Body size correlates with most structural and functional components of an organism’s phenotype – brain size being a prime example of allometric scaling with animal size. Therefore, comparative studies of brain evolution in vertebrates rely on controlling for the scaling effects of body size variation on brain size variation by calculating brain weight/body weight ratios. Differences in the brain size-body size relationship between taxa are usually interpreted as differences in selection acting on the brain or its components, while selection pressures acting on body size, which are among the most prevalent in nature, are rarely acknowledged, leading to conflicting and confusing conclusions. We address these problems by comparing brain-body relationships from across >1,000 species of birds and non-avian reptiles. Relative brain size in birds is often assumed to be 10 times larger than in reptiles of similar body size. We examine how differences in the specific gravity of body tissues and in body design (e.g., presence/absence of a tail or a dense shell) between these two groups can affect estimates of relative brain size. Using phylogenetic comparative analyses, we show that the gap in relative brain size between birds and reptiles has been grossly exaggerated. Our results highlight the need to take into account differences between taxa arising from selection pressures affecting body size and design, and call into question the widespread misconception that reptile brains are small and incapable of supporting sophisticated behavior and cognition.

1.
Amiel
JJ
,
Tingley
R
,
Shine
R
.
Smart moves: effects of relative brain size on establishment success of invasive amphibians and reptiles
.
PLoS One
.
2011
Apr
;
6
(
4
):
e18277
.
[PubMed]
1932-6203
2.
Armstrong
E
,
Bergeron
R
.
Relative brain size and metabolism in birds
.
Brain Behav Evol
.
1985
;
26
(
3-4
):
141
53
.
[PubMed]
0006-8977
3.
Black
DG
. (
1983
):
Encephalization of Australian lizards.
Unpublished M.Sc. Thesis, Faculty of Science, Monash University.
4.
Brown
C
,
Laland
K
,
Krause
J
.
Fish Cognition and Behavior
.
Oxford
:
Wiley-Blackwell
;
2011
.
5.
Burghardt
GM
.
Environmental enrichment and cognitive complexity in reptiles and amphibians: Concepts, review, and implications for captive populations
.
Appl Anim Behav Sci
.
2013
;
147
(
3-4
):
286
98
. 0168-1591
6.
Burkart
JM
,
Schubiger
MN
,
van Schaik
CP
.
The evolution of general intelligence
.
Behav Brain Sci
.
2017
Jan
;
40
:
e195
.
[PubMed]
0140-525X
7.
Burleigh
JG
,
Kimball
RT
,
Braun
EL
.
Building the avian tree of life using a large-scale, sparse supermatrix
.
Mol Phylogenet Evol
.
2015
Mar
;
84
:
53
63
.
[PubMed]
1055-7903
8.
Butler
AB
,
Hodos
W
.
Comparative Vertebrate Neuroanatomy: Evolution and Adaptation
. 2nd ed.
Hoboken (New Jersey)
:
John Wiley and Sons
;
2005
.
9.
Chittka
L
,
Niven
J
.
Are bigger brains better?
Curr Biol
.
2009
Nov
;
19
(
21
):
R995
1008
.
[PubMed]
0960-9822
10.
Cnotka
J
,
Güntürkün
O
,
Rehkämper
G
,
Gray
RD
,
Hunt
GR
.
Extraordinary large brains in tool-using New Caledonian crows (Corvus moneduloides)
.
Neurosci Lett
.
2008
Mar
;
433
(
3
):
241
5
.
[PubMed]
0304-3940
11.
Colbert
EH
.
The weights of dinosaurs
.
Am Mus Novit
.
1962
;
2076
:
1
16
.0003-0082
12.
Corfield
JR
,
Birkhead
TR
,
Spottiswoode
CN
,
Iwaniuk
AN
,
Boogert
NJ
,
Gutiérrez-Ibáñez
C
, et al.
Brain size and morphology of the brood-parasitic and cerophagous honeyguides (Aves: piciformes)
.
Brain Behav Evol
.
2013
;
81
(
3
):
170
86
.
[PubMed]
1421-9743
13.
Crile
G
,
Quiring
DP
.
A record of the body weight and certain organ and gland weights of 3690 animals
.
Ohio J Sci
.
1940
;
40
:
219
59
.0030-0950
14.
Day
LB
,
Westcott
DA
,
Olster
DH
.
Evolution of bower complexity and cerebellum size in bowerbirds
.
Brain Behav Evol
.
2005
;
66
(
1
):
62
72
.
[PubMed]
0006-8977
15.
Deacon
TW
.
Rethinking mammalian brain evolution
.
Am Zool
.
1990
;
30
(
3
):
629
705
. 0003-1569
16.
Dicke
U
,
Roth
G
.
Neuronal factors determining high intelligence
.
Philos Trans R Soc Lond B Biol Sci
.
2016
Jan
;
371
(
1685
):
20150180
.
[PubMed]
0962-8436
17.
Alonso
PD
,
Milner
AC
,
Ketcham
RA
,
Cookson
MJ
,
Rowe
TB
.
The avian nature of the brain and inner ear of Archaeopteryx
.
Nature
.
2004
Aug
;
430
(
7000
):
666
9
.
[PubMed]
0028-0836
18.
Doody
JS
,
Burghardt
GM
,
Dinets
V
.
Breaking the social-non-social dichotomy: A role for reptiles in vertebrate social behavior research?
Ethology
.
2013
;
119
(
2
):
1
9
. 0179-1613
19.
Emery
NJ
,
Clayton
NS
. Comparing the complex cognition of birds and primates. In:
Rogers
LJ
,
Kaplan
G
, editors
.
Comparative Vertebrate Cognition
.
Dordrecht
:
Kluwer Academic/Plenum
;
2004
. pp.
3
55
.
20.
Emery
NJ
,
Clayton
NS
,
Frith
CD
.
Social Intelligence: From Brain to Culture
.
Oxford
:
Oxford University Press
;
2007
.
21.
Fristoe
TS
,
Iwaniuk
AN
,
Botero
CA
.
Big brains stabilize populations and facilitate colonization of variable habitats in birds
.
Nat Ecol Evol
.
2017
Nov
;
1
(
11
):
1706
15
.
[PubMed]
2397-334X
22.
Galván
I
,
Møller
AP
.
Brain size and the expression of pheomelanin-based colour in birds
.
J Evol Biol
.
2011
May
;
24
(
5
):
999
1006
.
[PubMed]
1010-061X
23.
Garamszegi
LZ
,
Møller
AP
,
Erritzøe
J
.
Coevolving avian eye size and brain size in relation to prey capture and nocturnality
.
Proc Biol Sci
.
2002
May
;
269
(
1494
):
961
7
.
[PubMed]
0962-8452
24.
Gärdenfors
P
.
How Homo Became Sapiens: On the Evolution of Thinking
.
Oxford
:
Oxford University Press
;
2003
.
25.
Gill
F
.
Ornithology
. 3rd ed.
New York
:
W.H. Freeman
;
2007
.
26.
Graïc
JM
,
Peruffo
A
,
Ballarin
C
,
Cozzi
B
.
The brain of the giraffe (Giraffa camelopardalis): surface configuration, encephalization quotient, and analysis of the existing literature
.
Anat Rec (Hoboken)
.
2017
Aug
;
300
(
8
):
1502
11
.
[PubMed]
1932-8486
27.
Güntürkün
O
,
Bugnyar
T
.
Cognition without Cortex
.
Trends Cogn Sci
.
2016
Apr
;
20
(
4
):
291
303
.
[PubMed]
1364-6613
28.
Güntürkün
O
,
Stacho
M
,
Ströckens
F
. The brains of reptiles and birds. In:
Kaas
J
, editor
.
Evolution of Nervous Systems
.
Volume 1
. 2nd ed.
Oxford
:
Elsevier
;
2017
. pp.
171
221
.
29.
Hamershock
DM
,
Seamans
TW
,
Bernhardt
GE
.
Determination of body density for twelve bird species
.
Ibis
.
1993
;
137
:
424
8
.0019-1019
30.
Hansen
TF
,
Bartoszek
K
.
Interpreting the evolutionary regression: the interplay between observational and biological errors in phylogenetic comparative studies
.
Syst Biol
.
2012
May
;
61
(
3
):
413
25
.
[PubMed]
1063-5157
31.
Harmon
LJ
,
Weir
JT
,
Brock
CD
,
Glor
RE
,
Challenger
W
.
GEIGER: investigating evolutionary radiations
.
Bioinformatics
.
2008
Jan
;
24
(
1
):
129
31
.
[PubMed]
1367-4803
32.
Harvey
PH
,
Pagel
MD
.
The allometric approach to species differences in brain size
.
Hum Evol
.
1988
;
3
(
6
):
461
72
. 0393-9375
33.
Hazlehurst
GA
. (
1991
):
The morphometric and flight characteristics of the Pterosauria.
Ph.D. Thesis, University of Bristol.
34.
Hazlehurst
GA
,
Rayner
JM
.
Flight characteristics of Triassic and Jurassic Pterosauria: an appraisal based on wing shape
.
Paleobiology
.
1992
;
18
(
4
):
447
63
. 0094-8373
35.
Healy
SD
,
Harvey
PH
.
Comparative studies of the brain and its components
.
Neth J Zool
.
1990
;
40
:
203
14
.0028-2960
36.
Healy
SD
,
Rowe
C
.
A critique of comparative studies of brain size
.
Proc Biol Sci
.
2007
Feb
;
274
(
1609
):
453
64
.
[PubMed]
0962-8452
37.
Hedges
SB
,
Dudley
J
,
Kumar
S
.
TimeTree: a public knowledge-base of divergence times among organisms
.
Bioinformatics
.
2006
Dec
;
22
(
23
):
2971
2
.
[PubMed]
1367-4803
38.
Herculano-Houzel
S
,
Manger
PR
,
Kaas
JH
.
Brain scaling in mammalian evolution as a consequence of concerted and mosaic changes in numbers of neurons and average neuronal cell size
.
Front Neuroanat
.
2014
Aug
;
8
:
77
.
[PubMed]
1662-5129
39.
Hochscheid
S
,
Bentivegna
F
,
Speakman
JR
.
The dual function of the lung in chelonian sea turtles: buoyancy control and oxygen storage
.
J Exp Mar Biol Ecol
.
2003
;
297
(
2
):
123
40
. 0022-0981
40.
Hurlburt
G
.
Comparison of body mass estimation techniques, using recent reptiles and the pelycosaur Edaphosaurus boanerges
.
J Vertebr Paleontol
.
1999
;
19
(
2
):
338
50
. 0272-4634
41.
Hurlburt
GR
. (
1996
): Relative brain size in recent and fossil amniotes: Determination and interpretation. Ph.D. Thesis, University of Toronto.
42.
Hurlburt
GR
,
Ridgely
RC
,
Witmer
LM
. Relative size of brain and cerebrum in Tyrannosasurus rex: an analysis using brain-endocast quantitative relationships in extant alligators. In:
Parrish
JM
,
Henderson
M
,
Currie
PJ
,
Koppelhus
E
, editors
.
Origin, Systematics, and Paleobiology of the Tyrannosauridae
.
Northern Illinois University Press
;
2013
. pp.
134
54
.
43.
Iwaniuk
AN
. (
2017
): The evolution of cognitive brains in non-mammals; in Watanabe S, Hofman MA, Shimizu T (eds); Evolution of the Brain, Cognition, and Emotion in Vertebrates. Springer, pp 101-124.
44.
Iwaniuk
AN
,
Arnold
KE
.
Is cooperative breeding associated with bigger brains? A comparative test in the Corvida (Passeriformes)
.
Ethology
.
2004
;
110
(
3
):
203
20
. 0179-1613
45.
Iwaniuk
AN
,
Nelson
JE
.
A comparative analysis of relative brain size in waterfowl (Anseriformes)
.
Brain Behav Evol
.
2001
Feb
;
57
(
2
):
87
97
.
[PubMed]
0006-8977
46.
Iwaniuk
AN
,
Nelson
JE
.
Can endocranial volume be used as an estimate of brain size in birds?
Can J Zool
.
2002
;
80
(
1
):
16
23
. 0008-4301
47.
Jackson
DC
.
Buoyancy control in the freshwater turtle, Pseudemys scripta elegans
.
Science
.
1969
Dec
;
166
(
3913
):
1649
51
.
[PubMed]
0036-8075
48.
Jagnandan
K
,
Russell
AP
,
Higham
TE
.
Tail autotomy and subsequent regeneration alter the mechanics of locomotion in lizards
.
J Exp Biol
.
2014
Nov
;
217
(
Pt 21
):
3891
7
.
[PubMed]
0022-0949
49.
Jarvis
ED
. Evolution of the pallium in birds and reptiles. In:
Binder
MD
,
Hirokawa
N
,
Windhorst
U
, editors
.
New Encyclopedia of Neuroscience
.
Berlin
:
Springer-Verlag
;
2009
. pp.
1390
400
.
50.
Jerison
HJ
.
Evolution of the Brain and Intelligence
.
New York
:
Academic Press
;
1973
.
51.
MacLean
PD
.
Brain evolution relating to family, play, and the separation call
.
Arch Gen Psychiatry
.
1985
Apr
;
42
(
4
):
405
17
.
[PubMed]
0003-990X
52.
Martin
RD
.
Relative brain size and basal metabolic rate in terrestrial vertebrates
.
Nature
.
1981
Sep
;
293
(
5827
):
57
60
.
[PubMed]
0028-0836
53.
Menzel
R
,
Fischer
J
. Animal thinking: An introduction. In:
Menzel
R
,
Fisher
J
, editors
.
Animal Thinking: Contemporary Issues in Comparative Cognition
.
Cambridge (Massachusetts)
:
MIT Press
;
2011
. pp.
1
6
.
54.
Mlikovsky
J
(
1989
a): Brain size in birds: 1. Tinamiformes through Ciconiiformes. Vestnik Ceskoslovenska Spolecnosti zoologicka 53:33-47.
55.
Mlikovsky
J
(
1989
b): Brain size in birds: 2. Falconiformes through Gaviiformes. Vestnik Ceskoslovenska Spolecnosti zoologicka 53:200-213.
56.
Mlikovsky
J
(
1989
c): Brain size in birds: 3. Columbiformes through Piciformes. Vestnik Ceskoslovenska Spolecnosti zoologicka 53:252-264.
57.
Mlikovsky
J
.
Brain size in birds: 4. Passeriformes
.
Acta Soc Zool Bohemoslov
.
1989
d;
54
:
27
37
.0862-5247
58.
Montgomery
SH
,
Mundy
NI
,
Barton
RA
.
Brain evolution and development: adaptation, allometry and constraint
.
Proc Biol Sci
.
2016
Sep
;
283
(
1838
):
20160433
.
[PubMed]
0962-8452
59.
Northcutt
RG
.
Understanding vertebrate brain evolution
.
Integr Comp Biol
.
2002
Aug
;
42
(
4
):
743
56
.
[PubMed]
1540-7063
60.
Northcutt
RG
.
Paleontology. Evolving large and complex brains
.
Science
.
2011
May
;
332
(
6032
):
926
7
.
[PubMed]
0036-8075
61.
Northcutt
RG
.
Variation in reptilian brains and cognition
.
Brain Behav Evol
.
2013
;
82
(
1
):
45
54
.
[PubMed]
1421-9743
62.
Olkowicz
S
,
Kocourek
M
,
Lučan
RK
,
Porteš
M
,
Fitch
WT
,
Herculano-Houzel
S
, et al.
Birds have primate-like numbers of neurons in the forebrain
.
Proc Natl Acad Sci USA
.
2016
Jun
;
113
(
26
):
7255
60
.
[PubMed]
0027-8424
63.
Orme
CDL
,
Freckleton
RP
,
Thomas
GH
,
Petzoldt
T
,
Fritz
SA
,
Isaac
NJB
(
2012
): CAPER: Comparative Analyses of Phylogenetics and Evolution in R.
64.
Padian
K
,
Chiappe
LM
.
The origin and early evolution of birds
.
Biol Rev Camb Philos Soc
.
1998
;
73
(
1
):
1
42
. 1464-7931
65.
Pagel
M
.
Inferring the historical patterns of biological evolution
.
Nature
.
1999
Oct
;
401
(
6756
):
877
84
.
[PubMed]
0028-0836
66.
Pagel
MD
,
Harvey
PH
.
The taxon-level problem in the evolution of mammalian brain size: facts and artifacts
.
Am Nat
.
1988
;
132
(
3
):
344
59
. 0003-0147
67.
Paradis
E
,
Claude
J
,
Strimmer
K
.
APE: analyses of phylogenetics and evolution in R language
.
Bioinformatics
.
2004
Jan
;
20
(
2
):
289
90
.
[PubMed]
1367-4803
68.
Payne
RB
.
The Cuckoos
.
Oxford
:
Oxford Univ. Press
;
2005
.
69.
Peterson
CC
,
Gomez
D
.
Buoyancy regulation in two species of freshwater turtle
.
Herpetologica
.
2008
;
64
(
2
):
141
8
. 0018-0831
70.
Pinheiro
J
,
Bates
D
, DebRoy S, Sarkar D (
2018
): nlme: Linear and Nonlinear Mixed Effects Models. R package version 3:1-137.
71.
Platel
R
.
Poids encéphalique et indice d’encéphalisation chez les reptiles sauriens
.
Zool Anz
.
1974
;
192
:
332
82
.0044-5231
72.
Platel
R
(
1975
): Nouvelles données sur l'encéphalisation des reptiles squamates. Z zool Syst Evolut-forsch 13:161-184.
73.
Platel
R
. Brain weight-body weight relationships. In:
Gans
CG
,
Northcutt
RG
,
Ulinski
PS
, editors
.
Biology of the Reptilia
.
Volume 10
.
London
:
Academic Press
;
1979
. pp.
147
71
.
74.
Polilov
AA
,
Makarova
AA
.
The scaling and allometry of organ size associated with miniaturization in insects: A case study for Coleoptera and Hymenoptera
.
Sci Rep
.
2017
Feb
;
7
(
1
):
43095
.
[PubMed]
2045-2322
75.
Pollen
AA
,
Dobberfuhl
AP
,
Scace
J
,
Igulu
MM
,
Renn
SC
,
Shumway
CA
, et al.
Environmental complexity and social organization sculpt the brain in Lake Tanganyikan cichlid fish
.
Brain Behav Evol
.
2007
;
70
(
1
):
21
39
.
[PubMed]
0006-8977
76.
R Core Team
. (
2014
): R: A language and environment for statistical computing. R Foundation for Statistical Computing, V., Austria. ISBN 3-900051-07-0. URL http://www.r-project.org/. 2014.
77.
Raghanti
MA
,
Munger
EL
,
Wicinski
B
,
Butti
C
,
Hof
PR
. Comparative structure of the cerebral cortex in large mammals. In:
Herculano-Houzel
S
, editor
.
Evolution of Nervous Systems: The Nervous System of Early Mammals and their Evolution
.
Volume 2
.
Amsterdam
:
Elsevier
;
2017
. pp.
267
89
.
78.
Rehkämper
G
,
Schuchmann
KL
,
Schleicher
A
,
Zilles
K
.
Encephalization in hummingbirds (Trochilidae)
.
Brain Behav Evol
.
1991
;
37
(
2
):
85
91
.
[PubMed]
0006-8977
79.
Revell
LJ
.
phytools: an R package for phylogenetic comparative biology (and other things)
.
Methods Ecol Evol
.
2012
;
3
(
2
):
217
23
. 2041-210X
80.
Ribak
G
,
Weihs
D
,
Arad
Z
.
How do cormorants counter buoyancy during submerged swimming?
J Exp Biol
.
2004
May
;
207
(
Pt 12
):
2101
14
.
[PubMed]
0022-0949
81.
Robin
ED
.
The evolutionary advantages of being stupid
.
Perspect Biol Med
.
1973
;
16
(
3
):
369
80
.
[PubMed]
0031-5982
82.
Roquet
C
,
Lavergne
S
,
Thuiller
W
(
2014
):
One tree to link them all: A phylogenetic dataset for the European tetrapoda.
PLOS Currents Tree of Life, 1.
83.
Roth
G
.
The Long Evolution of Brains and Minds
.
Dordrecht
:
Springer
;
2013
.
84.
Schmidt-Nielsen
K
.
Scaling: Why is Animal Size So Important?
Cambridge
:
Cambridge University Press
;
1984
.
85.
Shettleworth
SJ
.
Cognition, Evolution, and Behavior
. 2nd ed.
Oxford
:
Oxford University Press
;
2010
.
86.
Shimizu
T
,
Shinozuka
K
,
Uysal
AK
,
Leilani Kellogg
S
. (
2017
): The origins of the bird brain: Multiple pulses of cerebral expansion in evolution; in Watanabe S, Hofman MA, Shimizu T (eds): Evolution of the Brain, Cognition, and Emotion in Vertebrates. Springer, pp 35-57.
87.
Simmons
RE
,
Scheepers
L
.
Winning by a neck: sexual selection in the evolution of giraffe
.
Am Nat
.
1996
;
148
(
5
):
771
86
. 0003-0147
88.
Sjölander
S
.
Some cognitive breakthroughs in the evolution of cognition and consciousness, and their impact on the biology of language
.
Evol Cogn
.
1995
;
1
:
3
11
.0938-2623
89.
Smaers
JB
,
Dechmann
DK
,
Goswami
A
,
Soligo
C
,
Safi
K
.
Comparative analyses of evolutionary rates reveal different pathways to encephalization in bats, carnivorans, and primates
.
Proc Natl Acad Sci USA
.
2012
Oct
;
109
(
44
):
18006
11
.
[PubMed]
0027-8424
90.
Smaers
JB
,
Mongle
CS
. (
2018
): Evomap: r package for the evolutionary mapping of continuous traits. Github. 2018 https://github.com/JeroenSmaers/evomap
91.
Smaers
JB
,
Rohlf
FJ
.
Testing species’ deviation from allometric predictions using the phylogenetic regression
.
Evolution
.
2016
May
;
70
(
5
):
1145
9
.
[PubMed]
1558-5646
92.
Smith
RJ
.
Use and misuse of the reduced major axis for line-fitting
.
Am J Phys Anthropol
.
2009
Nov
;
140
(
3
):
476
86
.
[PubMed]
0002-9483
93.
Sokal
RR
,
Rohlf
FJ
.
Biometry: The Principles and Practice of Statistics in Biological Research
.
New York
:
Freeman
;
2012
.
94.
Striedter
GF
.
Principles of Brain Evolution
.
Sunderland
:
Sinauer Associates
;
2005
.
95.
Symonds
MR
,
Blomberg
SP
. A primer on phylogenetic generalised least squares (PGLS). In:
Garamszegi
LZ
, editor
.
Modern Phylogenetic Comparative Methods and Their Application in Evolutionary Biology: Concepts and Practice
.
Berlin
:
Springer
;
2014
. pp.
105
30
.
96.
Tonini
JF
,
Beard
KH
,
Ferreira
RB
,
Jetz
W
,
Pyron
RA
.
Fully-sampled phylogenies of squamates reveal evolutionary patterns in threat status
.
Biol Conserv
.
2016
;
204
:
23
31
. 0006-3207
97.
Tosches
MA
,
Yamawaki
TM
,
Naumann
RK
,
Jacobi
AA
,
Tushev
G
,
Laurent
G
.
Evolution of pallium, hippocampus, and cortical cell types revealed by single-cell transcriptomics in reptiles
.
Science
.
2018
May
;
360
(
6391
):
881
8
.
[PubMed]
0036-8075
98.
van Dongen
PA
. Brain size in vertebrates. In:
Nieuwenhuys
R
,
ten Donkelaar
HJ
,
Nicholson
C
, editors
.
The Central Nervous System of Vertebrates
.
Volume 3
.
Berlin
:
Springer-Verlag
;
1998
. pp.
2099
134
.
99.
Warton
DI
,
Wright
IJ
,
Falster
DS
,
Westoby
M
.
Bivariate line-fitting methods for allometry
.
Biol Rev Camb Philos Soc
.
2006
May
;
81
(
2
):
259
91
.
[PubMed]
1464-7931
100.
Wedel
MJ
. Postcranial skeletal pneumaticity in sauropods and its implications for mass estimates. In:
Curry-Rogers
KA
,
Wilson
JA
, editors
.
The Sauropods: Evolution and Paleobiology
.
Berkeley (CA)
:
University of California Press
;
2005
. pp.
201
28
.
101.
Wehner
R
,
Fukushi
T
,
Isler
K
.
On being small: brain allometry in ants
.
Brain Behav Evol
.
2007
;
69
(
3
):
220
8
.
[PubMed]
0006-8977
102.
Wilkinson
A
,
Huber
L
. Cold-blooded cognition: Reptilian cognitive abilities. In:
Vonk
J
,
Shackelford
TK
, editors
.
The Oxford Handbook of Comparative Evolutionary Psychology
.
New Jersey
:
Oxford University Press
;
2012
. pp.
129
43
.
103.
Witmer
LM
,
Chatterjee
S
,
Franzosa
J
,
Rowe
T
.
Neuroanatomy of flying reptiles and implications for flight, posture and behaviour
.
Nature
.
2003
Oct
;
425
(
6961
):
950
3
.
[PubMed]
0028-0836
104.
Yamashita
W
,
Nomura
T
. The neocortex and dorsal ventricular ridge: Functional convergence and underlying developmental mechanisms. In:
Shigeno
S
,
Murakami
Y
,
Nomura
T
, editors
.
Brain Evolution by Design
.
Springer
;
2017
. pp.
291
309
.
Copyright / Drug Dosage / Disclaimer
Copyright: All rights reserved. No part of this publication may be translated into other languages, reproduced or utilized in any form or by any means, electronic or mechanical, including photocopying, recording, microcopying, or by any information storage and retrieval system, without permission in writing from the publisher.
Drug Dosage: The authors and the publisher have exerted every effort to ensure that drug selection and dosage set forth in this text are in accord with current recommendations and practice at the time of publication. However, in view of ongoing research, changes in government regulations, and the constant flow of information relating to drug therapy and drug reactions, the reader is urged to check the package insert for each drug for any changes in indications and dosage and for added warnings and precautions. This is particularly important when the recommended agent is a new and/or infrequently employed drug.
Disclaimer: The statements, opinions and data contained in this publication are solely those of the individual authors and contributors and not of the publishers and the editor(s). The appearance of advertisements or/and product references in the publication is not a warranty, endorsement, or approval of the products or services advertised or of their effectiveness, quality or safety. The publisher and the editor(s) disclaim responsibility for any injury to persons or property resulting from any ideas, methods, instructions or products referred to in the content or advertisements.
You do not currently have access to this content.