The role of inhibitory dynamics in the loss and reemergence of macropodoid tooth traits
The reversibility of phenotypic evolution is likely to be strongly influenced by the ability of
underlying developmental systems to generate ancestral traits. However, few studies have …
underlying developmental systems to generate ancestral traits. However, few studies have …
The role of inhibitory dynamics in the loss and reemergence of macropodoid tooth traits
AMC Couzens, AR Evans, MM Skinner… - Evolution, 2016 - Wiley Online Library
The reversibility of phenotypic evolution is likely to be strongly influenced by the ability of
underlying developmental systems to generate ancestral traits. However, few studies have …
underlying developmental systems to generate ancestral traits. However, few studies have …
The role of inhibitory dynamics in the loss and reemergence of macropodoid tooth traits
A Couzens, AR Evans, MM Skinner, GJ Prideaux - Evolution, 2016 - kar.kent.ac.uk
The reversibility of phenotypic evolution is likely to be strongly influenced by the ability of
underlying developmental systems to generate ancestral traits. However, few studies have …
underlying developmental systems to generate ancestral traits. However, few studies have …
The role of inhibitory dynamics in the loss and reemergence of macropodoid tooth traits
AMC Couzens, AR Evans… - … journal of organic …, 2016 - pubmed.ncbi.nlm.nih.gov
The reversibility of phenotypic evolution is likely to be strongly influenced by the ability of
underlying developmental systems to generate ancestral traits. However, few studies have …
underlying developmental systems to generate ancestral traits. However, few studies have …
The role of inhibitory dynamics in the loss and reemergence of macropodoid tooth traits
AMC Couzens, AR Evans, MM Skinner, GJ Prideaux - Evolution, 2016 - infona.pl
The reversibility of phenotypic evolution is likely to be strongly influenced by the ability of
underlying developmental systems to generate ancestral traits. However, few studies have …
underlying developmental systems to generate ancestral traits. However, few studies have …
The role of inhibitory dynamics in the loss and reemergence of macropodoid tooth traits
AMC Couzens, AR Evans, MM Skinner… - …, 2016 - research.monash.edu
The reversibility of phenotypic evolution is likely to be strongly influenced by the ability of
underlying developmental systems to generate ancestral traits. However, few studies have …
underlying developmental systems to generate ancestral traits. However, few studies have …
The role of inhibitory dynamics in the loss and reemergence of macropodoid tooth traits.
A Couzens, AR Evans, MM Skinner, GJ Prideaux - Evolution, 2016 - search.ebscohost.com
The reversibility of phenotypic evolution is likely to be strongly influenced by the ability of
underlying developmental systems to generate ancestral traits. However, few studies have …
underlying developmental systems to generate ancestral traits. However, few studies have …
[PDF][PDF] The role of inhibitory dynamics in the loss and reemergence of macropodoid tooth traits
AMC Couzens, AR Evans, MM Skinner, GJ Prideaux - researchgate.net
“Numerous characters and trends seem to play genetic “hide-andseek” in this
subfamily”(GHH Tate 1948: 254) The evolutionary reemergence of an ancestral trait is a …
subfamily”(GHH Tate 1948: 254) The evolutionary reemergence of an ancestral trait is a …
[引用][C] The role of inhibitory dynamics in the loss and reemergence of macropodoid tooth traits
A Couzens, AR Evans, MM Skinner, GJ Prideaux - Evolution, 2016 - pure.mpg.de
The role of inhibitory dynamics in the loss and reemergence of macropodoid tooth traits ::
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The role of inhibitory dynamics in the loss and reemergence of macropodoid tooth traits.
AM Couzens, AR Evans, MM Skinner… - … International Journal of …, 2016 - europepmc.org
The reversibility of phenotypic evolution is likely to be strongly influenced by the ability of
underlying developmental systems to generate ancestral traits. However, few studies have …
underlying developmental systems to generate ancestral traits. However, few studies have …