Phosphorus (P) is an important nutrient element in plant photosynthesis. However, the adsorption of mineral P via leaching and erosion leads to a decrease in P availability and consequently P deficiency.
In a study published in the journal Forest Ecosystems, a team of researchers from China has elucidated a mechanism for phosphorus cycling in subtropical forests. They found that as stand age increases, bioavailable phosphorus in Pinus massoniana plantations gets absorbed by roots under the influence of soil phosphatases. This phosphorus is then allocated to roots and leaves in various organ phosphorus component forms, with this relationship exhibiting seasonal variations.
"The phosphorus cycle within the above-ground and below-ground environments of subtropical forests varies across different stands, ages and seasons," states corresponding author Xiaogai Ge from the Institute of Forestry Engineering, Chinese Academy of Forestry. "As stand age increases, Pinus massoniana consistently absorbs bioavailable phosphorus from the soil, resulting in a reduction in soil phosphorus availability within Pinus massoniana plantations."
The absorbed phosphorus is then distributed to various organs in four distinct forms: metabolic phosphorus, nucleic acid phosphorus, lipid phosphorus, and residual phosphorus.
"This distribution is influenced by phosphorus resorption," adds Ge. "Phosphorus in these organs eventually returns to the soil through litterfall, thereby mitigating the decline in soil phosphorus availability due to the activity of soil phosphatases."
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