Delphinid brain development from neonate to adulthood with comparisons to other cetaceans and artiodactyls

Why do neonatal and adult delphinids have much larger brains than artiodactyls when they have common ancestors? We explore relationships between neonatal brain size, gestation duration, maternal body mass, and body growth. Cetacean brains grow fast in the womb and longer gestation results in a large...

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Bibliographic Details
Published in:Marine mammal science 2018-04, Vol.34 (2), p.420-439
Main Authors: Ridgway, Sam H., Carlin, Kevin P., Van Alstyne, Kaitlin R.
Format: Article
Language:English
Subjects:
Acoustics
Allometry
Artiodactyla
Birth
Body mass
Body size
Brain
brain growth
brain size
Calories
cetacean
Childbirth & labor
dolphin
Dolphins
Duration
Encephalization
Fetuses
Foetus
Gestation
Gravity
Growth
Marine mammals
neonate
Neonates
Nervous system
Parturition
porpoise
Pregnancy
Prey
Uterus
whale
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Summary:Why do neonatal and adult delphinids have much larger brains than artiodactyls when they have common ancestors? We explore relationships between neonatal brain size, gestation duration, maternal body mass, and body growth. Cetacean brains grow fast in the womb and longer gestation results in a larger brain. Allometry shows that the larger the mother's body mass, the larger the neonatal brain. After birth, delphinid bodies grow much faster than brains, and the index of encephalization decreases even as brains grow beyond maturity. Delphinids’ larger brain growth during life at sea may be explained by at least three differences from artiodactyls’ life on land. First, the sea offers high calorie prey to support growth of a large brain. Second, life in water offers relief from gravity, allowing for a large head to contain a large brain. Third, sound in water may pass through an immersed body. This allows sounds from the water to reach the fetus, driving early development of delphinoid auditory brain parts. As an example of this, the dolphin ear bone is very large at birth. Furthermore, the auditory nervous system appears mature well before birth. Compared with artiodactyls, these three differences likely result in a larger delphinid brain.
ISSN:0824-0469
1748-7692
DOI:10.1111/mms.12464