Greenhouse Gas Instrumentation System for Aquatic Ecosystems (GHG-Aqua)

水生生态系统温室气体仪表系统 (GHG-Aqua)

• 批准号: NE/V01627X/1
• 负责人: Christopher Evans
• 金额: $ 126.69万
• 依托单位: UK CENTRE FOR ECOLOGY & HYDROLOGY
• 依托单位国家: 英国
• 项目类别: Research Grant
• 财政年份: 2021
• 资助国家: 英国
• 起止时间: 2021 至 无数据
• 项目状态: 已结题
• 来源: https://gtr.ukri.org/projects?ref=NE%2FV01627X%2F1
• 关键词: Greenhouse; Gas; Instrumentation; System; Aquatic

Land-use and agriculture are responsible for around one quarter of all human greenhouse gas (GHG) emissions. While some of the activities that contribute to these emissions, such as deforestation, are readily observable, others are not. It is now recognised that freshwater ecosystems are active components of the global carbon cycle; rivers and lakes process the organic matter and nutrients they receive from their catchments, emit carbon dioxide (CO2) and methane to the atmosphere, sequester CO2 through aquatic primary production, and bury carbon in their sediments. Human activities such as nutrient and organic matter pollution from agriculture and urban wastewater, modification of drainage networks, and the widespread creation of new water bodies, from farm ponds to hydro-electric and water supply reservoirs, have greatly modified natural aquatic biogeochemical processes. In some inland waters, this has led to large GHG emissions to the atmosphere. However these emissions are highly variable in time and space, occur via a range of pathways, and are consequently exceptionally hard to measure on the temporal and spatial scales required. Advances in technology, including high-frequency monitoring systems, autonomous boat-mounted sensors and novel, low-cost automated systems that can be operated remotely across multiple locations, now offer the potential to capture these important but poorly understood emissions. In the GHG-Aqua project we will establish an integrated, UK-wide system for measuring aquatic GHG emissions, combining a core of highly instrumented 'Sentinel' sites with a distributed, community-run network of low-cost sensor systems deployed across UK inland waters to measure emissions from rivers, lakes, ponds, canals and reservoirs across gradients of human disturbance. A mobile instrument suite will enable detailed campaign-based assessment of vertical and spatial variations in fluxes and underlying processes. This globally unique and highly integrated measurement system will transform our capability to quantify aquatic GHG emissions from inland waters. With the support of a large community of researchers it will help to make the UK a world-leader in the field, and will facilitate future national and international scientific research to understand the role of natural and constructed waterbodies as active zones of carbon cycling, and sources and sinks for GHGs. We will work with government to include these fluxes in the UK's national emissions inventory; with the water industry to support their operational climate change mitigation targets; and with charities, agencies and others engaged in protecting and restoring freshwater environments to ensure that the climate change mitigation benefits of their activities can be captured, reported and sustained through effectively targeted investment.

土地使用和农业约占人类温室气体排放总量的四分之一。虽然造成这些排放的一些活动，如毁林，很容易观察到，但其他活动则不易观察到。现在人们认识到，淡水生态系统是全球碳循环的活跃组成部分;河流和湖泊处理它们从集水区获得的有机物质和营养物质，向大气排放二氧化碳（CO2）和甲烷，通过水生初级生产封存CO2，并将碳埋藏在沉积物中。人类活动，如农业和城市废水造成的营养物和有机物污染，排水网络的改造，以及从农场池塘到水电和供水水库的新水体的广泛创造，极大地改变了自然水生生物地球化学过程。在一些内陆沃茨，这导致大量温室气体排放到大气中。然而，这些排放在时间和空间上变化很大，通过一系列途径发生，因此特别难以在所需的时间和空间尺度上进行测量。技术的进步，包括高频监测系统、自动船载传感器和可在多个地点远程操作的新型低成本自动化系统，现在有可能捕获这些重要但知之甚少的排放。在GHG-Aqua项目中，我们将建立一个用于测量水生GHG排放的综合性全英国系统，将高度仪表化的“哨兵”站点的核心与分布在英国内陆沃茨的社区运行的低成本传感器系统网络相结合，以测量河流，湖泊，池塘，运河和水库的排放量。一套移动的仪器将能够对通量和底层过程的垂直和空间变化进行详细的基于重力的评估。这一全球独一无二且高度集成的测量系统将改变我们量化内陆沃茨水生温室气体排放的能力。在大量研究人员的支持下，它将有助于使英国成为该领域的世界领导者，并将促进未来的国家和国际科学研究，以了解自然和人工水体作为碳循环活跃区的作用，以及温室气体的源和汇。我们将与政府合作，将这些通量纳入英国的国家排放清单;与水务行业合作，支持其业务气候变化减缓目标;与慈善机构，机构和其他参与保护和恢复淡水环境的机构合作，确保其活动的气候变化减缓效益可以通过有效的目标投资来捕获，报告和维持。

项目成果

MAKING WAVES: Effluent to estuary: Does sunshine or shade reduce downstream footprints of cities?

• DOI: 10.1016/j.watres.2023.120815
• 发表时间: 2023-11-04
• 期刊: WATER RESEARCH
• 影响因子: 12.8
• 作者: Hutchins，Michael;Sweetman，Andrew;Qu，Yueming
• 通讯作者: Qu，Yueming

Light on dark waters

黑暗水域上的灯光

• DOI: 10.1038/s41561-024-01376-7
• 发表时间: 2024
• 期刊: Nature Geoscience
• 影响因子: 18.3
• 作者: Evans C

Global importance of methane emissions from drainage ditches and canals

• DOI: 10.1088/1748-9326/abeb36
• 发表时间: 2021-04-01
• 期刊: ENVIRONMENTAL RESEARCH LETTERS
• 影响因子: 6.7
• 作者: Peacock, M.;Audet, J.;Evans, C. D.
• 通讯作者: Evans, C. D.