Publication Abstracts

Jones et al. 2015

Jones, M.R., A. Singels, and A.C. Ruane, 2015: Simulated impacts of climate change on water use and yield of irrigated sugarcane in South Africa. Agric. Syst., 139, 260-270, doi:10.1016/j.agsy.2015.07.007.

Reliable predictions of climate change impacts on water use, irrigation requirements and yields of irrigated sugarcane in South Africa (a water-scarce country) are necessary to plan adaptation strategies. Although previous work has been done in this regard, methodologies and results vary considerably. The objectives were (1) to estimate likely impacts of climate change on sugarcane yields, water use and irrigation demand at three irrigated sugarcane production sites in South Africa (Malelane, Pongola and La Mercy) for current (1980-2010) and future (2070-2100) climate scenarios, using an approach based on the Agricultural Model Intercomparison and Improvement Project (AgMIP) protocols; and (2) to assess the suitability of this methodology for investigating climate change impacts on sugarcane production.

Future climate datasets were generated using the Delta downscaling method and three Global Circulation Models (GCMs) assuming atmospheric CO2 concentration [CO2] of 734 ppm (A2 emissions scenario). Yield and water use were simulated using the DSSAT-Canegro v4.5 model.

Irrigated cane yields are expected to increase at all three sites (between 11 and 14%), primarily due to increased interception of radiation as a result of accelerated canopy development. Evapotranspiration and irrigation requirements increased by 11% due to increased canopy cover and evaporative demand. Sucrose yields are expected to decline because of increased consumption of photo-assimilate for structural growth and maintenance respiration. Crop responses in canopy development and yield formation differed markedly between the crop cycles investigated.

Possible agronomic implications of these results include reduced weed control costs due to shortened periods of partial canopy, a need for improved efficiency of irrigation to counter increased demands, and adjustments to ripening and harvest practices to counter decreased cane quality and optimise productivity.

Although the Delta climate data downscaling method is considered robust, accurate and easily-understood, it does not change the future number of rain-days per month. The impacts of this and other climate data simplifications ought to be explored in future work. Shortcomings of the DSSAT-Canegro model include the simulated responses of phenological development, photosynthesis and respiration processes to high temperatures, and the disconnect between simulated biomass accumulation and expansive growth. Proposed methodology refinements should improve the reliability of predicted climate change impacts on sugarcane yield.

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BibTeX Citation

@article{jo09100t,
  author={Jones, M. R. and Singels, A. and Ruane, A. C.},
  title={Simulated impacts of climate change on water use and yield of irrigated sugarcane in South Africa},
  year={2015},
  journal={Agric. Syst.},
  volume={139},
  pages={260--270},
  doi={10.1016/j.agsy.2015.07.007},
}

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RIS Citation

TY  - JOUR
ID  - jo09100t
AU  - Jones, M. R.
AU  - Singels, A.
AU  - Ruane, A. C.
PY  - 2015
TI  - Simulated impacts of climate change on water use and yield of irrigated sugarcane in South Africa
JA  - Agric. Syst.
VL  - 139
SP  - 260
EP  - 270
DO  - 10.1016/j.agsy.2015.07.007
ER  -

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