4 October 2011 | EN | FR
Climate change and population hike might mean smaller maize yields in the future
Flickr/IITA Image Library
The authors inserted different climate change, land use, and demographic change scenarios, into an internationally validated model to estimate maize yields in Benin from 2021–2050.
They found that, as the population increases, farmers frequently cultivate cropland without allowing adequate resting periods for the soil to regain its fertility — thus reducing crop yields.
Overall, they found that various land use scenarios reduced maize yields by up to 24 per cent over the period, whereas climate change scenarios reduced them by up to 18 per cent.
But beyond 2050, "climate change is most likely to be the predominant driver for crop productivity", they concluded.
"Our main assumption [before conducting the study] was that the low-input fallow systems (which allow resting periods for ploughed, but un-seeded land) in Benin and other West African countries would not change in the near future," said Thomas Gaiser, lead author and a researcher at the University of Bonn, Germany.
"If governments in the region introduce policies such as the promotion of the use of mineral fertilisers, then the decrease [in the amount of land left fallow] will not be as serious as that without fertilisers," he added.
Gaiser said farmers should use mineral fertilizers or intercrop with leguminous crops to promote soil fertility and increase yields.
He added that the findings are relevant to many Sub-Saharan African countries relying on leaving land fallow for soil fertility, like Ghana, Senegal, Sierra Leone and Togo.
"I am not surprised by the findings," said Brian Keating, the director of Sustainable Agriculture Flagship of the Commonwealth Scientific and Industrial Research Organisation (CSIRO), based in Australia. "It is important to look at all the factors that contribute to agricultural productivity output, and not just on climate change."
But Keating told SciDev.Net that many farming systems in West Africa yield only 20–30 per cent of what would be possible if better practices and technologies were adopted.
Temi Ologunorisa, director of the Centre for Climate Change and Environmental Research at Osun State University, in Nigeria, said African governments should adopt climate change adaptation strategies.
"Agriculture in Africa is about 80 per cent rain-fed, and this must change given the declining amount of rainfall," Ologunorisa said.
The study was published in the August edition of Agricultural and Forest Meteorology.
Agricultural and Forest Meteorology doi:10.1016/j.agrformet.2011.03.015
Alison Tottenham ( www.tigergreen.co.uk | United Kingdom )
6 October 2011
This same effect can be seen across the globe; and in each case it is the attempt to feed our huge population that has driven the over-production from land. It is this that has driven the development of factory farming. But this is just one of the many problems associated with a population of 7 billion. There is a solution, but to accomplish a population reduction without aggression will take agreement by all, together with a lot of good will and understanding, especially by our politicians and religious leaders.
RHagan ( Jordan )
10 October 2011
There is more going on with population growth induced crop yield reductions than soil fertility. As populations grow they need more housing, which typically expands over nearby cleared and in some cases relatively level farmland (easy building). In many locations the reason for settling an area was the quality of the farmland. Expanding communities eat up the best and most productive farmland, covering it with houses, leaving less productive lands for growing food. Given the world is on high angle population growth curve, without significant reductions in population it is unlikely global warming will become more importanrt that population by 2050.
“Population: The Multiplier of Everything Else.” William N. Ryerson. 2010. Post Carbon Institute, 613 4th Street, Suite 208, Santa Rosa, California 95404 USA
All SciDev.Net material is free to reproduce providing that the source and author are appropriately credited. For further details see Creative Commons.