Mosses and their microbial partners are important players in fertilizing the boreal forests that make up nearly a third of all Earth’s forests. But climate may be changing mosses’ role in how these forests access nutrients, according to a new study led by the Center for Ecosystem Science and Society (Ecoss) at Northern Arizona University… Read more
Center for Ecosystem Science and Society
New research from a team including scientists of the Center for Ecosystem Science and Society (Ecoss) at Northern Arizona University suggests that subsidence—gradually sinking terrain caused by the loss of ice and soil mass in permafrost—is causing deeper thaw than previously thought and making vulnerable twice as much carbon as estimates that don’t account for this shifting ground. These findings, published this week in the Read more
Warming global temperatures are changing life on every continent on Earth, including Antarctica, where more microbes are moving in to territory previously covered by ice. How these microbes respond to warming offers us clues about what future Antarctica will look like and who will thrive there. Microbial ecologist and PhD candidate Alicia Purcell from the Center for Ecosystem… Read more
Challenging long-held assumptions that phosphorus limits aboveground plant growth mainly in tropical regions, a new paper in Nature Communications by NAU authors suggests that this important nutrient actually helps govern plant production in temperate regions, too, and on every continent except Antarctica.
Analyzing data from phosphorus field experiments conducted worldwide between 1955-2017, authors Enqing Hou,… Read more
As Arctic tundra has warmed more than twice as fast as the rest of the… Read more
If the fate of carbon is a test that planet Earth is taking right now, one of the answer keys is likely to be found in soil, where microorganisms—which account for nearly 15 percent of global biomass, by some estimates—eat, store and respire carbon and other nutrients. As Earth warms, how these microbes change the way they live will have potentially big consequences for where the carbon goes.
Now, a team led… Read more