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      Within-species patterns challenge our understanding of the leaf economics spectrum

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          Most cited references62

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          Benefits of plant diversity to ecosystems: immediate, filter and founder effects

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            From tropics to tundra: global convergence in plant functioning.

            Despite striking differences in climate, soils, and evolutionary history among diverse biomes ranging from tropical and temperate forests to alpine tundra and desert, we found similar interspecific relationships among leaf structure and function and plant growth in all biomes. Our results thus demonstrate convergent evolution and global generality in plant functioning, despite the enormous diversity of plant species and biomes. For 280 plant species from two global data sets, we found that potential carbon gain (photosynthesis) and carbon loss (respiration) increase in similar proportion with decreasing leaf life-span, increasing leaf nitrogen concentration, and increasing leaf surface area-to-mass ratio. Productivity of individual plants and of leaves in vegetation canopies also changes in constant proportion to leaf life-span and surface area-to-mass ratio. These global plant functional relationships have significant implications for global scale modeling of vegetation-atmosphere CO2 exchange.
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              Assessing the generality of global leaf trait relationships.

              Global-scale quantification of relationships between plant traits gives insight into the evolution of the world's vegetation, and is crucial for parameterizing vegetation-climate models. A database was compiled, comprising data for hundreds to thousands of species for the core 'leaf economics' traits leaf lifespan, leaf mass per area, photosynthetic capacity, dark respiration, and leaf nitrogen and phosphorus concentrations, as well as leaf potassium, photosynthetic N-use efficiency (PNUE), and leaf N : P ratio. While mean trait values differed between plant functional types, the range found within groups was often larger than differences among them. Future vegetation-climate models could incorporate this knowledge. The core leaf traits were intercorrelated, both globally and within plant functional types, forming a 'leaf economics spectrum'. While these relationships are very general, they are not universal, as significant heterogeneity exists between relationships fitted to individual sites. Much, but not all, heterogeneity can be explained by variation in sample size alone. PNUE can also be considered as part of this trait spectrum, whereas leaf K and N : P ratios are only loosely related.
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                Author and article information

                Journal
                Ecology Letters
                Ecol Lett
                Wiley
                1461023X
                May 2018
                May 2018
                March 23 2018
                : 21
                : 5
                : 734-744
                Affiliations
                [1 ]Department of Biology; University of Washington; Box 351800 Seattle WA 98195 USA
                [2 ]Department of Global Ecology; Carnegie Institution for Science; 260 Panama St Stanford CA 94305 USA
                [3 ]Department of Forest Ecosystems and Society; Oregon State University; 330 Richardson Hall Corvallis OR 97331 USA
                [4 ]School of Informatics, Cumputing, and Cyber Systems Northern Arizona University; 1295 S. Knoles Drive Flagstaff AZ, 86011 USA
                Article
                10.1111/ele.12945
                29569818
                59010a80-39ba-409d-b6e8-7bf7d881e60e
                © 2018

                http://doi.wiley.com/10.1002/tdm_license_1.1

                http://onlinelibrary.wiley.com/termsAndConditions#am

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