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Options for Sustainable Agricultural Intensification in Maize Mixed Farming Systems: Explorative ex-ante assessment using Multi-Agent System Simulation

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Title Options for Sustainable Agricultural Intensification in Maize Mixed Farming Systems: Explorative ex-ante assessment using Multi-Agent System Simulation
 
Creator Mponela, Powell
 
Subject food and nutritional security
smallholder farming systems
 
Description Nutrient depletion is a major limiting factor to agricultural sustainability in cereal dominated
smallholder farming systems in Africa where over 80% of arable land is unsuitable to support
primary productivity. This constrains food and nutritional security of rural communities. For
appropriate design of interventions, there is need for empirical evidence on drivers of change.
A common sampling frame is used to integrate social-ecological data from farm
surveys of soil, biomass and crop yield, nutrient inputs and outputs, and their determinants.
The nutrient distributions are predicted using randomForest machine learning algorithm in R
with remotely sensed reflectance for topography (30 m STRM-DEM), vegetation and soil (10
m Sentinel2 imagery) as co-variates. We use behavioural economics to unravel farm-type
specific drivers of human induced nutrient inputs and a mixed model for crop yield function
for outputs. Further, existing nutrient stoichiometry and transfer functions based on
NUTMON, FarmDESIGN models with parameters from the study region are used to capture
dynamic stocks and flows. Lastly, we build a multi-agent system for simulating sustainable
agricultural intensification (MASSAI) in NetLogo and piloted to explore, ex ante, the agentic
behaviours of farmers when faced with ambiguity in fertilizer subsidy regimes and its
implications on nutrient budgets, human decision making and land productivity.
Though soil management in smallholder farming systems aims at addressing the most
critical nutrient(s), the results from this study show that the soils are deficient in all three
major nutrients (NPK) and structurally unstable due to low soil organic carbon (SOC). Farmers
strive to utilise the commonly available soil fertility management: nine in every ten
households used inorganic fertilizers, a third integrated legumes and almost half applied
manures of various forms. From the empirical and simulated results, it is indicative that the
maize mixed smallholder farming system in Malawi has become inelastic to changes in input
policies.
Much as improvement in contribution of women in decision-making widens the scope
for legume cropping, it negatively affects manuring. Ther efore, addressing challenges that
women face in manuring could offer greater opportunities for integrated soil fertility
management.
After 15 years of fertilizer subsidy program, farmers have internalized it in their
expenditure plan: some exclusively relying on subsidy while others source increasing amounts
from the market and are becoming self-reliant. Those that rely on limited fertilizer acquired
through subsidy proactively reduce the nutrient gap by increasing manuring. These behaviors
have implications on nutrient management and sustainability of the farming systems.
Although subsidy alone might not significantly shift the nutrient and productivity trajectories
for the next 20 simulated years, increased subsidy could relatively accelerate nitrogen and
phosphorus losses.
 
Date 2021-06-21
2021-11-24T12:08:27Z
2021-11-24T12:08:27Z
 
Type Thesis
 
Identifier https://mel.cgiar.org/dspace/limited
Powell Mponela. (21/6/2021). Options for Sustainable Agricultural Intensification in Maize Mixed Farming Systems: Explorative ex-ante assessment using Multi-Agent System Simulation.
https://hdl.handle.net/20.500.11766/66444
Timeless limited access
 
Language en
 
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Format PDF