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Integrated crop-disease models: New frontiers in systems thinking

journal contribution
posted on 2023-05-21, 17:16 authored by Jamina Gabrielle Bondad, Matthew HarrisonMatthew Harrison, Jeremy WhishJeremy Whish, Sprague, S, Kara BarryKara Barry
Impacts of pest and diseases on crop productivity comprise one of the greatest existential threats to food security in the 21st century. Despite this, crop models have historically adopted an abiotic lens. Here, we reviewed previous methods aimed at modelling effects of pests on crops and revealed a dearth of integrated approaches that account for pest lifecycles. The few integrated models that do exist tend to be empirical constructs that discount yield, with models of underpinning pest dynamics being extremely rare. Interaction between pests and crops has tended towards pest-induced reductions in plant biomass, leaf area, light interception and/or photosynthetic rates of infected plants, rather than biological modelling of the pest lifecycle per se. The use of process-based models that couple the pest-host interactions and capture the resource competition between the two are more suited to understanding the complexity of the farming system. Given that management interventions – such as crop rotation, intercropping, sowing time, nitrogen fertilisation, planting density and insecticide or fungicide use – underpin host colonisation success, we solicit advances in the modelling of management decisions to mitigate and manage pest and disease populations. Such information will become ever more crucial as global temperatures and extreme weather events increase in frequency and disease infestation proliferates. Harnessing this integrated weather-pest-crop-management continuum within farming systems models will improve farm management decisions. We conceptualise a framework using the lifecycle of blackleg disease (Leptosphaeria maculans) as an example; however, our approach could be genericall adapted to other crop-pest interactions.

Funding

Department of Agriculture Water and the Environment

History

Publication title

Farming System

Article number

100004

Number

100004

Pagination

1-13

ISSN

2949-9119

Department/School

Tasmanian Institute of Agriculture (TIA)

Publisher

Elsevier

Place of publication

China

Repository Status

  • Restricted

Socio-economic Objectives

Control of pests, diseases and exotic species in terrestrial environments; Sustainability indicators; Canola