PJB-2010-91
TREE EXPOSURE TO ELEVATED CO2 INCREASES AVAILABILITY OF SOIL PHOSPHORUS
FAISAL N. KHAN1, MARTIN LUKAC2,*, FRANCO MIGLIETTA3, M. KHALID4 AND DOUGLAS L. GODBOLD1
DOI:
Abstract
Future high levels of atmospheric carbon dioxide will increase biomass production of terrestrial plants, however depletion of soil mineral nutrients may act as a negative feedback to increased growth. To test this, an ecosystem phosphorus budget was calculated in poplar grown under field conditions at ambient and elevated atmospheric CO2 for 5 years. The pools of total, plant available, weatherable and organic P were estimated, as well as the P storage in tree biomass components. While as a non-significant increase in amount of P taken up by the trees we observed, plant available P pools in the soil increased significantly. An increase in all soil P extractions was seen, with the greatest increase in an acid soluble P fraction which is considered to be the weatherable fraction. The formation of this P fraction may be biogenically driven and this additional P probably originates from weathering of occluded mineral pools.
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