通过堆肥和厌氧消化将食物垃圾转化为生物肥料:综述

Nurul Solehah Mohd Zaini, Abedelazeez J.D. Khudair, Aliah Zannierah Mohsin, Elicia Jitming Lim, Wakisaka Minato, Hamidah Idris, Jamilah Syafawati Yaacob, Muhamad Hafiz Abd Rahim
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摘要

不断增长的世界人口意味着对地球资源的更大压力。目前,30%的食物被浪费了,这对人类和环境都构成了重大风险。抵消食物垃圾(FW)增长的一种方法是通过微生物生物转化过程,将FW转化为一系列营养丰富的生物肥料。这种方法不仅促进了非常理想的循环经济,而且还可以减少无机肥料的使用,无机肥料通过增加温室气体、改变土壤和水特征以及丧失生物多样性对环境产生不利影响。FW向生物肥料的生物转化依赖于好氧(堆肥)和厌氧消化过程。最近,替代的分解技术包括培养特定的有益微生物,如有效微生物,以加速分解过程。微生物可以作为生物刺激剂和生物分解者,具有营养固定能力,并提供保护免受生物和非生物胁迫,从而促进植物生长和整体健康。FW的潜在用途是复杂和多样的,但研究正在积极进行,以有效地利用这一资源的生物肥料应用。
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Biotransformation of food waste into biofertilisers through composting and anaerobic digestion: a review
A growing world population means greater pressure on earth’s resources. Currently, 30% of food is wasted, which poses a significant risk to both humans and the environment. One way to offset the growth in food waste (FW) is through the process of microbial bioconversion, whereby FW is transformed into a range of nutrient-dense biofertilisers. This approach not only promotes a highly desirable circular economy, but it can also reduce the use of inorganic fertilisers, which adversely impact the environment through increased greenhouse gases, changes in soil and water characteristics, and loss of biodiversity. The bioconversion of FW to biofertiliser relies on the processes of aerobic (composting) and anaerobic digestion. Recently, alternative decomposition techniques included growing specific beneficial microbes, such as effective microorganisms, to speed up the breakdown process. Microorganisms can act as biostimulants and biodecomposers, possessing nutrient-fixing abilities and providing protection from biotic and abiotic stresses, thus enhancing plant growth and overall health. The potential uses of FW are complex and diverse, but research is actively done to effectively utilise this resource for biofertiliser applications.
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