珠穆朗玛峰自然保护区湖泊动态及对区域气候变化的响应     

王毅  李景吉  韩子钧  彭培好 《冰川冻土》2018,40(2):378-387

利用Landsat卫星影像,采用面向对象分类方法提取珠穆朗玛峰自然保护区湖泊信息,分析了湖泊动态及对区域气候变化的响应关系。结果表明：（1）2015年保护区湖泊总面积为489.07 km²,构造湖、河成湖、冰川湖分别占总面积的77.3%、2.6%、20.1%。（2）1975-2015年,保护区内各类湖泊面积变化速率不同,冰川湖最大（1.05 km²·a^-1）,构造湖次之（-0.85 km²·a^-1）,河成湖最稳定（0.013 km²·a^-1）;保护区南坡冰川湖面积变化速率（0.53 km²·a^-1）略大于北坡（0.52 km²·a^-1）。（3）北坡构造湖、河成湖对区域气候的响应呈阶段性变化规律,1975-2000年珠峰地区气候呈暖湿化趋势,2000年构造湖、河成湖面积达到峰值,两类总计增加22.8 km²;2000-2015年转变为显著的暖干气候,构造湖、河成湖面积均呈减少趋势,总共减少57.16 km²。随着区域气候的变暖,冰川湖总面积不断扩大,近40年间冰川湖面积累计增加43.06 km²。（4）灰色关联度分析显示,年极端低温对构造湖面积变化影响最显著,年均气温对冰川湖起主导作用,年均相对湿度对河成湖影响最大。较其他气候因子而言,降水量对各类湖泊面积变化的影响均最小。  相似文献   

鄂尔多斯盆地东北缘中侏罗统延安组植物群与古气候分析   总被引：2，自引：2，他引：0  

葛玉辉  孙春林  刘茂修 《吉林大学学报(地球科学版)》2006,36(2):164-168

鄂尔多斯盆地东北缘中侏罗统延安组为一套以河流滨湖相沉积为主的中粒中细粒长石砂岩、粉砂岩(泥质粉砂岩)、黑色页岩、粘土岩夹煤层。其中产大量的植物化石,计20属39种。经分析认为,这个植物群是一个属于我国北方区以Coniopteris-Phoenicopsis为代表的中侏罗世早期植物群,植物群组合反映鄂尔多斯盆地东北缘中侏罗世为偏潮湿的暖温带气候。  相似文献   

泛北极地区植被数据集与制图：回顾与展望     

薛守业  徐海燕  甘子鹏  梁冰妍  种碧莹  王莉  张博  李小明  李莉莎  毛楠  刘桂民  吴晓东 《地球信息科学学报》2022,24(3):421-436

泛北极地区位于北半球高纬度地区,主要属于低温限制型生态系统,因而泛北极地区植被对全球变暖敏感。要明确泛北极地区陆地生态系统对全球变暖响应过程和机理,就需要高精度的植被类型分类数据作为基础资料。但是,目前泛北极地区植被数据的结果还不完善。为更好地认识泛北极地区植被类型分类的现状、发展历史和未来研究方向,本文综述了泛北极地区植被类型制图的数据来源、植被类型划分方法和植被类型制图研究方法。总体而言,泛北极地区的植被调查从20世纪20年代就陆续开展,目前部分区域尺度上的地表覆盖类型的结果,但具体的植被类型制图工作还存在一系列难题。主要原因包括植被野外调查实测数据较少和分布不均、植被类型分类标准不一、苔原植被群落的异质性大、制图技术和分类算法优化困难等。因此,在下一步泛北极植被类型制图工作中,需要制定标准化分类策略,规范数据获取及数据库的整理工作,并发展新的制图方法,从而促进植被类型制图研究工作。  相似文献   

基于GNSS的中国大陆地区COSMIC-2 PWV精度分析     

王勇  黄靖  占伟  刘尚钦  杨军 《大地测量与地球动力学》2022,42(11):1101-1104

COSMIC-2可提供连续大气数据源用于改进天气预报,有助于对极端天气进行监测预警。将中国大陆地区按照气候类型划分成5个区域,依托CMONOC站点PWV序列,开展COSMIC-2 PWV在中国大陆地区的精度分析。从站间距离和高程2个角度进行COSMIC-2掩星点与GNSS站点PWV匹配方案设计,分别针对中国大陆地区、不同气候类型和部分代表站点开展COSMIC-2精度评定。研究表明,高原山地、温带大陆、温带季风、亚热带季风和热带季风气候类型的RMSE分别为1.40 mm、1.49 mm、2.68 mm、3.11 mm和3.16 mm;内陆地区精度优于沿海地区。  相似文献   

Record Arctic Ozone Loss in Spring 2020 is Likely Caused by North Pacific Warm Sea Surface Temperature Anomalies     

Yan XIA  Yongyun HU  Jiankai ZHANG  Fei XIE  Wenshou TIAN 《大气科学进展》2021,38(10):1723-1736

Record ozone loss was observed in the Arctic stratosphere in spring 2020. This study aims to determine what caused the extreme Arctic ozone loss. Observations and simulation results are examined in order to show that the extreme Arctic ozone loss was likely caused by record-high sea surface temperatures(SSTs) in the North Pacific. It is found that the record Arctic ozone loss was associated with the extremely cold and persistent stratospheric polar vortex over February–April, and the extremely cold vortex was a result of anomalously weak planetary wave activity. Further analysis reveals that the weak wave activity can be traced to anomalously warm SSTs in the North Pacific. Both observations and simulations show that warm SST anomalies in the North Pacific could have caused the weakening of wavenumber-1 wave activity, colder Arctic vortex, and lower Arctic ozone. These results suggest that for the present-day level of ozone-depleting substances, severe Arctic ozone loss could form again, as long as certain dynamic conditions are satisfied.  相似文献   

欧盟减排《责任分担条例》修正案分析与启示     

刘季熠  张旖尘  张东雨  付琳  曹颖 《气候变化研究进展》2022,18(6):756-763

欧盟自1997年起就如何通过市场和行政手段“双轮驱动”控制碳排放总量进行不断探索,并逐步建立了较为成熟的碳排放交易体系及减排责任分担机制,已经取得了良好的减排效果。文中梳理分析《责任分担条例》修正案中关于成员国减排目标更新的内容、目标分配的原则与方法、灵活性机制,归纳了欧盟采用行政手段控制碳排放交易系统未涉及部门的温室气体排放的经验,并对中国如何构建充分考虑市场手段和行政手段的CO₂排放总量控制制度提出政策建议。  相似文献   

Research progress and prospect of snow avalanche disaster prevention and control北大核心CSCD     

Hao J.  Li L. 《冰川冻土》2022,(3):722-770

Snow avalanches are a major natural hazard in the cryosphere. It seriously threatens transportation corridors, energy transmission and communication lines, mining and touristic areas in the cold mountainous regions and often causes the destruction of infrastructure and human casualties, hindering the sustainable development of society and economy in mountainous areas. Under climate change and the expansion of human activities to alpine mountains, more population and infrastructure will expose to the risk of avalanches. In order to ensure the sustainable development in mountainous areas, the demand for the prevention and management of avalanche disasters is increasing. Based on the review of the main avalanche research progress in China since 1960 and the avalanche research results all over the world, this paper summarized the progress on the influencing factors and regional distribution of avalanche activities, avalanche formation and movement mechanism, avalanche monitoring and early warning, avalanche risk assessment and engineering prevention, as well as the frontier problems and scientific difficulties that need to be studied. In addition, the impact of climate change on avalanche activities and the interaction between human activities and avalanche activities are discussed. By looking forward to the future needs of avalanche disaster prevention and reduction, including the countermeasures, the research on avalanche in China is promoted. © 2022 by the Author(s).  相似文献   

寒冻风化控制的祁连山风化碎屑的空间分布     

洪洋  耿豪鹏  潘保田 《冰川冻土》2022,44(4):1347-1356

寒冻风化是冰缘地貌区及高寒山区的主要物理风化过程,其提供的风化碎屑物质是该区域崩塌等灾害性地貌过程的主要物质来源。由于寒冻风化对基岩的破碎是由温度控制的累积过程,过去温度变化对地貌演化具有重要意义,但其时间尺度的选取尚需进一步探究。因此本文选取祁连山北部为研究区,通过对比分析风化碎屑的空间分布特征与不同时间尺度温度变化控制的平均寒冻风化强度的空间分布特征,探讨干旱半干旱高寒山区风化碎屑空间分布的主要控制因素。结果显示,万年尺度及十万年尺度平均寒冻风化强度的高值与风化碎屑边界存在较好的空间一致性,祁连山西段万年尺度平均寒冻风化强度的高值与风化碎屑边界的空间相关性优于十万年尺度。本研究同时指出,温度升高导致寒冻风化的作用区向高海拔区域移动,进而产生新的高风险灾害区域。本研究强调寒冻风化对灾害性地貌过程的调控作用,为全球变暖背景下灾害性地貌过程的预测提供了新的思路,可以成为防灾减灾决策的重要参考。  相似文献   

The rapidly shrinking cryopshere in the past decade：an interpretation of cryospheric changes from IPCC WGI Sixth Assessment Report北大核心CSCD     

钟歆玥  康世昌  郭万钦  吴晓东  陈金雷 《冰川冻土》2022,44(3):946-953

The Working Group I report of the Sixth Assessment Report（AR6）of the Intergovernmental Panel on Climate Change（IPCC）was released in August 2021. Base on updated and expanding data, AR6 presented the improved assessment of past changes and processes of cryosphere. AR6 also predicted the future changes us⁃ ing the models in CMIP6. The components of cryosphere were rapid shrinking under climate warming in the last decade. There were decreasing trends in Arctic sea-ice area and thickness. Sea-ice loss was significant. The Greenland Ice Sheet, the Antarctic Ice Sheet and all glaciers lost more mass than in any other decade. Global warming over the last decades had led to widespread permafrost warming, active layer thickness increasing and subsea permafrost extent reducing. Snow cover extent in the Northern Hemisphere also decreased significantly. However, the variations of snow depth and snow water equivalent showed great spatial heterogeneity. The rapid shrinking of the cryosphere accelerated the global mean sea level rise. The impact of human activities on cryo⁃ sphere will become more significant in the future. The Arctic sea-ice area will decrease, and the Arctic Ocean will likely become practically sea ice-free. The Greenland Ice Sheet, the Antarctic Ice Sheet and glaciers will continue to lose mass throughout this century. Permafrost and Northern Hemisphere snow cover extent will con⁃ tinue to decrease as global climate continues to warm. In addition, there are still uncertainties in the prediction of cryosphere due to the absence of observations, the poor sensitivity of models to the components and processes of cryosphere, and the inexplicit represent of the mechanism of light-absorbing impurities. More attentions should be paid on these issues in the future. © 2022 Science Press (China). All rights reserved.  相似文献   

第四纪两类千年尺度气候振荡现象及机理研究     

张晓  张旭 《地学前缘》2022,29(5):322-333

千年尺度气候突变事件是第四纪冰期普遍存在的气候现象。这些事件可以被分为两类,一类为Dansgaard-Oeschger Event (DO事件),另一类为海因里希(Heinrich Stadial,HS)事件,后者有时也被认为是一种特殊的DO事件,因此也被称为 HS-DO事件。HS事件期间北大西洋冰架的融化一般对应DO振荡的冷相位,这与通常认为的冰架在较冷气候下体积增加并不相符。这两类事件在北大西洋重建数据中表现得最为明显,但其气候影响具有全球性。由于没有显著的外强迫驱动这两类气候突变事件,自20世纪90年代首次被确认以来,HS-DO事件一直是古气候界关注的重点,且人们对其触发机理仍没有定论。本文基于目前对这两类千年事件的研究现状,集中总结了目前已有的可反映千年事件的重建数据,利用已有的模拟工作,重点回顾了现有的机制理论,评述了目前研究DO事件以及HS-DO事件的局限性,并对其后续工作,尤其是模拟部分,进行了展望。  相似文献