Because plants can’t move, they depend on partnerships with microbes to help them get nutrients. But science has only recently delved into the importance of the microbiome of plants.
Now, research led by plant microbiologist Sharon Doty demonstrates that poplar trees growing in rocky, inhospitable terrain harbor bacteria within them that could provide valuable nutrients to help the plant grow.
Their findings, which could have implications for agriculture crop and bioenergy crop productivity, appear in PLOS ONE.
The researchers found that microbial communities are highly diverse, varying dramatically even in cuttings next to each other.
“This variability made it especially difficult to quantify the activity, but is the key to the biology since it is probably only specific groupings of microorganisms that are working together to provide this nutrient to the host,” says Doty, a professor in the University of Washington School of Environmental and Forest Sciences.
Nitrogen fixation is a natural process that is essential to sustain all forms of life. In naturally occurring low-nutrient environments such as rocky, barren terrain, plants associate with nitrogen-fixing bacteria to acquire this essential nutrient.
It’s well documented that nitrogen fixation happens in bacteria-rich nodules on the roots of legumes such as soybeans, clovers, alfalfa, and lupines. Bacteria help the roots fix atmospheric nitrogen gas into a form which can be used by the plant.
There is a strongly held belief that only plants with root nodules can benefit from this type of symbiosis. This research provides the first direct evidence that nitrogen fixation can occur in the branches of trees, with no root nodule required.
This could have significant implications for common agricultural crop plants. The microbes the team has isolated from wild poplar and willow plants help corn, tomatoes, and peppers, as well as turf grasses and forest trees to grow with less fertilizer.
Fertilizers are synthesized using fossil fuels, so costs can fluctuate wildly. Because fertilizers are used for growing everything from agricultural and bioenergy crops and trees for lumber to the grass in golf courses, this volatile pricing and uncertain availability affects everyone.
“Having access to the key microbial strains that help wild plants thrive on just rocks and sand will be crucial for moving agriculture, bioenergy, and forestry away from a dependence on chemical fertilizers and towards a more natural way of boosting plant productivity,” Doty says.
The researchers plan to work with the Pacific Northwest National Laboratory to try to find out exactly which microbes are doing the most work in the wild trees.
The US Department of Agriculture and the Byron and Alice Lockwood Professorship funded the work.
Source: University of Washington