Contextualising seasonal climate forecasts by integrating local knowledge on drought in Malawi

Ileen N. Streefkerk, Marc J.C. van den Homberg, Stephen Whitfield, Neha Mittal, Edward Pope, Micha Werner, Hessel C. Winsemius, Tina Comes, Delft University Technology

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

Droughts and changing rainfall patterns due to natural climate variability and climate change, threaten the livelihoods of Malawi’s smallholder farmers, who constitute 80% of the population. Provision of seasonal climate forecasts (SCFs) is one means to potentially increase the resilience of rainfed farming to drought by informing farmers in their agricultural decisions. Local knowledge can play an important role in improving the value of SCFs, by making the forecast better-suited to the local environment and decision-making. This study explores whether the contextual relevance of the information provided in SCFs can be improved through the integration of farmers’ local knowledge in three districts in central and southern Malawi. A forecast threshold model is established that uses meteorological indicators before the rainy season as predictors of dry conditions during that season. Local knowledge informs our selection of the meteorological indicators as potential predictors. Verification of forecasts made with this model shows that meteorological indicators based on local knowledge have a predictive value for forecasting dry conditions in the rainy season. The forecast skill differs per location, with increased skill in the Southern Highlands climate zone. In addition, the local knowledge indicators show increased predictive value in forecasting locally relevant dry conditions, in comparison to the currently-used El Niño-Southern Oscillation (ENSO) indicators. We argue that the inclusion of local knowledge in the current drought information system of Malawi may improve the SCFs for farmers. We show that it is possible to capture local knowledge using observed station and climate reanalysis data. Our approach could benefit National Meteorological and Hydrological Services in the development of relevant climate services and support drought-risk reduction by humanitarian actors.
Original languageEnglish
Article number100268
JournalClimate Services
Volume25
Early online date2021
DOIs
Publication statusPublished - Jan 2022

JEL classifications

  • q54 - "Climate; Natural Disasters; Global Warming"

Keywords

  • Climate Change
  • Forecasting
  • Drought prediction
  • Local knowledge
  • adaptation

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