2025年7月27日 星期日

Deciphering the variability of leaf phosphorus-allocation strategies using leaf economic traits and reflectance spectroscopy across diverse forest types

作  者:Dong TT, Wu FQ, Tsujii Y, Townsend PA, Yang N, Xu WY, Liu SW, Swenson NG, Lamour J, Han WX, Smith NG, Shi Y, Yan L, Tian D, Jiang MK, Wang ZH, Liu XJ, Dai GH, Dong JL, Sardans J, Reich PB, Lambers H, Serbin SP, Peñuelas J, Wu J, Yan ZB*
影响因子:8.3
刊物名称:New Phytologist
出版年份:2025
卷:  期:  页码:DOI: 10.1111/nph.70219

论文摘要:

Allocation of leaf phosphorus (P) among different functional fractions represents a crucial adaptive strategy for optimizing P use. However, it remains challenging to monitor the variability in leaf P fractions and, ultimately, to understand P-use strategies across diverse plant communities.

We explored relationships between five leaf P fractions (orthophosphate P, Pi; lipid P, PL; nucleic acid P, PN; metabolite P, PM; and residual P, PR) and 11 leaf economic traits of 58 woody species from three biomes in China, including temperate, subtropical and tropical forests. Then, we developed trait-based models and spectral models for leaf P fractions and compared their predictive abilities.

We found that plants exhibiting conservative strategies increased the proportions of PN and PM, but decreased the proportions of Pi and PL, thus enhancing photosynthetic P-use efficiency, especially under P limitation. Spectral models outperformed trait-based models in predicting cross-site leaf P fractions, regardless of concentrations (R2 = 0.50–0.88 vs 0.34–0.74) or proportions (R2 = 0.43–0.70 vs 0.06–0.45).

These findings enhance our understanding of leaf P-allocation strategies and highlight reflectance spectroscopy as a promising alternative for characterizing large-scale leaf P fractions and plant P-use strategies, which could ultimately improve the physiological representation of the plant P cycle in land surface models.

全文链接:https://nph.onlinelibrary.wiley.com/doi/10.1111/nph.70219