Effects of atmospheric Nitrogen pollution on Soil Carbon Sto rage and Greenhouse Gas Emission from Forests Soils

大气氮污染对土壤碳储量和森林土壤温室气体排放的影响

• 批准号: 2592239
• 金额: --
• 依托单位: University of Birmingham
• 依托单位国家: 英国
• 项目类别: Studentship
• 财政年份: 2021
• 资助国家: 英国
• 起止时间: 2021 至 无数据
• 项目状态: 未结题
• 来源: https://gtr.ukri.org/projects?ref=studentship-2592239
• 关键词: Effects; atmospheric; Nitrogen; pollution; Soil

Conservation of forest ecosystems support a range of vital functions including providing habitat to wildlife, regulation of water resources and capturing atmospheric carbon dioxide (CO2) for long-term storage in soils and in biomass. Forests capture about 1/3rd of the CO2 emitted into air due to human activities globally and afforestation is increasingly being recognised as a crucial natural option for mitigating against climate change. The ability of forests to store carbon (C) in soil on a long-term basis depends on the quality/quantify of C produced by forests, which in turn is influenced by the prevailing environments of the forests.Deposition of agriculturally-derived atmospheric nitrogen pollutants, including reactive nitrogen (ammonia and nitrogen oxides), can also impact nearby forest fragments. As forests are effective scavengers of atmospheric pollutants, this deposition of reactive nitrogen ishigher at the edges of fragments than in the interior. Whilst reactive nitrogen deposition enhances forest growth, it also causes an increase in the emission of a potent greenhouse gas-nitrous oxide, with negative implications for global warming.Recent research has shown that reactive N deposition increases the loss of soil C through enhanced decomposition by soil microbes. Both losses of carbon and enhanced soil nitrous oxide emissions can be highest at the edges of forests. However, these processes are less known in more nitrogen saturated forests. Therefore, the aim of this research is to investigate the impacts of reactive nitrogen deposition on forest soil carbon quality, decomposition rates, microbial community functions and greenhouse gas emission. This will be explored across a gradient of nitrogen deposition intensity, moving from the edges into the interior of forests, located in agricultural landscapes. The work will be undertaken in Britain including an internship at Forest Research and isotopic training at CEH in UK and microbiology experimentation at Laurentian University, Canada to achieve the objectives.The key expected outcome will be to develop a new understanding of the levels/thresholds of deposition that alters important forest functions. The new knowledge we will make recommendations as to the size and shape of forests in agricultural landscapes for enhancing environmental quality functions of forests

保护森林生态系统支持一系列重要功能，包括为野生动物提供栖息地，调节水资源，捕获大气中的二氧化碳(二氧化碳)以便长期储存在土壤和生物量中。森林吸收了全球人类活动排放到空气中的大约三分之一的二氧化碳，植树造林越来越被认为是缓解气候变化的关键自然选择。森林在土壤中长期储存碳(C)的能力取决于森林产生的碳的质量/数量，而森林产生的碳的质量/数量又受到森林普遍环境的影响。来自农业的大气氮污染物的沉积，包括活性氮(氨和氮氧化物)，也会影响附近的森林碎片。由于森林是大气污染物的有效清道夫，这种活性氮在碎片边缘的沉积比在内部更高。虽然反应性氮沉降促进了森林生长，但它也导致了一种强有力的温室气体-一氧化二氮排放量的增加，对全球变暖产生了负面影响。最近的研究表明，反应性氮沉降通过促进土壤微生物的分解增加了土壤碳的损失。在森林边缘，碳的损失和土壤一氧化二氮排放的增加都可能是最高的。然而，在氮饱和程度较高的森林中，这些过程鲜为人知。因此，本研究旨在研究反应氮沉降对森林土壤碳质量、分解速率、微生物群落功能和温室气体排放的影响。这将通过氮沉积强度的梯度进行探索，从边缘进入位于农业景观中的森林内部。这项工作将在英国进行，包括在英国森林研究和CEH的实习和CEH的同位素培训，以及在加拿大劳伦斯大学的微生物学实验。主要预期结果将是对沉积水平/阈值的新理解，这将改变重要的森林功能。根据新知识，我们将就农业景观中森林的大小和形状提出建议，以增强森林的环境质量功能