{Reference Type}: Journal Article
{Title}: Global distribution and drivers of relative contributions among soil nitrogen sources to terrestrial plants.
{Author}: Hu CC;Liu XY;Driscoll AW;Kuang YW;Brookshire ENJ;Lü XT;Chen CJ;Song W;Mao R;Liu CQ;Houlton BZ;
{Journal}: Nat Commun
{Volume}: 15
{Issue}: 1
{Year}: 2024 Jul 30
{Factor}: 17.694
{DOI}: 10.1038/s41467-024-50674-6
{Abstract}: Soil extractable nitrate, ammonium, and organic nitrogen (N) are essential N sources supporting primary productivity and regulating species composition of terrestrial plants. However, it remains unclear how plants utilize these N sources and how surface-earth environments regulate plant N utilization. Here, we establish a framework to analyze observational data of natural N isotopes in plants and soils globally, we quantify fractional contributions of soil nitrate (fNO3-), ammonium (fNH4+), and organic N (fEON) to plant-used N in soils. We find that mean annual temperature (MAT), not mean annual precipitation or atmospheric N deposition, regulates global variations of fNO3-, fNH4+, and fEON. The fNO3- increases with MAT, reaching 46% at 28.5 °C. The fNH4+ also increases with MAT, achieving a maximum of 46% at 14.4 °C, showing a decline as temperatures further increase. Meanwhile, the fEON gradually decreases with MAT, stabilizing at about 20% when the MAT exceeds 15 °C. These results clarify global plant N-use patterns and reveal temperature rather than human N loading as a key regulator, which should be considered in evaluating influences of global changes on terrestrial ecosystems.