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Resource-based niches provide a basis for plant species diversity and dominance in arctic tundra

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  • Robert B. McKane

    (US Environmental Protection Agency)

  • Loretta C. Johnson

    (Kansas State University)

  • Gaius R. Shaver

    (The Ecosystems Center, Marine Biological Laboratory)

  • Knute J. Nadelhoffer

    (The Ecosystems Center, Marine Biological Laboratory)

  • Edward B. Rastetter

    (The Ecosystems Center, Marine Biological Laboratory)

  • Brian Fry

    (Institute of Pacific Islands Forestry, USDA Forest Service)

  • Anne E. Giblin

    (The Ecosystems Center, Marine Biological Laboratory)

  • Knut Kielland

    (Institute of Arctic Biology, University of Alaska)

  • Bonnie L. Kwiatkowski

    (The Ecosystems Center, Marine Biological Laboratory)

  • James A. Laundre

    (The Ecosystems Center, Marine Biological Laboratory)

  • Georgia Murray

    (Appalachian Mountain Club)

Abstract

Ecologists have long been intrigued by the ways co-occurring species divide limiting resources. Such resource partitioning, or niche differentiation, may promote species diversity by reducing competition1,2. Although resource partitioning is an important determinant of species diversity and composition in animal communities3, its importance in structuring plant communities has been difficult to resolve4. This is due mainly to difficulties in studying how plants compete for belowground resources5. Here we provide evidence from a 15N-tracer field experiment showing that plant species in a nitrogen-limited, arctic tundra community were differentiated in timing, depth and chemical form of nitrogen uptake, and that species dominance was strongly correlated with uptake of the most available soil nitrogen forms. That is, the most productive species used the most abundant nitrogen forms, and less productive species used less abundant forms. To our knowledge, this is the first documentation that the composition of a plant community is related to partitioning of differentially available forms of a single limiting resource.

Suggested Citation

  • Robert B. McKane & Loretta C. Johnson & Gaius R. Shaver & Knute J. Nadelhoffer & Edward B. Rastetter & Brian Fry & Anne E. Giblin & Knut Kielland & Bonnie L. Kwiatkowski & James A. Laundre & Georgia M, 2002. "Resource-based niches provide a basis for plant species diversity and dominance in arctic tundra," Nature, Nature, vol. 415(6867), pages 68-71, January.
    • Handle: RePEc:nat:nature:v:415:y:2002:i:6867:d:10.1038_415068a
    DOI: 10.1038/415068a
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    Cited by:

    1. Yan, Chuan & Zhang, Zhibin, 2016. "Interspecific interaction strength influences population density more than carrying capacity in more complex ecological networks," Ecological Modelling, Elsevier, vol. 332(C), pages 1-7.
    2. Heikkinen, Juha & Mäkipää, Raisa, 2010. "Testing hypotheses on shape and distribution of ecological response curves," Ecological Modelling, Elsevier, vol. 221(3), pages 388-399.
    3. Samuel E. Wuest & Lukas Schulz & Surbhi Rana & Julia Frommelt & Merten Ehmig & Nuno D. Pires & Ueli Grossniklaus & Christian S. Hardtke & Ulrich Z. Hammes & Bernhard Schmid & Pascal A. Niklaus, 2023. "Single-gene resolution of diversity-driven overyielding in plant genotype mixtures," Nature Communications, Nature, vol. 14(1), pages 1-11, December.
    4. Ya-Huang Luo & Jie Liu & Shao-Lin Tan & Marc William Cadotte & Yue-Hua Wang & Kun Xu & De-Zhu Li & Lian-Ming Gao, 2016. "Trait-Based Community Assembly along an Elevational Gradient in Subalpine Forests: Quantifying the Roles of Environmental Factors in Inter- and Intraspecific Variability," PLOS ONE, Public Library of Science, vol. 11(5), pages 1-20, May.
    5. van Wijk, M.T., 2007. "Predicting ecosystem functioning from plant traits: Results from a multi-scale ecophysiological modeling approach," Ecological Modelling, Elsevier, vol. 203(3), pages 453-463.
    6. Brenton Ladd, 2016. "Nitrogen Pollution and the Meltdown of Urban Ecosystems," Land, MDPI, vol. 5(3), pages 1-8, July.
    7. Hu, M.H. & Ao, Y.S. & Yang, X.E. & Li, T.Q., 2008. "Treating eutrophic water for nutrient reduction using an aquatic macrophyte (Ipomoea aquatica Forsskal) in a deep flow technique system," Agricultural Water Management, Elsevier, vol. 95(5), pages 607-615, May.

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