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KimmelPatternsVariationCovariationInShapesMandibularBonesJuvenileSalmonids.pdf

Creator:: Kimmel, Charles B., Watson, Sawyer, Couture, Ryan B., McKibben, Natasha S., Nichols, James T., Richardson, Shannon E., and Noakes, David L. G.
Abstract:: What is the nature of evolutionary divergence of the jaw skeleton within the genus Oncorhynchus? How can two associated bones evolve new shapes and still maintain functional integration? Here, we introduce and test a ‘concordance’ hypothesis, in which an extraordinary matching of the evolutionary shape changes of the dentary and...
Full Text:: . Kimmel1*, Sawyer Watson1, Ryan B. Couture2, Natasha S. McKibben1, James T. Nichols1, Shannon E

Fig 6 BW.tif

Creator:: Kimmel, Charles B., Watson, Sawyer, Couture, Ryan B., McKibben, Natasha S., Nichols, James T., Richardson, Shannon E., and Noakes, David L. G.
Abstract:: What is the nature of evolutionary divergence of the jaw skeleton within the genus Oncorhynchus? How can two associated bones evolve new shapes and still maintain functional integration? Here, we introduce and test a ‘concordance’ hypothesis, in which an extraordinary matching of the evolutionary shape changes of the dentary and...

Fig 5 color.tif

Creator:: Kimmel, Charles B., Watson, Sawyer, Couture, Ryan B., McKibben, Natasha S., Nichols, James T., Richardson, Shannon E., and Noakes, David L. G.
Abstract:: What is the nature of evolutionary divergence of the jaw skeleton within the genus Oncorhynchus? How can two associated bones evolve new shapes and still maintain functional integration? Here, we introduce and test a ‘concordance’ hypothesis, in which an extraordinary matching of the evolutionary shape changes of the dentary and...

Fig 4 color.tif

Creator:: Kimmel, Charles B., Watson, Sawyer, Couture, Ryan B., McKibben, Natasha S., Nichols, James T., Richardson, Shannon E., and Noakes, David L. G.
Abstract:: What is the nature of evolutionary divergence of the jaw skeleton within the genus Oncorhynchus? How can two associated bones evolve new shapes and still maintain functional integration? Here, we introduce and test a ‘concordance’ hypothesis, in which an extraordinary matching of the evolutionary shape changes of the dentary and...

Fig 3 color.tif

Creator:: Kimmel, Charles B., Watson, Sawyer, Couture, Ryan B., McKibben, Natasha S., Nichols, James T., Richardson, Shannon E., and Noakes, David L. G.
Abstract:: What is the nature of evolutionary divergence of the jaw skeleton within the genus Oncorhynchus? How can two associated bones evolve new shapes and still maintain functional integration? Here, we introduce and test a ‘concordance’ hypothesis, in which an extraordinary matching of the evolutionary shape changes of the dentary and...

Fig 3 BW.tif

Creator:: Kimmel, Charles B., Watson, Sawyer, Couture, Ryan B., McKibben, Natasha S., Nichols, James T., Richardson, Shannon E., and Noakes, David L. G.
Abstract:: What is the nature of evolutionary divergence of the jaw skeleton within the genus Oncorhynchus? How can two associated bones evolve new shapes and still maintain functional integration? Here, we introduce and test a ‘concordance’ hypothesis, in which an extraordinary matching of the evolutionary shape changes of the dentary and...

Fig 2 color.tif

Creator:: Kimmel, Charles B., Watson, Sawyer, Couture, Ryan B., McKibben, Natasha S., Nichols, James T., Richardson, Shannon E., and Noakes, David L. G.
Abstract:: What is the nature of evolutionary divergence of the jaw skeleton within the genus Oncorhynchus? How can two associated bones evolve new shapes and still maintain functional integration? Here, we introduce and test a ‘concordance’ hypothesis, in which an extraordinary matching of the evolutionary shape changes of the dentary and...

Fig 2 BW.tif

Creator:: Kimmel, Charles B., Watson, Sawyer, Couture, Ryan B., McKibben, Natasha S., Nichols, James T., Richardson, Shannon E., and Noakes, David L. G.
Abstract:: What is the nature of evolutionary divergence of the jaw skeleton within the genus Oncorhynchus? How can two associated bones evolve new shapes and still maintain functional integration? Here, we introduce and test a ‘concordance’ hypothesis, in which an extraordinary matching of the evolutionary shape changes of the dentary and...

Fig 1 BW.tif

Creator:: Kimmel, Charles B., Watson, Sawyer, Couture, Ryan B., McKibben, Natasha S., Nichols, James T., Richardson, Shannon E., and Noakes, David L. G.
Abstract:: What is the nature of evolutionary divergence of the jaw skeleton within the genus Oncorhynchus? How can two associated bones evolve new shapes and still maintain functional integration? Here, we introduce and test a ‘concordance’ hypothesis, in which an extraordinary matching of the evolutionary shape changes of the dentary and...

Sup Fig 5 color.tif

Creator:: Kimmel, Charles B., Watson, Sawyer, Couture, Ryan B., McKibben, Natasha S., Nichols, James T., Richardson, Shannon E., and Noakes, David L. G.
Abstract:: What is the nature of evolutionary divergence of the jaw skeleton within the genus Oncorhynchus? How can two associated bones evolve new shapes and still maintain functional integration? Here, we introduce and test a ‘concordance’ hypothesis, in which an extraordinary matching of the evolutionary shape changes of the dentary and...

Sup Fig 4 color.tif

Creator:: Kimmel, Charles B., Watson, Sawyer, Couture, Ryan B., McKibben, Natasha S., Nichols, James T., Richardson, Shannon E., and Noakes, David L. G.
Abstract:: What is the nature of evolutionary divergence of the jaw skeleton within the genus Oncorhynchus? How can two associated bones evolve new shapes and still maintain functional integration? Here, we introduce and test a ‘concordance’ hypothesis, in which an extraordinary matching of the evolutionary shape changes of the dentary and...

Sup Fig 3 color.tif

Creator:: Kimmel, Charles B., Watson, Sawyer, Couture, Ryan B., McKibben, Natasha S., Nichols, James T., Richardson, Shannon E., and Noakes, David L. G.
Abstract:: What is the nature of evolutionary divergence of the jaw skeleton within the genus Oncorhynchus? How can two associated bones evolve new shapes and still maintain functional integration? Here, we introduce and test a ‘concordance’ hypothesis, in which an extraordinary matching of the evolutionary shape changes of the dentary and...

Sup Fig 2 color.tif

Creator:: Kimmel, Charles B., Watson, Sawyer, Couture, Ryan B., McKibben, Natasha S., Nichols, James T., Richardson, Shannon E., and Noakes, David L. G.
Abstract:: What is the nature of evolutionary divergence of the jaw skeleton within the genus Oncorhynchus? How can two associated bones evolve new shapes and still maintain functional integration? Here, we introduce and test a ‘concordance’ hypothesis, in which an extraordinary matching of the evolutionary shape changes of the dentary and...

Sup Fig 1 color.tif

Creator:: Kimmel, Charles B., Watson, Sawyer, Couture, Ryan B., McKibben, Natasha S., Nichols, James T., Richardson, Shannon E., and Noakes, David L. G.
Abstract:: What is the nature of evolutionary divergence of the jaw skeleton within the genus Oncorhynchus? How can two associated bones evolve new shapes and still maintain functional integration? Here, we introduce and test a ‘concordance’ hypothesis, in which an extraordinary matching of the evolutionary shape changes of the dentary and...

Fig 8 color.tif

Creator:: Kimmel, Charles B., Watson, Sawyer, Couture, Ryan B., McKibben, Natasha S., Nichols, James T., Richardson, Shannon E., and Noakes, David L. G.
Abstract:: What is the nature of evolutionary divergence of the jaw skeleton within the genus Oncorhynchus? How can two associated bones evolve new shapes and still maintain functional integration? Here, we introduce and test a ‘concordance’ hypothesis, in which an extraordinary matching of the evolutionary shape changes of the dentary and...

Fig 7 color.tif

Creator:: Kimmel, Charles B., Watson, Sawyer, Couture, Ryan B., McKibben, Natasha S., Nichols, James T., Richardson, Shannon E., and Noakes, David L. G.
Abstract:: What is the nature of evolutionary divergence of the jaw skeleton within the genus Oncorhynchus? How can two associated bones evolve new shapes and still maintain functional integration? Here, we introduce and test a ‘concordance’ hypothesis, in which an extraordinary matching of the evolutionary shape changes of the dentary and...

Fig 6 color.tif

Creator:: Kimmel, Charles B., Watson, Sawyer, Couture, Ryan B., McKibben, Natasha S., Nichols, James T., Richardson, Shannon E., and Noakes, David L. G.
Abstract:: What is the nature of evolutionary divergence of the jaw skeleton within the genus Oncorhynchus? How can two associated bones evolve new shapes and still maintain functional integration? Here, we introduce and test a ‘concordance’ hypothesis, in which an extraordinary matching of the evolutionary shape changes of the dentary and...

Patterns of variation and covariation in the shapes of mandibular bones of juvenile salmonids in the genus Oncorhynchus

Creator:: Kimmel, Charles B., Watson, Sawyer, Couture, Ryan B., McKibben, Natasha S., Nichols, James T., Richardson, Shannon E., and Noakes, David L. G.
Abstract:: What is the nature of evolutionary divergence of the jaw skeleton within the genus Oncorhynchus? How can two associated bones evolve new shapes and still maintain functional integration? Here, we introduce and test a ‘concordance’ hypothesis, in which an extraordinary matching of the evolutionary shape changes of the dentary and...
Resource Type:: Article

ScholarsArchive@OSU

KimmelPatternsVariationCovariationInShapesMandibularBonesJuvenileSalmonids.pdf

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Patterns of variation and covariation in the shapes of mandibular bones of juvenile salmonids in the genus Oncorhynchus

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