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The American Naturalist
|
October 19, 2022
Individual Dietary Specialization in a Generalist Bee Varies across Populations but Has No Effect on the Richness of Associated Microbial Communities
Marília Palumbo Gaiarsa, Sandra Rehan, Matthew A Barbour, et al.
Ecology and Evolution
|
July 25, 2018
Caught in the web: Spider web architecture affects prey specialization and spider-prey stoichiometric relationships
Lorraine Ludwig, Matthew A Barbour, Jennifer Guevara, et al.
Ecology Letters
|
November 2, 2025
The Equilibrium Conundrum
Tess N Grainger, Keila Stark, Chuliang Song, et al.
Evolution Letters
|
June 18, 2020
Loss of consumers constrains phenotypic evolution in the resulting food web
Matthew A Barbour, Christopher J Greyson-Gaito, Arezoo Sotoodeh, et al.
Evolution; International Journal of Organic Evolution
|
April 7, 2019
Coevolutionary dynamics shape the structure of bacteria-phage infection networks
Miguel A Fortuna, Matthew A Barbour, Luis Zaman, et al.
The Journal of Animal Ecology
|
June 7, 2022
Understanding climate change response in the age of genomics
Lesley T Lancaster, Zachary L Fuller, David Berger, et al.
Ecology
|
December 28, 2016
Genetic variation in resistance to leaf fungus indirectly affects spider density
Heather L Slinn, Matthew A Barbour, Kerri M Crawford, et al.
Royal Society Open Science
|
August 25, 2023
Genome-wide association study of aphid abundance highlights a locus affecting plant growth and flowering in <i>Arabidopsis thaliana</i>
Chongmeng Xu, Yasuhiro Sato, Misako Yamazaki, et al.
The American Naturalist
|
May 18, 2017
Warming-Induced Changes to Body Size Stabilize Consumer-Resource Dynamics
Matthew M Osmond, Matthew A Barbour, Joey R Bernhardt, et al.
Proceedings of the National Academy of Sciences of the United States of America
|
February 10, 2016
Genetic specificity of a plant-insect food web: Implications for linking genetic variation to network complexity
Matthew A Barbour, Miguel A Fortuna, Jordi Bascompte, et al.
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of 3
Search research articles
Search
Showing results (11-20 of 22) with videos related to
Sort By:
Page
of 3
The American Naturalist
|
October 19, 2022
Individual Dietary Specialization in a Generalist Bee Varies across Populations but Has No Effect on the Richness of Associated Microbial Communities
Marília Palumbo Gaiarsa, Sandra Rehan, Matthew A Barbour, et al.
Ecology and Evolution
|
July 25, 2018
Caught in the web: Spider web architecture affects prey specialization and spider-prey stoichiometric relationships
Lorraine Ludwig, Matthew A Barbour, Jennifer Guevara, et al.
Ecology Letters
|
November 2, 2025
The Equilibrium Conundrum
Tess N Grainger, Keila Stark, Chuliang Song, et al.
Evolution Letters
|
June 18, 2020
Loss of consumers constrains phenotypic evolution in the resulting food web
Matthew A Barbour, Christopher J Greyson-Gaito, Arezoo Sotoodeh, et al.
Evolution; International Journal of Organic Evolution
|
April 7, 2019
Coevolutionary dynamics shape the structure of bacteria-phage infection networks
Miguel A Fortuna, Matthew A Barbour, Luis Zaman, et al.
The Journal of Animal Ecology
|
June 7, 2022
Understanding climate change response in the age of genomics
Lesley T Lancaster, Zachary L Fuller, David Berger, et al.
Ecology
|
December 28, 2016
Genetic variation in resistance to leaf fungus indirectly affects spider density
Heather L Slinn, Matthew A Barbour, Kerri M Crawford, et al.
Royal Society Open Science
|
August 25, 2023
Genome-wide association study of aphid abundance highlights a locus affecting plant growth and flowering in <i>Arabidopsis thaliana</i>
Chongmeng Xu, Yasuhiro Sato, Misako Yamazaki, et al.
The American Naturalist
|
May 18, 2017
Warming-Induced Changes to Body Size Stabilize Consumer-Resource Dynamics
Matthew M Osmond, Matthew A Barbour, Joey R Bernhardt, et al.
Proceedings of the National Academy of Sciences of the United States of America
|
February 10, 2016
Genetic specificity of a plant-insect food web: Implications for linking genetic variation to network complexity
Matthew A Barbour, Miguel A Fortuna, Jordi Bascompte, et al.
Page
of 3