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American Journal of Botany
|
June 11, 2011
Effects of tree crown structure on biomass of the epiphytic fern Polypodium scouleri (Polypodiaceae) in redwood forests
Stephen C Sillett, Mark G Bailey
American Journal of Botany
|
June 2, 2011
A response to: Limitations within "The Limits to Tree Height"
George W Koch, Stephen C Sillett
American Journal of Botany
|
May 22, 2016
Phenotypic plasticity of leaves enhances water-stress tolerance and promotes hydraulic conductivity in a tall conifer
Alana R O Chin, Stephen C Sillett
American Journal of Botany
|
February 7, 2019
Within-crown plasticity in leaf traits among the tallest conifers
Alana R O Chin, Stephen C Sillett
Tree Physiology
|
April 8, 2017
Leaf acclimation to light availability supports rapid growth in tall Picea sitchensis trees
Alana R O Chin, Stephen C Sillett
Plant, Cell & Environment
|
February 13, 2009
Effects of tree height on branch hydraulics, leaf structure and gas exchange in California redwoods
Anthony R Ambrose, Stephen C Sillett, Todd E Dawson
Plos One
|
July 17, 2014
Millennium-scale crossdating and inter-annual climate sensitivities of standing California redwoods
Allyson L Carroll, Stephen C Sillett, Russell D Kramer
Tree Physiology
|
April 1, 2014
Structural development of redwood branches and its effects on wood growth
Russell D Kramer, Stephen C Sillett, Allyson L Carroll
Oecologia
|
April 9, 2008
Hydrostatic constraints on morphological exploitation of light in tall Sequoia sempervirens trees
Hiroaki T Ishii, Gregory M Jennings, Stephen C Sillett, et al.
Oecologia
|
December 28, 2014
Growth maximization trumps maintenance of leaf conductance in the tallest angiosperm
George W Koch, Stephen C Sillett, Marie E Antoine, et al.
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of 2
Search research articles
Search
Showing results (1-10 of 17) with videos related to
Sort By:
Page
of 2
American Journal of Botany
|
June 11, 2011
Effects of tree crown structure on biomass of the epiphytic fern Polypodium scouleri (Polypodiaceae) in redwood forests
Stephen C Sillett, Mark G Bailey
American Journal of Botany
|
June 2, 2011
A response to: Limitations within "The Limits to Tree Height"
George W Koch, Stephen C Sillett
American Journal of Botany
|
May 22, 2016
Phenotypic plasticity of leaves enhances water-stress tolerance and promotes hydraulic conductivity in a tall conifer
Alana R O Chin, Stephen C Sillett
American Journal of Botany
|
February 7, 2019
Within-crown plasticity in leaf traits among the tallest conifers
Alana R O Chin, Stephen C Sillett
Tree Physiology
|
April 8, 2017
Leaf acclimation to light availability supports rapid growth in tall Picea sitchensis trees
Alana R O Chin, Stephen C Sillett
Plant, Cell & Environment
|
February 13, 2009
Effects of tree height on branch hydraulics, leaf structure and gas exchange in California redwoods
Anthony R Ambrose, Stephen C Sillett, Todd E Dawson
Plos One
|
July 17, 2014
Millennium-scale crossdating and inter-annual climate sensitivities of standing California redwoods
Allyson L Carroll, Stephen C Sillett, Russell D Kramer
Tree Physiology
|
April 1, 2014
Structural development of redwood branches and its effects on wood growth
Russell D Kramer, Stephen C Sillett, Allyson L Carroll
Oecologia
|
April 9, 2008
Hydrostatic constraints on morphological exploitation of light in tall Sequoia sempervirens trees
Hiroaki T Ishii, Gregory M Jennings, Stephen C Sillett, et al.
Oecologia
|
December 28, 2014
Growth maximization trumps maintenance of leaf conductance in the tallest angiosperm
George W Koch, Stephen C Sillett, Marie E Antoine, et al.
Page
of 2