Knowledge Agora

Title	Sustainable agriculture: leveraging microorganisms for a circular economy
ID_Doc	5944
Authors	Glockow, T; Kaster, AK; Rabe, KS; Niemeyer, CM
Title	Sustainable agriculture: leveraging microorganisms for a circular economy
Year	2024
Published	Applied Microbiology And Biotechnology, 108, 1
Abstract	Microorganisms serve as linchpins in agricultural systems. Classic examples include microbial composting for nutrient recovery, using microorganisms in biogas technology for agricultural waste utilization, and employing biofilters to reduce emissions from stables or improve water quality in aquaculture. This mini-review highlights the importance of microbiome analysis in understanding microbial diversity, dynamics, and functions, fostering innovations for a more sustainable agriculture. In this regard, customized microorganisms for soil improvement, replacements for harmful agrochemicals or antibiotics in animal husbandry, and (probiotic) additives in animal nutrition are already in or even beyond the testing phase for a large-scale conventional agriculture. Additionally, as climate change reduces arable land, new strategies based on closed-loop systems and controlled environment agriculture, emphasizing microbial techniques, are being developed for regional food production. These strategies aim to secure the future food supply and pave the way for a sustainable, resilient, and circular agricultural economy.
PDF	https://doi.org/10.1007/s00253-024-13294-0

Similar Articles

ID	Score	Article
6095		De Corato, U RETRACTED: Soil Microbiome Manipulation Gives New Insights in Plant Disease-Suppressive Soils from the Perspective of a Circular Economy: A Critical Review (Retracted article. See vol. 13, 2021)(2021)Sustainability, 13, 1
28109		Ng, ZY; Ajeng, AA; Cheah, WY; Ng, EP; Abdullah, R; Ling, TC Towards circular economy: Potential of microalgae - bacterial-based biofertilizer on plants(2024)
24930		Owsianiak, M; Pusateri, V; Zamalloa, C; de Gussem, E; Verstraete, W; Ryberg, M; Valverde-Pérez, B Performance of second-generation microbial protein used as aquaculture feed in relation to planetary boundaries(2022)
15537		De Corato, U Disease-suppressive compost enhances natural soil suppressiveness against soil-borne plant pathogens: A critical review(2020)
12490		Mang, SM; Trotta, V; Scopa, A; Camele, I Metagenomic Analysis of Bacterial Community Structure and Dynamics of a Digestate and a More Stabilized Digestate-Derived Compost from Agricultural Waste(2022)Processes, 10.0, 2
26511		Hidalgo, D; Corona, F; Martín-Marroquín, JM Manure biostabilization by effective microorganisms as a way to improve its agronomic value(2022)Biomass Conversion And Biorefinery, 12, 10
27843		Pagliaccia, D; Bodaghi, S; Chen, XY; Stevenson, D; Deyett, E; De Francesco, A; Borneman, J; Ruegger, P; Peacock, B; Ellstrand, N; Rolshausen, PE; Popa, R; Ying, S; Vidalakis, G Two Food Waste By-Products Selectively Stimulate Beneficial Resident Citrus Host-Associated Microbes in a Zero-Runoff Indoor Plant Production System(2020)
5450		Upadhyay, SK; Singh, G; Rani, N; Seth, CS; Rajput, VD; Dwivedi, P; Minkina, T; Wong, MH; Show, PL; Khoo, KS Transforming bio-waste into value-added products mediated microbes for enhancing soil health and crop production: Perspective views on circular economy(2024)
9462		Atasoy, M; Ordóñez, AA; Cenian, A; Djukic-Vukovic, A; Lund, PA; Ozogul, F; Trcek, J; Ziv, C; De Biase, D Exploitation of microbial activities at low pH to enhance planetary health(2024)Fems Microbiology Reviews, 48.0, 1
9540		Yadav, R; Ramakrishna, W Biochar as an Environment-Friendly Alternative for Multiple Applications(2023)Sustainability, 15.0, 18