Ülo Niinemets
Cited by
Cited by
The worldwide leaf economics spectrum
IJ Wright, PB Reich, M Westoby, DD Ackerly, Z Baruch, F Bongers, ...
nature 428 (6985), 821-827, 2004
Causes and consequences of variation in leaf mass per area (LMA): a meta‐analysis
H Poorter, Ü Niinemets, L Poorter, IJ Wright, R Villar
New phytologist 182 (3), 565-588, 2009
TRY–a global database of plant traits
J Kattge, S Diaz, S Lavorel, IC Prentice, P Leadley, G Bönisch, E Garnier, ...
Global change biology 17 (9), 2905-2935, 2011
Shade tolerance, a key plant feature of complex nature and consequences
F Valladares, Ü Niinemets
Annual Review of Ecology, Evolution, and Systematics 39 (1), 237-257, 2008
TRY plant trait database–enhanced coverage and open access
J Kattge, G Bönisch, S Díaz, S Lavorel, IC Prentice, P Leadley, ...
Global change biology 26 (1), 119-188, 2020
Tolerance to shade, drought, and waterlogging of temperate northern hemisphere trees and shrubs
Ü Niinemets, F Valladares
Ecological monographs 76 (4), 521-547, 2006
Global‐scale climatic controls of leaf dry mass per area, density, and thickness in trees and shrubs
Ü Niinemets
Ecology 82 (2), 453-469, 2001
Modulation of leaf economic traits and trait relationships by climate
IJ Wright, PB Reich, JHC Cornelissen, DS Falster, PK Groom, K Hikosaka, ...
Global ecology and biogeography 14 (5), 411-421, 2005
Responses of forest trees to single and multiple environmental stresses from seedlings to mature plants: past stress history, stress interactions, tolerance and acclimation
Ü Niinemets
Forest Ecology and management 260 (10), 1623-1639, 2010
Research review. Components of leaf dry mass per area–thickness and density–alter leaf photosynthetic capacity in reverse directions in woody plants
Ü Niinemets
The New Phytologist 144 (1), 35-47, 1999
Global climatic drivers of leaf size
IJ Wright, N Dong, V Maire, IC Prentice, M Westoby, S Díaz, RV Gallagher, ...
Science 357 (6354), 917-921, 2017
Atmospheric composition change: ecosystems–atmosphere interactions
D Fowler, K Pilegaard, MA Sutton, P Ambus, M Raivonen, J Duyzer, ...
Atmospheric Environment 43 (33), 5193-5267, 2009
Mesophyll diffusion conductance to CO2: an unappreciated central player in photosynthesis
J Flexas, MM Barbour, O Brendel, HM Cabrera, M Carriquí, A Díaz-Espejo, ...
Plant Science 193, 70-84, 2012
A model separating leaf structural and physiological effects on carbon gain along light gradients for the shade‐tolerant species Acer saccharum
Ü Niinemets, JD Tenhunen
Plant, Cell & Environment 20 (7), 845-866, 1997
Drought-tolerance of wheat improved by rhizosphere bacteria from harsh environments: enhanced biomass production and reduced emissions of stress volatiles
S Timmusk, IA Abd El-Daim, L Copolovici, T Tanilas, A Kännaste, ...
PloS one 9 (5), e96086, 2014
Plant functional trait change across a warming tundra biome
AD Bjorkman, IH Myers-Smith, SC Elmendorf, S Normand, N Rüger, ...
Nature 562 (7725), 57-62, 2018
A review of light interception in plant stands from leaf to canopy in different plant functional types and in species with varying shade tolerance
Ü Niinemets
Ecological Research 25, 693-714, 2010
Leaf functional anatomy in relation to photosynthesis
I Terashima, YT Hanba, D Tholen, Ü Niinemets
Plant physiology 155 (1), 108-116, 2011
Photosynthesis and resource distribution through plant canopies
U Niinemets
Plant, cell & environment 30 (9), 1052-1071, 2007
Sensitivity of leaf size and shape to climate: global patterns and paleoclimatic applications
DJ Peppe, DL Royer, B Cariglino, SY Oliver, S Newman, E Leight, ...
New phytologist 190 (3), 724-739, 2011
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