Timmis Kenneth, Ramos Juan Luis
Institute of Microbiology, Technical University Braunschweig, Braunschweig, Germany.
Estacion Experimental de Zaidin, CSIC, Granada, Spain.
Microb Biotechnol. 2021 May;14(3):769-797. doi: 10.1111/1751-7915.13771. Epub 2021 Mar 10.
Soil provides a multitude of services that are essential to a healthily functioning biosphere and continuity of the human race, such as feeding the growing human population and the sequestration of carbon needed to counteract global warming. Healthy soil availability is the limiting parameter in the provision of a number of these services. As a result of anthropogenic abuses, and natural and global warming-promoted extreme weather events, Planet Earth is currently experiencing an unprecedented crisis of soil deterioration, desertification and erosive loss that increasingly prejudices the services it provides. Such services are pivotal to the Sustainability Development Goals formulated by the United Nations. Immediate and coordinated action on a global scale is urgently required to slow and ultimately reverse the loss of healthy soils. Despite the 'dirt-dust', non-vital appearance of soil, it is a highly dynamic living entity, whose life is overwhelmingly microbial. The soil microbiota, which constitutes the greatest reservoir and donor of microbial diversity on Earth, acts as a vast bioreactor, mediating a myriad of chemical reactions that turn the biogeochemical cycles, recycle wastes, purify water, and underpin the multitude of other services soil provides. Fuelling the belowground microbial bioreactor is the aboveground plant and photosynthetic surface microbial life which captures solar energy, fixes inorganic CO to organic carbon, and channels fixed carbon and energy into soil. In order to muster an effective response to the crisis, to avoid further deterioration, and to restore unhealthy soils, we need a new and coherent approach, namely to deal with soils worldwide as patients in need of health care and create (i) a public health system for development of effective policies for land use, conservation, restoration, recommendations of prophylactic measures, monitoring and identification of problems (epidemiology), organizing crisis responses, etc., and (ii) a healthcare system charged with soil care: the promotion of good practices, implementation of prophylaxis measures, and institution of therapies for treatment of unhealthy soils and restoration of drylands. These systems need to be national but there is also a desperate need for international coordination. To enable development of effective, evidence-based strategies that will underpin the efforts of soil healthcare systems, a substantial investment in wide-ranging interdisciplinary research on soil health and disease is mandatory. This must lead to a level of understanding of the soil:biota functionalities underlying key ecosystem services that enables formulation of effective diagnosis-prophylaxis-therapy pathways for sustainable use, protection and restoration of different types of soil resources in different climatic zones. These conservation-regenerative-restorative measures need to be complemented by an educative-political-economic-legislative framework that provides incentives encouraging soil care: knowledge, policy, economic and others, and laws which promote international adherence to the principles of restorative soil management. And: we must all be engaged in improving soil health; everyone has a duty of care (https://www.bbc.co.uk/ideas/videos/why-soil-is-one-of-the-most-amazing-things-on-eart/p090cf64). Creative application of microbes, microbiomes and microbial biotechnology will be central to the successful operation of the healthcare systems.
土壤提供了众多对健康运转的生物圈和人类延续至关重要的服务,比如养活不断增长的人口以及封存抵消全球变暖所需的碳。健康土壤的可获取性是提供这些服务的限制因素。由于人为破坏以及自然和全球变暖引发的极端天气事件,地球目前正经历一场前所未有的土壤退化、荒漠化和侵蚀流失危机,这日益损害了土壤所提供的服务。这些服务对于联合国制定的可持续发展目标至关重要。迫切需要在全球范围内立即采取协调行动,以减缓并最终扭转健康土壤的流失。尽管土壤外观呈“脏污 - 尘土”状且看似无关紧要,但它是一个高度动态的生命体,其生命主要由微生物构成。土壤微生物群是地球上微生物多样性最大的储存库和来源,它就像一个巨大的生物反应器,介导无数化学反应,推动生物地球化学循环、回收废物、净化水,并支撑土壤提供的众多其他服务。为地下微生物生物反应器提供能量的是地上植物和光合表面微生物群落,它们捕获太阳能,将无机二氧化碳固定为有机碳,并将固定的碳和能量输送到土壤中。为了有效应对这场危机,避免进一步恶化,并恢复不健康的土壤,我们需要一种全新且连贯的方法,即把全球的土壤当作需要医疗保健的患者来对待,并创建(i)一个公共卫生系统,用于制定土地利用、保护、恢复的有效政策,提出预防措施建议,进行监测和问题识别(流行病学),组织危机应对等;以及(ii)一个负责土壤护理的医疗保健系统:推广良好做法,实施预防措施,为治疗不健康土壤和恢复旱地制定治疗方法。这些系统需要是国家级的,但也迫切需要国际协调。为了制定有效的、基于证据的战略,以支持土壤医疗保健系统的工作,必须对土壤健康与疾病的广泛跨学科研究进行大量投资。这必须达到对土壤与生物群落在关键生态系统服务中所起功能的理解水平,从而能够为不同气候区不同类型土壤资源的可持续利用、保护和恢复制定有效的诊断 - 预防 - 治疗途径。这些保护 - 再生 - 恢复措施需要辅之以一个教育 - 政治 - 经济 - 立法框架,该框架提供鼓励土壤护理的激励措施:知识、政策、经济等方面的激励,以及促进国际遵守恢复性土壤管理原则的法律。而且:我们所有人都必须参与改善土壤健康;每个人都有照护的责任(https://www.bbc.co.uk/ideas/videos/why - soil - is - one - of - the - most - amazing - things - on - earth/p090cf64)。微生物、微生物群落和微生物生物技术的创造性应用将是医疗保健系统成功运作的核心。