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Stephen W Pacala

Showing results (1-10 of 65) with videos related to

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Theoretical Population Biology|October 13, 2019
The importance of Durrett and Levin (1994): "The importance of being discrete (and spatial)"Stephen W Pacala
Tree Physiology|February 11, 2009
A modeling framework for inferring tree growth and allocation from physiological, morphological and allometric traitsKiona Ogle, Stephen W Pacala
Global Change Biology|April 4, 2022
Plant hydraulics, stomatal control, and the response of a tropical forest to water stress over multiple temporal scalesMatteo Detto, Stephen W Pacala
Scientific American|August 24, 2006
A plan to keep carbon in checkRobert H Socolow, Stephen W Pacala
Proceedings of the National Academy of Sciences of the United States of America|August 25, 2010
Niche and neutral models predict asymptotically equivalent species abundance distributions in high-diversity ecological communitiesRyan A Chisholm, Stephen W Pacala
Oecologia|March 18, 2017
Neighborhood predictors of plant performanceJohn A Silander, Stephen W Pacala
The American Naturalist|March 28, 2018
Spatial Moment Equations for Plant Competition: Understanding Spatial Strategies and the Advantages of Short DispersalBenjamin M Bolker, Stephen W Pacala
The American Naturalist|February 25, 2005
Demographic theory of coral reef fish populations with stochastic recruitment: comparing sources of population regulationStuart A Sandin, Stephen W Pacala
Science (New York, N.Y.)|June 30, 2012
Comment on "Global correlations in tropical tree species richness and abundance reject neutrality"Anping Chen, Shaopeng Wang, Stephen W Pacala
Global Change Biology|November 14, 2014
Increased forest carbon storage with increased atmospheric CO2 despite nitrogen limitation: a game-theoretic allocation model for trees in competition for nitrogen and lightRay Dybzinski, Caroline E Farrior, Stephen W Pacala
Pageof 7

Showing results (1-10 of 65) with videos related to

Sort By:
Pageof 7
Theoretical Population Biology|October 13, 2019
The importance of Durrett and Levin (1994): "The importance of being discrete (and spatial)"Stephen W Pacala
Tree Physiology|February 11, 2009
A modeling framework for inferring tree growth and allocation from physiological, morphological and allometric traitsKiona Ogle, Stephen W Pacala
Global Change Biology|April 4, 2022
Plant hydraulics, stomatal control, and the response of a tropical forest to water stress over multiple temporal scalesMatteo Detto, Stephen W Pacala
Scientific American|August 24, 2006
A plan to keep carbon in checkRobert H Socolow, Stephen W Pacala
Proceedings of the National Academy of Sciences of the United States of America|August 25, 2010
Niche and neutral models predict asymptotically equivalent species abundance distributions in high-diversity ecological communitiesRyan A Chisholm, Stephen W Pacala
Oecologia|March 18, 2017
Neighborhood predictors of plant performanceJohn A Silander, Stephen W Pacala
The American Naturalist|March 28, 2018
Spatial Moment Equations for Plant Competition: Understanding Spatial Strategies and the Advantages of Short DispersalBenjamin M Bolker, Stephen W Pacala
The American Naturalist|February 25, 2005
Demographic theory of coral reef fish populations with stochastic recruitment: comparing sources of population regulationStuart A Sandin, Stephen W Pacala
Science (New York, N.Y.)|June 30, 2012
Comment on "Global correlations in tropical tree species richness and abundance reject neutrality"Anping Chen, Shaopeng Wang, Stephen W Pacala
Global Change Biology|November 14, 2014
Increased forest carbon storage with increased atmospheric CO2 despite nitrogen limitation: a game-theoretic allocation model for trees in competition for nitrogen and lightRay Dybzinski, Caroline E Farrior, Stephen W Pacala
Pageof 7