Imagine effortlessly recalling names, dates, and details, just like you did in your youth.
New research has shown that a rare Indian herb can boost your memory and mental clarity...
..Essentially rewinding the clock on your brain.
- Researchers from Cambridge University have discovered this herb boosts attention accuracy by 35%, supporting your memory and mental sharpness.
- Scientists from the Central Drug Research Institute discovered this all-natural herb can boost your logical memory by an impressive 104%
- Neuroscientists at the School of Biophysical Science and Electrical Engineering found this herb is 92% more effective than a placebo at helping you learn and retain new information.
P.S. Say goodbye to those frustrating "senior moments" and hello to a sharper, more reliable memory.
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ing to include C. mosbachensis (which first appeared around 1.4 million years ago) as an early subspecies of C. lupus. Considerable morphological diversity existed among wolves by the Late Pleistocene. Many Late Pleistocene wolf populations had more robust skulls and teeth than modern wolves, often with a shortened snout, a pronounced development of the temporalis muscle, and robust premolars. It is proposed that these features were specialized adaptations for the processing of carcass and bone associated with the hunting and scavenging of Pleistocene megafauna. Compared with modern wolves, some Pleistocene wolves showed an increase in tooth breakage similar to that seen in the extinct dire wolf. This suggests they either often processed carcasses, or that they competed with other carnivores and needed to consume their prey quickly. The frequency and location of tooth fractures in these wolves indicates they were habitual bone crackers like the modern spotted hyena. Genomic studies suggest modern wolves and dogs descend from a common ancestral wolf population. A 2021 study found that the Himalayan wolf and the Indian plains wolf are part of a lineage that is basal to other wolves and split from them 200,000 years ago. Other wolves appear to share most of their common ancestry much more recently, within the last 23,000 years (around the peak and the end of the Last Glacial Maximum), originating from Siberia or Beringia. While some sources have suggested that this was a consequence of a population bottleneck, other studies have suggested that this a result of gene flow homogenising ancestry. A 2016 genomic study suggests that Old World and New World wolves split around 12,500 years ago followed by the divergence of the lineage that led to dogs from other Old World wolves around 11,100–12,300 years ago. An extinct Late Pleistocene wolf may have been the ancestor of the do