@ARTICLE{TreeBASE2Ref17814,
author = {J. G. M. Thewissen and S. I. Madar},
title = {Ankle morphology of the earliest Cetaceans and its implications for the phylogenetic relations among Ungulates.},
year = {1999},
keywords = {Artiodactyla; Cetacea; locomotion; Mesonychia; Ungulata},
doi = {10.1080/106351599260418},
url = {},
pmid = {},
journal = {Systematic Biology},
volume = {48},
number = {1},
pages = {21--30},
abstract = {Recent molecular studies are inconsistent with ungulate phylogenetic trees that are based on morphological traits. These inconsistencies especially relate to the position of cetaceans and perissodactyls. Evaluation of the close phylogenetic ties between artiodactyls and cetaceans has been hampered by the absence of tarsal bones of primitive cetaceans, as artiodactyls are often diagnosed on the basis of their tarsus. We here describe newly discovered tarsal bones that are the oldest cetacean tarsals known. We present a character analysis for primitive ungulate tarsals and evaluate their impact on the ungulate phylogenetic tree. Tarsal data are consistent with some molecular studies in suggesting that the extant sistergroup of Cetacea is Artiodactyla or that Cetacea should be included within the latter order. Tarsal data do not support Cete (Mesonychia plus Cetacea) and are consistent with the exclusion of perissodactyls from paenungulates as suggested by some molecular studies. Cetacea, Mesonychia, Artiodactyla, Ungulata, Locomotion.}
}
Citation for Study 948
Citation title:
"Ankle morphology of the earliest Cetaceans and its implications for the phylogenetic relations among Ungulates.".
This study was previously identified under the legacy study ID S828
(Status: Published).
Citation
Thewissen J., & Madar S. 1999. Ankle morphology of the earliest Cetaceans and its implications for the phylogenetic relations among Ungulates. Systematic Biology, 48(1): 21-30.
Authors
Abstract
Recent molecular studies are inconsistent with ungulate phylogenetic trees that are based on morphological traits. These inconsistencies especially relate to the position of cetaceans and perissodactyls. Evaluation of the close phylogenetic ties between artiodactyls and cetaceans has been hampered by the absence of tarsal bones of primitive cetaceans, as artiodactyls are often diagnosed on the basis of their tarsus. We here describe newly discovered tarsal bones that are the oldest cetacean tarsals known. We present a character analysis for primitive ungulate tarsals and evaluate their impact on the ungulate phylogenetic tree. Tarsal data are consistent with some molecular studies in suggesting that the extant sistergroup of Cetacea is Artiodactyla or that Cetacea should be included within the latter order. Tarsal data do not support Cete (Mesonychia plus Cetacea) and are consistent with the exclusion of perissodactyls from paenungulates as suggested by some molecular studies. Cetacea, Mesonychia, Artiodactyla, Ungulata, Locomotion.
Keywords
Artiodactyla; Cetacea; locomotion; Mesonychia; Ungulata
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S948
- Other versions:
Nexus
NeXML
- Show BibTeX reference
@ARTICLE{TreeBASE2Ref17814,
author = {J. G. M. Thewissen and S. I. Madar},
title = {Ankle morphology of the earliest Cetaceans and its implications for the phylogenetic relations among Ungulates.},
year = {1999},
keywords = {Artiodactyla; Cetacea; locomotion; Mesonychia; Ungulata},
doi = {10.1080/106351599260418},
url = {},
pmid = {},
journal = {Systematic Biology},
volume = {48},
number = {1},
pages = {21--30},
abstract = {Recent molecular studies are inconsistent with ungulate phylogenetic trees that are based on morphological traits. These inconsistencies especially relate to the position of cetaceans and perissodactyls. Evaluation of the close phylogenetic ties between artiodactyls and cetaceans has been hampered by the absence of tarsal bones of primitive cetaceans, as artiodactyls are often diagnosed on the basis of their tarsus. We here describe newly discovered tarsal bones that are the oldest cetacean tarsals known. We present a character analysis for primitive ungulate tarsals and evaluate their impact on the ungulate phylogenetic tree. Tarsal data are consistent with some molecular studies in suggesting that the extant sistergroup of Cetacea is Artiodactyla or that Cetacea should be included within the latter order. Tarsal data do not support Cete (Mesonychia plus Cetacea) and are consistent with the exclusion of perissodactyls from paenungulates as suggested by some molecular studies. Cetacea, Mesonychia, Artiodactyla, Ungulata, Locomotion.}
}
- Show RIS reference
TY - JOUR
ID - 17814
AU - Thewissen,J. G. M.
AU - Madar,S. I.
T1 - Ankle morphology of the earliest Cetaceans and its implications for the phylogenetic relations among Ungulates.
PY - 1999
KW - Artiodactyla; Cetacea; locomotion; Mesonychia; Ungulata
UR - http://dx.doi.org/10.1080/106351599260418
N2 - Recent molecular studies are inconsistent with ungulate phylogenetic trees that are based on morphological traits. These inconsistencies especially relate to the position of cetaceans and perissodactyls. Evaluation of the close phylogenetic ties between artiodactyls and cetaceans has been hampered by the absence of tarsal bones of primitive cetaceans, as artiodactyls are often diagnosed on the basis of their tarsus. We here describe newly discovered tarsal bones that are the oldest cetacean tarsals known. We present a character analysis for primitive ungulate tarsals and evaluate their impact on the ungulate phylogenetic tree. Tarsal data are consistent with some molecular studies in suggesting that the extant sistergroup of Cetacea is Artiodactyla or that Cetacea should be included within the latter order. Tarsal data do not support Cete (Mesonychia plus Cetacea) and are consistent with the exclusion of perissodactyls from paenungulates as suggested by some molecular studies. Cetacea, Mesonychia, Artiodactyla, Ungulata, Locomotion.
L3 - 10.1080/106351599260418
JF - Systematic Biology
VL - 48
IS - 1
SP - 21
EP - 30
ER -