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A fossilised jawbone discovered in South Africa has been classified as belonging to a previously unidentified human relative. The specimen, estimated to be 1.4 million years old, has been attributed to the genus Paranthropus, known for its distinctive dental structure. Unlike its robust counterparts, the newly identified species exhibits a smaller jaw and teeth, suggesting dietary differences. The findings indicate that multiple hominin species coexisted in southern Africa during that period, adding to the complexity of early human evolution.
Findings from the Research
According to a study published in the Journal of Human Evolution, the fossil jaw, catalogued as SK 15, was unearthed in 1949 at Swartkrans, a well-known paleoanthropological site in South Africa. Originally classified as Telanthropus capensis and later reassigned to Homo ergaster, recent analysis has challenged this classification. Clément Zanolli, a paleoanthropologist at the University of Bordeaux, told Live Science that advanced X-ray imaging was used to create virtual 3D models of the specimen. Internal and external dental structures were examined, revealing that SK 15 does not align with Homo species. The molars were found to be longer and more rectangular than those typically seen in Homo, with the jaw notably thicker than expected. These characteristics led researchers to identify it as a distinct species within the Paranthropus genus, named Paranthropus capensis.
Implications of the Discovery
As per the findings, Paranthropus capensis existed alongside Paranthropus robustus around 1.4 million years ago. Variations in jaw and tooth structure suggest different dietary habits, with P. robustus likely relying on a highly specialised diet due to its large molars, while P. capensis may have consumed a broader range of food sources.
Zanolli noted that the fossil record in Africa remains incomplete, leaving open the question of whether P. capensis persisted beyond its currently known timeframe. The possibility of additional unidentified species in the hominin lineage has been highlighted, underlining the need for further excavation and study in the region.
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A significant number of astronauts spending extended time aboard the International Space Station (ISS) have reported changes to their vision, raising concerns for future deep-space missions. Reports indicate that 70 percent of astronauts who have spent between six to twelve months in microgravity have experienced noticeable shifts in eyesight. Symptoms linked to spaceflight-associated neuro-ocular syndrome (SANS) include swelling of the optic nerve, flattening at the back of the eye, and vision impairment. The phenomenon is attributed to fluid redistribution in microgravity, which increases pressure on ocular structures. While many astronauts recover upon returning to Earth, the long-term impact remains uncertain, making it a critical issue for extended missions beyond low Earth orbit.
Findings of the Study
According to a study, Microgravity, researchers led by Santiago Costantino at the Université de Montréal examined 13 astronauts who had spent five to six months on the ISS. Participants from the United States, Europe, Japan and Canada, with an average age of 48, were included in the research. Eye measurements were taken before and after spaceflight, focusing on ocular rigidity, intraocular pressure, and ocular pulse amplitude. The study identified a 33 percent decline in ocular rigidity, an 11 percent reduction in intraocular pressure, and a 25 percent drop in ocular pulse amplitude. Some astronauts also exhibited an increase in choroidal thickness beyond normal levels.
Concerns for Long-Duration Space Travel
SANS has been observed since the early 2000s, with similar symptoms reported by Russian cosmonauts aboard the Mir space station. NASA officially classified the condition in 2011. Bodily fluid shifts in microgravity are believed to be the primary cause, although the exact mechanisms remain under investigation. Countermeasures such as negative pressure devices, pharmaceutical treatments, and targeted nutrition plans are being explored to mitigate risks.
Potential Solutions and Future Research
According to reports, ongoing research aims to identify astronauts at higher risk of developing severe ocular issues. As reported by space.com, Costantino noted that changes in the mechanical properties of the eye could serve as biomarkers for SANS, potentially assisting in early detection and intervention. Space agencies continue to prioritise the development of strategies to protect astronaut vision for future deep-space missions, including those to Mars.
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