一致.因此,在冰川槽谷发育的冰川作用区,用槽谷谷肩的海拔高度估算雪线高度可以成为一种比较可靠的确定古雪线方法;白马雪山的冰川槽谷形态参数b-FR的特征表明,即使是海洋性冰川作用区也不符合Hiran和Aniya提出的山地冰川模式,但运用b-FR相关关系可以很好的反映冰川的侵蚀过程.白马雪山地区冰川侧蚀作用导致槽谷坡降值较小,底部较平坦宽阔,呈现出相对完整的U型形态.此外,用形态比率FR值也可以验证雪线的位置高度.  相似文献   

祁连山老虎沟12号冰川雷达测厚和冰下地形特征研究   总被引：3，自引：3，他引：0  

王玉哲  任贾文  秦翔  刘宇硕  张通  陈记祖  李亚炜  秦大河 《冰川冻土》2016,38(1):28-35

冰川地形是构建冰川流动模型的基础,对于认识冰川响应气候变化的动力机制具有重要意义.在2009年和2014年消融季,使用探地雷达对祁连山老虎沟12号冰川进行了厚度测量和冰下地形观测,获得了沿冰川中流线和多条横剖面的厚度资料,并对中流线上的厚度分布特征和槽谷形态进行了研究.研究结果表明,东、西支冰川的平均厚度分别为190m和150m,东支冰川冰下地形起伏大于西支,支冰川的表面坡度都较缓和.东、西支冰川进入汇合区时厚度分别为122m和157m,由于支冰川的横向挤压和汇流,汇合区中部冰川厚度增加到162m.冰川槽谷形态具有空间差异,东、西支冰川槽谷形态近似于对称的V型,但是在冰川汇合区,槽谷底部变宽,边坡变缓,发育有不对称槽谷.  相似文献   

冰川槽谷横剖面形态特征探析   总被引：6，自引：6，他引：0  

李英奎  刘耕年 《冰川冻土》2000,22(2):171-177

基于对天山中、西部冰川槽谷的量算,并对比国内外不同匠研究成果,利用冰川槽谷横剖面的幂函数模型探讨了冰川槽谷的横剖面形态特征,研究表明,本区槽谷的ｂ－ＦＲ关系并不完全符合Ｈｉｒａｎｏ和Ａｎｉｙａ提出的山地冰川模式,而是有自身的形态特征,但槽谷剖面形态参数Ａ、ｂ之间具有明显的结性关系,并具有很强的普遍性,可以作为冰川槽谷横剖面形态的判别标准。  相似文献   

珠穆朗玛峰东绒布冰川厚度测量与地形特征分析   总被引：3，自引：3，他引：0  

张通  效存德  秦翔  侯典炯  丁明虎 《冰川冻土》2012,34(5):1059-1066

冰川地形特征的研究是构建冰川流动模型的基础. 根据探地雷达获取的冰川厚度数据(2009年)和1∶5万地形图(1974年), 得到沿珠穆朗玛峰东绒布冰川主流线的冰厚度分布以及5条冰川槽谷的形态特征. 结果表明: 沿东绒布冰川主流线的平均表面坡度约为0.08, 平均厚度约为190 m, 最大厚度约为320 m (海拔6 300 m); 在1974-2009年间沿冰川主流线冰厚度平均减薄约30 m; 东绒布冰川表碛覆盖区与白冰区尚未分离, 目前很可能是一条停滞冰川, 冰川末端位于海拔5 540 m附近(下游方向); 东绒布冰川槽谷形态接近于V型, 而不是U型(b指数变化范围约为0.7~1.3).  相似文献   

青藏高原中部双湖羌塘1号冰川厚度特征及冰储量估算     

朱大运  田立德  王建力  崔江鹏 《冰川冻土》2014,36(2):278-285

冰川冰贮量的大小与变化对河流与湖泊水的影响是当前关注的热点科学问题之一. 根据青藏高原中部双湖地区羌塘1号冰川2011、2013年探地雷达测量数据和差分GPS定位结果,分析探讨了羌塘1号冰川横、纵剖面厚度特征,并在GIS技术的支持下,绘制了冰川厚度等值线,对冰川储量进行了估算. 结果表明：羌塘1号冰川作用强烈,横剖面呈典型的“U”形发育,底部宽阔平坦. 纵剖面从下往上缓慢抬升,坡度较小,下伏地形平坦,无明显突兀变化,与冰川表面具有很好的一致性. 经计算整条冰川平均厚度51.28 m,最厚处132.15 m,冰体储量0.1236 km³.  相似文献   

四川康定折多山末次冰盛期古冰川重建及其气候意义   总被引：1，自引：0，他引：1  

杨舒然  杨玮琳  韩业松  杨彦敏  李梦真  崔之久  刘耕年 《冰川冻土》2022,44(4):1119-1129

折多山位于青藏高原东缘,地势上处于由高原面向高山峡谷的过渡区,古冰川遗迹保留较好。对折多山冰川地貌进行深入研究,对揭示青藏高原东缘地形演化与古气候变化的耦合机制具有重要意义。在野外考察的基础上,结合Google Earth遥感影像、《中国第二次冰川编目》和DEM等资料,对折多山冰川地貌及其特征参数进行了识别、提取和计算。研究共识别出189条古冰川,覆盖面积为497 km²。基于研究区已有年代学资料,本区冰川地貌主要为末次冰盛期（LGM）以来冰川作用遗存。恢复研究区LGM冰川平衡线高度（ELA）,在西坡和东坡分别为4 380 m和4 110 m,相差270 m,揭示出分水岭东侧更有利于冰川发育。广泛发育的冰蚀湖、冰蚀基岩面、羊背石等,以及深切的冰川槽谷（U形谷）指示海洋性冰川作用特征;冰川作用正差、冰川朝向、冰蚀地貌的差异,揭示积累区地形条件和水汽来源对研究区冰川发育具有重要的影响。  相似文献   

萨吾尔山木斯岛冰川厚度特征及冰储量估算          下载免费PDF全文

怀保娟  李忠勤  王飞腾  王璞玉  李开明 《地球科学》2016,41(5):757-764

冰下地形与冰川体积的估算对冰川水资源研究具有重要意义.以萨吾尔山木斯岛冰川为研究对象,利用Landsat影像数据、探地雷达(ground penetrating radar,简称GPR)冰川厚度数据以及差分GPS数据,分析模拟了萨吾尔山木斯岛冰川横纵剖面的厚度分布特征,采用多种插值方法比较分析,得到木斯岛冰川冰舌区的厚度分布图,初步估算了该冰川的冰储量.结合数字高程模型数据及冰川厚度分布图,绘制了木斯岛冰川冰舌区冰床地形图.研究表明,两个横剖面的冰川槽谷形态存在较大的差异.横剖面B1-B2有典型的“U”型地形发育,冰川厚度可达116.4 m;C1-C2横剖面底部地形比较平缓,冰川厚度分布较均匀,平均在70~90 m.纵测线A1-A2冰下地形成阶梯状分布,纵剖面冰体平均厚度约为80.89 m,最大冰体厚度为122.67 m.木斯岛冰川的冰床地形图与该冰川的冰厚度等值线图形成明显对比.在海拔3 240 m和3 280 m处存在明显的冰斗地形地貌.初步估算木斯岛冰川冰舌区的平均厚度和冰储量分别为60.5 m和0.195 km3.与传统计算冰储量的方法相比,利用GPR测量得到的冰川厚度数据来插值计算冰储量的方法,具有更高的准确性.   相似文献   

太白山古冰川地貌与地质构造     

夏正楷 《冰川冻土》1990,(4)

太白山分布有更新世冰川地形,其冰川槽谷在平面上呈“十”字型排列;横剖面EW向的呈宽谷形,NS向是呈U型:纵剖面EW向比较平坦,SN向呈阶梯状,其中有许多断裂陡坎。冰斗均位于断裂交汇点,面积不大而深度却相当大。这些地形的形态特征可以用构造加以解释,断裂破碎带是最有利于冰川刨蚀的地段。  相似文献   

Modern Sedimentary Characteristics and Environmental Indication Significance of the Cibi Lake     

Boyu Liu  Hucai Zhang  Fengqin Chang  Yang Zhang  Xiaonan Zhang  Yizhe Feng  Huayong Li 《地球科学进展》2020,35(2):198-208

Based on the particle size test results of 36 surface sediment samples from the Cibi Lake, the spatial distribution characteristics and rules of components were discussed by the combination of natural geographical factors with statistical analysis methods in the basin, which provides scientific evidence and basic data for the study of paleoclimate environment in this region. The results show that:\mathrm{①} The samples mainly include clay, silty and sand, among which silty is the main type in the study area and has the widest distribution due to the disturbance caused by groundwater recharge without obvious spatial variation law;\mathrm{②} The clay distribution is somewhat smaller, and its locality affected by the slope alluvial fan is in the northwest and near the center of the lake, where the sedimentary environment is stable and is the best selected location for the borehole core so that the reconstruction of the paleoclimate environment can be carried out;\mathrm{③} Sand is mainly distributed in the southwest corner and near the north shore of the lake, which is influenced by the rivers entering the lake and human activities, and these two locations have a great influence on the source of surface sediment. Therefore, the management of the north and southwest regions should be strengthened to prevent a large number of pollutants from entering the lake;\mathrm{④} The grain size frequency curve shows that the sediments include suspended and saltant components. Besides the formation by their own biochemistry, other materials come from the aeolian sediments in the basin, and the coarse particles transported over a long distance have a great impact on the grain size components. Section CB-1 indicates that transport process and distribution are significantly affected by the southwest monsoon and more attention should be paid to the prevention and control of pollution at the river inlet and upwind area.  相似文献   

Characteristics and Drivers of Methane Fluxes from a Rice Paddy Based on the Flux Measurement     

Chaoqing Song  Wei Liu  Haibo Lu  Wenping Yuan 《地球科学进展》2019,34(11):1141-1151

Rice paddies are an important anthropogenic source of methane (CH₄) to the atmosphere, which aggravate the global warming greatly. CH₄ fluxes from a rice paddy in Central China were continuously measured with the eddy covariance method in 2018. The characteristics, dynamics and drivers of the observed CH₄ fluxes from this paddy field were subsequently analyzed. The results indicated that \mathrm{①} a distinct seasonal variation of daily CH₄ fluxes was found over the whole observed period. Daily CH₄ fluxes were the highest in the vegetative period, then decreased gradually, and became the lowest in the fallow period; \mathrm{②} observed CH₄ fluxes had a clear single-peak diurnal pattern during the vegetative and reproductive periods, and reached daily peaks at about 14:00-16:00. However, no obvious diurnal variation in CH₄ fluxes was observed during the fallow period; \mathrm{③} air temperature was the most important drivers that controlled the seasonal variation of CH₄ fluxes from this paddy field, and Vapor Pressure Deficit (VPD) was also found related to the CH₄ emissions; \mathrm{④} the largest daily CH₄ flux was 0.69 μmol/(m²·s), occurred in the late of vegetative period, and the total amount of CH₄ emissions over the whole observed period was about 28 g C/m².  相似文献   

Cryospheric Changes and Their Impacts on Water Resources in the Belt and Road Regions     

Shichang Kang  Wanqin Guo  Tonghua Wu  Xinyue Zhong  Rensheng Chen  Min Xu  Jinlei Chen  Ruimin Yang 《地球科学进展》2020,35(1):1-17

“Belt and Road” regions include Asia, Europe and eastern and northern Africa, with a wide spatial distribution. The cryosphere is undergoing rapid changes in the Belt and Road regions with global warming, and has an important impact on water resources, ecosystems and Arctic waterways in these regions. This article reviewed recent cryospheric changes and associated impacts on water resources in the Belt and Road regions during the last decades. The main cognitions are as follows: \mathrm{①} Most glaciers are shrinking and glacier mass balances are most negative, but there are regional differences in the changes of glaciers. \mathrm{②} Global temperature rise has resulted in permafrost degradation, including a rise in permafrost temperature and decreasing permafrost thickness as well as an increase in active layer thickness. \mathrm{③} There is a significant decrease in snow cover extent and an increase in snow depth. Snow cover duration has shortened, the onset of snow cover has delayed, and the end of snow cover has advanced. However, there are still obvious regional differences in the changes of snow cover. \mathrm{④} Arctic sea ice has declined precipitously in both extent and thickness in summer, and multi-year sea ice has decreased,indicating the precipitous retreat of sea ice. The freeze-up date of some lakes has been delayed, the break-up date has advanced, and the ice cover duration of river/lake ice has significantly shortened. \mathrm{⑤} Glacial runoff has increased significantly in China. Snowmelt and permafrost degradation have also increased the basin runoff, which indicates the important impact of cryospheric changes on runoff. This study will provide a baseline and important scientific support for addressing climate change and regional sustainable development.  相似文献   

Study on Dynamic Transformation,Application and Comparison of Aviation Carbon Emission Environmental Damage Assessment Methods     

Ruiling Han  Zi Lu  Haifang Yao 《地球科学进展》2019,34(7):688-696

The contradiction between the rapid development of aviation market and supply of airspace resources has increased the environmental damages of aviation carbon emission. The conversion and application of environmental damage assessment method of aviation carbon emission were summarized, and the characteristics of the assessment methods for air and ground transportation were compared. We found out the followings: \mathrm{①} The evaluation method has been transformed from static assessment to dynamic evaluation, and focused on four key problems, average and total carbon emissions, airspace resource utilization, LTO stage emission, and reduction practice; \mathrm{②} Airport terminal area as well as LTO are becoming the focus in the study of aviation carbon emission assessment method, while the former is the main area and the latter is the main stage of aviation carbon emission. The practice of emission reduction is mainly reflected in the optimization of emission reduction measures in economic field; \mathrm{③} Based on the situation and total assessment methods, environmental damage assessment and comparative advantage of aviation carbon emission and ground transportation carbon emission are reflected in the distance by using distance factor and energy consumption; \mathrm{④} Improving the smoothness of airspace resource traffic network, optimizing flight schedule structure and airspace resource allocation are more conducive to promoting aviation emission reduction.  相似文献   

Spatial-temporal Patterns of Land Surface Temperature and Influencing Factors Contribution in Fuzhou City     

Wenmin Kang  Yuanbin Cai  Huizhen Zheng 《地球科学进展》2020,35(1):88-100

With the intensification of urbanization and global warming, the problems of urban thermal environment are increasingly prominent. On the basis of the remote sensing, geographic information system, geostatistics and multiscale spatial pattern, the spatial-temporal variation characteristics of land surface temperature in urban thermal environment were quantitatively analyzed. The results are as follows: \mathrm{①} Dramatic changes in land use/land cover had occurred from 1993 to 2016 in the study area. The net increase area of construction land was 1 231.04 km², with a change rate of 295.33%. Cultivated land was occupied by construction land. \mathrm{②} The area of middle, sub-high and high temperature zones spread to the surrounding areas gradually with the Minjiang River. The area of sub-low and low temperature zones decreased markedly. \mathrm{③} From 1993 to 2016, the contribution of land surface temperature in different urban districts had the characteristics of uneven spatial and temporal distribution. Meanwhile, there was a positive contribution in the process of land surface temperature rise in Fuzhou while there was a negative contribution in Minqing and Yongtai. Forest/grassland, cultivated land, water body and wetland had a negative contribution during land surface temperature rise while construction land contributed positively. \mathrm{④} According to the multi-distance spatial cluster analysis (Ripley's K function), there was a certain scale in the aggregation and dispersion of land surface temperature, in which the aggregation range and degree of aggregation increased in the study area in 24 years.  相似文献   

Morphology and Dynamics of Alluvial Fan and Its Research Prospects     

Dengyun Wu  Zhikun Ren  Lü Honghua  Jinrui Liu  Guanghao Ha  Chi Zhang  Menghao Zhu 《地球科学进展》2020,35(4):389-403

Alluvial fans can preserve historical records of sediment transport to middle and lower river systems or piedmont basins, which are considered to be sensitive recorders of climate change and tectonic activity. In this paper, the morphological characteristics, control factors and future development trend of alluvial fan are summarized and described. The main understanding is as follows: \mathrm{①} According to the gravity flow and traction flow process, fan can be divided into debris flow alluvial fan and fluvial fan. The former is formed under the action of debris gravity flow deposits, which is related to the occasional flood and burst flow in a short time. The latter is braided tributaries depositions which are gradually shallower and spread radially in the direction of fan toe under the traction water transport. \mathrm{②} The erodibility of underlying bedrock can affect the scale of downstream alluvial fan, which depends on the sediment production and store factors in the catchment. The easily eroded bedrock may produce more sediment, making the alluvial fan area larger. In the contrast, the erodibility of rocks in the source area can also affect the slope and hydrological characteristics of the valley so that more sediment is deposited in the upstream basin and the alluvial fan formed in the downstream is smaller. \mathrm{③} Tectonic activity is the pre-condition for the development of alluvial fans, which provides a space for alluvial fans depositions. Faulting in the piedmont can change the position and morphology of the ancient alluvial fan, and also cause deformation or distortion of the thick sedimentary sequence to record the regional tectonic activity. The quaternary alluvial fan sequence corresponds well to the climate change during the glacial-interglacial period. However, the influence of the flood events caused by extreme meteorological events on alluvial fan deposition should be focused on. \mathrm{④} The application of a series of new techniques and methods will help to carry out deep research on alluvial fan in the future, such as high-resolution observation technique, physical simulation experiment, and precise dating.  相似文献   

Research and Understanding of the Evolution of the Yellow River Valley in Lanzhou     

Xin He  Xiaofei Hu  Baotian Pan 《地球科学进展》2020,35(4):404-413

As the turning point of the Yellow River flowing from the Tibetan Plateau to the Loess Plateau, the valley evolution of Lanzhou Basin is of great significance to the study of the evolution of the Yellow River system in different geomorphic units. The evolution of the Yellow River Valley in Lanzhou has been studied for nearly 100 years. In the process of research, important research results and understandings have been obtained as follows: \mathrm{①} The denudation surface develops above the Yellow River Valley in Lanzhou Basin, and the broad and continuous 9-level terrace develops in the valley. The age of the denudation surface and 9-level Yellow River terrace was systematically determined by using a variety of dating techniques. \mathrm{②} The development pattern of the strath terraces of the Yellow River in Lanzhou was put forward. Under the background of long-term ground uplift, climate change controls the age of terrace formation, and the rate of uplift affects the number of terrace. \mathrm{③} The age of the highest terrace of the Yellow River in the basins from Lanzhou to the upper reaches of the Yellow River is gradually younger. It is revealed that the formation of the present pattern in the upper reach of the Yellow River is the result of the headward erosion from Lanzhou Basin and the drainage intergration of the internal flow basin. At the same time, the chronology of terrace sequence still needs to be deepened, the characteristics of regional tectonic uplift and deformation are lack of direct evidence, the development pattern of terrace needs to be verified by model simulation, the geomorphic response of drainage change is not clear, and the river process recorded by the deposition of terrace flood plain is lack of attention. All those issues will be the focus of future research.  相似文献   

Temporal-spatial Distribution of Suitable Areas for Major Food Crops in China Over 60 Years     

Xiaoju Ning  Lijun Zhang  Yaochen Qin  Kai Liu 《地球科学进展》2019,34(2):191-201

Simulating the temporal-spatial distribution of areas suitable for crops is an important part of analyzing the effects of climate change on crop growth, reducing the vulnerability of crop growth, and assessing the adaptability of crop growth to climate change. This study selected climate factors that affect the growth of wheat, maize and rice, and it combined surface soil and ground elevation factors as environment variables, as well as data from agricultural observation stations as species variables. The MaxEnt ecological model was used to identify suitable areas for these three crops during the period of 1953-2012. The areas suitable for the three crops were analyzed to determine the temporal-spatial distribution of major food crops and to estimate the difference in crop growth adaptability under climate change. The results showed the following: \mathrm{①} The response to climate change of the areas suitable for food crops could be ranked from strongest to weakest as follows: wheat, rice, and maize. \mathrm{②} On the same space-time scale, for the growth of wheat and rice, the southern agricultural regions, mountainous areas and plateaus were relatively unsuitable for a wider variety of crops than the northern agricultural regions, plains and basins. \mathrm{③} The adaptability of wheat increased in the major agricultural regions slightly. The adaptability of maize increased in the northern agricultural regions and decreased in the southern agricultural regions, respectively. The adaptability of rice was stable in the southern agricultural regions, and it decreased in the Huang-Huai-Hai region and increased in the northeastern region. \mathrm{④} Over 60 years, the ability of the major food crops to adapt to climate change increased in the northeast region, Gansu-Xinjiang region, Southwest region and Loess Plateau region, but the adaptability of major food crops decreased in the Huang-Huai-Hai region and the Mid-and-Lower Reaches of the Yangtze River. \mathrm{⑤} The suitable areas of maize and rice were significantly correlated with planting areas and yields, respectively, which provided feasibility for simulating the distribution of suitable areas on maize and rice in different climate scenarios in the future. The suitable area of wheat is not significantly related to the planting area and yield. In the future, we will take more factors to model the suitable area of wheat accurately.  相似文献   

Bibliometric Analysis of Research Progress on Coastal Surface Water and Groundwater Interaction     

Tianzheng Cao  Dongmei Han  Xianfang Song  Wei Liu  Di Du 《地球科学进展》2020,35(2):154-166

The interactions among surface water, groundwater and seawater are closely related in the coastal area with complex hydrological conditions. A series of impacts from human activities and climate change are also more significant in this region. In order to understand the key knowledge and research status of surface water and groundwater interaction in coastal area, it is a useful method to analyze literatures in this research scope in the core database of Web of Science by using CiteSpace. The research achievements in this field were systematically sorted and potential research hotspots were explored, which may provide references for subsequent researches. The results show the following. \mathrm{①} The number of highly cited articles and highly burst articles in this research field has increased significantly since 2010. At present, this field is still in the development stage and has a broad research prospect. \mathrm{②} The United States, Australia, China and Germany have done plenty of researches on this issue and achieved a lot. At present, the number of research achievements supported by National Natural Science Foundation of China is in the lead over the world. \mathrm{③} Seawater intrusion, submarine groundwater discharge, the relationship between tide and hydrological conditions are the main research direction in this field. Hydrochemistry and isotopic analysis, and numerical simulation are the most important research methods in this field. \mathrm{④} The potential development directions and breakthroughs in this field include submarine groundwater discharge, the evolution of coastal mangrove wetlands, the migration and transformation of nutrients, the influences of different hydrological factors on coastal areas, and the impact of climate change on coastal areas. Overall, the future development of surface water and groundwater research in coastal areas is inseparable from the cross-integration of various disciplines, mutual verification of multiple methods and the introduction of new technical means.  相似文献   

Discussion on Sedimentary Environments,Origin and Source of Middle Permian Gufeng Formation Bedded Cherts in theNorthern Margin of the Middle-Lower Yangtze Area     

Zhenyang Zhao  Shuangjian Li  Genhou Wang 《地球科学进展》2020,35(2):137-153

Cherts contain important information of paleogeography, paleostructure and paleo-ocean, which is the important means of studying petrotectonics. With regard to the major disputes on the sedimentary environments, origin and source of Gufeng Formation bedded cherts in the northern margin of middle-lower Yangtze area, demonstrations from both forward and reverse aspects from the perspective of the sedimentary-tectonic evolution were given. By summarizing previous views on the genesis of bedded cherts in Gufeng Formation, and extensively collecting published original geochemical data, in the forward demonstrations we created the database of the cherts about rare earth elements to systematically identify the sedimentary environments, origin and source of cherts. By sorting out the time and cause of the main geological events in the middle Permian in south China, in the reverse demonstrations we established the sequence of tectonic evolution to verify or explain the current series of disputes. The results show that:\mathrm{①} Except some areas, such as Guichi-Tangtian, Tongling-Huashupo and Chaohu-Pingdingshan in Anhui province, which were affected by volcanic activities and faults, the bedded cherts of Gufeng Formation in the northern margin of middle-lower Yangtze area are mainly of non-hydrothermal origin or biological origin, and deposited in the passive continental margin deep water environments.\mathrm{②} Paleocontinental uplift in cathaysian and sea level eustacy controlled the input of some terrestrial materials in the the Gufeng Formation bedded cherts in the study area, but the contribution of terrestrial materials to cherts is not obvious.\mathrm{③} The study of cherts in Gufeng Formation is of great significance to the eruption time and dynamic mechanism of Emeishan basalts.  相似文献