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1.
The interaction between the cryosphere and atmosphere is an essential and extremely sensitive mutual action process on the earth. Due to global warming and the cryospheric melting, more and more attention has been paid to the interaction process between the cryosphere and atmosphere, especially the feedback of the cryosphere change to the atmosphere. A comprehensive review of the studies on the interaction between the cryosphere and atmosphere is conducted from two aspects: (1) effects of climate change on the cryosphere or responses of the cryosphere to climate change; and (2) feedback of the cryosphere change to the climate. The response of the cryosphere to climate change is lagging. Such a lagging and cumulative effect of temperature rise within the cryosphere have resulted in a rapid change in the cryosphere in the 21st century, and its impacts have become more significant. The feedback from cryosphere change on the climate are omnifarious. Among them, the effects of sea ice loss and snow cover change, especially the Arctic sea ice loss and the Northern Hemisphere snow cover change, are the most prominent. The Arctic amplification (AA) associated with sea ice feedback is disturbing , and the feedback generated by the effect of temperature rise on snow properties in the Northern Hemisphere is also of great concern. There are growing evidence of the impact of the Arctic cryosphere melting on mid-latitude weather and climate. Weakened storm troughs, steered jet stream and amplified planetary waves associated with energy propagation become the key to explaining the links between Arctic cryosphere change and atmospheric circulation. There is still a great deal of uncertainty about how cryosphere change affects the weather and climate through different atmospheric circulation processes at different spatial and temporal scales due to observation and simulation problems. 相似文献
2.
The role of declining Arctic sea ice in recent decreasing terrestrial Arctic snow depths 总被引:1,自引:1,他引:0
The dramatic decline in Arctic sea ice cover is anticipated to influence atmospheric temperatures and circulation patterns. These changes will affect the terrestrial climate beyond the boundary of the Arctic, consequently modulating terrestrial snow cover. Therefore, an improved understanding of the relationship between Arctic sea ice and snow depth over the terrestrial Arctic is warranted. We examined responses of snow depth to the declining Arctic sea ice extent in September, during the period of 1979–2006. The major reason for a focus on snow depth, rather than snow cover, is because its variability has a climatic memory that impacts hydrothermal processes during the following summer season. Analyses of combined data sets of satellite measurements of sea ice extent and snow depth, simulated by a land surface model (CHANGE), suggested that an anomalously larger snow depth over northeastern Siberia during autumn and winter was significantly correlated to the declining September Arctic sea ice extent, which has resulted in cooling temperatures, along with an increase in precipitation. Meanwhile, the reduction of Arctic sea ice has amplified warming temperatures in North America, which has readily offset the input of precipitation to snow cover, consequently further decreasing snow depth. However, a part of the Canadian Arctic recorded an increase in snow depth driven locally by the diminishing September Arctic sea ice extent. Decreasing snow depth at the hemispheric scale, outside the northernmost regions (i.e., northeastern Siberia and Canadian Arctic), indicated that Arctic amplification related to the diminishing Arctic sea ice has already impacted the terrestrial Arctic snow depth. The strong reduction in Arctic sea ice anticipated in the future also suggests a potential long-range impact on Arctic snow cover. Moreover, the snow depth during the early snow season tends to contribute to the warming of soil temperatures in the following summer, at least in the northernmost regions. 相似文献
3.
Contrasting climate change in the two polar regions 总被引:1,自引:0,他引:1
The two polar regions have experienced remarkably different climatic changes in recent decades. The Arctic has seen a marked reduction in sea-ice extent throughout the year, with a peak during the autumn. A new record minimum extent occurred in 2007, which was 40% below the long-term climatological mean. In contrast, the extent of Antarctic sea ice has increased, with the greatest growth being in the autumn. There has been a large-scale warming across much of the Arctic, with a resultant loss of permafrost and a reduction in snow cover. The bulk of the Antarctic has experienced little change in surface temperature over the last 50 years, although a slight cooling has been evident around the coast of East Antarctica since about 1980, and recent research has pointed to a warming across West Antarctica. The exception is the Antarctic Peninsula, where there has been a winter (summer) season warming on the western (eastern) side. Many of the different changes observed between the two polar regions can be attributed to topographic factors and land/sea distribution. The location of the Arctic Ocean at high latitude, with the consequently high level of solar radiation received in summer, allows the ice-albedo feedback mechanism to operate effectively. The Antarctic ozone hole has had a profound effect on the circulations of the high latitude ocean and atmosphere, isolating the continent and increasing the westerly winds over the Southern Ocean, especially during the summer and winter. 相似文献
4.
中国冰冻圈文化服务专题区划研究 总被引:1,自引:0,他引:1
本文以中国冰冻圈服务综合区划、自然和人文地理区划等理论、方法为基础,综合中国冰冻圈主要组成要素(冰川、冻土、积雪)及其社会文化要素(民族、历史、聚落、旅游文化和行政区划),采用相似性与差异性、综合性与主导性、等级性与逻辑性和空间连续与行政边界相结合的方法,提出了“文化服务+文化产业+经济开发”导向的中国冰冻圈文化服务专题区划方案。根据空间聚类方法和专家判断,将其划分为青藏高原冰川—冻土—积雪文化区、西北冰川—积雪文化区、东北冻土—积雪文化区、北方积雪文化区和南方积雪文化区5个一级区划大区,依据文化与地域要素异质性原则,再细分为12个二级区划亚类和51个三级区划基本类型。专题区划方案与中国冰冻圈空间分布、中国自然地理综合区划、中国人文地理综合区划等的吻合度较高,体现了冰冻圈组成要素与冰冻圈区域文化要素的依存关系及区域空间异质性规律。本文深化了对中国冰冻圈文化服务及其空间异质性的认知,可为冰冻圈文化保护、传承、发扬,以及不同区域冰冻圈文化、旅游产业的开发及相关产业的运营、管理提供科学依据。 相似文献
5.
"美丽冰冻圈"融入区域发展的途径与模式 总被引:2,自引:0,他引:2
在探讨“美丽冰冻圈”内涵的基础上,从自然属性与社会经济两个层面、致利与致害两条线,分析了“美丽冰冻圈”与区域可持续发展的关系,“美丽冰冻圈”、区域社会经济发展、人类福祉构成冰冻圈—人类社会经济复合命运共同体。基于中国冰冻圈要素及其变化影响的区域差异性,选取祁连山—河西地区、青藏高原三江源地区、横断山大香格里拉地区,分别代表冰冻圈水资源影响区、冰冻圈灾害影响区、冰冻圈旅游经济区,围绕冰冻圈水资源服务与绿洲经济、雪灾害风险与畜牧业经济、冰雪旅游与区域经济等核心问题,从冰冻圈资源服务与灾害风险视角,详细阐述了冰冻圈融入不同区域发展的途径与模式。在干旱半干旱内陆地区,冰冻圈主要以水源涵养、水量供给与径流调节服务,融入绿洲社会经济发展,是一种冰冻圈水资源支撑型区域发展模式;在青藏高原高寒区,冰冻圈生态环境决定了畜牧业经济的脆弱性,冰冻圈灾害负向影响畜牧业经济,是一种冰冻圈生态支撑+灾害影响型区域发展模式;在冰冻圈旅游经济区,直接依托冰雪资源发展冰雪旅游业,是一种基于冰冻圈资源的旅游经济驱动型区域发展模式。 相似文献
6.
Glen MacDonald Benjamin Felzer Bruce Finney Steven Forman 《Journal of Paleolimnology》2000,24(1):1-13
Although paleoclimatic research in the Arctic has most often focused on variations in temperature, the Arctic has also experienced changes in hydrologic balance. Changes in Arctic precipitation and evaporation rates affects soils, permafrost, lakes, wetlands, rivers, ice and vegetation. Changes in Arctic soils, permafrost, runoff, and vegetation can influence global climate by changing atmospheric methane and carbon dioxide concentrations, thermohaline circulation, and high latitude albedo. Documenting past variations in Arctic hydrological conditions is important for understanding Arctic climate and the potential response and role of the Arctic in regards to future climate change. Methods for reconstructing past changes in Arctic hydrology from the stratigraphic, isotopic, geochemical and fossil records of lake sediments are being developed, refined and applied in a number of regions. These records suggest that hydrological variations in the Arctic have been regionally asynchronous, reflecting the impacts of different forcing factors including orbitally controlled insolation changes, changes in geography related to coastal emergence, ocean currents, sea ice extent, and atmospheric circulation. Despite considerable progress, much work remains to be done on the development of paleohydrological proxies and their application to the Arctic. 相似文献
7.
冰冻圈变化的自然过程影响着国家领土博弈地缘关系的建构。基于人地关系思想,以变化-影响-适应为主线建立气候变化影响下冰冻圈国家领土博弈的研究框架,分析自然因素对冰冻圈地缘结构的塑造和对冰冻圈国家身份-利益的建构,以及极地海权、陆权和其他地区领土博弈所形成的双多边地缘关系。研究结果:① 冰冻圈领土博弈地缘结构初步形成。理念层面,自然要素成为气候政治的力量之一,冰冻圈领土博弈体现出传统地缘逻辑;空间层面,气候变化释放极地、高山等新运筹空间,北极、南极成为大国博弈焦点;物质层面,极地海权和陆权利益是大国博弈的主要目标。② 冰冻圈国家身份-利益影响其冰冻圈地缘政治行为,其身份认同的客观基础之一是在冰冻圈分布结构的相对位置。③ 冰冻圈国家领土博弈地缘关系有“趋利”“避害”两类。“利”指为赢得极地海权、陆权,气候变化下西方大国和地区大国开始争夺南北极200海里外大陆架权属,加强极地实质性“硬、软存在”战略布局,美国和丹麦强化格陵兰岛北极战略支点作用;“害”指冰冻圈灾害引起的跨境气候移民等国家利益受损问题。 相似文献
8.
Niels Nielsen Ole Humlum Birger Ulf Hansen 《Geografisk tidskrift / udgivet af Bestyrelsen for Det Kongelige danske geografiske selskab》2013,113(1):155-158
An automatic meteorological station has been operating at the Arctic Station (69°15'N, 53°31'W) in West Greenland since 1990. This paper summarizes meteorological parameters during 2000 including snow and sea ice cover, ground temperatures and active layer development, and presents comments on the local permafrost thickness. 相似文献
9.
《Norsk geografisk tidsskrift. Norwegian journal of geography》2012,66(4):261-266
It has repeatedly been reported that snow cover is a dominating factor in determining the presence or absence of permafrost in the discontinuous and sporadic permafrost regions. The temperature at the snow-soil interface by the end of winter, known as the bottom temperature of winter snow (BTS) method, has been used to detect the existence of permafrost in European alpine regions when the maximum snow depth is about 1.0 m or greater. A critical snow thickness of about 50 cm or greater can prevent the development of permafrost in eastern Hudson Bay, Canada. The objective of this study is to investigate the impact of snow cover on the presence or absence of permafrost in cold regions through numerical simulations. A one-dimensional heat transfer model with phase change and a snow cover regime is used to simulate energy exchange between deep soils and the atmosphere. The model has been validated against the in situ data in the Arctic. The simulation results indicate that both snow depth and the onset date of snow cover establishment are important parameters in relation to the presence or absence of permafrost. Early establishment of snow cover can make permafrost disappear, even with a relatively thin snow cover. Permafrost may survive when snow cover starts after the middle of December even with a snow thickness >1.0 m. This effect of snow cover on the ground thermal regime can be explained with reference to the pattern of seasonal temperature variation. Early establishment of snow cover enhances the insulating impact over the entire cold season, thus warming and eventually thawing the permafrost. The insulating effect is substantially reduced when snow cover starts relatively late and snowmelt in the spring creates a huge heat sink, resulting in a favorable combination for permafrost existence. 相似文献
10.
大香格里拉地区是我国典型的冰冻圈旅游区,冰冻圈资源丰富,且旅游开发较好。以大香格里拉地区为例,运用熵值法、综合指数评价模型与地理探测器相结合的分析方法,对2008—2017年大香格里拉旅游经济区的发展水平及主要影响因素进行了分析,并提出相应政策建议。结果表明:(1)2008—2017年发展水平明显提高,但受冰冻圈资源变化影响较大;(2)该地区以中等偏下发展水平为主,各地区发展不平衡,发展水平差异呈现先扩大后缩小的趋势;(3)冰川面积、冰川面积覆盖率、人均全社会消费品零售总额、旅行社数量和城镇化率是影响大香格里拉地区发展水平的关键因子,经济和社会发展水平的迅速提升,在一定程度上抵消了冰冻圈资源萎缩的负面影响。基于此,应严格遵循生态保护红线,从实际出发,支持各地区发挥比较优势,利用当前冰冻圈资源优势,重点培育冰雪旅游产业,以促进大香格里拉地区发展进程。 相似文献
11.
冰冻圈是全球气候系统的主要圈层之一,既具有不可替代的气候效应,又维系着寒旱地区社会经济和自然生态系统良好运行,而中国是中低纬度地区冰川、积雪、冻土发育程度最高的国家。长期以来,针对冰冻圈“致害性”的研究众多,而聚焦冰冻圈服务的“致利性”研究则相对滞后,在此背景下着眼于人类福祉的冰冻圈服务识别与综合区划研究成为冰冻圈科学、人地系统可持续发展等的关键科学问题之一,也是目前迫切需要开展的研究方向。首先,确定以地域分异规律理论、人地关系地域系统理论、集合论和信息编码论等跨学科理论为研究基础;尔后,构建面向综合区划研究的冰冻圈服务分类体系,先以供需均衡模型为核心进行单项服务重要性空间识别,再以服务最大化模型为指导,通过区位熵算法判定冰冻圈主导服务的空间分布;最后,以三维魔方展开法为核心制定冰冻圈服务综合区划方案,将研究区划分多重空间层级、彼此独立完整、相互联系密切的冰冻圈服务单元。综上,形成综合自然供给和人文需求因素且适应地区特色的冰冻圈服务空间识别与综合区划技术体系和方法流程,为冰冻圈服务供给与社会经济发展需要架起一座桥梁,是满足国家重大战略需求和合理利用冰冻圈服务的必由之路。 相似文献
12.
北半球积雪/海冰面积与温度相关性的差异分析 总被引:1,自引:1,他引:0
积雪和海冰的时空变化对区域以及全球的气候、水文具有重要影响。基于雪冰数据和NCEP再分析气温数据,利用MK检验、滞后分析等方法,分析了积雪、海冰的时空变化特征及其与温度的相关特征。结果表明:1979-2013年,北半球积雪区、北极圈的年均温度呈显著上升的趋势,而积雪面积和海冰面积呈显著下降的趋势。在大部分地区,积雪覆盖频率随着温度的上升呈显著减少的趋势,但在中国长江中下游、青藏高原等局部地区,积雪覆盖频率随着温度的上升呈显著增加趋势。在大部分的近陆地海域,海冰覆盖频率随着温度的上升呈显著下降趋势。超前时间1~2个月的温度与海冰面积的负相关性最高。超前1~4个月的温度与积雪面积的负相关性最高。温度对海冰的影响时间比对积雪的影响时间长1~2个月。温度变化对海冰和积雪的影响存在一致性,但积雪和海冰对温度的响应时间存在差异,具有空间变异性。 相似文献
13.
政府间国际气候变化专门委员会(IPCC)2007年发布了第4次评估报告后,全球气候变化问题再次成为国际社会、科技界和社会公众关注的焦点之一,并迅速成为了一个重要的国际科学和政治议题。 2007年以来,尤其是第4次国际极地年的实施,越来越多的观测和研究事实表明,北极和南极地区正在出现快速地变化着,这些变化也正在从量上到质量变化,当在跨越这种变化的阈门时,可能出现:北冰洋会在2040年前后出现夏季无海冰所引起的北半球大范围的持续暴雪的寒冷冬季;2050年左右南极上空臭氧空洞可能消失并恢复到上世纪80年代水平,南极地区可能会快速升温并引起东南极冰盖和海冰快速融化,使海平面升高加速;极区海水温度快速升高会驱动极区表层海洋和上覆大气之间CO2分压平衡加速,极区海洋也会大量吸收大气CO2,并诱发海水酸化及对极区生态系统产生不可逆的破坏。因此,南极和北极地区的快速变化,正在扮演对全球气候变化的指示和调控作用。 相似文献
14.
Snow and sea ice thermodynamics in the Arctic:Model validation and sensitivity study against SHEBA data 
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下载免费PDF全文 Timo Vihma 《极地研究》2008,19(2):108-122
Evolution of the Arctic sea ice and its snow cover during the SHEBA year were simulated by applying a high-resolution thermodynamic snow/ice model (HIGHTSI).Attention was paid to the impact of albedo on snow and sea ice mass balance,effect of snow on total ice mass balance,and the model vertical resolution. The SHEBA annual simulation was made applying the best possible external forcing data set created by the Sea Ice Model Intercomparison Project.The HIGHTSI control run reasonably reproduced the observed snow and ice thickness.A number of albedo schemes were incorporated into HIGHTSI to study the feedback processes between the albedo and snow and ice thickness.The snow thickness turned out to be an essential variable in the albedo parameterization.Albedo schemes dependent on the surface temperature were liable to excessive positive feedback effects generated by errors in the modelled surface temperature.The superimposed ice formation should be taken into account for the annual Arctic sea ice mass balance. 相似文献
15.
冰冻圈是气候系统重要的圈层,对气候系统有强烈的反馈作用,在全球变暖的背景下,冰冻圈的变化和预测研究愈来愈受到科学界的重视。近年来,冰冻圈的预测研究已经取得重要进展,主要表现在:海冰、积雪冻土等子系统模式发展迅速,开展了不少模式比较计划,这些模式能重现大尺度的季节变化和年际变化特征,模拟能力较以前有了大幅度提高。但模式模拟的不确定性仍普遍存在,主要表现在:冰盖等子系统的模式对于其内部的热力过程、其底部与海洋的相互作用过程缺乏有效的观测手段,认识不够清楚,湖冰河冰模式主要还依赖统计相关模型。随着遥感技术以及资料同化技术的不断应用,各个子系统物理过程认识的不断深入,冰冻圈模式预测将日趋完善,逐渐缩小不确定性。 相似文献
16.
This paper outlines the fundamental roles sea ice plays during the spring Arctic climate, and it demonstrates the use of passive microwave remote sensing in measuring climatically important sea ice variables during the spring transitional period. It discusses the theoretical concepts underlying passive microwave remote sensing of sea ice, and it summarizes the historical use of satellite microwave radiometry in the Arctic region. In addition, this paper discusses the derivation of climatically important sea ice variables, including sea ice extent, concentration, multiyear ice fraction, and snow melt onset, with additional comments on the precision and accuracy of the remote sensing estimates. It also discusses interannual trends in sea ice extent and presents interannual trends in snow melt onset dates. Finally, this paper provides a brief discussion on the future directions in passive microwave remote sensing of climatically important sea ice variables during the spring transitional period. 相似文献
17.
《The Professional geographer》2013,65(2):315-322
This paper outlines the fundamental roles sea ice plays during the spring Arctic climate, and it demonstrates the use of passive microwave remote sensing in measuring climatically important sea ice variables during the spring transitional period. It discusses the theoretical concepts underlying passive microwave remote sensing of sea ice, and it summarizes the historical use of satellite microwave radiometry in the Arctic region. In addition, this paper discusses the derivation of climatically important sea ice variables, including sea ice extent, concentration, multiyear ice fraction, and snow melt onset, with additional comments on the precision and accuracy of the remote sensing estimates. It also discusses interannual trends in sea ice extent and presents interannual trends in snow melt onset dates. Finally, this paper provides a brief discussion on the future directions in passive microwave remote sensing of climatically important sea ice variables during the spring transitional period. 相似文献
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结合前人对北冰洋海冰、气候系统的研究成果和 1 999年 8月在北冰洋对海冰的现场观测 ,本文综述了海冰分布、厚度的变化 ,海冰表面特征、积雪变化及北冰洋天气、气候特征和分区。讨论了北极海冰与南极海冰的差异。文章认为 ,北冰洋与周围地区气候变化趋势的不一致 ,主要是由于夏季在北冰洋海冰与开阔水域的相间分布、海冰漂移、融化吸热 ,均衡了周围大气、海洋温度的变化。 相似文献
20.
The behavior and fates of environmental pollutants within the cryosphere and the associated environmental impacts are of increasing concerns in the context of global warming.The Tibetan Plateau(TP),also known as the"Third Pole",represents one of the most important cryospheric regions in the world.Mercury(Hg)is recognized as a global pollutant.Here,we summarize the current knowledge of Hg concentration levels,pools and spatio-temporal distribution in cryospheric environments(e.g.,glacier,permafrost),and its transfer and potential cycle in the TP cryospheric region.Transboundary transport of anthropogenic Hg from the surrounding heavily-polluted regions,such as South and Southeast Asia,provides significant sources of atmospheric Hg depositions onto the TP cryosphere.We concluded that the melting of the cryosphere on the TP represents an increasing source of Hg and brings a risk to the TP environment.In addition,global warming acts as an important catalyst accelerating the release of legacy Hg from the melting cryosphere,adversely impacting ecosystems and biological health.Furthermore,we emphasize on the remaining gaps and proposed issues needed to be addressed in future work,including enhancing our knowledge on some key release pathways and the related environmental effects of Hg in the cryospheric region,integrated observation and consideration of Hg distribution,migration and cycle processes at a key region,and uses of Hg isotopic technical and Hg models to improve the understanding of Hg cycling in the TP cryospheric region. 相似文献