This global map of soil pH shows the driest areas in red and the wettest in blue. Credit: University of California – Santa Barbara For some time now, scientists have known that climate influences soil chemistry—and, in particular, soil pH, a measure of acidity or alkalinity. In dry climates, soil is alkaline; in wet climates, it’s acidic. But what has remained unknown is just how soil pH changes between wet and dry climates. A new analysis by UC Santa Barbara researchers sheds light on that mystery, revealing that the shift occurs abruptly, right at the boundary between wet and dry conditions. The findings appear in the journal Nature.
”We found that if you go to wet climates—places where you might expect to find a forest, whether in the high latitudes or in the Amazon—the pH is acidic,” said lead author Eric Slessarev, a Ph.D. student in the Department of Ecology, Evolution and Marine Biology at UCSB. ”If you go to dry climates, the pH is alkaline. This is what we expected. But our analysis was able to confirm that the transition between those two zones is very abrupt.
”It only takes a small change in climate to achieve the switch from that acid zone to the alkaline zone and there are fewer soils with an intermediate pH,” Slessarev added. ”Those soils are in places like Iowa or the Ukraine, which—not coincidentally—are places intensively farmed because those neutral range soils are the most fertile. Extreme pH tends to be bad for crops for a variety of reasons.”
Soil pH levels range from 0 to 14, with 7 being neutral. Levels below 7 are acidic, and those above are alkaline. Neutral soils are less common than either extreme and tend to cluster at the transition between wet climates and dry climates.
The research team conducted a meta-analysis using soil databases from the United States, China, Canada, Australia, Brazil and the International Soil Research Information Center in Wageningen, Netherlands. The team evaluated approximately 60,000 data points to build a global soil pH map.
”One thing that we can draw from our analysis is that the parts of the world that humans depend upon the most for agriculture sit on an edge between wet and dry climates and between acid soils and alkaline soils,” Slessarev said. ”What’s more, our work demonstrates that soil pH—and therefore soil fertility—is tightly linked to climate. In fact, it’s linked in a way that looks like a staircase, where a step exists between one space and another. For the parts of the world on the edge of that step, this means a very small change in climate could make a big difference in how the system functions.”
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More information: E. W. Slessarev et al, Water balance creates a threshold in soil pH at the global scale, Nature (2016). DOI: 10.1038/nature20139
Provided by:University of California – Santa Barbara