Optimizing the timing of management interventions against fall armyworm in African smallholder maize: Modelling the pattern of larval population emergence and development

Optimizing the timing of management interventions against fall armyworm in African smallholder maize: Modelling the pattern of larval population emergence and development

Since its invasion in late 2016, the fall armyworm has a widespread year-round distribution within Africa where it continues to threaten cereal production, particularly maize. Most recommended control advice emphasises the need for interventions against larvae early after colonization of a new maize...

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Bibliographic Details
Published in:Crop protection Vol. 157; p. 105966
Main Authors: Lowry, Alyssa, Durocher-Granger, Léna, Oronje, MaryLucy, Mutisya, Daniel, Mfune, Tibonge, Gitonga, Christine, Musesha, Monde, Taylor, Bryony, Wood, Suzy, Chacha, Duncan, Beale, Tim, Finch, Elizabeth A., Murphy, Sean T.
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-07-2022
Subjects:
Africa
Degree-day
Earth observation
Larval emergence
Maize
Phenology model
Spodoptera frugiperda
Temperature
Phenology model
Temperature
Degree-day
Africa
Spodoptera frugiperda
Larval emergence
Maize
Earth observation
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Summary:Since its invasion in late 2016, the fall armyworm has a widespread year-round distribution within Africa where it continues to threaten cereal production, particularly maize. Most recommended control advice emphasises the need for interventions against larvae early after colonization of a new maize crop by adults followed by a later intervention if an infestation persists. The current times for action are approximate action thresholds based on scouting which are difficult to implement as early development stages are cryptic and farmers, especially smallholders, have limited time for crop assessments. To improve the impact of controls, the modelling of early and late instar larval population emergence and development in relation to physiological time from planting was developed to enable times to action to be predicted and conveyed to farmers. The two larval population emergence models were built from field fall armyworm data from maize in Zambia and validated from similar data from multiple maize sites in Kenya. A component was included in the models to allow synchronization of maize emergence with larval development. Physiological time, in degree-days, was estimated using Earth Observation land surface temperature data sets. As precise information on action thresholds is lacking for Africa, recent published data on thresholds based on economic injury levels from Colombia were used as a guide but the models can be updated when new information becomes available for Africa. The practical implementation of the models in Africa is discussed including the outcome of some recent preliminary trials with maize farmers in Kenya. •Phenology models were developed for Fall Armyworm larvae populations in Africa.•These enable advanced alerts to be sent to farmers for optimum time for controls.•The models incorporate continuous breeding and larval population growth.•The models were built from field data from Zambia and validated in Kenya.•The models are driven by real-time EO data on land surface temperatures.
ISSN:0261-2194
1873-6904
DOI:10.1016/j.cropro.2022.105966