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Items: 1 to 20 of 88

1.

Light interception in species with different functional groups coexisting in moorland plant communities.

Kamiyama C, Oikawa S, Kubo T, Hikosaka K.

Oecologia. 2010 Nov;164(3):591-9. doi: 10.1007/s00442-010-1674-5. Epub 2010 Jun 10.

PMID:
20552228
2.

Seasonal change in light partitioning among coexisting species of different functional groups along elevation gradient in subalpine moorlands.

Kamiyama C, Oikawa S, Hikosaka K.

New Phytol. 2014 Dec;204(4):913-23. doi: 10.1111/nph.12960. Epub 2014 Aug 8.

3.

Constraints on light interception efficiency due to shoot architecture in broad-leaved Nothofagus species.

Niinemets U, Cescatti A, Christian R.

Tree Physiol. 2004 Jun;24(6):617-30.

PMID:
15059762
4.
5.

Architecture of 54 moist-forest tree species: traits, trade-offs, and functional groups.

Poorter L, Bongers L, Bongers F.

Ecology. 2006 May;87(5):1289-301.

PMID:
16761607
6.
7.

Above-ground biomass investments and light interception of tropical forest trees and lianas early in succession.

Selaya NG, Anten NP, Oomen RJ, Matthies M, Werger MJ.

Ann Bot. 2007 Jan;99(1):141-51.

8.

Plant species richness and functional composition drive overyielding in a six-year grassland experiment.

Marquard E, Weigelt A, Temperton VM, Roscher C, Schumacher J, Buchmann N, Fischer M, Weisser WW, Schmid B.

Ecology. 2009 Dec;90(12):3290-302.

PMID:
20120799
9.

Adaptive survival mechanisms and growth limitations of small-stature herb species across a plant diversity gradient.

Dassler A, Roscher C, Temperton VM, Schumacher J, Schulze ED.

Plant Biol (Stuttg). 2008 Sep;10(5):573-87. doi: 10.1111/j.1438-8677.2008.00073.x.

PMID:
18761496
10.

Diversity effects in early- and mid-successional species pools along a nitrogen gradient.

Wacker L, Baudois O, Eichenberger-Glinz S, Schmid B.

Ecology. 2009 Mar;90(3):637-48.

PMID:
19341135
11.

Three-dimensional lamina architecture alters light-harvesting efficiency in Fagus: a leaf-scale analysis.

Fleck S, Niinemets U, Cescatti A, Tenhunen JD.

Tree Physiol. 2003 Jun;23(9):577-89.

PMID:
12750051
12.
13.

Leaf display and photosynthesis of tree seedlings in a cool-temperate deciduous broadleaf forest understorey.

Muraoka H, Koizumi H, Pearcy RW.

Oecologia. 2003 May;135(4):500-9. Epub 2003 Mar 26.

PMID:
16228248
14.

Competition, traits and resource depletion in plant communities.

Violle C, Garnier E, Lecoeur J, Roumet C, Podeur C, Blanchard A, Navas ML.

Oecologia. 2009 Jul;160(4):747-55. doi: 10.1007/s00442-009-1333-x. Epub 2009 Apr 8.

PMID:
19352713
15.

Petiole length and biomass investment in support modify light interception efficiency in dense poplar plantations.

Niinemets U, Al Afas N, Cescatti A, Pellis A, Ceulemans R.

Tree Physiol. 2004 Feb;24(2):141-54.

PMID:
14676031
17.
18.

Causes and consequences of variation in leaf mass per area (LMA): a meta-analysis.

Poorter H, Niinemets U, Poorter L, Wright IJ, Villar R.

New Phytol. 2009;182(3):565-88. Review. Erratum in: New Phytol. 2009;183(4):1222.

PMID:
19434804
19.

Construction costs, chemical composition and payback time of high- and low-irradiance leaves.

Poorter H, Pepin S, Rijkers T, de Jong Y, Evans JR, K├Ârner C.

J Exp Bot. 2006;57(2):355-71. Epub 2005 Nov 22.

PMID:
16303828
20.

Leaf photosynthetic traits of 14 tropical rain forest species in relation to leaf nitrogen concentration and shade tolerance.

Coste S, Roggy JC, Imbert P, Born C, Bonal D, Dreyer E.

Tree Physiol. 2005 Sep;25(9):1127-37.

PMID:
15996956

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