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Global meta-analysis shows pervasive phosphorus limitation of aboveground plant production in natural terrestrial ecosystems

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  • Enqing Hou

    (South China Botanical Garden, Chinese Academy of Sciences
    Core Botanical Gardens, Chinese Academy of Sciences
    Northern Arizona University)

  • Yiqi Luo

    (Northern Arizona University)

  • Yuanwen Kuang

    (South China Botanical Garden, Chinese Academy of Sciences
    Core Botanical Gardens, Chinese Academy of Sciences)

  • Chengrong Chen

    (Griffith University)

  • Xiankai Lu

    (South China Botanical Garden, Chinese Academy of Sciences
    Core Botanical Gardens, Chinese Academy of Sciences)

  • Lifen Jiang

    (Northern Arizona University)

  • Xianzhen Luo

    (South China Botanical Garden, Chinese Academy of Sciences
    Core Botanical Gardens, Chinese Academy of Sciences)

  • Dazhi Wen

    (South China Botanical Garden, Chinese Academy of Sciences
    Core Botanical Gardens, Chinese Academy of Sciences)

Abstract

Phosphorus (P) limitation of aboveground plant production is usually assumed to occur in tropical regions but rarely elsewhere. Here we report that such P limitation is more widespread and much stronger than previously estimated. In our global meta-analysis, almost half (46.2%) of 652 P-addition field experiments reveal a significant P limitation on aboveground plant production. Globally, P additions increase aboveground plant production by 34.9% in natural terrestrial ecosystems, which is 7.0–15.9% higher than previously suggested. In croplands, by contrast, P additions increase aboveground plant production by only 13.9%, probably because of historical fertilizations. The magnitude of P limitation also differs among climate zones and regions, and is driven by climate, ecosystem properties, and fertilization regimes. In addition to confirming that P limitation is widespread in tropical regions, our study demonstrates that P limitation often occurs in other regions. This suggests that previous studies have underestimated the importance of altered P supply on aboveground plant production in natural terrestrial ecosystems.

Suggested Citation

  • Enqing Hou & Yiqi Luo & Yuanwen Kuang & Chengrong Chen & Xiankai Lu & Lifen Jiang & Xianzhen Luo & Dazhi Wen, 2020. "Global meta-analysis shows pervasive phosphorus limitation of aboveground plant production in natural terrestrial ecosystems," Nature Communications, Nature, vol. 11(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-14492-w
    DOI: 10.1038/s41467-020-14492-w
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    Cited by:

    1. Guo-Wei Qiu & Wen-Can Zheng & Hao-Ming Yang & Yu-Ying Wang & Xing Qi & Da Huang & Guo-Zheng Dai & Huazhong Shi & Neil M. Price & Bao-Sheng Qiu, 2024. "Phosphorus deficiency alleviates iron limitation in Synechocystis cyanobacteria through direct PhoB-mediated gene regulation," Nature Communications, Nature, vol. 15(1), pages 1-14, December.
    2. David S. Ellsworth & Kristine Y. Crous & Martin G. Kauwe & Lore T. Verryckt & Daniel Goll & Sönke Zaehle & Keith J. Bloomfield & Philippe Ciais & Lucas A. Cernusak & Tomas F. Domingues & Mirindi Eric , 2022. "Convergence in phosphorus constraints to photosynthesis in forests around the world," Nature Communications, Nature, vol. 13(1), pages 1-12, December.
    3. Joanne S. Boden & Juntao Zhong & Rika E. Anderson & Eva E. Stüeken, 2024. "Timing the evolution of phosphorus-cycling enzymes through geological time using phylogenomics," Nature Communications, Nature, vol. 15(1), pages 1-12, December.
    4. Wang, Linlin & Xie, Junhong & Luo, Zhuzhu & Niu, Yining & Coulter, Jeffrey A. & Zhang, Renzhi & Lingling, Li, 2021. "Forage yield, water use efficiency, and soil fertility response to alfalfa growing age in the semiarid Loess Plateau of China," Agricultural Water Management, Elsevier, vol. 243(C).
    5. Jie-Liang Liang & Shi-wei Feng & Jing-li Lu & Xiao-nan Wang & Feng-lin Li & Yu-qian Guo & Shen-yan Liu & Yuan-yue Zhuang & Sheng-ji Zhong & Jin Zheng & Ping Wen & Xinzhu Yi & Pu Jia & Bin Liao & Wen-s, 2024. "Hidden diversity and potential ecological function of phosphorus acquisition genes in widespread terrestrial bacteriophages," Nature Communications, Nature, vol. 15(1), pages 1-15, December.
    6. Asada, K. & Kanda, T. & Yamashita, N. & Asano, M. & Eguchi, S., 2022. "Interpreting stoichiometric homeostasis and flexibility of soil microbial biomass carbon, nitrogen, and phosphorus," Ecological Modelling, Elsevier, vol. 470(C).

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