Seasonal, Decadal, and El Niño-Southern Oscillation-Related Trends and Anomalies in Rainfall and Dry Spells during the Agricultural Season in Central Malawi
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Published:2024-08-22
Issue:3
Volume:4
Page:563-582
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ISSN:2673-7086
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Container-title:Geographies
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language:en
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Short-container-title:Geographies
Author:
Mloza Banda Medrina Linda1ORCID, Cornelis Wim2, Mloza Banda Henry R.3
Affiliation:
1. Ministry of Agriculture Headquarters, Capital Hill, P.O. Box 30134, Lilongwe 3, Malawi 2. Department of Soil Management and Care, Faculty of Bioscience Engineering, Ghent University, St. Pietersnieuwstraat 33, 9000 Gent, Belgium 3. Department of Crop Production, Faculty of Agriculture, Luyengo Campus, University of Eswatini, Luyengo M205, Eswatini
Abstract
As governments continue to address climate change when formulating policy, there remains a need to determine if such a change exists in the historical record to inform clear indices for monitoring the present climate for site-specific interventions. This study characterised trends and anomalies in rainfall and dry spells, providing local information often projected from satellites or regional data in data-scarce regions. From 1961 to 2007, daily rainfall records in Central Malawi were used to calculate indices for low-(Balaka), medium-(Bunda, Chitedze, KIA), and high-altitude (Dedza) sites, which were then subjected to Mann–Kendall’s, Cramer’s, and Spearman-Rho’s trend tests. Significant decreasing trends in terms of wet days and growing season length were evident across locations. Seasonal and extreme rainfall, dry spells, and inter-seasonal and near-decadal anomalies were not consistently or inevitably significant. Unexpectedly, rainfall anomalies were largest in Bunda and KIA, which have mild climatic regimes, while the lowest were in Balaka, a rainfall-averse zone. The relationship between El Niño-Southern Oscillation (ENSO) and extreme rainfall and dry spell events did not reach statistical significance. In conclusion, extreme precipitation and dry spell events show varied intensities and proportions rather than increased frequency. The disparate results largely justify the need for in-depth local-scale assessments for agroclimatic applications.
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