Food crop production in Nigeria. II. Potential effects of climate change

Adejuwon, J. O.

doi:10.3354/cr032229

Cited by 74 publications

(58 citation statements)

References 24 publications

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“…These results appear to confirm the climate change scenarios of FMEN (2003), Adejuwon (2006) and IPCC (http://ipccddc.cru.uea.ac.uk). Contrary to the scenarios that both minimum and maximum temperatures will increase however, the maximum and minimum temperatures decreased after 1983-1984.…”

Section: Discussionsupporting

confidence: 76%

“…Using the observed data for 1961-1990 as the baseline, projections were made for a variety of time slices in the twenty-first century. The results of the analysis indicate: (a) steady and consistent increases in annual rainfall until 2069; (b) increases in both minimum and maximum temperatures; and (c) an increase in vapour pressure (MEFRN, 2003;Adejuwon, 2006; IPCC http://ipccddc.cru.uea.ac.uk).…”

Section: Existing Climate Change Scenarios 1961-2100mentioning

confidence: 98%

“…Projections of climate change in Nigeria, and in SSEZ in particular, based on Global Climate Models (GCMs) have been made for the twenty-first century (MEFRN, 2003;Adejuwon, 2006; IPCC http://ipcc-ddc. cru.uea.ac.uk).…”

Section: Existing Climate Change Scenarios 1961-2100mentioning

confidence: 99%

“…cru.uea.ac.uk). The projections reported in Nigeria's First Communication under the United Nations Framework Convention on Climate Change (UNFCCC) were based on the assumption of an annual increase of 1% in atmospheric CO 2 concentration from the current level of 380 ppm to 855 ppm by 2100 (MEFRN, 2003;Adejuwon, 2006;AIACC, 2006). This increase represents a worst-case scenario of greenhouse gas emissions with the potential for a change in climate.…”

Section: Existing Climate Change Scenarios 1961-2100mentioning

confidence: 99%

“…Recently however, some scenarios (based on greenhouse gas emissions) have suggested that the observed trend towards aridity will be put on hold or be reversed in the twentyfirst century (MEFRN, 2003;Haarsma et al, 2005;Adejuwon, 2006). In fact, Haarsma et al (2005) partly used observed data of the wider Sahel region and established that rainfall has been increasing since the mid-1980s.…”

mentioning

confidence: 99%

See 4 more Smart Citations

Towards a wetter Sudano‐Sahelian ecological zone in twenty‐first century Nigeria

Odekunle

Andrew

Aremu

2008

Weather

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Section: Discussionsupporting

confidence: 76%

Section: Existing Climate Change Scenarios 1961-2100mentioning

confidence: 98%

Section: Existing Climate Change Scenarios 1961-2100mentioning

confidence: 99%

Section: Existing Climate Change Scenarios 1961-2100mentioning

confidence: 99%

mentioning

confidence: 99%

See 3 more Smart Citations

Towards a wetter Sudano‐Sahelian ecological zone in twenty‐first century Nigeria

Odekunle

Andrew

Aremu

2008

Weather

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Sea surface temperature patterns in the Gulf of Guinea: their implications for the spatio‐temporal variability of precipitation in West Africa

Odekunle

Eludoyin

2008

Intl Journal of Climatology

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This study examined the sea surface temperature (SST) patterns in the Gulf of Guinea (GOG) and discussed their implications for the spatio-temporal variability of precipitation in West Africa. The SST data spanning over 49 years at 2°× 2°resolutions were sourced from the archive of the International Research Institute for climate prediction. The specific locations where data were collected to represent the GOG are longitudes 10°W, 8°W, 6°W, 4°W, 2°W, 0°, 2°E, 4°E, 6°E, and 8°E, and latitudes 5°N, 3°N, 1°N, 1°S, 3°S, and 5°S. The results obtained show that the SST in the GOG generally decreases westward and southward, while the reverse of the case holds for its variability values. Detailed observations show that the SST is generally below the latitudinal average and its variability values, above the latitudinal average mainly between longitudes 8°W and 2°E. The results also show that during the period of July-AugustSeptember, the SST is anomalously colder between longitudes 8°W and 2°E and the West African coastal border and latitude 3°N. This area was observed as constituting the area of the coastal upwelling. The intra-annual distribution of the SST, as evident along latitudes 3°N and 5°N, shows two main regimes and two transitional periods in between the regimes. The first regime is November to May, and the second, July to September. The first regime transits to the second during the month of June and the second back to the first, during the month of October. The comparative analysis of the first and second half of the period of study indicates that the SST of the GOG has undergone some warming over time. The comparison also shows that although the SST has generally risen, an area of relatively cool SST near the Guinea coast has expanded from longitudes 7°W-0°W to 8°W-3°E.

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Modelling the impacts of climate variability on crop yields in Nigeria: performance evaluation of RegCM3-GLAM system

2014

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This study evaluates the capability of a Climate-Crop Modelling System (RegCM3-GLAM) in simulating the regional climate and crop yields (maize, rice, cowpea, and groundnut) over Nigeria. Daily climatic data obtained from a Regional Climate Model (RegCM3) simulation was used as the input data in the General Large Area Model (GLAM) to simulate the crop yields for 11 years (1999)(2000)(2001)(2002)(2003)(2004)(2005)(2006)(2007)(2008)(2009), and a series of sensitivity experiments were performed to test and optimize the GLAM parameters over the region. The results show that RegCM3 gives a realistic simulation of the Nigerian climate. The correlation coefficients obtained between the observed and simulated climatic variables are between 0.72 and 0.96 at p < 0.01. However, the model slightly underestimates rainfall and maximum temperature in the wet season (April to October) and overestimates rainfall and maximum temperature in the dry season (November to March). GLAM also gives a realistic simulation of the mean and spatial distribution of crop yields in Nigeria. The root mean square errors of the simulations are generally less than 36% of the observed yields. The performance evaluation of the model varies with ecological zones. The model shows the best performance in simulating maize and the worst performance in simulating cowpea over the Savannas. Sensitivity experiments reveal that simulated crop yield is sensitive to model parameters (harvest index, extinction coefficient, optimum temperature, and transpiration efficiency), with both extinction coefficient and transpiration efficiency showing more significant impact. It has been concluded that the performance of GLAM over the country can be further improved by enhancing the quality of meteorological input data.

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Food crop production in Nigeria. II. Potential effects of climate change

Cited by 74 publications

References 24 publications

Towards a wetter Sudano‐Sahelian ecological zone in twenty‐first century Nigeria

Towards a wetter Sudano‐Sahelian ecological zone in twenty‐first century Nigeria

Sea surface temperature patterns in the Gulf of Guinea: their implications for the spatio‐temporal variability of precipitation in West Africa

Modelling the impacts of climate variability on crop yields in Nigeria: performance evaluation of RegCM3-GLAM system

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