References to data compiled in the TRY database

The TRY database contains published and non-published data. These are the references to data within the TRY database that have already been published.

Abakumova, M., Zobel K., Lepik, A., Semchenko, M. (2016) Plasticity in plant functional traits is shaped by variability in neighbourhood species composition. New Phytologist 211:455–463 doi:10.1111/nph.13935

Abedi M,M. Bartelheimer, P. Poschlod 2012 Aluminium toxic effects on seedling root survival affect plant composition along soil reaction gradients – a case study in dry sandy grasslands. Journal of Vegetation Science. Doi: 10.1111/jvs.12016

Ackerly, D. D. and W. K. Cornwell. 2007. A trait-based approach to community assembly: partitioning of species trait values into within- and among-community components. Ecology Letters 10:135-145.

Adamidis GC, Kazakou E, Fyllas NM, Dimitrakopoulos PG (2014) Species adaptive strategies and leaf economic relationships across serpentine and non-serpentine habitats on lesbos, eastern Mediterranean. PLoS One 9:e96034. doi:10.1371/journal.pone.0096034

Adamidis GC, Varsamis G, Tsiripidis I, Dimitrakopoulos PG, Papageorgiou AC. Patterns of Leaf Morphological Traits of Beech (Fagus sylvatica L.) along an Altitudinal Gradient. Forests. 2021; 12(10):1297. https://doi.org/10.3390/f12101297

Adler P. B. (2003) A comparison of livestock grazing effects on sagebrush steppe, USA, and Patagonian steppe, Argentina. PhD Thesis, Colorado State University

Adler P. B., D. G. Milchunas, W. K. Lauenroth, O. E. Sala and I. C. Burke (2004) Functional traits of graminoids in semi-arid steppes: a test of grazing histories. Journal of Applied Ecology 2004 41, 653–663

Adler PB, R Salguero-Gómez, A Compagnoni, JS Hsu, J Ray-Mukherjee, C Mbeau-Ache, M Franco (2014) Functional traits explain variation in plant life history strategies. PNAS 111 (2) 740-745. doi: 10.1073/pnas.1315179111

Adriaenssens S. (2012). Dry deposition and canopy exchange for temperate tree species under high nitrogen deposition. PhD thesis, Ghent University, Ghent, Belgium, 209p.

Akinlabi, F. M., Kotina, E. L., & Oskolski, A. A. (2022). Wood anatomy of the tribe Diosmeae, a large Cape lineage of Rutaceae. IAWA Journal, 43(3), 276-298. https://doi.org/10.1163/22941932-bja10087

Alahakoon D, Fennell A. (2023) Genetic analysis of grapevine root system architecture and loci associated gene networks. Frontiers in Plant Science. Volume 13:1083374 https://doi.org/10.3389/fpls.2022.1083374

Albert CH, Thuiller W & Lavorel S, unpub. C.H. Albert PhD - Variabilité fonctionnelle intraspécifique: quantification in situ et implications dans une vallée alpine https://tel.archives-ouvertes.fr/tel-00450219

Albert CH, Thuiller W, Yoccoz NG, Soudan A, Boucher F, Saccone P & Lavorel S (2010) Intraspecific functional variability : extent, structure and sources of variation within an alpine valley. Journal of Ecology, 98, 604–613 Albert CH, Thuiller W, Yoccoz NG, Douzet R, Aubert S & Lavorel S (2010) A multi-trait approach reveals the structure and the relative importance of intra- versus interspecific variability. Functional Ecology, 24, 1192–1201 PhD Cécile ALBERT: Variabilité fonctionnelle intraspécifique: quantification in situ et implications dans une vallée alpine - https://tel.archives-ouvertes.fr/tel-00450219

Aleixo, I., Norris, D., Hemerik, L., Barbosa, A., Prata, E., Costa, F., & Poorter, L. (2019). Amazonian rainforest tree mortality driven by climate and functional traits. Nature Climate Change, 9(5), 384-388.

Ali, H.E., Reineking, B. & Münkemüller, T. Plant Soil (2017) 411: 359. https://doi.org/10.1007/s11104-016-3036-5

Anderson J ; Ely K ; Rogers A (2020): High density photosynthetic CO2 response curves of hybrid poplar, New York, USA, 2019. Next-Generation Ecosystem Experiments (NGEE) Tropics, ESS-DIVE repository. Dataset. doi:10.15486/NGT/1674983 accessed via https://data.ess-dive.lbl.gov/datasets/doi:10.15486/NGT/1674983 on 2025-03-04

Anderson, C. G., Bond-Lamberty, B., Stegen, J. C. Controls on and consequences of specific leaf area variation with permafrost depth in a boreal forest. Submitted

Apgaua, D. M., Tng, D. Y., Cernusak, L. A., Cheesman, A. W., Santos, R. M., Edwards, W. J., & Laurance, S. G. (2017). Plant functional groups within a tropical forest exhibit different wood functional anatomy. Functional ecology, 31(3), 582-591

Apgaua, D.M., Ishida, F.Y., Tng, D.Y., Laidlaw, M.J., Santos, R.M., Rumman, R., Eamus, D., Holtum, J.A. and Laurance, S.G., 2015. Functional traits and water transport strategies in lowland tropical rainforest trees. PloS one, 10(6), p.e0130799

Aranibar J, Julieta Arco Molina, Gustavo Neme, Fidel Roig, Diego Cabral, Gisela Quiroga, Armando Dauverné, Leandro Álvarez & Adolfo Gil (2023) Stable Isotope Composition (C and N) of Vegetation in Subtropical Andes: Piedmont ‘Anomaly’ and its Implications for Paleo (Ecology) and Human Diet Reconstruction, Environmental Archaeology, DOI: 10.1080/14614103.2023.2190684

Arias, G. & Díaz, S. 2024. Root architecture dataset based on the drawings of the Root Atlases of L. Kutschera, E. Lichnegger and M. Soboti (1982-2009)

Aritsara et al. 2022, Divergent leaf and fine root pressure-volume relationships across three habitats with varying water availability, Plant Physiology Volume 190, Issue 4, December 2022, Pages 2246-2259, https://doi.org/10.1093/plphys/kiac403

Aronson JA. 1989. HALOPH A Data Base of Salt Tolerant Plants of the World. Tucson, Arizona: Office of Arid Land Studies, University of Arizona. http://www.sussex.ac.uk/affiliates/halophytes/index.php

Arrieta-González, R., Paez, J., Dominguez-Haydar, Y., & Salgado-Negret, B. (2021). Limited evidence of coupling between above and belowground functional traits in tropical dry forest seedlings. Revista de Biología Tropical, 69(2), 000-000. https://doi.org/

Asem A. Akhmetzhanova, Nadejda A. Soudzilovskaia, Vladimir G. Onipchenko, Will K. Cornwell, Vladimir A. Agafonov, Ivan A. Selivanov, and Johannes H. C. Cornelissen. 2012. A rediscovered treasure mycorrhizal intensity database for 3000 vascular plants species across the former Soviet Union. Ecology 93: 689; Ecological Archives E093-059-D1.

Aspinwall MJ, Pfautsch S, Tjoelker MG, Varhammar A, Possell M, Drake JE, Reich PB, Tissue DT, Atkin OK, Rymer PD, Dennison S, Van Sluyter SC. (2019). Range size and growth temperature influence Eucalyptus species responses to an experimental heatwave. Global Change Biology 25, 1665-1684

Atkin OK, KJ Bloomfield, PB Reich, MG Tjoelker, GP Asner, … J Zaragoza-Castells (2015) Global variability in leaf respiration among plant functional types in relation to climate and leaf traits. New Phytologist DOI: 10.1111/nph.13253

Atkin, O. K., M. H. M. Westbeek, M. L. Cambridge, H. Lambers, and T. L. Pons. 1997. Leaf respiration in light and darkness - A comparison of slow- and fast-growing Poa species. Plant Physiology 113:961-965.

Atkin, O. K., M. Schortemeyer, N. McFarlane, and J. R. Evans. 1999. The response of fast- and slow-growing Acacia species to elevated atmospheric CO2: an analysis of the underlying components of relative growth rate. Oecologia 120:544-554.

Atkinson, L.J., Hellicar, M.A., Fitter, A.H. and Atkin, O.K. (2007), Impact of temperature on the relationship between respiration and nitrogen concentration in roots: an analysis of scaling relationships, Q10 values and thermal acclimation ratios. New Phytologist, 173: 110-120. https://doi.org/10.1111/j.1469-8137.2006.01891.x

Aubin, I. & JP Ricard. 1999. Méthodes d’implantation d’espèces compatibles avec le réseau de distribution d’électricité. Méthodes alternatives à la plantation. Mise en place des dispositifs expérimentaux. Étude présentée à l’Unité Environnement – Direction Projets de distribution. Hydro-Québec. 49 p.

Aubin, I. & JP Ricard. 2000. Ensemencement d’espèces compatibles dans les emprises de distribution d’électricité. Étude présentée à l’Unité Environnement – Direction Projets de distribution. Hydro-Québec. 70 p.

Aubin, I. 2010. LTSP - Root and leaf nutrition of understory vegetation. Canadian Forest Service. Unpublished data

Aubin, I. 2010. LTSP - Root and leaf nutrition of understory vegetation. Canadian Forest Service. Unpublished data

Aubin, I., C. Messier, and D. Kneeshaw. 2005. Population structure and growth acclimation of mountain maple along a successional gradient in the southern boreal forest. Ecoscience 12:540-548 // Aubin, I., M. Beaudet, and C. Messier.

Aubin, I., Messier, C., Gachet, S., Lawrence, K., McKenney, D., Arseneault, A., Bell, W., De Grandpré, L., Shipley, B., Ricard, J.P. and Munson, A.D., 2012. TOPIC–traits of plants in Canada. Natural Resources Canada, Canadian Forest Service, Sault Ste. Marie, Ontario. Online [URL] TOPIC website :http://cfs.cloud.nrcan.gc.ca/ctn/topic.php

Aubin, I., Munson, A. D., Cardou, F., Burton, P. J., Isabel, N., … McKenney, D. (2016) Traits to stay, traits to move: a review of functional traits to assess sensitivity and adaptive capacity of temperate and boreal trees to climate change. Environmental Reviews 24:164-186 doi:10.1139/er-2015-0072

Auger, S. 2012. MSc thesis, Université de Sherbrooke, Sherbrooke (Quebec) L'importance de la variabilité interspécifique des traits fonctionnels par rapport à la variabilité intraspécifique chez les jeunes arbres en forêt mature.

Auger, S., Shipley, B. (2012). : Interspecific and intraspecific trait variation along short environmental gradients in an old-growth temperate forest. Journal of Vegetation Science. DOI: 1111/j.1654-1103.2012.01473.x

Ávila-Lovera E., Goldsmith G.R., Kay K.M., Funk J.L. (2022) Above- and below-ground functional trait coordination in the Neotropical understory genus Costus, AoB PLANTS, Volume 14, Issue 1, https://doi.org/10.1093/aobpla/plab073

Ayma-Romay, A.I., Bown, H.E., Pérez-Harguindeguy, N., Enrico, L., 2021. Trait similarity among dominant highly-competitive species rather than diversity increases productivity in semi-arid Mediterranean forests. For. Ecol. Manage. 486. https://doi.org/10.1016/j.foreco.2021.118969

Baas P, Jansen S, Smets E. 2001. Vegetative anatomy and effinities of Dirachma socotrana (Dirachmaceae). Systematic Botany 26: 231-241

Baastrup-Spohr, L., Sand-Jensen, K., Nicolajsen, S. V. and Bruun, H. H. (2015), From soaking wet to bone dry: predicting plant community composition along a steep hydrological gradient. J Veg Sci, 26: 619–630. doi:10.1111/jvs.12280

Bahar, NHA, Ishida, FY, Weerasinghe, LK, Guerrieri, R, OSullivan, OS, Bloomfield, KJ, Asner, GP, Martin, RE, Lloyd, J, Malhi, Y, Phillips, OL, Meir, P, Salinas, N, Cosio, EG, Domingues, TF, Quesada, CA, Sinca, F, Escudero Vega, A, Zuloaga Ccorimanya, PP, del Aguila-Pasquel, J, Quispe Huaypar, K, Cuba Torres, I, Butrón Loayza, R, Pelaez Tapia, Y, Huaman Ovalle, J, Long, BM, Evans, JR, Atkin, OK (2017) Leaf-level photosynthetic capacity in lowland Amazonian and high-elevation Andean tropical moist forests of Peru. New Phytologist 214, 1002-1018.

Bahar, NHA, Ishida, FY, Weerasinghe, LK, Guerrieri, R, OSullivan, OS, Bloomfield, KJ, Asner, GP, Martin, RE, Lloyd, J, Malhi, Y, Phillips, OL, Meir, P, Salinas, N, Cosio, EG, Domingues, TF, Quesada, CA, Sinca, F, Escudero Vega, A, Zuloaga Ccorimanya, PP, del Aguila-Pasquel, J, Quispe Huaypar, K, Cuba Torres, I, Butrón Loayza, R, Pelaez Tapia, Y, Huaman Ovalle, J, Long, BM, Evans, JR, Atkin, OK (2017) Leaf-level photosynthetic capacity in lowland Amazonian and high-elevation Andean tropical moist forests of Peru. New Phytologist 214, 1002-1018. De Kauwe, MG, Lin, Y-S, Wright, IJ, Medlyn, BE, Crous, KY, Ellsworth, DS, Maire, V, Prentice, IC, Atkin, OK, Rogers, A, Niinemets, Ü, Serbin, SP, Meir, P, Uddling, J, Togashi, HF, Tarvainen, L, Weerasinghe, LK, Evans, BJ, Ishida, FY, Domingues, TF (2016) A test of the ‘one-point method’ for estimating maximum carboxylation capacity from field-measured, light-saturated photosynthesis. New Phytologist 210, 1130-1144.

Bahn, M., G. Wohlfahrt, E. Haubner, I. Horak, W. Michaeler, K. Rottmar, U. Tappeiner, and A. Cernusca. 1999. Leaf photosynthesis, nitrogen contents and specific leaf area of 30 grassland species in differently managed mountain ecosystems in the Eastern Alps. Pages 247-255 in A. Cernusca, U. Tappeiner, and N. Bayfield, editors. Land-use changes in European mountain ecosystems. ECOMONT- Concept and Results. Blackwell Wissenschaft, Berlin.

Bailey, K., Szejner, P., Strange, B., Monson, R.K., Hu, J. 2023. Xylem water isotopes of Ponderosa pine from the Southwestern U.S.

Baker, T. R., O.L. Phillips, W.F. Laurance, N.C.A. Pitman, S. Almeida, L. Arroyo, A. DiFiore, T. Erwin, N. Higuchi, T.J. Killeen, S.G. Laurance, H. Nascimento, A. Monteagudo, D.A. Neill, J.N.M. Silva, Y. Malhi, G. Lopez Gonzalez, J. Peacock, C.A. Quesada, S. L. Lewis, and J. Lloyd. 2009. Do species traits determine patterns of wood production in Amazonian forests? Biogeosciences 6:297-307.

Bakker, C., J. Rodenburg, and P. Bodegom. 2005. Effects of Ca- and Fe-rich seepage on P availability and plant performance in calcareous dune soils. Plant and Soil 275:111-122.

Bakker, C., P. M. Van Bodegom, H. J. M. Nelissen, W. H. O. Ernst, and R. Aerts. 2006. Plant responses to rising water tables and nutrient management in calcareous dune slacks. Plant Ecology 185:19-28.

Balazs K, Andrea Kramer, Seth Munson, Bradley Butterfield. The right trait in the right place at the right time: Matching traits to environment improves restoration outcomes. 2020. Ecological Applications

Balazs, K. R., Munson, S. M., Havrilla, C. A., & Butterfield, B. J. (2022). Directional selection shifts trait distributions of planted species in dryland restoration. Journal of Ecology, 110, 540–552. https://doi.org/10.1111/1365-2745.13816

Barajas Barbosa, M.P., Craven, D., Weigelt, P. et al. (2023) Assembly of functional diversity in an oceanic island flora. Nature 619, 545–550. https://doi.org/10.1038/s41586-023-06305-z

Baraloto, C., C. E. T. Paine, L. Poorter, J. Beauchene, D. Bonal, A.-M. Domenach, B. Herault, S. Patino, J.-C. Roggy, and J. Chave. 2010. Decoupled leaf and stem economics in rainforest trees. Ecology Letters 13:1338-1347

Baruch, Z, Christmas, M, Breed, MF, Guerin, GR, Caddy-Retalic, S, McDonald, J, Jardine, DI, Leitch, EJ, Gellie, N, Hill, K, McCallum, K, Lowe, AJ (2017). Leaf trait associations with environmental variation in the wide-ranging shrub Dodonaea viscosa subsp. angustissima (Sapindaceae). Austral Ecology 43(5): 553-561. (doi:10.1111/aec.12474)

Baruch, Z. & Goldstein, G. 1999. Leaf construction cost, nutrient concentration, and net CO2 assimilation of native and invasive species in Hawaii. Oecologia 121: 183-192

Baruch, Z. 2011. Leaf trait variation of a dominant Neotropical savanna tree across rainfall and fertility gradients. Acta Oecologica 37: 455-461

Baruch, Z., Nassar, J., & Bubis, J. 2004. Quantitative trait, genetic, environmental, and geographical distances among populations of the C4 grass Trachypogon plumosus in Neotropical savannas. Diversity & Distributions 10(4): 283-292. Baruch, Z. 2005. Trachypogon plumosus (Poaceae), un caso de alta diversidad poblacional en sabanas Neotropicales. Interciencia 30: 488-494

Bauer, B., M. Kleyer, D. C. Albach, B. Blasius, U. Brose, et al. (2021) Functional trait dimensions of trophic metacommunities. Ecography 44:1486-1500. doi.org/10.1111/ecog.05869

Bauerle, W.L., R. Oren, D.A. Way, S.S. Qian, P.C. Stoy, P.E. Thornton, J.D. Bowden, F.M. Hoffman, and R.F. Reynolds. 2012. Photoperiodic regulation of the seasonal pattern of photosynthetic capacity and the implications for carbon cycling. Proceedings of the National Academy of Sciences of the United States of America, 109:8612-8617

Bauters, M. et al. (2015) Functional identity explains carbon sequestration in a 77-year-old experimental tropical plantation. Ecosphere 6(October) 1–11; Bauters, M. et al. (2017) Functional Composition of Tree Communities Changed Topsoil Properties in an Old Experimental Tropical Plantation. Ecosystems 20(5) 861–871. https://doi.org/10.1007/s10021-016-0081-0

Bauters, M., Verbeeck, H., Demol, M., Bruneel, S., Taveirne, C., Van der Heyden, D., … Boeckx, P. (2017). Parallel functional and stoichiometric trait shifts in South American and African forest communities with elevation. Biogeosciences, 14(April), 5313–5321. https://doi.org/10.5194/bg-2017-136

Bauters, M., Vercleyen, O., Vanlauwe, B., Six, J., Bonyoma, B., Badjoko, H., … Boeckx, P. (2019). Long-term recovery of the functional community assembly and carbon pools in an African tropical forest succession. Biotropica, (May 2019), 1–11. https://doi.org/10.1111/btp.12647

Bazzato et al., in prep

Beers y Moreno, C. (2022). Drivers of restoration success in a Tropical Dry Forest enrichment planting in Zambia (Master’s thesis, KU Leuven, Leuven)

Belloeil, C., Jouannais, P., Malfaisan, C., Reyes Fernández, R., Lopez, S., Navarrete Gutierrez, D.M., Maeder-Pras, S., Villanueva, P., Tisserand, R., Gallopin, M., Alfonso-Gonzalez, D., Fuentes Marrero, I.M., Muller, S., Invernon, V., Pillon, Y., Echevarria, G., Berazaín Iturralde, R. & Merlot, S. (2021) The X-ray fluorescence screening of multiple elements in herbarium specimens from the Neotropical region reveals new records of metal accumulation in plants. Metallomics 13, mfab045. https://doi.org/10.1093/mtomcs/mfab045

Belluau M, Shipley B (2016) Predicting habitat affinities of herbaceous dicots to soil wetness based on physiological traits of drought tolerance. Annals of Botany 119(6) 1073–1084, https://doi.org/10.1093/aob/mcw267

Belluau M, Shipley B (2018) Linking hard and soft traits: Physiology, morphology and anatomy interact to determine habitat affinities to soil water availability in herbaceous dicots. PLoS ONE 13(3): e0193130. https://doi.org/10.1371/journal.pone.0193130

Beloiu M, Stahlmann R, Beierkuhnlein C (2022) Drought impacts in forest canopy and deciduous tree saplings in Central European forests. Forest Ecology and Management Vol 509; doi.org/10.1016/j.foreco.2022.120075

Benomar L., Mohammed S Lamhamedi, Steeve Pepin, André Rainville, Marie-Claude Lambert, Hank A Margolis, Jean Bousquet, Jean Beaulieu; Thermal acclimation of photosynthesis and respiration of southern and northern white spruce seed sources tested along a regional climatic gradient indicates limited potential to cope with temperature warming, Annals of Botany, Volume 121, Issue 3, 5 March 2018, Pages 443–457, https://doi.org/10.1093/aob/mcx174

Bergmann J, Masahiro Ryo, Daniel Prati, Stefan Hempel, Matthias C. Rillig Root traits are more than analogues of leaf traits: the case for diaspore mass DOI:10.1111/nph.14748

Berner, L. T., H. D. Alexander, M. M. Loranty, P. Ganzlin, M. C. Mack, S. P. Davydov, and S. J. Goetz (2015), Biomass allometry for alder, dwarf birch, and willow in boreal forest and tundra ecosystems of far northeastern Siberia and north-central Alaska, Forest Ecology and Management, 337, 110-118

Bernhardt‐Römermann M, Poschlod P, Hentschel J. BryForTrait – A life‐history trait database of forest bryophytes. J Veg Sci. 2018;29:798–800. https://doi.org/10.1111/jvs.12646

Bjorkman, AD, IH Myers-Smith, SC Elmendorf, S Normand, HJD Thomas, and 86 others (2018) Tundra Trait Team: a database of plant traits spanning the tundra biome. Global Ecology and Biogeography 27(12): 1402-1411.

Blanco, C. C., E. E. Sosinski, B. R. C. dos Santos, M. A. da Silva, and V. D. Pillar. 2007. On the overlap between effect and response plant functional types linked to grazing. Community Ecology 8:57-65.

Blonder B, Royer DL, Johnson KR, Miller I, Enquist BJ (2014) Plant Ecological Strategies Shift Across the Cretaceous–Paleogene Boundary. PLOS Biology 12(9): e1001949. doi: 10.1371/journal.pbio.1001949

Blonder, B, Kapas, RE, Dalton, RM, Graae, BJ, Heiling, JM, Opedal, ØH. Microenvironment and functional‐trait context dependence predict alpine plant community dynamics. J Ecol. 2018; 106: 1323– 1337. https://doi.org/10.1111/1365-2745.12973

Blonder, B. and Enquist, B. J. (2014) Inferring climate from angiosperm leaf venation networks. New Phytologist 204:116–126 doi:10.1111/nph.12780

Blonder, B., Baldwin, B., Enquist, B.J., Robichaux, R.H. (2016) Variation and macroevolution in leaf functional traits in the Hawaiian silversword alliance (Asteraceae). Journal of Ecology 104:219–228 DOI: 10.1111/1365-2745.12497

Blonder, B., Buzzard, B., Sloat, L., Simova, I., Lipson, R., Boyle, B., Enquist, B. (2012) The shrinkage effect biases estimates of paleoclimate. American Journal of Botany. 99.11 1756-1763

Blonder, B., C. Violle, L. Patrick Bentley, and B. J. Enquist. 2011. Venation networks and the origin of the leaf economic spectrum. Ecology Letters.14:91-100

Blonder, B., Vasseur, F., Violle, C., Shipley, B., Enquist, B., Vile, D. Arabidopsis thaliana rejects theories for the origin of the leaf economics spectrum. (in review, New Phytologist)

Blonder, B., Vasseur, F., Violle, C., Shipley, B., Enquist, B.J., Vile, D. (2015) Testing models for the leaf economics spectrum with leaf and whole-plant traits in Arabidopsis thaliana. AoB PLANTS 7:plv049 doi:10.1093/aobpla/plv049

Blonder, B., Violle, C. and Enquist, B. J. (2013) Assessing the causes and scales of the leaf economics spectrum using venation networks in Populus tremuloides. Journal of Ecology 101: 981–989. doi:10.1111/1365-2745.12102

Blonder, B., Violle, C., Patrick, L., Enquist, B. Leaf venation networks and the origin of the leaf economics spectrum. Ecology Letters, 2011

Bocanegra-Gonzáles KT, F Fernanadez-Mendez and JD Galvis-Jiménez (2015) Grupos funcionales de árboles en bosques secundarios de la región Bajo Calima (Buenaventura, Colombia). Boletin Cientitico de Museo de Historia Natural Uniersidad de Caldas, 19 (1): 17-40 DOI: 10.17151/bccm.2015.19.1.2

Bocanegra-Gonzalez KT, Fermandez-Mendez F, Galvis-Jimenez, JF. (in press) Determinación de la resiliencia en bosques secundarios húmedos tropicales a través de la diversidad funcional de árboles en la región del Bajo Calima, Buenaventura, Colombia.

Bond-Lamberty, B., C. Wang, and S. T. Gower (2002), Above- and belowground biomass and sapwood area allometric equations for six boreal tree species of northern Manitoba, Can. J. For. Res., 32(8), 1441-1450.

Bond-Lamberty, B., C. Wang, and S. T. Gower (2002), Leaf area dynamics of a boreal black spruce fire chronosequence, Tree Physiol., 22(14), 993-1001.

Bond-Lamberty, B., C. Wang, and S. T. Gower (2003), The use of multiple measurement techniques to refine estimates of conifer needle geometry, Can. J. For. Res., 33(1), 101-105.

Bond-Lamberty, B., C. Wang, and S.T. Gower (2004), Net primary production and net ecosystem production of a boreal black spruce fire chronosequence, Global Change Biol., 10(4), 473-487.

Bond-Lamberty, Gower, Wang, Cyr, and Veldhuis (2006). Nitrogen dynamics of a boreal black spruce fire chronosequence, Biogeochemistry 81(1):1-16, doi:10.1007/s10533-006-9025-7

Bond-Lamberty, Wang, and Gower (2002). Annual carbon flux from woody debris for a boreal black spruce fire chronosequence, Journal of Geophysical Research-Atmospheres 108(D3): art. no. 8220, doi:10.1029/2001JD000839.

Bonetti, S., Breitenstein, D., Fatichi, S., Domec, J.C. and Or, D. (2020), Persistent decay of fresh xylem hydraulic conductivity varies with pressure gradient and marks plant responses to injury. Plant Cell Environ. Https://doi.org/10.1111/pce.13893

Bongers, F., & Popma, J. (1990) Leaf characteristics of the tropical rain forest flora of Los Tuxtlas, Mexico. Botanical Gazette, 151, 354-365. https://doi.org/10.1086/337836

Boonman, C.C.F., van Langevelde, F., Oliveras, I., Couédon, J., Luijken, N., Martini, D., and Veenendaal, E.M. (2019), On the importance of root traits in seedlings of tropical tree species. New Phytol. Accepted Author Manuscript

Boucher, F.C., Thuiller, W., Arnoldi, C., Albert, C.H. & Lavergne, S., (2013) Unravelling the architecture of functional variability in wild populations of Polygonum viviparum L. Functional Ecology. 27, 382–391

Boukili, V. K., and R. L. Chazdon. 2017. Environmental filtering, local site factors and landscape context drive changes in functional trait composition during tropical forest succession. Perspectives in Plant Ecology, Evolution and Systematics 24 37–47

Bourg A., K. Riano (in revision).Evaluation of the relationship between soil properties and functional traits in three types of forest in a subtropical mountain in Mexico. Botany.

Bragazza L (2009) Conservation priority of Italian alpine habitats: a floristic approach based on potential distribution of vascular plant species. Biodiversity and Conservation 18: 2823–2835.

Bravo et al

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Rogers A ; Alldred M ; Serbin S (2020): Leaf Carbon and Nitrogen Content, Seward Peninsula, Alaska, 2014. Next-Generation Ecosystem Experiments (NGEE) Arctic, ESS-DIVE repository. Dataset. doi:10.5440/1575068 accessed via https://data.ess-dive.lbl.gov/datasets/doi:10.5440/1575068 on 2025-03-03

Rogers A ; Ely K ; Davidson K (2024): Plant Physiology, Alder and Willow Species, Seward Peninsula, Alaska, 2019. Next-Generation Ecosystem Experiments (NGEE) Arctic, ESS-DIVE repository. Dataset. doi:10.5440/1696801 accessed via https://data.ess-dive.lbl.gov/datasets/doi:10.5440/1696801 on 2025-03-03

Rogers A ; Ely K ; Davidson K (2024): Vegetation Warming Experiment: Leaf Mass Area, Leaf Carbon and Nitrogen Content, Utqiagvik (Barrow), Alaska, 2018. Next-Generation Ecosystem Experiments (NGEE) Arctic, ESS-DIVE repository. Dataset. doi:10.15485/2439768 accessed via https://data.ess-dive.lbl.gov/datasets/doi:10.15485/2439768 on 2025-03-07

Rogers A ; Ely K ; Kinlock N ; Serbin S ; Wu J (2018): Leaf C and N content by leaf age, Feb2017, PA-SLZ: Panama. Next-Generation Ecosystem Experiments (NGEE) Tropics, ESS-DIVE repository. Dataset. doi:10.15486/NGT/1905761 accessed via https://data.ess-dive.lbl.gov/datasets/doi:10.15486/NGT/1905761 on 2025-03-04

Rogers A ; Ely K ; Serbin S (2019): Leaf Photosynthetic Parameters: Quantum Yield, Convexity, Respiration, Gross CO2 Assimilation Rate and Raw Gas Exchange Data, Utqiagvik (Barrow), Alaska, 2016. Next-Generation Ecosystem Experiments (NGEE) Arctic, ESS-DIVE repository. Dataset. doi:10.5440/1482338 accessed via https://data.ess-dive.lbl.gov/datasets/doi:10.5440/1482338 on 2025-03-03

Rogers A ; Ely K ; Serbin S ; Wu J ; Kinlock N (2021): Leaf mass per area, by age, Feb2017, PA-SLZ: Panama. Next-Generation Ecosystem Experiments (NGEE) Tropics, ESS-DIVE repository. Dataset. doi:10.15486/NGT/1478532 accessed via https://data.ess-dive.lbl.gov/datasets/doi:10.15486/NGT/1478532 on 2025-03-04

Rogers A ; Ely K ; Wu J ; Serbin S (2019): Light response (AQ) gas exchange by leaf age, Feb2017, PA-SLZ: Panama. Next-Generation Ecosystem Experiments (NGEE) Tropics, ESS-DIVE repository. Dataset. doi:10.15486/NGT/2004990 accessed via https://data.ess-dive.lbl.gov/datasets/doi:10.15486/NGT/2004990 on 2025-03-04

Rogers A ; Ely K ; Wu J ; Serbin S (2021): CO2 response (ACi) gas exchange by leaf age, Vcmax and Jmax parameters, Feb2017. Next-Generation Ecosystem Experiments (NGEE) Tropics, ESS-DIVE repository. Dataset. doi:10.15486/NGT/1508118 accessed via https://data.ess-dive.lbl.gov/datasets/doi:10.15486/NGT/1508118 on 2025-03-04

Rogers A ; Lasota S (2014): In Situ Leaf Level Gas Exchange Measurements, Utqiagvik (Barrow), Alaska, 2013. Next-Generation Ecosystem Experiments (NGEE) Arctic, ESS-DIVE repository. Dataset. doi:10.5440/1167160 accessed via https://data.ess-dive.lbl.gov/datasets/doi:10.5440/1167160 on 2025-03-03

Rogers A ; Lasota S ; Ely K ; Serbin S ; Sloan V ; Slette I ; Liebig J (2018): Leaf Chlorophyll and Total Carotenoid Content, Utqiagvik (Barrow), Alaska, 2013-2015. Next-Generation Ecosystem Experiments (NGEE) Arctic, ESS-DIVE repository. Dataset. doi:10.5440/1429875 accessed via https://data.ess-dive.lbl.gov/datasets/doi:10.5440/1429875 on 2025-03-03

Rogers A ; Serbin S ; Ely K ; Wu J ; Wolfe B ; Dickman T ; Collins A ; Detto M ; Grossiord C ; McDowell N ; Michaletz S (2021): CO2 response (ACi) gas exchange, calculated Vcmax & Jmax parameters, Feb2016-May2016, PA-SLZ, PA-PNM: Panama. Next-Generation Ecosystem Experiments (NGEE) Tropics, ESS-DIVE repository. Dataset. doi:10.15486/NGT/1411867 accessed via https://data.ess-dive.lbl.gov/datasets/doi:10.15486/NGT/1411867 on 2025-03-03

Rogers A ; Serbin S ; Ely K ; Wu J ; Wolfe B ; Dickman T ; Collins A ; Detto M ; Grossiord C ; McDowell N ; Michaletz S (2021): Diurnal leaf gas exchange survey, Feb2016-May2016, PA-SLZ, PA-PNM: Panama. Next-Generation Ecosystem Experiments (NGEE) Tropics, ESS-DIVE repository. Dataset. doi:10.15486/NGT/1411972 accessed via https://data.ess-dive.lbl.gov/datasets/doi:10.15486/NGT/1411972 on 2025-03-03

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Serbin S ; Wu J ; Ely K ; Rogers A (2019): Leaf gas exchange survey by leaf age, Feb2017, PA-SLZ: Panama. Next-Generation Ecosystem Experiments (NGEE) Tropics, ESS-DIVE repository. Dataset. doi:10.15486/NGT/1408499 accessed via https://data.ess-dive.lbl.gov/datasets/doi:10.15486/NGT/1408499 on 2025-03-04

Serbin S ; Yang D ; Ely K (2023): Leaf Nitrogen and Carbon Content, and Leaf Mass Per Area, Kougarok Road, Seward Peninsula, Alaska, 2018. Next-Generation Ecosystem Experiments (NGEE) Arctic, ESS-DIVE repository. Dataset. doi:10.5440/1631419 accessed via https://data.ess-dive.lbl.gov/datasets/doi:10.5440/1631419 on 2025-03-03

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