Arctic Biosphere-Atmosphere Coupling across multiple Scales (ABACUS).

北极生物圈-大气多尺度耦合（ABACUS）。

• 批准号: NE/D005884/1
• 负责人: Mathew Williams
• 金额: $ 24.24万
• 依托单位: University of Sheffield
• 依托单位国家: 英国
• 项目类别: Research Grant
• 财政年份: 2006
• 资助国家: 英国
• 起止时间: 2006 至 无数据
• 项目状态: 已结题
• 来源: https://gtr.ukri.org/projects?ref=NE%2FD005884%2F1
• 关键词: Arctic; Biosphere; Atmosphere; Coupling; across

Climate warming is resulting from disruption of the global carbon cycle. The Arctic is already warming significantly, and warming is expected to be fastest and greatest at high latitudes, 4-7 degrees C over the next century. However, there are complex links among climate, the carbon cycle and the global energy balance which mean that the details of such global changes remain poorly understood. We propose a major, linked programme of plant and soil studies, atmospheric measurements, aircraft and satellite observations, and modelling, to improve our understanding of the response of the arctic terrestrial biosphere to climate change. Our overall aim is to determine what controls the temporal and spatial variability of carbon, water and energy exchange between arctic ecosystems and the atmosphere. Our field sites are based at Abisko, Sweden (with one focus area in dry tundra, the other in birch forest), and Kevo, Finland (with one focus on wet tundra, the other on dry tundra). At Kevo and Abisko both satellite imagery and aircraft flights will encompass an area of 10 km x 10 km, including both focus areas. The project has eight work-packages: WP1 Studies on plant allocation and phenology, and respiration-production ratios for major community types (via harvests, root measurement and isotope tracer experiments). WP2 Turnover of litter, soil organic matter (SOM), landscape distribution of soils (via soil surveys, isotope labelled litter, bomb C dating to determine SOM age), CH4 emissions. WP3 Chamber measurements of C and water exchanges from soils and vegetation at fine scales (a resolution of ~1m). WP4 Continuous tower measurements of CO2 and water exchange between the soils/vegetation and the atmosphere at scales of ~100 m, and records of snow depth, soil moisture and climate. WP5 Aircraft measurements over the two study regions, recording CO2 and water exchanges and images of the land surface and profiles of CH4. These measurements will extend over areas of many km squared. WP6 Earth Observation via satellites. We will link observations from several satellite instruments to measurements of plant cover recorded in field campaigns. WP7 We use models to connect the information connected at different time and space scales. The models represent our best understanding of the system, and we check and improve our understanding against independent observations, whether from chambers, towers, aircraft or satellites. We test whether we can understand the data from satellites and aircraft in terms of the detail recorded at the chambers and towers and with the WP1 and WP2 experiments. WP8 We will run an international workshop to share our ideas with colleagues from around the world. We will train post-graduates with a summer-school based around field measurement, and provide undergraduates with summer field experience.

气候变暖是全球碳循环中断的结果。北极已经在显著变暖，预计高纬度地区的变暖速度最快，幅度最大，下个世纪将达到4-7摄氏度。然而，气候、碳循环和全球能源平衡之间存在着复杂的联系，这意味着对这种全球变化的细节仍然知之甚少。我们提出了一个主要的，植物和土壤研究，大气测量，飞机和卫星观测，建模相关联的方案，以提高我们的北极陆地生物圈对气候变化的反应的理解。我们的总体目标是确定是什么控制了北极生态系统和大气之间碳、水和能量交换的时空变化。我们的实地考察地点位于瑞典阿比斯科（一个重点区域位于干燥苔原，另一个重点区域位于桦树林）和芬兰凯沃（一个重点区域位于潮湿苔原，另一个重点区域位于干燥苔原）。在Kevo和Abisko，卫星图像和飞机飞行将覆盖10公里x10公里的区域，包括两个重点区域。该项目有八个工作包：WP 1研究植物分配和物候，以及主要群落类型的呼吸-生产比率（通过收获、根系测量和同位素示踪实验）。周转凋落物，土壤有机质（SOM），土壤景观分布（通过土壤调查，同位素标记的凋落物，炸弹C测年，以确定SOM年龄），甲烷排放量。WP 3土壤和植被的碳和水交换的细尺度（分辨率约为1米）室测量。WP 4在塔上以~100米的尺度连续测量土壤/植被与大气之间的CO2和水交换，并记录积雪深度、土壤湿度和气候。WP 5飞机对两个研究区域的测量，记录CO2和水交换以及陆地表面图像和CH 4剖面。这些测量将覆盖许多平方公里的区域。WP 6通过卫星进行地球观测。我们将把几个卫星仪器的观测结果与实地活动中记录的植物覆盖测量结果联系起来。WP7我们使用模型来连接在不同时间和空间尺度上连接的信息。这些模型代表了我们对该系统的最佳理解，我们根据独立的观察结果（无论是来自室、塔、飞机还是卫星）来检查和改进我们的理解。我们测试我们是否可以理解的数据从卫星和飞机的详细记录在室和塔，并与WP 1和WP 2实验。WP8我们将举办一个国际研讨会，与来自世界各地的同事分享我们的想法。我们将围绕现场测量培训研究生暑期学校，并为本科生提供暑期现场经验。

项目成果

Leaf and fine root carbon stocks and turnover are coupled across Arctic ecosystems.

北极生态系统中的叶子和细根碳储量和周转率是相互关联的。

• DOI: 10.1111/gcb.12322
• 发表时间: 2013
• 期刊: Global change biology
• 影响因子: 11.6
• 作者: Sloan VL

Seasonal bryophyte productivity in the sub-Arctic: a comparison with vascular plants

亚北极季节性苔藓植物生产力：与维管植物的比较

• DOI: 10.1111/j.1365-2435.2011.01954.x
• 发表时间: 2012
• 期刊: Functional Ecology
• 影响因子: 5.2
• 作者: Street L

The role of mosses in carbon uptake and partitioning in arctic vegetation.

• DOI: 10.1111/nph.12285
• 发表时间: 2013-07
• 期刊: The New phytologist
• 作者: L. Street;J. Subke;M. Sommerkorn;V. Sloan;Helene Ducrotoy;G. Phoenix;M. Williams