Variation in leaf phosphorus fractions reflects plant adaptations and distribution in low‐phosphorus tropical forests

Lancaster Environment Centre

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https://doi.org/10.1111/1365-2435.14721
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Keywords

exotic species, leaf functional traits, leaf phosphorus fractions, native species, phosphorus limitation

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Variation in leaf phosphorus fractions reflects plant adaptations and distribution in low‐phosphorus tropical forests. / Fan, Yingxu; Lambers, Hans; Sayer, Emma J. et al.
In: Functional Ecology, Vol. 39, No. 2, 28.02.2025, p. 621-634.

Research output: Contribution to Journal/Magazine › Journal article › peer-review

Harvard

Fan, Y, Lambers, H, Sayer, EJ, Li, Y, Li, Y, Zhang, J, Li, Z, Hu, Z, Li, H, Wang, J, He, X & Wang, F 2025, 'Variation in leaf phosphorus fractions reflects plant adaptations and distribution in low‐phosphorus tropical forests', Functional Ecology, vol. 39, no. 2, pp. 621-634. https://doi.org/10.1111/1365-2435.14721

APA

Fan, Y., Lambers, H., Sayer, E. J., Li, Y., Li, Y., Zhang, J., Li, Z., Hu, Z., Li, H., Wang, J., He, X., & Wang, F. (2025). Variation in leaf phosphorus fractions reflects plant adaptations and distribution in low‐phosphorus tropical forests. Functional Ecology, 39(2), 621-634. https://doi.org/10.1111/1365-2435.14721

Vancouver

Fan Y, Lambers H, Sayer EJ, Li Y, Li Y, Zhang J et al. Variation in leaf phosphorus fractions reflects plant adaptations and distribution in low‐phosphorus tropical forests. Functional Ecology. 2025 Feb 28;39(2):621-634. Epub 2024 Dec 12. doi: 10.1111/1365-2435.14721

Author

Fan, Yingxu ; Lambers, Hans ; Sayer, Emma J. et al. / Variation in leaf phosphorus fractions reflects plant adaptations and distribution in low‐phosphorus tropical forests. In: Functional Ecology. 2025 ; Vol. 39, No. 2. pp. 621-634.

Bibtex

@article{6b7e08508b6648b8b0c9a30c6dc7927d,

title = "Variation in leaf phosphorus fractions reflects plant adaptations and distribution in low‐phosphorus tropical forests",

abstract = "Tropical forests are generally characterized by high species diversity and low soil phosphorus (P) availability. Although tropical plants have evolved adaptations to low soil P availability, we know relatively little about the strategies of different groups of species to efficiently use P, or how these strategies might shape their distributions. We compared the performance of 16 co‐occurring species in tropical forests in South China under two soil P regimes. We divided these species into three groups: exotic species, which are not native to South China; eurytopic native species, which occur in both P‐limited and P‐richer habitats; stenotopic native species, which only occur in low‐P habitats. We assessed their growth rates, foliar functional traits and foliar P fractions under experimentally manipulated soil P availability (Control vs. +P). Exotic species exhibited greater plasticity in allocation of leaf P fractions than native species. Compared with native species, exotic species allocated more P to inorganic‐P than to ester‐P and nucleic‐P in P‐enriched soil, while they allocated less P to inorganic‐P and ester‐P in low‐P soil. Eurytopic native species responded inconsistently to P addition, indicating that eurytopic native species may employ various strategies to cope with low P availability, whereas stenotopic native species showed only minor changes in leaf P allocation with P fertilization. We distinguished two strategies for plant adaptation to low soil P availability: (1) a P‐plastic strategy exhibited by exotic species, in which Pleaf and leaf P‐fraction allocation patterns changed substantially with soil P enrichment; (2) a P‐conservative strategy exhibited by stenotopic native species, in which Pleaf and leaf P‐fraction allocation patterns changed only slightly with soil P enrichment. In conclusion, the distinct strategies exhibited by plants in low‐P habitats may determine their distribution and coexistence in tropical regions. Read the free Plain Language Summary for this article on the Journal blog.",

keywords = "exotic species, leaf functional traits, leaf phosphorus fractions, native species, phosphorus limitation",

author = "Yingxu Fan and Hans Lambers and Sayer, {Emma J.} and Yingwen Li and Yongxing Li and Jingfan Zhang and Zhian Li and Zhongmin Hu and Hui Li and Jun Wang and Xiaofang He and Faming Wang",

year = "2025",

month = feb,

day = "28",

doi = "10.1111/1365-2435.14721",

language = "English",

volume = "39",

pages = "621--634",

journal = "Functional Ecology",

issn = "0269-8463",

publisher = "Blackwell Publishing Ltd",

number = "2",

}

RIS

TY - JOUR

T1 - Variation in leaf phosphorus fractions reflects plant adaptations and distribution in low‐phosphorus tropical forests

AU - Fan, Yingxu

AU - Lambers, Hans

AU - Sayer, Emma J.

AU - Li, Yingwen

AU - Li, Yongxing

AU - Zhang, Jingfan

AU - Li, Zhian

AU - Hu, Zhongmin

AU - Li, Hui

AU - Wang, Jun

AU - He, Xiaofang

AU - Wang, Faming

PY - 2025/2/28

Y1 - 2025/2/28

N2 - Tropical forests are generally characterized by high species diversity and low soil phosphorus (P) availability. Although tropical plants have evolved adaptations to low soil P availability, we know relatively little about the strategies of different groups of species to efficiently use P, or how these strategies might shape their distributions. We compared the performance of 16 co‐occurring species in tropical forests in South China under two soil P regimes. We divided these species into three groups: exotic species, which are not native to South China; eurytopic native species, which occur in both P‐limited and P‐richer habitats; stenotopic native species, which only occur in low‐P habitats. We assessed their growth rates, foliar functional traits and foliar P fractions under experimentally manipulated soil P availability (Control vs. +P). Exotic species exhibited greater plasticity in allocation of leaf P fractions than native species. Compared with native species, exotic species allocated more P to inorganic‐P than to ester‐P and nucleic‐P in P‐enriched soil, while they allocated less P to inorganic‐P and ester‐P in low‐P soil. Eurytopic native species responded inconsistently to P addition, indicating that eurytopic native species may employ various strategies to cope with low P availability, whereas stenotopic native species showed only minor changes in leaf P allocation with P fertilization. We distinguished two strategies for plant adaptation to low soil P availability: (1) a P‐plastic strategy exhibited by exotic species, in which Pleaf and leaf P‐fraction allocation patterns changed substantially with soil P enrichment; (2) a P‐conservative strategy exhibited by stenotopic native species, in which Pleaf and leaf P‐fraction allocation patterns changed only slightly with soil P enrichment. In conclusion, the distinct strategies exhibited by plants in low‐P habitats may determine their distribution and coexistence in tropical regions. Read the free Plain Language Summary for this article on the Journal blog.

AB - Tropical forests are generally characterized by high species diversity and low soil phosphorus (P) availability. Although tropical plants have evolved adaptations to low soil P availability, we know relatively little about the strategies of different groups of species to efficiently use P, or how these strategies might shape their distributions. We compared the performance of 16 co‐occurring species in tropical forests in South China under two soil P regimes. We divided these species into three groups: exotic species, which are not native to South China; eurytopic native species, which occur in both P‐limited and P‐richer habitats; stenotopic native species, which only occur in low‐P habitats. We assessed their growth rates, foliar functional traits and foliar P fractions under experimentally manipulated soil P availability (Control vs. +P). Exotic species exhibited greater plasticity in allocation of leaf P fractions than native species. Compared with native species, exotic species allocated more P to inorganic‐P than to ester‐P and nucleic‐P in P‐enriched soil, while they allocated less P to inorganic‐P and ester‐P in low‐P soil. Eurytopic native species responded inconsistently to P addition, indicating that eurytopic native species may employ various strategies to cope with low P availability, whereas stenotopic native species showed only minor changes in leaf P allocation with P fertilization. We distinguished two strategies for plant adaptation to low soil P availability: (1) a P‐plastic strategy exhibited by exotic species, in which Pleaf and leaf P‐fraction allocation patterns changed substantially with soil P enrichment; (2) a P‐conservative strategy exhibited by stenotopic native species, in which Pleaf and leaf P‐fraction allocation patterns changed only slightly with soil P enrichment. In conclusion, the distinct strategies exhibited by plants in low‐P habitats may determine their distribution and coexistence in tropical regions. Read the free Plain Language Summary for this article on the Journal blog.

KW - exotic species

KW - leaf functional traits

KW - leaf phosphorus fractions

KW - native species

KW - phosphorus limitation

U2 - 10.1111/1365-2435.14721

DO - 10.1111/1365-2435.14721

M3 - Journal article

VL - 39

SP - 621

EP - 634

JO - Functional Ecology

JF - Functional Ecology

SN - 0269-8463

IS - 2

ER -

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