Leaf traits are good predictors of plant performance across 53 rain forest species.
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[1] C. Körner,et al. Construction costs, chemical composition and payback time of high- and low-irradiance leaves. , 2005, Journal of experimental botany.
[2] Ian J. Wright,et al. Relationships between leaf lifespan and structural defences in a low-nutrient, sclerophyll flora , 2001 .
[3] Mark G Tjoelker,et al. Thermal acclimation and the dynamic response of plant respiration to temperature. , 2003, Trends in plant science.
[4] P. Coley,et al. HERBIVORY AND DEFENSIVE CHARACTERISTICS OF TREE SPECIES IN A LOWLAND TROPICAL FOREST , 1983 .
[5] David B. Clark,et al. GETTING TO THE CANOPY: TREE HEIGHT GROWTH IN A NEOTROPICAL RAIN FOREST , 2001 .
[6] P. Reich,et al. Low-light carbon balance and shade tolerance in the seedlings of woody plants: Do winter deciduous and broad-leaved evergreen species differ? , 1999 .
[7] Stephen P. Hubbell,et al. Sapling Survival, Growth, and Recruitment: Relationship to Canopy Height in a Neotropical Forest , 1991 .
[8] G. Gilbert. Biotic Interactions in the Tropics: Dimensions of plant disease in tropical forests , 2005 .
[9] T. Rijkers. Leaf function in tropical rain forest canopy trees: the effect of light on leaf morphology and physiology in different-sized trees. , 2000 .
[10] In situ field measurements of photosynthetic rates of tropical tree species: a test of the functional group hypothesis , 2000 .
[11] Ülo Niinemets,et al. Research review. Components of leaf dry mass per area – thickness and density – alter leaf photosynthetic capacity in reverse directions in woody plants , 1999 .
[12] F. Bongers,et al. Beyond the regeneration phase: differentiation of height–light trajectories among tropical tree species , 2005 .
[13] Frans Bongers,et al. Architecture of 54 moist-forest tree species: traits, trade-offs, and functional groups. , 2006, Ecology.
[14] L. Poorter,et al. Leaf traits and herbivory rates of tropical tree species differing in successional status. , 2004, Plant biology.
[15] P. Reich,et al. Generality of leaf trait relationships: a test across six biomes: Ecology , 1999 .
[16] Lourens Poorter,et al. Growth responses of 15 rain‐forest tree species to a light gradient: the relative importance of morphological and physiological traits , 1999 .
[17] K. Kitajima. Relative importance of photosynthetic traits and allocation patterns as correlates of seedling shade tolerance of 13 tropical trees , 1994, Oecologia.
[18] M. Westoby,et al. ECOLOGICAL STRATEGIES : Some Leading Dimensions of Variation Between Species , 2002 .
[19] M. Werger,et al. Gap-dependence and leaf characteristics of trees in a tropical lowland rain forest in Mexico. , 1992 .
[20] K. Kitajima. Ecophysiology of Tropical Tree Seedlings , 1996 .
[21] F. Bazzaz,et al. Photosynthetic Characteristics of Tropical Trees Along Successional Gradients , 1996 .
[22] P. Reich,et al. Leaf lifespan as a determinant of leaf structure and function among 23 amazonian tree species , 1991, Oecologia.
[23] K. Kikuzawa. A Cost-Benefit Analysis of Leaf Habit and Leaf Longevity of Trees and Their Geographical Pattern , 1991, The American Naturalist.
[24] Paul M. Rich,et al. Comparative analysis of microhabitat utilization by saplings of nine tree species in Neotropical rain forest , 1993 .
[25] P. Reich,et al. Strategy shifts in leaf physiology, structure and nutrient content between species of high‐ and low‐rainfall and high‐ and low‐nutrient habitats , 2001 .
[26] P. Reich,et al. Convergence towards higher leaf mass per area in dry and nutrient‐poor habitats has different consequences for leaf life span , 2002 .
[27] L. Poorter,et al. Leaf Traits Determine the Growth‐Survival Trade‐Off across Rain Forest Tree Species , 2006, The American Naturalist.
[28] D. Ackerly. 10 – Allocation, Leaf Display, and Growth in Fluctuating Light Environments , 1997 .
[29] D. Lieberman,et al. Growth rates and age-size relationships of tropical wet forest trees in Costa Rica , 1985, Journal of Tropical Ecology.
[30] Hendrik Poorter,et al. Inherent Variation in Growth Rate Between Higher Plants: A Search for Physiological Causes and Ecological Consequences , 1992 .
[31] P. Reich,et al. Leaf carbon and nutrient assimilation and conservation in species of differing successional status in an oligotrophic Amazonian forest , 1995 .
[32] Stuart J. Davies,et al. Comparative ecology of 11 sympatric species of Macaranga in Borneo: tree distribution in relation to horizontal and vertical resource heterogeneity , 1998 .
[33] D. Ackerly,et al. Leaf dynamics, self-shading and carbon gain in seedlings of a tropical pioneer tree , 1995, Oecologia.
[34] P. Coley,et al. Effects of plant growth rate and leaf lifetime on the amount and type of anti-herbivore defense , 2004, Oecologia.
[35] H. Lambers,et al. A genetic analysis of relative growth rate and underlying components in Hordeum spontaneum , 2004, Oecologia.
[36] P. Reich,et al. Leaf Life‐Span in Relation to Leaf, Plant, and Stand Characteristics among Diverse Ecosystems , 1992 .
[37] John R. Evans,et al. Photosynthetic nitrogen-use efficiency of species that differ inherently in specific leaf area , 1998, Oecologia.
[38] P. Reich,et al. The Evolution of Plant Functional Variation: Traits, Spectra, and Strategies , 2003, International Journal of Plant Sciences.
[39] Bill Shipley,et al. Trade‐offs between net assimilation rate and specific leaf area in determining relative growth rate: relationship with daily irradiance , 2002 .
[40] R. Bunce,et al. A Long-term Surveillance System for British Woodland Vegetation , 1978 .
[41] N. Anten,et al. Interspecific differences in above‐ground growth patterns result in spatial and temporal partitioning of light among species in a tall‐grass meadow , 1999 .
[42] C. Lusk. Leaf area accumulation helps juvenile evergreen trees tolerate shade in a temperate rainforest , 2002, Oecologia.
[43] S. Hubbell,et al. GAP‐DEPENDENT RECRUITMENT, REALIZED VITAL RATES, AND SIZE DISTRIBUTIONS OF TROPICAL TREES , 2003 .