Global leaf nitrogen and phosphorus stoichiometry and their scaling exponent

Author:

Tian Di12,Yan Zhengbing1,Niklas Karl J3,Han Wenxuan4,Kattge Jens5,Reich Peter B67,Luo Yongkai8,Chen Yahan8,Tang Zhiyao1,Hu Huifeng8,Wright Ian J9,Schmid Bernhard10,Fang Jingyun1

Affiliation:

1. Institute of Ecology, College of Urban and Environmental Sciences, and Key Laboratory for Earth Surface Processes of the Ministry of Education, Peking University, Beijing 100871, China

2. College of Life Sciences, Capital Normal University, Beijing 100048, China

3. Department of Plant Biology, Cornell University, Ithaca, NY 14850, USA

4. Key Laboratory of Plant-Soil Interactions, Ministry of Education, College of Resources and Environmental Sciences, China Agricultural University, Beijing 100193, China

5. Max-Planck-Institute for Biogeochemistry, Jena 07745, Germany

6. Department of Forest Resources, University of Minnesota, MN 55108, USA

7. Hawkesbury Institute for the Environment, Western Sydney University, Penrith NSW 2751, Australia

8. State Key Laboratory of Vegetation and Environmental Change, Institute of Botany, Chinese Academy of Sciences, Beijing 100093, China

9. Department of Biological Sciences, Macquarie University, Sydney, NSW 2109, Australia

10. Department of Evolutionary Biology and Environmental Studies, University of Zurich, CH-8057 Zurich, Switzerland

Abstract

Abstract Leaf nitrogen (N) and phosphorus (P) concentrations constrain photosynthetic and metabolic processes, growth and the productivity of plants. Their stoichiometry and scaling relationships regulate the allocation of N and P from subcellular to organism, and even ecosystem levels, and are crucial to the modelling of plant growth and nutrient cycles in terrestrial ecosystems. Prior work has revealed a general biogeographic pattern of leaf N and P stoichiometric relationships and shown that leaf N scales roughly as two-thirds the power of P. However, determining whether and how leaf N and P stoichiometries, especially their scaling exponents, change with functional groups and environmental conditions requires further verification. In this study, we compiled a global data set and documented the global leaf N and P concentrations and the N:P ratios by functional group, climate zone and continent. The global overall mean leaf N and P concentrations were 18.9 mg g−1 and 1.2 mg g−1, respectively, with significantly higher concentrations in herbaceous than woody plants (21.72 mg g−1 vs. 18.22 mg g−1 for N; and 1.64 mg g−1 vs. 1.10 mg g−1 for P). Both leaf N and P showed higher concentrations at high latitudes than low latitudes. Among six continents, Europe had the highest N and P concentrations (20.79 and 1.54 mg g−1) and Oceania had the smallest values (10.01 and 0.46 mg g−1). These numerical values may be used as a basis for the comparison of other individual studies. Further, we found that the scaling exponent varied significantly across different functional groups, latitudinal zones, ecoregions and sites. The exponents of herbaceous and woody plants were 0.659 and 0.705, respectively, with significant latitudinal patterns decreasing from tropical to temperate to boreal zones. At sites with a sample size ≥10, the values fluctuated from 0.366 to 1.928, with an average of 0.841. Several factors including the intrinsic attributes of different life forms, P-related growth rates and relative nutrient availability of soils likely account for the inconstant exponents of leaf N vs. P scaling relationships.

Funder

National Natural Science Foundation of China

National Key Research and Development Program of China

European Cooperation in Science and Technology

Publisher

Oxford University Press (OUP)

Subject

Multidisciplinary

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