Leaf-level coordination principles propagate to the ecosystem scale
Copyright policy )Leaf-level coordination principles propagate to the ecosystem scale
AbstractFundamental axes of variation in plant traits result from trade-offs between costs and benefits of resource-use strategies at the leaf scale. However, it is unclear whether similar trade-offs propagate to the ecosystem level. Here, we test whether trait correlation patterns predicted by three well-known leaf- and plant-level coordination theories – the leaf economics spectrum, the global spectrum of plant form and function, and the least-cost hypothesis – are also observed between community mean traits and ecosystem processes. We combined ecosystem functional properties from FLUXNET sites, vegetation properties, and community mean plant traits into three corresponding principal component analyses. We find that the leaf economics spectrum (90 sites), the global spectrum of plant form and function (89 sites), and the least-cost hypothesis (82 sites) all propagate at the ecosystem level. However, we also find evidence of additional scale-emergent properties. Evaluating the coordination of ecosystem functional properties may aid the development of more realistic global dynamic vegetation models with critical empirical data, reducing the uncertainty of climate change projections.
- University of Córdoba Spain
- Kyoto University Japan
- Vrije Universiteit Brussel Belgium
- Max Planck Society Germany
- University of British Columbia Canada
570, plant traits, ecosystem functional properties, leaf economics spectrum, global spectrum of plant form and function, least-cost hypotheses, ecosystem processes, FLUXES, Science, Ecosystem ecology, Climate Change, STOMATAL CONDUCTANCE, Article, least-cost hypothesis, XXXXXX - Unknown, [SDV.EE.ECO] Life Sciences [q-bio]/Ecology, environment/Ecosystems, /dk/atira/pure/sustainabledevelopmentgoals/climate_action; name=SDG 13 - Climate Action, PLANT, Plant ecology, TERRESTRIAL BIOSPHERE, Ecosystem, global plant trait spectrum, EUROPEAN FORESTS, leaf economics spectrum, Q, 500, TRANSPIRATION, Carbon cycle, Plants, [SDE.BE] Environmental Sciences/Biodiversity and Ecology, Plant Leaves, SEMINATURAL VEGETATION, Phenotype, plant traits, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, CARBON-NITROGEN INTERACTIONS, [PHYS.PHYS.PHYS-DATA-AN] Physics [physics]/Physics [physics]/Data Analysis, Statistics and Probability [physics.data-an], WATER-USE EFFICIENCY, PHOTOSYNTHETIC CAPACITY
570, plant traits, ecosystem functional properties, leaf economics spectrum, global spectrum of plant form and function, least-cost hypotheses, ecosystem processes, FLUXES, Science, Ecosystem ecology, Climate Change, STOMATAL CONDUCTANCE, Article, least-cost hypothesis, XXXXXX - Unknown, [SDV.EE.ECO] Life Sciences [q-bio]/Ecology, environment/Ecosystems, /dk/atira/pure/sustainabledevelopmentgoals/climate_action; name=SDG 13 - Climate Action, PLANT, Plant ecology, TERRESTRIAL BIOSPHERE, Ecosystem, global plant trait spectrum, EUROPEAN FORESTS, leaf economics spectrum, Q, 500, TRANSPIRATION, Carbon cycle, Plants, [SDE.BE] Environmental Sciences/Biodiversity and Ecology, Plant Leaves, SEMINATURAL VEGETATION, Phenotype, plant traits, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, CARBON-NITROGEN INTERACTIONS, [PHYS.PHYS.PHYS-DATA-AN] Physics [physics]/Physics [physics]/Data Analysis, Statistics and Probability [physics.data-an], WATER-USE EFFICIENCY, PHOTOSYNTHETIC CAPACITY
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