LTER: The Role of Biogeochemical and Community Openness in Governing Ecological Change in Arctic Ecosystems

LTER：生物地球化学和社区开放在治理北极生态系统生态变化中的作用

• 批准号: 1637459
• 负责人: Kevin Griffin
• 金额: $ 676.2万
• 依托单位: Marine Biological Laboratory
• 依托单位国家: 美国
• 项目类别: Continuing Grant
• 财政年份: 2017
• 资助国家: 美国
• 起止时间: 2017-03-01 至 2022-03-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1637459&HistoricalAwards=false
• 关键词: LTER; Role; Biogeochemical; Community; Openness

The Arctic is one of the fastest warming regions on Earth and as such may well provide an idea of the future changes likely to occur further south. This warming has increased disturbances such as wildfire as well as thawing of permafrost in ecosystems of Northern Alaska. As a result of this warming and increased disturbance, animal and plant communities on land and in streams and lakes are changing. Underlying these community changes are changes in the availability and cycling of nutrients, in the amount of carbon stored in soils and vegetation, and in the exchange of carbon dioxide and nutrients between arctic landscapes and the atmosphere and downstream rivers and oceans. Collectively, these changes may have profound effects, not just on the arctic ecosystems, but globally, with implications for humans. A better understanding of these changes can lead to better predictions of the future, and those predictions could provide the basis for better planning. To understand these changes, scientists with the Arctic Long-Term Ecological Research (ARC-LTER) Project monitor long-term changes in terrestrial, stream, and lake ecosystems in the vicinity of Toolik Lake, Alaska. They make observations of the recovery of these ecosystems from natural and experimentally imposed disturbances, and initiate and maintain long-term experiments designed to understand interactions among arctic species, nutrient cycles, and the connections among terrestrial and aquatic ecosystems on the arctic landscape. Scientists working at the ARC-LTER site will engage students from Barrow, Alaska, run a program for journalists, and participate in short courses for Alaskan Natives in three communities, all designed to increase the public understanding of Arctic Ecology. Briefings to national and state land managers and resource managers will help provide scientific knowledge that can inform policy.The research is organized around the concepts of ecosystem openness and landscape connectivity. Biogeochemical openness is the degree to which ecosystems depend on external sources of nutrients and organic carbon versus nutrients recycled within the ecosystem and organic carbon produced locally by photosynthesis. Community openness is the degree to which the movement of organisms in and out of the ecosystem determines community and food-web structure. Finally, landscape connectivity describes the nature and strength of interactions among ecosystems on the landscape and the resultant propagation of responses to disturbances across the landscape. Components of the arctic landscape differ widely in biogeochemical and community openness. Research at the ARC-LTER will compare key ecosystems of the Arctic to determine how their degree of openness governs their responses to climate variation and to acute disturbance such as fire and surface slumping associated with permafrost thaw. The proposed research will also determine how the responses to climate and disturbance are mediated by landscape connectivity and the movement of nutrients, carbon, and organisms across arctic landscapes. To accomplish these goals, ARC-LTER research will include continued long-term fertilizer and warming experiments; monitoring of chemical budgets, community changes, and species movements; monitoring recovery of tundra, rivers, and lakes that were previously fertilized; establishing new larger greenhouses in different aged landscapes; blocking fish movement into a lake connected to migratory streams and adding fish to a lake currently isolated from a stream network; and searching for correlations between terrestrial production and aquatic metabolism and nutrient concentrations. This research will support two undergraduate student researchers per year and provide opportunities for students working on other projects to work on Arctic LTER sites and experiments.

北极是地球上变暖最快的地区之一，因此很可能为未来可能发生的变化提供一个想法。 这种变暖增加了干扰，如野火以及融化的永久冻土生态系统的北方阿拉斯加。 由于这种变暖和干扰的增加，陆地、溪流和湖泊中的动植物群落正在发生变化。 这些群落变化的基础是养分的可获得性和循环、土壤和植被中储存的碳量以及北极景观和大气与下游河流和海洋之间的二氧化碳和养分交换的变化。总的来说，这些变化可能会产生深远的影响，不仅对北极生态系统，而且对全球都有影响，对人类也有影响。更好地理解这些变化可以更好地预测未来，这些预测可以为更好的规划提供基础。为了了解这些变化，北极长期生态研究项目（ARC-LTER）的科学家们监测了阿拉斯加图里克湖附近陆地、河流和湖泊生态系统的长期变化。 他们观察这些生态系统从自然和实验施加的干扰中恢复的情况，并启动和维持旨在了解北极物种之间相互作用的长期实验，营养循环以及北极景观陆地和水生生态系统之间的联系。 在ARC-LTER站点工作的科学家将吸引来自阿拉斯加巴罗的学生，为记者举办一个项目，并参加三个社区的阿拉斯加原住民短期课程，所有这些都旨在增加公众对北极生态的了解。 向国家和州土地管理人员和资源管理人员介绍情况将有助于提供可以为政策提供信息的科学知识。研究围绕生态系统开放性和景观连通性的概念组织。生物地球化学开放性是指生态系统对外部营养物和有机碳来源的依赖程度，相对于生态系统内再循环的营养物和光合作用在当地产生的有机碳。 群落开放度是生物体进出生态系统的运动决定群落和食物网结构的程度。 最后，景观连通性描述了景观生态系统之间相互作用的性质和强度，以及对整个景观干扰的反应的传播。 北极景观的组成部分在生物地球化学和群落开放性方面差异很大。 在ARC-LTER的研究将比较北极的主要生态系统，以确定其开放程度如何决定其对气候变化和严重干扰的反应，如火灾和与永久冻土融化有关的表面塌陷。 拟议的研究还将确定对气候和干扰的反应如何通过景观连通性以及北极景观中营养物质，碳和生物体的运动来介导。为了实现这些目标，ARC-LTER研究将包括持续的长期肥料和变暖实验;监测化学收支，社区变化和物种迁移;监测以前施肥的苔原，河流和湖泊的恢复;在不同年龄的景观中建立新的更大的温室;阻止鱼类进入与洄游河流相连的湖泊，并向目前与河流网络隔离的湖泊增加鱼类;以及寻找陆地生产和水生代谢以及营养物浓度之间的相关性。这项研究将每年支持两名本科生研究人员，并为从事其他项目的学生提供在北极LTER站点和实验上工作的机会。

项目成果

Weathering the storm: Do arctic blizzards cause repeatable changes in stress physiology and body condition in breeding songbirds?

风暴风暴：北极暴风雪是否会导致繁殖鸣鸟的压力生理和身体状况的重复变化？

• DOI: 10.1016/j.ygcen.2018.07.004
• 发表时间: 2018-10-01
• 期刊: General and comparative endocrinology
• 影响因子: 2.7
• 作者: Krause JS;Pérez JH;Chmura HE;Meddle SL;Hunt KE;Gough L;Boelman N;Wingfield JC
• 通讯作者: Wingfield JC

Disturbance, nutrients, and antecedent flow conditions affect macroinvertebrate community structure and productivity in an Arctic river

干扰、营养物和先前的水流条件影响北极河流大型无脊椎动物群落结构和生产力

• DOI: 10.1002/lno.10942
• 发表时间: 2018
• 期刊: Limnology and Oceanography
• 影响因子: 4.5
• 作者: Kendrick, Michael R.;Hershey, Anne E.;Huryn, Alexander D.
• 通讯作者: Huryn, Alexander D.

Arctic concentration–discharge relationships for dissolved organic carbon and nitrate vary with landscape and season

• DOI: 10.1002/lno.11682
• 发表时间: 2020-12
• 期刊: Limnology and Oceanography
• 影响因子: 4.5
• 作者: Arial J. Shogren;J. Zarnetske;Benjamin W. Abbott;F. Iannucci;Alexander Medvedeff;Samuel T Cairns;M. Duda;W. Bowden

The Expanding Footprint of Rapid Arctic Change

• DOI: 10.1029/2018ef001088
• 发表时间: 2019-03-01
• 期刊: EARTHS FUTURE
• 影响因子: 8.2
• 作者: Moon, Twila A.;Overeem, Irina;Wong, Gifford
• 通讯作者: Wong, Gifford

Evaluation of the VIIRS BRDF, Albedo and NBAR products suite and an assessment of continuity with the long term MODIS record

• DOI: 10.1016/j.rse.2017.09.020
• 发表时间: 2017-11-01
• 期刊: REMOTE SENSING OF ENVIRONMENT
• 影响因子: 13.5
• 作者: Liu, Yan;Wang, Zhuosen;SanClements, Mike
• 通讯作者: SanClements, Mike