The impact of past and current district-level climatic shifts on maize production and the implications for South African farmers

Loading...
Thumbnail Image

Authors

Mangani, Robert
Mazarura, Jocelyn
Matlou, Solly
Marquart, Arnim
Archer, Emma Rosa Mary
Creux, Nicky

Journal Title

Journal ISSN

Volume Title

Publisher

Springer

Abstract

South Africa’s climate studies generally focus on coarser provincial levels, which aid policy recommendations, but have limited application at the farm level. District level climate studies are essential for farmer participation in climate change mitigation strategies and management. Our study aimed to investigate historical climate data for trends and their influence on maize yields at the magisterial level. Six sites were selected from three major maize-producing provinces in South Africa: Mpumalanga, Northwest, and Free State. Magisterial districts in each province were selected from different Köppen-Geiger climate zones. The climate variables assessed by the Mann–Kendall trend test included maximum or minimum temperature, rainfall, number of extreme high-temperature days, rainfall onset and cessation from 1986 to 2016. The average maximum temperatures were observed to have significant upward trends in most locations, except for Schweizer-Reneke and Bethlehem. The fastest rate of change was observed at Klerksdorp (0.1 °C per 30 years of study), while the Schweizer-Reneke district was the slowest (0.05 °C per 30 years of study). No significant changes were observed in rainfall onset, cessation, or total rainfall in Schweizer-Reneke, Standerton, and Bethlehem, which are scattered across the different provinces. The other districts in each province showed significant changes in these parameters. Rainfall accounted for the significant variation in maize yields over the study period, explaining between 18 and 40% of the variation in the North West, and between 1 and 17% in the Free State. These findings highlight the importance of understanding location-specific changes at a finer scale, which can help farming communities adjust agronomic practices and adapt to local climate shifts.

Description

DATA AVAILABILITY : No datasets were generated or analysed during the current study.

Keywords

Agroclimatic parameters, Climate change, Seasonal variability, Drought, Heat stress, Corn yield, SDG-02: Zero hunger, SDG-13: Climate action

Sustainable Development Goals

SDG-02:Zero Hunger
SDG-13:Climate action

Citation

Mangani, R., Mazarura, J., Matlou, S. et al. The impact of past and current district-level climatic shifts on maize production and the implications for South African farmers. Theoretical and Applied Climatology 156, 109 (2025). https://doi.org/10.1007/s00704-024-05334-6.