I’ve been thinking about irrigating as we plan to sink cisterns beside the barn to store rain water. With precipitation starting to come in more intense episodes in the Midwest followed by long dry spells, it seems like the best idea.
This press release from UW-Madison writer Jill Sakai takes irrigation to the global level:
Irrigation increases global agricultural productivity by an amount roughly equivalent to the entire agricultural output of the U.S., according to a new University of Wisconsin-Madison study, according to Mutlu Ozdogan, a UW-Madison professor of forest and wildlife ecology and member of the Nelson Institute for Environmental Studies.
That extra plant life from irrigation increases carbon uptake from the atmosphere. This means that water shortages – already forecasted to be a big problem as the world warms – could contribute to yet more warming through a positive feedback loop.
The new research quantified irrigation’s contribution to global agricultural productivity for the years 1998-2002, estimating the amount of carbon uptake enabled by relieving water stress on croplands. The results published August 25 in the journal Global Biogeochemical Cycles.
The study also shows that adding even a small amount of water to a dry area can have a bigger impact than a larger amount of water in a wetter region.
Interestingly, Ozdogan found that, on average, worldwide irrigation is currently conducted close to the optimal level that maximizes gains, and while this may be good news for current farmers, it implies limited potential for irrigation to boost future productivity even as food demands increase.
“Now that we have spatially-explicit maps of how much irrigation is increasing carbon accumulation, we have good information about the value of the water going into those areas. We might be able to come up with a value of carbon in those areas as well,” he says. “Of course the flip side of this is that, in many places around the world, if we keep irrigating we are either going to run out of water or degrade soils because of salinity issues.”
Ozdogan says, a better understanding of the links between irrigation, productivity, and carbon will help researchers look at downstream effects of factors that influence each of those elements – for example, how water shortages in agricultural regions may affect regional carbon cycles and climate.
The study continues a history of work from the UW-Madison’s Center for Sustainability and the Global Environment that includes the development of several freely available climate and ecosystem models, maps, and datasets . This research was partially supported by a National Aeronautics and Space Administration Applied Sciences Program grant.
Are you irrigating what you grow? How?