Assessing risk of bias of the included papers.

Assessing risk of bias of the included papers.

<div><p>Organic fertilizers have been identified as a sustainable agricultural practice that can enhance productivity and reduce environmental impact. Recently, the European Union defined and accepted insect frass as an innovative and emerging organic fertilizer. In the wider domain of o...

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Bibliographic Details
Main Author: Malontema Katchali (20614838) (author)
Other Authors: Edward Richard (20614841) (author), Henri E. Z. Tonnang (10960695) (author), Chrysantus M. Tanga (7430201) (author), Dennis Beesigamukama (9311524) (author), Kennedy Senagi (20614844) (author)
Published: 2025
Subjects:
Genetics
Biotechnology
Ecology
Developmental Biology
Science Policy
Plant Biology
Biological Sciences not elsewhere classified
Mathematical Sciences not elsewhere classified
Information Systems not elsewhere classified
sustainable agricultural practice
support vector machines
shifted towards efficiencies
reduced environmental impact
reduce environmental impact
european union defined
artificial neural networks
accepted insect frass
improved agricultural productivity
quantifying nutrients concentration
emerging organic fertilizer
organic fertilizer production
fertilizer treatment
enhance productivity
organic fertilizers
wider domain
results show
recent developments
random forest
paper reviews
gradient boosting
emerging technologies
critically analyzes
computational modeling
computation modeling
challenges associated
application conditions
35 studies
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Summary:<div><p>Organic fertilizers have been identified as a sustainable agricultural practice that can enhance productivity and reduce environmental impact. Recently, the European Union defined and accepted insect frass as an innovative and emerging organic fertilizer. In the wider domain of organic fertilizers, mathematical and computational models have been developed to optimize their production and application conditions. However, with the advancement in policies and regulations, modelling has shifted towards efficiencies in the deployment of these technologies. Therefore, this paper reviews and critically analyzes the recent developments in the mathematical and computation modeling that have promoted various organic fertilizer products including insect frass. We reviewed a total of 35 studies and discussed the methodologies, benefits, and challenges associated with the use of these models. The results show that mathematical and computational modeling can improve the efficiency and effectiveness of organic fertilizer production, leading to improved agricultural productivity and reduced environmental impact. Mathematical models such as simulation, regression, dynamics, and kinetics have been applied while computational data driven machine learning models such as random forest, support vector machines, gradient boosting, and artificial neural networks have also been applied as well. These models have been used in quantifying nutrients concentration/release, effects of nutrients in agro-production, and fertilizer treatment. This paper also discusses prospects for the use of these models, including the development of more comprehensive and accurate models and integration with emerging technologies such as Internet of Things.</p></div>

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