Tag Archives: Primates

Research Suggests Early Primates Thrived in Cold and Temperate Climates

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Textbooks frequently depict primates as having evolved and dispersed exclusively in warm tropical forests, largely based on fossil evidence found in tropical regions. However, a recent study conducted by researchers at the University of Reading indicates that the earliest primates may have thrived in North America’s cold climate, experiencing hot summers and frozen winters.

Primates have transitioned to historically diverse climates: (a) For all primates, transition between the main climates of temperate (top), arid (left), tropical (bottom), and cold (right). The size of the arrows represents the percentage of phylogenetic branches with each transition. (b) Climate transition of early primates living between 650,780,000 years ago. (c) Climate transition of species that lived between 47.8 and 2303 million years ago. (d) Climate transition of species that have lived from 2,303 million years ago to the present. Image credit: Avaria-llautureo et al. , doi: 10.1073/pnas.2423833122.

In this research, Jorge Avalia Lautulo from the University of Reading and his team harnessed statistical modeling alongside fossil data to reconstruct ancient environments and trace where the common ancestors of modern primates existed.

“For decades, the prevailing belief was that primates evolved within warm tropical forests,” stated Dr. Abaria Lautzleo.

“Our findings dramatically overturn this narrative. We discovered that primates did not originate in the lush jungles but in the cold, seasonal environments of the Northern Hemisphere.”

“Understanding how ancient primates adapted to climate change offers insights into how current species might respond to modern shifts in climate and environment.”

Primates, capable of relocating swiftly in response to rapid weather changes, excelled at reproducing, ensuring that offspring survived to establish new species.

As they migrated, primates moved towards entirely different, more stable climates. On average, those remaining in similarly unstable regions were about 561 km apart.

Early primates might have hibernated through the frozen winters, much like today’s bears, sleeping through the coldest months to slow their heart rates and conserve energy.

Some small primates continue this behavior today; for instance, the dwarf lemur in Madagascar digs underground, sleeping for several months during colder periods, shielded from freezing temperatures by layers of roots and leaves.

It wasn’t until millions of years later that primates reached tropical forests.

They began in cold habitats, gradually migrating through temperate zones, arid desert-like areas, and ultimately arriving at today’s hot, humid jungles.

As local temperatures and precipitation fluctuated drastically, primates were compelled to seek new habitats, which facilitated the development of new species.

“Our research indicates that non-tropical, changing environments exerted strong selective pressures on primates with greater dispersal capabilities, encouraging primate diversification and the eventual colonization of tropical climates millions of years post-origination,” the authors concluded.

Their paper was published on August 5th in Proceedings of the National Academy of Sciences.

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Jorge Avalia Rautreo et al. 2025. Radiation and geographical expansion of primates due to diverse climates. PNAS 122 (32): E2423833122; doi: 10.1073/pnas.2423833122

Source: www.sci.news

Our Wounds Heal More Slowly than Those of Other Primates

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Chimpanzees heal lesions more rapidly than humans

Clive Brunskill/Getty Images

Human wounds take nearly three times longer to heal compared to those of other mammals, including chimpanzees, our closest living relatives. While the exact reason remains unclear, it may relate to an evolutionary adaptation linked to body hair reduction.

Human healing is slower in comparison to other animals. To investigate this, Matsumoto Akira, Oda from the University of Lycys in Japan, along with her colleagues, studied four other primate species: Chlorocebus pygerythrus, Sykes’ monkey (Cercopithecus albogularis), olive baboon (Papio anubis), and chimpanzees (Pantroglodytes).

The researchers anesthetized at least five individuals from each primate species, shaving a small patch of hair to create a 40 mm circular wound.

Photographs and wound measurements taken every few days showed that the healing rate averaged about 0.61 mm per day across all species.

Subsequently, Matsumoto-Oda and her team observed 24 patients at Lukyus University Hospital following skin tumor excisions.

The researchers also conducted studies on mice and rats, finding similar healing rates as those of non-human primates. This suggests that many mammals may have an evolutionary optimal healing rate, according to Matsumoto-Da.

“Crucially, we found that chimpanzees displayed the same wound healing rate as other non-human primates, indicating that the slow healing seen in humans likely evolved after our divergence from a common ancestor with chimpanzees,” she noted.

While the exact cause remains unknown, Matsumoto speculates it may relate to how humans adapted to hot environments. “The slower healing in humans might be connected to evolutionary changes, such as hair loss,” she explains. “Denser hair could correlate with higher stem cell counts, leading to faster healing.”

She also notes that social support — through food sharing, nursing, and medicinal care — may have compensated for the disadvantages of slower healing times.

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Source: www.newscientist.com

New study suggests early primates gave birth to twins

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A new study led by Western Washington University suggests that sister city relationships have been around for longer than we thought.

Jack H. McBride and Tesla A. Monson conducted a comprehensive study of primate offspring numbers using life history data from 155 primate species and offspring numbers from an additional 791 mammal species. Image by Jason Brougham.

“Nearly all primates give birth to a single litter,” say Tesla Monson, a professor at Western Washington University, and Jack McBride, a doctoral student at Yale University.

“However, some genera, such as marmosets, tamarins, lemurs, lorises, and galagos, regularly give birth to twins or triplets.”

“Although humans most often give birth to singletons, twin pregnancies occur naturally at a rate of approximately 1.1-1.5% worldwide.”

“Advances in assisted reproductive technology have increased twin birth rates to around 3% in some areas over the past 50 years.”

“There is an urgent need to understand the impact of twins on pregnancy, mothers, and newborns.”

In this study, the authors collected data on reproduction and body size from nearly 1,000 different mammalian species to investigate the evolutionary history of twinning in primates.

The traits they analyzed included offspring size (number of offspring), gestation period, body size, and lifespan.

Contrary to previous assumptions, the analysis demonstrates that the earliest primates likely gave birth to twins.

The researchers also found that birth size and gestational age (the length of pregnancy) were closely related.

“Animals that give birth to more pups on average tend to have shorter gestation periods,” Professor Monson said.

“This also applies to humans. In the United States, full-term twins are considered to be born at 38 weeks, not 40 weeks, and many twins are born earlier than that.”

“This may be related to maternal energy limitations.”

“The next step is to look more broadly at offspring number across mammals and see which other reproductive, brain, and body size traits are associated with twinning.”

“We are particularly interested in understanding the relationship between twinning and tooth morphology.”

“For me, teeth are always a concern.”

of study Published in a journal human.

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Jack H. McBride & Tesla A. Monson. 2024. The evolution of offspring number in primates. human 4 (3): 223-238; doi: 10.3390/humans4030014

This article is based on a press release from Western Washington University.

Source: www.sci.news