Change occurred during an intermediate stage of mixed day and night activity over millions of years, TAU and University College London researchers say
Mammals only started being active in the daytime after non-avian dinosaurs were wiped out about 66 million years ago, finds a new study led by University College London (UCL) and Tel Aviv University‘s Steinhardt Museum of Natural History.
A long-standing theory holds that the common ancestor to all mammals was nocturnal, but the new discovery reveals when mammals started living in the daytime for the first time. It also provides insight into which species changed behavior first.
The study, published today in Nature Ecology & Evolution, analysed data of 2,415 species of mammals alive today using computer algorithms to reconstruct the likely activity patterns of their ancient ancestors who lived millions of years ago.
Two different mammalian family trees portraying alternative timelines for the evolution of mammals were used in the analysis. The results from both show that mammals switched to daytime activity shortly after the dinosaurs had disappeared. This change did not happen in an instant — it involved an intermediate stage of mixed day and night activity over millions of years, which coincided with the events that decimated the dinosaurs.
“We were very surprised to find such close correlation between the disappearance of dinosaurs and the beginning of daytime activity in mammals, but we found the same result unanimously using several alternative analyses,” explained the study’s lead author, PhD student Roi Maor of TAU and UCL.
The team found that the ancestors of simian primates — such as gorillas, gibbons and tamarins — were among the first to give up nocturnal activity altogether. However, the two evolutionary timelines varied, giving a window between 33 and 52 millions of years ago for this to have occurred.
This discovery fits well with the fact that simian primates are the only mammals that have evolved adaptations to seeing well in daylight. The visual acuity and color perception of simians are comparable to those of diurnal reptiles and birds — groups that never left the daytime niche.
“It’s very difficult to relate behavior changes in mammals that lived so long ago to ecological conditions at the time, so we can’t say that the dinosaurs dying out caused mammals to start being active in the daytime. However, we see a clear correlation in our findings,” added co-author Prof. Kate Jones of UCL.
“We analysed a lot of data on the behavior and ancestry of living animals for two reasons — first, because the fossil record from that era is very limited; and second, behavior as a trait is very hard to infer from fossils,” explained co-author Prof. Tamar Dayan, Chair of TAU’s Steinhardt Museum of Natural History. “You have to observe a living mammal to see if it is active at night or in the day. Fossil evidence from mammals often suggest that they were nocturnal even if they were not. Many subsequent adaptations that allow us to live in daylight are in our soft tissues.”
The team says further research is needed to better populate the mammalian family tree to give more accurate information on when the behavior of species changes from night-time to day-time activity.
The work involved collaboration between UCL, Tel Aviv University, The Steinhardt Museum of Natural History at Tel Aviv University and ZSL. It was funded by ISF, Tel Aviv University, the Naomi Kadar Foundation and NERC.
Publication in Nature Ecology and Evolution, Nov. 6th 2017