Search

Your search keyword '"Allen Scott L"' showing total 4 results
Start Over Author "Allen Scott L" Language undetermined
4 results on '"Allen Scott L"'

1. Adaptive divergence in shoot gravitropism creates hybrid sterility in an Australian wildflower

Author

Wilkinson, Melanie J, Roda, Federico, Walter, Greg M, James, Maddie E, Nipper, Rick, Walsh, Jessica, Allen, Scott L, North, Henry L, Beveridge, Christine A, Ortiz-Barrientos, Daniel, Wilkinson, Melanie J [0000-0003-1400-3176], Roda, Federico [0000-0002-7923-9713], Walter, Greg M [0000-0002-0883-3440], James, Maddie E [0000-0001-6296-0187], Walsh, Jessica [0000-0003-3926-6503], North, Henry L [0000-0002-8773-2428], Beveridge, Christine A [0000-0003-0878-3110], Ortiz-Barrientos, Daniel [0000-0002-7493-416X], and Apollo - University of Cambridge Repository

Subjects
Indoleacetic Acids, Arabidopsis Proteins, intrinsic reproductive isolation, fungi, Australia, food and beverages, Genetic Variation, natural selection, Adaptation, Physiological, hybrid sterility, Gravitropism, Phenotype, speciation, Infertility, Sulfurtransferases, Senecio, Selection, Genetic, local adaptation, Plant Shoots
Abstract

Natural selection is responsible for much of the diversity we see in nature. Just as it drives the evolution of new traits, it can also lead to new species. However, it is unclear whether natural selection conferring adaptation to local environments can drive speciation through the evolution of hybrid sterility between populations. Here, we show that adaptive divergence in shoot gravitropism, the ability of a plant's shoot to bend upwards in response to the downward pull of gravity, contributes to the evolution of hybrid sterility in an Australian wildflower, Senecio lautus We find that shoot gravitropism has evolved multiple times in association with plant height between adjacent populations inhabiting contrasting environments, suggesting that these traits have evolved by natural selection. We directly tested this prediction using a hybrid population subjected to eight rounds of recombination and three rounds of selection in the field. Our experiments revealed that shoot gravitropism responds to natural selection in the expected direction of the locally adapted population. Using the advanced hybrid population, we discovered that individuals with extreme differences in gravitropism had more sterile crosses than individuals with similar gravitropic responses, which were largely fertile, indicating that this adaptive trait is genetically correlated with hybrid sterility. Our results suggest that natural selection can drive the evolution of locally adaptive traits that also create hybrid sterility, thus revealing an evolutionary connection between local adaptation and the origin of new species.

Published
2021

3. Adaptive divergence in shoot gravitropism creates hybrid sterility in an Australian wildflower

Author

Wilkinson, Melanie J, Roda, Federico, Walter, Greg M, James, Maddie E, Nipper, Rick, Walsh, Jessica, Allen, Scott L, North, Henry L, Beveridge, Christine A, and Ortiz-Barrientos, Daniel

Subjects
Indoleacetic Acids, Arabidopsis Proteins, intrinsic reproductive isolation, fungi, Australia, food and beverages, Genetic Variation, natural selection, 15. Life on land, Adaptation, Physiological, hybrid sterility, Gravitropism, Phenotype, speciation, Infertility, Sulfurtransferases, Senecio, Selection, Genetic, local adaptation, Plant Shoots
Abstract

Natural selection is responsible for much of the diversity we see in nature. Just as it drives the evolution of new traits, it can also lead to new species. However, it is unclear whether natural selection conferring adaptation to local environments can drive speciation through the evolution of hybrid sterility between populations. Here, we show that adaptive divergence in shoot gravitropism, the ability of a plant's shoot to bend upwards in response to the downward pull of gravity, contributes to the evolution of hybrid sterility in an Australian wildflower, Senecio lautus We find that shoot gravitropism has evolved multiple times in association with plant height between adjacent populations inhabiting contrasting environments, suggesting that these traits have evolved by natural selection. We directly tested this prediction using a hybrid population subjected to eight rounds of recombination and three rounds of selection in the field. Our experiments revealed that shoot gravitropism responds to natural selection in the expected direction of the locally adapted population. Using the advanced hybrid population, we discovered that individuals with extreme differences in gravitropism had more sterile crosses than individuals with similar gravitropic responses, which were largely fertile, indicating that this adaptive trait is genetically correlated with hybrid sterility. Our results suggest that natural selection can drive the evolution of locally adaptive traits that also create hybrid sterility, thus revealing an evolutionary connection between local adaptation and the origin of new species.

Catalog

Books, media, physical & digital resources
See catalog results