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相似文献

1
Multi-decadal changes in tundra environments and ecosystems: synthesis of the International Polar Year-Back to the Future project (IPY-BTF).多年冻土环境和生态系统的变化:国际极地年-回溯未来项目(IPY-BTF)的综合研究。
Ambio. 2011 Sep;40(6):705-16. doi: 10.1007/s13280-011-0179-8.
2
Multi-decadal changes in tundra environments and ecosystems: the International Polar Year-Back to the Future Project (IPY-BTF).多年代际变化下的冻原生态环境:国际极地年-回溯未来项目(IPY-BTF)。
Ambio. 2011 Sep;40(6):555-7. doi: 10.1007/s13280-011-0162-4.
3
Decadal warming causes a consistent and persistent shift from heterotrophic to autotrophic respiration in contrasting permafrost ecosystems.年代际变暖导致对比鲜明的多年冻土生态系统中从异养呼吸到自养呼吸的一致且持续的转变。
Glob Chang Biol. 2015 Dec;21(12):4508-19. doi: 10.1111/gcb.13032. Epub 2015 Sep 22.
4
Enhanced summer warming reduces fungal decomposer diversity and litter mass loss more strongly in dry than in wet tundra.增强的夏季变暖会使干旱苔原的真菌分解者多样性和凋落物质量损失减少得更强烈,而在湿润苔原则不然。
Glob Chang Biol. 2017 Jan;23(1):406-420. doi: 10.1111/gcb.13362. Epub 2016 Jun 21.
5
Circumpolar arctic tundra biomass and productivity dynamics in response to projected climate change and herbivory.北极圈冻原生态系统生物量和生产力对预计气候变化和食草作用的响应。
Glob Chang Biol. 2017 Sep;23(9):3895-3907. doi: 10.1111/gcb.13632. Epub 2017 Mar 8.
6
Ecosystem nitrogen fixation throughout the snow-free period in subarctic tundra: effects of willow and birch litter addition and warming.北极苔原地区无雪期的生态系统固氮:柳树和桦树凋落物添加及增温的影响。
Glob Chang Biol. 2017 Apr;23(4):1552-1563. doi: 10.1111/gcb.13418. Epub 2016 Aug 1.
7
Changes in vegetation in northern Alaska under scenarios of climate change, 2003-2100: implications for climate feedbacks.2003 - 2100年气候变化情景下阿拉斯加北部植被的变化:对气候反馈的影响
Ecol Appl. 2009 Jun;19(4):1022-43. doi: 10.1890/08-0806.1.
8
Predicted responses of arctic and alpine ecosystems to altered seasonality under climate change.预测气候变化下季节变化改变对北极和高山生态系统的影响。
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9
Long-term deepened snow promotes tundra evergreen shrub growth and summertime ecosystem net CO gain but reduces soil carbon and nutrient pools.长期积雪加深促进了苔原常绿灌木的生长和夏季生态系统净 CO2 增益,但减少了土壤碳和养分库。
Glob Chang Biol. 2018 Aug;24(8):3508-3525. doi: 10.1111/gcb.14084. Epub 2018 Mar 2.
10
High Arctic summer warming tracked by increased Cassiope tetragona growth in the world's northernmost polar desert.高北极夏季变暖与世界最北极荒漠中四角岩须的生长增加有关。
Glob Chang Biol. 2017 Nov;23(11):5006-5020. doi: 10.1111/gcb.13747. Epub 2017 May 29.

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1
The Resilience of Polar Collembola (Springtails) in a Changing Climate.极地弹尾虫(跳虫)在气候变化中的恢复力
Curr Res Insect Sci. 2022 Sep 11;2:100046. doi: 10.1016/j.cris.2022.100046. eCollection 2022.
2
A bibliometric analysis of publications in Ambio in the last four decades.过去四十年《AMBIO》期刊文献的计量分析
Environ Sci Pollut Res Int. 2021 Dec;28(45):64345-64359. doi: 10.1007/s11356-021-14796-4. Epub 2021 Jul 24.
3
Status and trends in Arctic vegetation: Evidence from experimental warming and long-term monitoring.北极地区植被的现状和趋势:来自实验增温和长期监测的证据。
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4
Changes in species abundance after seven years of elevated atmospheric CO and warming in a Subarctic birch forest understorey, as modified by rodent and moth outbreaks.在北极地区桦木林下植被中,经过七年大气CO浓度升高和气候变暖,并受到啮齿动物和蛾类爆发的影响后,物种丰度的变化。
PeerJ. 2018 May 29;6:e4843. doi: 10.7717/peerj.4843. eCollection 2018.
5
Catchment vegetation and temperature mediating trophic interactions and production in plankton communities.集水区植被和温度调节浮游生物群落中的营养相互作用和生产力。
PLoS One. 2017 Apr 17;12(4):e0174904. doi: 10.1371/journal.pone.0174904. eCollection 2017.
6
Vascular plant abundance and diversity in an alpine heath under observed and simulated global change.观测和模拟全球变化下高山石南灌丛中维管植物的丰度和多样性
Sci Rep. 2015 May 7;5:10197. doi: 10.1038/srep10197.
7
Controlled soil warming powered by alternative energy for remote field sites.利用替代能源为偏远野外场地提供的可控土壤加温。
PLoS One. 2013 Dec 26;8(12):e82903. doi: 10.1371/journal.pone.0082903. eCollection 2013.
8
Ecosystem change and stability over multiple decades in the Swedish subarctic: complex processes and multiple drivers.在瑞典亚北极地区,经过几十年的生态系统变化和稳定性:复杂的过程和多种驱动因素。
Philos Trans R Soc Lond B Biol Sci. 2013 Jul 8;368(1624):20120488. doi: 10.1098/rstb.2012.0488. Print 2013 Aug 19.
9
Advancing the long view of ecological change in tundra systems. Introduction.推进苔原生态系统中生态变化的长远视角。引言。
Philos Trans R Soc Lond B Biol Sci. 2013 Jul 8;368(1624):20120477. doi: 10.1098/rstb.2012.0477. Print 2013 Aug 19.
10
Modelling tundra vegetation response to recent arctic warming.模拟苔原植被对最近北极变暖的响应。
Ambio. 2012;41 Suppl 3(Suppl 3):281-91. doi: 10.1007/s13280-012-0306-1.

本文引用的文献

1
Forecasting alpine vegetation change using repeat sampling and a novel modeling approach.利用重复采样和新的建模方法预测高山植被变化。
Ambio. 2011 Sep;40(6):693-704. doi: 10.1007/s13280-011-0175-z.
2
Tree and shrub expansion over the past 34 years at the tree-line near Abisko, Sweden.过去 34 年里,瑞典阿比斯库附近树线附近的树木和灌木的扩张情况。
Ambio. 2011 Sep;40(6):683-92. doi: 10.1007/s13280-011-0174-0.
3
Changes in tree growth, biomass and vegetation over a 13-year period in the Swedish sub-Arctic.在瑞典亚北极地区,树木生长、生物量和植被在 13 年期间的变化。
Ambio. 2011 Sep;40(6):672-82. doi: 10.1007/s13280-011-0173-1.
4
Four decades of plant community change in the Alpine tundra of southwest Yukon, Canada.四十年间加拿大育空西南高寒冻原植物群落的变化
Ambio. 2011 Sep;40(6):660-71. doi: 10.1007/s13280-011-0172-2.
5
Flora and vegetation of Tasiilaq, formerly Angmagssalik, southeast Greenland: a comparison of data between around 1900 and 2007.格陵兰东南地区塔西拉克(原名:安马沙利克)的植物群和植被:1900 年前后和 2007 年数据的比较。
Ambio. 2011 Sep;40(6):650-9. doi: 10.1007/s13280-011-0171-3.
6
Long-term effects of grazing and global warming on the composition and carrying capacity of graminoid marshes for moulting geese in east Greenland.东格陵兰用于鸿雁换羽的草本沼泽在放牧和全球变暖下的组成和承载能力的长期影响。
Ambio. 2011 Sep;40(6):638-49. doi: 10.1007/s13280-011-0170-4.
7
Plant and vegetation dynamics on Disko Island, west Greenland: snapshots separated by over 40 years.格陵兰岛西部迪斯科岛的植物和植被动态:相隔 40 多年的快照。
Ambio. 2011 Sep;40(6):624-37. doi: 10.1007/s13280-011-0169-x.
8
Expansion of canopy-forming willows over the twentieth century on Herschel Island, Yukon Territory, Canada.加拿大育空地区赫歇尔岛,树冠形成的柳树在二十世纪的扩张。
Ambio. 2011 Sep;40(6):610-23. doi: 10.1007/s13280-011-0168-y.
9
Assessment of biological and environmental phenology at a landscape level from 30 years of fixed-date repeat photography in northern Sweden.从瑞典北部 30 年的固定日期重复摄影中评估生物和环境物候学在景观水平上的特征。
Ambio. 2011 Sep;40(6):600-9. doi: 10.1007/s13280-011-0167-z.
10
Changes in tundra pond limnology: re-sampling Alaskan ponds after 40 years.苔原池塘水文学的变化:40 年后重新采样阿拉斯加池塘。
Ambio. 2011 Sep;40(6):589-99. doi: 10.1007/s13280-011-0165-1.

多年冻土环境和生态系统的变化:国际极地年-回溯未来项目(IPY-BTF)的综合研究。

Multi-decadal changes in tundra environments and ecosystems: synthesis of the International Polar Year-Back to the Future project (IPY-BTF).

机构信息

Royal Swedish Academy of Sciences, Stockholm.

出版信息

Ambio. 2011 Sep;40(6):705-16. doi: 10.1007/s13280-011-0179-8.

DOI:10.1007/s13280-011-0179-8
PMID:21954732
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3357861/
Abstract

Understanding the responses of tundra systems to global change has global implications. Most tundra regions lack sustained environmental monitoring and one of the only ways to document multi-decadal change is to resample historic research sites. The International Polar Year (IPY) provided a unique opportunity for such research through the Back to the Future (BTF) project (IPY project #512). This article synthesizes the results from 13 papers within this Ambio Special Issue. Abiotic changes include glacial recession in the Altai Mountains, Russia; increased snow depth and hardness, permafrost warming, and increased growing season length in sub-arctic Sweden; drying of ponds in Greenland; increased nutrient availability in Alaskan tundra ponds, and warming at most locations studied. Biotic changes ranged from relatively minor plant community change at two sites in Greenland to moderate change in the Yukon, and to dramatic increases in shrub and tree density on Herschel Island, and in subarctic Sweden. The population of geese tripled at one site in northeast Greenland where biomass in non-grazed plots doubled. A model parameterized using results from a BTF study forecasts substantial declines in all snowbeds and increases in shrub tundra on Niwot Ridge, Colorado over the next century. In general, results support and provide improved capacities for validating experimental manipulation, remote sensing, and modeling studies.

摘要

了解苔原系统对全球变化的响应具有全球意义。大多数苔原地区缺乏持续的环境监测,记录数十年变化的唯一方法之一是重新采样历史研究地点。国际极地年(IPY)通过“回到未来”(BTF)项目(IPY 项目#512)为这类研究提供了一个独特的机会。本文综合了本期《AMBIO》特刊中 13 篇论文的结果。非生物变化包括俄罗斯阿尔泰山脉的冰川后退;亚北极瑞典的积雪深度和硬度增加、永久冻土变暖以及生长季节延长;格陵兰的池塘干涸;阿拉斯加苔原池塘的养分供应增加,以及大多数研究地点的变暖。生物变化范围从格陵兰的两个地点相对较小的植物群落变化到育空地区的中度变化,以及赫歇尔岛和瑞典亚北极地区灌木和树木密度的显著增加。在格陵兰东北部的一个地点,鹅的数量增加了两倍,在未放牧的地段,生物量增加了一倍。使用 BTF 研究的结果进行参数化的模型预测,在未来一个世纪内,科罗拉多州尼沃特岭的所有雪床将大幅减少,灌木苔原将增加。总的来说,这些结果支持并提高了实验操作、遥感和建模研究的验证能力。