Gregory A S, Ritz K, McGrath S P, Quinton J N, Goulding K W T, Jones R J A, Harris J A, Bol R, Wallace P, Pilgrim E S, Whitmore A P
Department of Sustainable Soils and Grassland Systems Rothamsted Research Harpenden Hertfordshire AL5 2JQ UK.
Division of Agricultural and Environmental Sciences University of Nottingham Sutton Bonington Campus Loughborough Leicestershire LE12 5RD UK.
Soil Use Manag. 2015 Oct;31(Suppl Suppl 1):1-15. doi: 10.1111/sum.12212. Epub 2015 Oct 12.
National governments are becoming increasingly aware of the importance of their soil resources and are shaping strategies accordingly. Implicit in any such strategy is that degradation threats and their potential effect on important soil properties and functions are defined and understood. In this paper, we aimed to review the principal degradation threats on important soil properties in the UK, seeking quantitative data where possible. Soil erosion results in the removal of important topsoil and, with it, nutrients, C and porosity. A decline in soil organic matter principally affects soil biological and microbiological properties, but also impacts on soil physical properties because of the link with soil structure. Soil contamination affects soil chemical properties, affecting nutrient availability and degrading microbial properties, whilst soil compaction degrades the soil pore network. Soil sealing removes the link between the soil and most of the 'spheres', significantly affecting hydrological and microbial functions, and soils on re-developed brownfield sites are typically degraded in most soil properties. Having synthesized the literature on the impact on soil properties, we discuss potential subsequent impacts on the important soil functions, including food and fibre production, storage of water and C, support for biodiversity, and protection of cultural and archaeological heritage. Looking forward, we suggest a twin approach of field-based monitoring supported by controlled laboratory experimentation to improve our mechanistic understanding of soils. This would enable us to better predict future impacts of degradation processes, including climate change, on soil properties and functions so that we may manage soil resources sustainably.
各国政府越来越意识到其土壤资源的重要性,并相应地制定战略。任何此类战略都隐含着对退化威胁及其对重要土壤性质和功能的潜在影响进行定义和理解。在本文中,我们旨在回顾英国重要土壤性质面临的主要退化威胁,并尽可能寻求定量数据。土壤侵蚀导致重要表土及其所含养分、碳和孔隙度的流失。土壤有机质的减少主要影响土壤生物学和微生物学性质,但由于与土壤结构的联系,也会对土壤物理性质产生影响。土壤污染会影响土壤化学性质,影响养分有效性并降低微生物性质,而土壤压实会破坏土壤孔隙网络。土壤封闭消除了土壤与大多数“圈层”之间的联系,显著影响水文和微生物功能,重新开发的棕地土壤的大多数土壤性质通常都会退化。在综合了关于对土壤性质影响的文献后,我们讨论了对重要土壤功能可能产生的后续影响,包括粮食和纤维生产、水和碳的储存、对生物多样性的支持以及对文化和考古遗产的保护。展望未来,我们建议采用一种双管齐下的方法,即在受控实验室实验的支持下进行实地监测,以增进我们对土壤机制的理解。这将使我们能够更好地预测包括气候变化在内的退化过程对土壤性质和功能的未来影响,从而实现对土壤资源的可持续管理。