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Oecologia
|
May 27, 2017
An ecological and evolutionary analysis of photosynthetic thermotolerance using the temperature-dependent increase in fluorescence
Charles A Knight, David D Ackerly
Science (New York, N.Y.)
|
June 29, 2002
Evolution. Chaperones as buffering agents?
Thomas Mitchell-Olds, Charles A Knight
Annals of Botany
|
January 29, 2008
Genome size scaling through phenotype space
Charles A Knight, Jeremy M Beaulieu
The New Phytologist
|
April 9, 2021
Evolution and plasticity of photosynthetic thermal tolerance, specific leaf area and leaf size: congeneric species from desert and coastal environments
Charles A Knight, David D Ackerly
Cryobiology
|
April 11, 2003
Ice binding, recrystallization inhibition, and cryoprotective properties of ice-active substances associated with Antarctic sea ice diatoms
James A Raymond, Charles A Knight
Oecologia
|
November 2, 2018
Intracanopy adjustment of leaf-level thermal tolerance is associated with microclimatic variation across the canopy of a desert tree (Acacia papyrocarpa)
Ellen M Curtis, Charles A Knight, Andrea Leigh
Annals of Botany
|
January 6, 2007
Genome size evolution in relation to leaf strategy and metabolic rates revisited
Jeremy M Beaulieu, Ilia J Leitch, Charles A Knight
Annals of Botany
|
December 15, 2004
The large genome constraint hypothesis: evolution, ecology and phenotype
Charles A Knight, Nicole A Molinari, Dmitri A Petrov
Oecologia
|
June 25, 2014
A comparative analysis of photosynthetic recovery from thermal stress: a desert plant case study
Ellen M Curtis, Charles A Knight, Katherina Petrou, et al.
The New Phytologist
|
June 20, 2008
Genome size is a strong predictor of cell size and stomatal density in angiosperms
Jeremy M Beaulieu, Ilia J Leitch, Sunil Patel, et al.
Page
of 2
Search research articles
Search
Showing results (1-10 of 16) with videos related to
Sort By:
Page
of 2
Oecologia
|
May 27, 2017
An ecological and evolutionary analysis of photosynthetic thermotolerance using the temperature-dependent increase in fluorescence
Charles A Knight, David D Ackerly
Science (New York, N.Y.)
|
June 29, 2002
Evolution. Chaperones as buffering agents?
Thomas Mitchell-Olds, Charles A Knight
Annals of Botany
|
January 29, 2008
Genome size scaling through phenotype space
Charles A Knight, Jeremy M Beaulieu
The New Phytologist
|
April 9, 2021
Evolution and plasticity of photosynthetic thermal tolerance, specific leaf area and leaf size: congeneric species from desert and coastal environments
Charles A Knight, David D Ackerly
Cryobiology
|
April 11, 2003
Ice binding, recrystallization inhibition, and cryoprotective properties of ice-active substances associated with Antarctic sea ice diatoms
James A Raymond, Charles A Knight
Oecologia
|
November 2, 2018
Intracanopy adjustment of leaf-level thermal tolerance is associated with microclimatic variation across the canopy of a desert tree (Acacia papyrocarpa)
Ellen M Curtis, Charles A Knight, Andrea Leigh
Annals of Botany
|
January 6, 2007
Genome size evolution in relation to leaf strategy and metabolic rates revisited
Jeremy M Beaulieu, Ilia J Leitch, Charles A Knight
Annals of Botany
|
December 15, 2004
The large genome constraint hypothesis: evolution, ecology and phenotype
Charles A Knight, Nicole A Molinari, Dmitri A Petrov
Oecologia
|
June 25, 2014
A comparative analysis of photosynthetic recovery from thermal stress: a desert plant case study
Ellen M Curtis, Charles A Knight, Katherina Petrou, et al.
The New Phytologist
|
June 20, 2008
Genome size is a strong predictor of cell size and stomatal density in angiosperms
Jeremy M Beaulieu, Ilia J Leitch, Sunil Patel, et al.
Page
of 2