Agronomic Efficiency of Animal-Derived Organic Fertilizers and Their Effects on Biology and Fertility of Soil: A Review
Type de document
journalArticle
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Titre
Agronomic Efficiency of Animal-Derived Organic Fertilizers and Their Effects on Biology and Fertility of Soil: A Review
Titre français
Titre anglais
Auteur(s)
- BHUNIA Shantanu
- BHOWMIK Ankita
- MALLICK Rambilash
- MUKHERJEE Joydeep
Editeur(s)
Autre(s)
Id
W45I5N7I
Version
4158
Date ajout
27 mai 2021 11:57
Date modification
27 mai 2021 11:57
Résumé
Healthy soils are essential for progressive agronomic activities. Organic fertilization positively affects agro-ecosystems by stimulating plant growth, enhancing crop productivity and fruit quality and improving soil fertility. Soil health and food security are the key elements of Organic Agriculture 3.0. Landfilling and/or open-dumping of animal wastes produced from slaughtering cause environmental pollution by releasing toxic substances, leachate and greenhouse gases. Direct application of animal carcasses to agricultural fields can adversely affect soil microbiota. Effective waste management technologies such as thermal drying, composting, vermicomposting and anaerobic digestion transform animal wastes, making them suitable for soil application by supplying soil high in organic carbon and total nitrogen. Recent agronomic practices applied recycled animal wastes as organic fertilizer in crop production. However, plants may not survive at a high fertilization rate due to the presence of labile carbon fraction in animal wastes. Therefore, dose calculation and determination of fertilizer application frequency are crucial for agronomists. Long-term animal waste-derived organic supplementation promotes copiotrophic microbial abundance due to enhanced substrate affinity, provides micronutrients to soils and protects crops from soil-borne pathogens owing to formation of plant-beneficial microbial consortia. Animal waste-derived organically fertilized soils possess higher urease and acid phosphatase activities. Furthermore, waste to fertilizer conversion is a low-energy requiring process that promotes circular bio-economy. Thus, considering the promotion of soil fertility, microbial abundance, disease protection and economic considerations application of animal-waste-derived organic fertilizer should be the mainstay for sustainable agriculture.
Note
None
CRAW tags
- AB - Utile à l'AB
- FREDO biologie et travail du sol
- FREDO fertilisation
- GEO Inde
- engrais
WEB tags
- agronomic efficiency
- animal waste recycling
- bio-economy
- environmental sustainability
- organic fertilization
- soil health
Titre de la publication
Agronomy
Volume
11
Pages
823
Date caractères
2021/5
Date publication
28 mai 2021
Doi
10.3390/agronomy11050823
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