English:
Diagram featuring the multiple size estimations of the large arthrodire placoderm
Dunkleosteus terrelli
, in comparison with a ~1.8 m (5.9 ft) tall human. Different silhouettes and morphology are explained by:
-
Both Anderson & Westneat 2007 and Williams 2007 provided length estimates for
Dunkleosteus
without a reliable depiction/reconstruction of the taxon, therefore, the present silhouette is based on outdated depictions of
Dunkleosteus
based on
Coccosteus
which were quite common at the time of these publications.
[1]
[2]
-
More recently, both Ferrón et al. 2017 and Engelman 2023 presented different reconstructions for
Dunkleosteus
, as well as different fin morphologies. As such, their respective reconstructions are reflected here.
[3]
[4]
The two first silhouettes are based on the
old
Dunkleosteus
skeletal
by Scott Hartman. This skeletal has been updated in his
website
, featuring a different tail and dorsal fin anatomy. A freely licensed silhouette version of the skeletal is available at
PhyloPic
under CC BY 3.0.
Color Key
-
Estimate by Anderson & Westneat 2007, at
6 m (20 ft)
. In their 2007 skull mechanics analysis, the coauthors proposed this estimate for the largest specimen used for bite force testing, but the identity of this specimen is not stated. Could be CMNH 5768 or CMNH 6090.
[1]
-
Estimate by Williams 2007, at
10 m (33 ft)
. This body size is stated without any methodical background.
[2]
-
Estimate by Ferrón et al. 2017, at
8.79 m (28.8 ft)
. As stated by the team, this length (as well as other, smaller lengths) for
Dunkleosteus
was obtained in a regression analysis between the total body length and upper jaw perimeter of extant sharks, using morphometric data.
[3]
Later studies show the dimensions of this reconstruction do not match known dimensions of
Dunkleosteus
fossils.
[5]
-
Estimate by Engelman 2023, at
4.10 m (13.5 ft)
. The author used multiple lines of comparative anatomy, a large dataset of arthrodires and extant fish, as well as a new length estimation method, called orbit-opercular length. This method is shown to strongly predict length across fish from different clades.
[4]
References
-
↑
a
b
(2007). "
Feeding mechanics and bite force modelling of the skull of Dunkleosteus terrelli, an ancient apex predator
".
Biology Letters
3
(1): 76–79.
DOI
:
10.1098/rsbl.2006.0569
.
PMID
17443970
.
PMC
:
2373817
.
-
↑
a
b
(2007). "Force feeding".
Current Biology
17
.
DOI
:
10.1016/j.cub.2006.11.057
.
-
↑
a
b
(2017). "
Ecomorphological inferences in early vertebrates: reconstructing Dunkleosteus terrelli (Arthrodira, Placodermi) caudal fin from palaeoecological data
".
PeerJ
5
: e4081.
DOI
:
10.7717/peerj.4081
.
PMID
29230354
.
PMC
:
5723140
.
ISSN
2167-8359
.
-
↑
a
b
(2023). "A Devonian Fish Tale: A New Method of Body Length Estimation Suggests Much Smaller Sizes for Dunkleosteus terrelli (Placodermi: Arthrodira)".
Diversity
15
(3): 1–54.
DOI
:
10.3390/d15030318
.
-
↑
(2023). "
Giant, swimming mouths: oral dimensions of extant sharks do not accurately predict body size in
Dunkleosteus terrelli
(Placodermi: Arthrodira)
".
PeerJ
11
: e15131.
DOI
:
10.7717/peerj.15131
.
PMID
37065696
.
PMC
:
10100833
.