Betha Lusiana scite author profile

Agroforestry, the intentional integration of trees with crops and/or livestock, can lead to multiple economic and ecological benefits compared to trees and crops/livestock grown separately. Field experimentation has been the primary approach to understanding the tree–crop interactions inherent in agroforestry. However, the number of field experiments has been limited by slow tree maturation and difficulty in obtaining consistent funding. Models have the potential to overcome these hurdles and rapidly advance understanding of agroforestry systems. Hi-sAFe is a mechanistic, biophysical model designed to explore the interactions within agroforestry systems that mix trees with crops. The model couples the pre-existing STICS crop model to a new tree model that includes several plasticity mechanisms responsive to tree–tree and tree–crop competition for light, water, and nitrogen. Monoculture crop and tree systems can also be simulated, enabling calculation of the land equivalent ratio. The model’s 3D and spatially explicit form is key for accurately representing many competition and facilitation processes. Hi-sAFe is a novel tool for exploring agroforestry designs (e.g., tree spacing, crop type, tree row orientation), management strategies (e.g., thinning, branch pruning, root pruning, fertilization, irrigation), and responses to environmental variation (e.g., latitude, climate change, soil depth, soil structure and fertility, fluctuating water table). By improving our understanding of the complex interactions within agroforestry systems, Hi-sAFe can ultimately facilitate adoption of agroforestry as a sustainable land-use practice.

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Facilitating agroforestation of landscapes for sustainable benefits: Tradeoffs between carbon stocks and local development benefits in Indonesia according to the FALLOW model

Noordwijk¹,

Suyamto²,

Lusiana³

et al. 2008

Agriculture, Ecosystems & Environment

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Agroforestry solutions for buffering climate variability and adapting to change.

Noordwijk¹,

Bayala²,

Hairiah³

et al. 2014

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This chapter focuses on increasing the adaptive capacity of agricultural systems in tropical and subtropical regions through agroforestry. Agroforestry as a concept resists and tries to counteract the way agriculture has been segregated from forests and forestry. The chapter reviews the hypothesis that the presence of trees increases the degree of buffering of climate variability from the perspective of an annual food crop, and that retention and the increase of trees in agricultural landscapes can be a relevant art of climate change adaptation strategies.

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Land sparing or sharing? Exploring livestock fodder options in combination with land use zoning and consequences for livelihoods and net carbon stocks using the FALLOW model

Lusiana

Noordwijk

Cadisch

2012

Agriculture, Ecosystems & Environment

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Boundary work: Knowledge co-production for negotiating payment for watershed services in Indonesia

Leimona¹,

Lusiana²,

Noordwijk³

et al. 2015

Ecosystem Services

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Betha Lusiana

WaNuLCAS, a model of water, nutrient and light capture in agroforestry systems

Field-scale modeling of tree–crop interactions: Challenges and development needs

SDG synergy between agriculture and forestry in the food, energy, water and income nexus: reinventing agroforestry?

Hi-sAFe: A 3D Agroforestry Model for Integrating Dynamic Tree–Crop Interactions

Facilitating agroforestation of landscapes for sustainable benefits: Tradeoffs between carbon stocks and local development benefits in Indonesia according to the FALLOW model

Agroforestry solutions for buffering climate variability and adapting to change.

Land sparing or sharing? Exploring livestock fodder options in combination with land use zoning and consequences for livelihoods and net carbon stocks using the FALLOW model

Boundary work: Knowledge co-production for negotiating payment for watershed services in Indonesia

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