The wide range of prices for toothache treatment reflects the diversity of options available to individuals seeking relief from dental pain. At the lower end of the spectrum, basic treatments such as dental fillings or simple extractions may cost around $300 at local dental clinics or community health centers. These affordable options provide essential care for those on tight budgets or without dental insurance coverage.
Another critical component of the economic policy for the upcoming year is the reinforcement of social safety nets and support mechanisms for vulnerable populations. The ongoing pandemic has exposed and exacerbated existing inequalities, highlighting the need for robust social welfare systems to protect those most affected. By expanding access to healthcare, education, and social services, policymakers can ensure that all members of society have the support they need to weather economic shocks and build a brighter future.
TABER, Alta. - RCMP say four people are dead after a highway crash in southern Alberta. Read this article for free: Already have an account? To continue reading, please subscribe: * TABER, Alta. - RCMP say four people are dead after a highway crash in southern Alberta. Read unlimited articles for free today: Already have an account? TABER, Alta. – RCMP say four people are dead after a highway crash in southern Alberta. They say a Dodge Ram hauling a trailer, a GMC truck and a Ford Escape collided on Highway 3 west of Grassy Lake on Monday around 6 p.m. The 84-year-old male driver of the Dodge Ram and an 86-year-old passenger were declared dead at the scene. Mounties say they were both from Robsart, Sask. A 38-year-old man from Taber, Alta., who was driving the GMC truck also died at the scene. A passenger in that truck, a 20-year-old man from Taber, died in hospital. The male driver of the Escape received minor injuries. Winnipeg Jets Game Days On Winnipeg Jets game days, hockey writers Mike McIntyre and Ken Wiebe send news, notes and quotes from the morning skate, as well as injury updates and lineup decisions. Arrives a few hours prior to puck drop. The highway was closed for several hours and police are investigating what caused the collision. RCMP extended their condolences to the family and friends of all involved in the “horrible” crash. Advertisement
France's President Emmanuel Macron listens to Chile's President Gabriel Boric (not pictured) as he delivers a statement during a visit to the Chilean Navy icebreaker 'Almirante Viel', in Valparaiso, Chile November 21, 2024. REUTERS/Ivan Alvarado PORT-AU-PRINCE - Haiti's foreign minister met with the French ambassador to the nation on Thursday over what the ministry branded as "unfriendly and inappropriate" comments by French President Emmanuel Macron as he left the G20 summit in Brazil. Macron had on Wednesday described the decision of the Caribbean country's transitional presidential council to oust the prime minister earlier this month amid an escalation in gang warfare as "completely dumb." "Honestly, it is Haitians who killed Haiti by letting in drug trafficking," Macron was filmed saying in Brazil, before hailing ex-Prime Minister Garry Conille, who was ousted amid divisions with the council, as a great leader. "They are completely dumb, they should never have fired him," he said. His remarks sparked outrage in Haiti, a former French colony. After Haiti freed itself from slavery and declared independence in 1804, it paid France a "debt" for lost property - including slaves - over more than a century that some activists say amounted to over $100 billion. Activists are seeking French reparations for the debt, which many blame for Haiti's economic and political turmoil. Haiti's former Prime Minister Conille, who before taking the post earlier this year had been a top U.N. official, was replaced by entrepreneur and former senate candidate Alix Didier Fils-Aime, a fresh blow to stability in a nation with a deeply fragmented political class while around half the population faces severe food insecurity. Haiti's leadership has been wracked by infighting and three members of the transitional presidential council - tasked with restoring security and paving the way for elections - have been accused of corruption. They remain in their posts. Speaking in Chile on Thursday, Macron appeared to soften his tone, vowing that "France will never turn its face from a crisis ... There will never be a double standard in face of tragedy, be it in Haiti, Venezuela or at the gates of Europe." France has pledged 4 million euros ($4.2 million) to a U.N. fund financing a deeply under-resourced security mission mandated to help restore security in Haiti, as well as funding for French and Creole classes for its troops. Haiti's foreign ministry said that in the meeting French Ambassador Antoine Michon promised France would stay by Haiti's side to help restore security and carry out elections. REUTERS Join ST's Telegram channel and get the latest breaking news delivered to you. Read 3 articles and stand to win rewards Spin the wheel now
Bill Belichick's girlfriend appears to confirm shock move to UNC program
Title: Roma vs Liverpool: A Historic Match Full of Determination
In a surprising turn of events, it has been reported that Intel is eyeing Apple's chip guru, Johny Srouji, for the position of the company's new CEO. Srouji, who currently serves as Apple's senior vice president of hardware technologies, is renowned for his expertise in semiconductor design and has been instrumental in the development of Apple's custom silicon, such as the M1 chip.
As the real estate market in Guizhou continues to thrive, it is crucial for policymakers and stakeholders to monitor the trends and developments in the industry to ensure sustainable growth and development. By promoting responsible and inclusive urban planning, encouraging innovation in housing design and construction, and fostering a competitive and transparent market environment, Guizhou can further enhance its position as a vibrant and attractive destination for homebuyers and investors alike.
However, recent reports have surfaced regarding the sale of retirement tickets for the Nanjing concert, sparking controversy and confusion among prospective concert-goers. Allegations of exorbitant pricing, unclear terms and conditions, and limited availability have raised concerns about the integrity of the ticketing process and the treatment of loyal fans.In a world often plagued by cynicism and doubt, the story of Mr. Zhang's remarkable win serves as a beacon of hope, a testament to the transformative power of chance and the boundless possibilities that await those who dare to dream. As the city celebrates alongside Mr. Zhang, we are reminded that sometimes, against all odds, miracles do happen - and when they do, they have the power to unite, inspire, and uplift us all.
While the proposal to exempt the payment of VAT on the sale of ordinary residential properties is a positive development for homeowners and potential buyers, it is essential to consider the potential implications and ensure that the policy is implemented effectively. Stakeholders are encouraged to provide feedback and participate in the public consultation process to ensure that the interests of all parties are taken into account.
In conclusion, the white-hot competition in Serie A after 15 rounds has set the stage for a thrilling conclusion to the season. With just 3 points separating the top 5 teams, the race for the title is wide open, promising fans an exciting and unpredictable journey ahead. As the drama unfolds on the pitch, one thing is certain – Serie A is delivering top-class entertainment and showcasing the very best of Italian football. Strap yourselves in, because the race for the Scudetto is only going to get more intense from here on out.November 25, 2024 This article has been reviewed according to Science X's editorial process and policies . Editors have highlightedthe following attributes while ensuring the content's credibility: fact-checked trusted source written by researcher(s) proofread by John Gowlett, The Conversation In pursuit of knowledge, the evolution of humanity ranks with the origins of life and the universe. And yet, except when an exciting find hits the headlines, paleoanthropology and its related fields have gained far less scientific support and funding—particularly for scientists and institutions based in the African countries where so many landmark discoveries have occurred. One of the first was made a century ago in Taung, South Africa, by mineworkers who came across the cranium of a 2.8 million-year-old child with human-like teeth . Its fossilized anatomy offered evidence of early human upright walking—and 50 years later, in the Afar region of northern Ethiopia that would become a hotspot for ancient human discovery, this understanding took another leap backwards in time with the discovery of Lucy . The part-skeleton of this small-bodied, relatively small-brained female captured the public's imagination . Lucy the "paleo-rock star" took our major fossil evidence for bipedal walking, human-like creatures (collectively known as hominins) beyond 3 million years for the first time. The race to explain how humans became what we are now was well and truly on. Since then, the picture has changed repeatedly and dramatically , shaped by waves of new fossil discovery, technology and scientific techniques—often accompanied by arguments about the veracity of claims made for each new piece of the puzzle. Even the term "human" is arguable. Many scholars reserve it for modern humans like us, even though we have Neanderthal genes and they shared at least 90% of our hominin history from its beginnings around 8 million years ago . The essence of hominin evolution ever since has been gradual change, with occasional rapid phases. The record of evolution in our own genus , Homo , is already full enough to show we cannot separate ourselves with hard lines. Nonetheless, there is enough consensus to thread the story of human evolution all the way from early apes to modern humanity. Most of this story centers on Africa, of course, where countries such as Kenya, South Africa and Ethiopia are rightly proud of their heritage as "cradles of humankind" —providing many of their schoolchildren with a much fuller answer then those in the west to this deceptively simple question: how did we get here? Early apes to 'hominization' (around 35m to 8m years ago) The story of human evolution usually starts at the point our distant ancestors began to separate from the apes, whose own ancestors are traceable from at least 35 million years ago and are well attested as fossils . Around 10 million years ago, the Miocene world was warm, moist and forested. Apes lived far and wide from Europe to China, though we have found them especially in Africa, where sediments of ancient volcanoes preserve their remains. This world was soon to be disrupted by cooling temperatures and, in places, great aridity—best seen around the Mediterranean , where continental movements closed off the Straits of Gibraltar and the whole sea evaporated several times, leaving immense salt deposits under the floor of the modern sea. Widespread drying was reported from around 7 to 6 million years ago, leading to a stronger expression of seasons in much of the world, and changes in plant and animal communities. The divergence from the apes of a lineage—the hominins—that eventually led to us had probably already begun 8 million years ago. But our knowledge of this date depends on molecular comparisons with other animals, rather than fossils. DNA shows we are most closely related to chimpanzees and their sister species, the bonobo. Branching points can be estimated by comparisons with other well-dated events, such as the separation of South American monkeys from other primates about 35 million years ago. Discover the latest in science, tech, and space with over 100,000 subscribers who rely on Phys.org for daily insights. Sign up for our free newsletter and get updates on breakthroughs, innovations, and research that matter— daily or weekly . A surprise from genetic science is that gorillas, the other African great apes, are less closely related to chimpanzees than chimps are to us. A chimpanzee, if it could speak, might tell us: "These gorillas may look like my big brothers, but actually I'm more closely related to you." They seem so similar because they are both tropical forest apes with similar adaptations, which underlines just how much—and how rapidly—the earliest hominins had to evolve to survive in their drier environments. Yet, there is still some debate about whether the chimpanzee is our best model for the starting point: the "last common ancestor" . Better to call it the "best living model" because the chimp has shown many adaptations of its own, especially in its limb proportions and locomotion, but also in its large shearing front teeth. But its social behavior, communication and tool-making have all provided invaluable insights into the processes that we can call "hominization." Earliest hominins (about 7m up to 4m years ago) The earliest hominin fossil yet known is about 7 million years old and comes from the middle of Africa, near Lake Chad. This rare find from 2001 is Sahelanthropus tchadensis , represented by a cranium (nicknamed "Toumaï" by its finders), a femur and teeth—all probably from the same species. Although these finds were limited, they were enough to show a bipedal creature probably still comfortable living in trees, who had teeth with hominin features. Many accompanying fossils of other species show this hominin lived in both woodland and grassland habitats. Then, for over a million years, our record vanishes—other than for some fragmentary remains of Orrorin tugenensis , a different genus of hominin found in the Tugen Hills of Kenya and dating to about 6 million years ago. Hominins appear again in plain sight with a new species dating back around 5.5 million years, Ardipithecus kadabba . The discovery of its partial jawbone and teeth in the Middle Awash region of northern Ethiopia in 1997 shed more light on what may have been the "stem ancestor" leading to all later hominins. Exceptionally thorough investigations have since revealed these creatures in full anatomical detail and in remarkable environmental context, showing Ardipithecus combined characters of both apes and later hominins. A. kadabba's finders emphasized that it was not chimpanzee-like in limb proportions, nor did it have their exaggerated shovel-like front teeth. It also overturned the old theory of hominins coming down from the trees into savannas, and thus being forced to become bipedal. Rather, Ardipithecus lived in thick woodland and supports the idea that bipedalism first arose as an adaptation to walking along tree boughs, perhaps while clasping the branches above. The stem hominin idea may well be correct, but more recent finds suggest there were soon multiple hominin species . While Ardipithecus is known from only one modern country, Ethiopia, there are huge areas of Africa that could have supported similar sibling species but which, for geological reasons, have not given up these secrets as generously as sections of the Great Rift Valley. It is also striking that Ardipithecus' feet remained apelike, with a divergent big toe—a sign that climbing trees was still important. The other, later species of Ardipithecus ( Ar. Ramidus ) lived only half a million years before the famous footprints found in Laetoli, Tanzania in 1976—trails of footprints that displayed fully human characteristics. Evolution would need to have been rapid indeed for those two creatures to be directly related. Even so, Ardipithecus had features that are enormously valuable for showing the general state of hominins at this time. Its pelvis, the oldest known, was short and basin-like as in later hominins, although ape-like in its lower part. And its teeth had enamel that was thicker than in African apes but thinner than in modern humans, suggesting an omnivorous diet. Australopithecines (about 4.3m to 1.4m years ago) More than 4 million years ago, another group of hominins begins to appear on the scene: the genus Australopithecus , named after the "Taung child" whose skull was discovered 100 years ago by workmen in the South African limestone quarry. While the name means "southern ape," the australopithecines were certainly hominins. Fully bipedal, their teeth were arranged in a modern human pattern with their canines reduced—sometimes to an extraordinary degree—and they existed in great diversity. As finds accumulate, at least ten species of this group are now known, indicating "adaptive radiation" —meaning that hominins had become highly successful and were by now adjusting to many different habitats and climates. While the australopithecines were confined to Africa, they extended widely from the south to the east and even towards the west near Lake Chad—close to the find of the older Sahelanthropus . This distribution underlines the argument for hominins having originated in Africa, as had been long suspected from the shared heritage with African apes. The oldest Australopithecus is A. anamensis , found in northern Kenya and dating to more than 4 million years ago, closely followed by A. afarensis in Ethiopia— Lucy's species —and A. prometheus in South Africa. Then, in addition to species such as A. africanus and A. garhi , there is a further group who combined enormous chewing teeth and ape-sized brains—their massive jaws and skulls led to them being dubbed the "robusts." Often officially termed Paranthropus rather than Australopithecus , they occurred as three separate species in southern and eastern Africa , appearing at least 3 million years ago and surviving until about 1.4 million years ago. While microwear studies of their teeth suggest a mixed diet, the huge size of those teeth implies it was of low quality, with grasses and sedges providing the bulk. Indeed, the dominance of these creatures' massive molars meant their front teeth shrank to the extent that their incisors and canines were consistently smaller than ours today. Although the African Rift Valley running down the east side of the continent is often celebrated as the focus of hominin origins, the distribution of australopithecines is just wide enough to show the rift is not necessarily the cradle of humankind—although it is the region where most fossils have been found. South Africa's dolomite caves are strong competitors in importance, while the discovery of A. bahrelghazali in Chad is far west of the rift. Beginnings of Homo (from about 2.8m years ago) It is certain that our own genus, Homo , emerged at some point from within the australopithecines. But exactly how and when is still difficult to ascertain, because cranial remains—skulls—are very scarce in the period between 3 and 2 million years ago. This is a matter of chance; before and after, we have plenty of them. Large numbers of teeth prove that hominins were in eastern and southern Africa during this period, and rare finds of crania such as P. aethiopicus and A. garhi make the point that others could be found at any moment. In later times, Homo is distinguished by its very large brain—about three times the size of a chimpanzee's brain—but this was not so in the beginning. At the start, Homo would have been almost indistinguishable from australopithecines, with just some small anatomical details picking it out, especially the shape of its molar and premolar teeth. Fragmentary jaws and teeth from Ledi Geraru and Hadar in Ethiopia, then from Chemeron in Kenya, trace the early story of our direct ancestors from 2.8 to 2.4 million years ago. As we approach 2 million years, Homo appears much more clearly in famous skull and other fossil discoveries from Olduvai Gorge (Tanzania) and East Turkana (Kenya), and latterly South Africa . As well as at least three species in Africa— Homo habilis , Homo rudolfensis and Homo erectus — Homo of similar age is suddenly found outside Africa, especially at Dmanisi in modern-day Georgia, where the finds are as old as those from Olduvai. Together with first archaeological finds of stone tools and cutmarks on animal bones indicating butchery, these fossils combine to show us that Homo had become highly successful within a million years of its origins, and had spread out far across Asia as far as China. These first arrivals must have been a species of early Homo , but it is only at Dmanisi and Lantien in China that we have early fossil remains. Technology was almost certainly part of the adaptation that allowed this great expansion. Tool-making is the most obvious part of early cultural behavior, and it is preserved as hard evidence by the presence of stone tools. First dates for stone tool-making have moved back in an exciting way. The 2 million-year barrier was broken around 1970, then the 3 million-year barrier just recently with discoveries of stone tools at Lomekwi and Nyayanga in Kenya. We do not know who made these tools, but it means stone artifacts emerged around the same time that early Homo appeared alongside the australopithecines. As "stone age visiting cards"—as the archaeologist Glynn Isaac labeled them—they are hugely useful for telling us where hominins went, and what they were doing. Talking point: Who made the first tools? A generation ago, it would have been axiomatic that the emergence of tools and Homo were linked, and that they signaled a major step forward—the development of early human culture. Now, there is a different perspective, largely owing to detailed studies of living animals . To a striking degree, chimpanzees make a range of tools as well as use them, and so do the small capuchin monkeys of South America. Birds too are in the picture, especially the New Caledonian crow . Their tools may be simple—mainly made from plant materials—but they include stones used for hammering. There are many indications that this animal behavior is cultural , handed on as learned tradition. Granted that we, Homo sapiens , are the most cultural animal of all, there has to be a possibility that all hominins were toolmakers and users, given that all fossil hominins are more closely related to us than to the chimpanzee, which is itself a habitual toolmaker. Having said that, we don't know who made the earliest stone tools. We know that when Paranthropus and other australopithecines eventually disappeared, toolmaking continued—but this does not rule out earlier tool use by some of them. Most early stone artifacts, from about 3 to 1.8 million, are placed in the "Oldowan tradition" —named after Olduvai Gorge where so many tools have been discovered, typically made from carefully selected lava or quartzite rocks. Both heavy core tools such as "choppers" and sharper stone flakes were used for a variety of tasks—certainly including animal butchery, and almost certainly in the preparation of plant foods and shaping of wooden tools (although these did not survive for our discovery until much later ). This toolkit literally gave early Homo species a cutting edge in the struggle for survival in varied environments, and may have been a key factor underlying their ability to expand their niche into new areas, including Jordan , north India and China well over 2 million years ago. Homo erectus (about 1.8m up to 0.5m years ago) After the rapidly expanding australopithecines, it is a relief to find the next 1.5 million years of human evolution looking rather simpler. One hominin— Homo erectus —becomes supreme, and the archaeology is dominated by one great theme: the handaxe or Acheulean tradition . Homo erectus first appeared as long as 2 million years ago, and was living in southern, eastern and northern Africa as well as the Middle and Far East, according to its fossil remains. It was far more human than earlier hominins, with brain size ranging from about 500cc in early examples to more than 1,000cc in later times—around 70% of our modern cranial capacity. Its limb proportions were fairly modern too, showing a striding form of bipedalism, evident both at Dmanisi in Georgia, and in the near-complete skeleton of "Turkana Boy" in Kenya. Homo erectus was wide-ranging and capable, as its tools confirm, having been found all over Africa and most of Asia. The handaxe form emerged around 1.75 million years ago in eastern Africa, probably as a good multi-purpose solution to everyday needs, and again made from lava or quartzite. The handaxe concept spread very widely; indeed, this may have been the first great diffusion of a "package of ideas." Some were so finely worked that they have been deemed the first art —or at least a sign of aesthetic feeling. In fact, Homo erectus may represent a group of similar species that existed in parallel—and that in some locations, could be quite varied. The single site of Dmanisi has offered up as much variety in five skulls as has been found across Africa. Existing finds make a giant "geographical donut," with nothing in the middle across the whole of southern Asia from Georgia to China. While Far Eastern Homo erectus was very similar to the African species, there are anomalies in this part of the story. For example, a remarkable and diminutive hominin species, Homo floresiensis —discovered in 2003 on the remote island of Flores in Indonesia, and often known as "the Hobbit"– had anatomical details, especially of its wrists, to suggest it could have been descended from an earlier Homo than Homo erectus . In southern Africa, meanwhile, Homo naledi was a primitive-seeming species that dates back just 300,000 years, and seems likely to have been a small-brained descendant of an early Homo erectus . It may have lived in gallery forest alongside streams, and survived in splendid isolation. The handaxes, too, were not all the same. The idea of making them seems to have spread far and wide, but not everywhere—they are absent in much of the Far East, for example. While some are now known from China, the famous fossil site of Zhoukoudian near Beijing—where remains of more than 40 Homo erectus individuals have been found—lacks them entirely. In Europe, ice ages and temperate periods alternated many times, so across the last 1 million years much of the early record has been erased by ice sheets. There is no definite evidence of Homo erectus but a probable sister species, Homo antecessor , lived in Atapuerca , northern Spain, perhaps as long ago as 1.4 million years. In this climatically challenging environment, we could wonder how "primitive" humans survived—but at the Arago cave in the Pyrenees, near France's Mediterranean coast, we know they were butchering reindeer 600,000 years ago and so able to endure the most severe cold. There are three main things we can say about the hominins of this long period up to half a million years ago: they were widely dispersed (hence highly adaptable and resilient); technically capable to the point that at least some of them used fire; and were evolving large brains that reflected their highly social nature. Fire seems to have been very important in human adaptation . It fits with ideas about cooking —the need for high-quality food to fuel the brain—and a reordering of the day to provide more social time , especially in the evening. Fire was also a key enabler of other technologies, in time allowing these early humans to begin pottery and metalworking. The origins of fire's "domestication" are far from certain, but are likely to date back at least 1 million years. Opportunistic use probably came before full control, with the ability to kindle fire eventually releasing humans from the need to keep it alight for long periods. Talking point: The benefits of a bigger brain In brain size, Homo erectus was certainly not static. Contrary to a general impression that most of the great brain enlargement in Homo is relatively recent, there was already some overlap with modern humans half a million years ago. Although it is natural to think that to be clever is an end in itself, large brains like ours are costly enough to take 20–30% of our energy, and they have to pay their way. Most species succeed with far less than hominins, and to treble brain size in 2 million years is a remarkable phenomenon. Such an expansion was only possible through a high-quality diet and reduction in the size of other major organs. As the large brain is energetically expensive, it must have had evolutionary drivers. One of the most appealing is the "social brain hypothesis" , whose core idea is that in some environments, ecological survival favored larger groups. We know from regular stone tool transport distances of 5–10 km, and occasional ones of 20–30km, that hominins were ranging much further than apes even 2 million years ago. The social management of such groups is very demanding, and may have been a spur towards developing larger brains. The acceleration in change that is such a feature of modern life seems to have started around half a million years ago. In Africa, Homo erectus gave way to larger-brained descendants such as Homo heidelbergensis , which was also present in Europe. But in archaeology, major developments were seen even before the first early modern human fossils emerged. Two key developments were the appearance of projectile (spear) points and the long-distance transport of materials. The stone spear points indicated that their makers had mastered hafting , and hence had knowledge of fixatives such as glue or twine. In southern Africa, we see the beginnings of these developments as long as 400,000 years ago. With their bigger brains, larger social groups and better weapons, hominins developed and honed their unique hunting techniques , often working by ambush and taking prime animals rather than the old and young. While that pattern may date back more than a million years, in the last 50,000 years this practice may have been so intense that it contributed to the demise of many large animals, including the mammoth, mastodons, and giant marsupials. In all this, there is plentiful evidence of high skill. In the Levallois technique , which few can reproduce today, the maker prepared a stone core by careful flaking, and had to "see" the artifact before releasing in one blow. Such skills could approach art . Numbers of ancient pieces including some of the handaxes would qualify as art by modern definitions, although we know little about the past intent. Such finds suggest the basic abilities for art were in place as much as a million years ago, but its projection into non-utilitarian forms gives another level to the evidence of human intellect. Modern humans (from around 300,000 years ago) Many people look at human evolution chiefly to explain us, Homo sapiens . But we are the culmination of a long process of evolution—no more than 5% of the whole hominin story by time spent on this planet. Until the 1980s, our species was thought to have first appeared around 40,000 years ago in a "human revolution"—an explosion of creativity marked by the flowering of cave art and sophisticated tools. However, many events in this analysis were incorrectly concertinaed together by a ceiling in radiocarbon dates , which the rapid decay rate of carbon-14 limited to a maximum age of about 40,000 years. Since then, new dating techniques based on other radioisotopes and new finds have expanded the timescale for the existence of Homo sapiens by almost a factor of ten. In fact, the first early modern humans , closely resembling us, appeared about 300,000 years ago in northern and eastern Africa. This drastic change of timescale alters our perspective in ways that are still being explored. For a start, we now know that for a long period, the earliest modern humans were not alone. They existed alongside Homo neanderthalensis , the Neanderthals—the people of the north, ranging from western Europe to Siberia—for hundreds of thousands of years. To the east, DNA studies have recognized a probable sister group of the Neanderthals, the Denisovans —best known from Denisova cave in the Altai mountains of Siberia—while to the south, Homo naledi was still there, and the Kabwe skull from Zambia is evidence for at least one other species. Astonishing progress in genomic research has shown that the Neanderthals and Denisovans were separate species , but so closely related to our H. sapiens ancestors that interbreeding was possible. Does the ability of these species to interact imply the existence of language? As with fire, language origins have been one of the major debating points within palaeoanthropology. Small clues are enigmatic. More than 2 million years ago, a mutation reduced the power of the chewing muscles in human ancestors. That may indicate they were doing more food preparation, but also possibly making more controlled use of their mouths . Expanded nerve outlets in the thoracic vertebrae appeared in Homo erectus , indicating the millisecond control of breathing that is necessary for language. And later, 400,000-year-old Homo heidelbergensis remains from Atapuerca in northern Spain had perfectly preserved ear canals which were tuned to the frequencies used in human language. As these Atapuerca hominins were probable Neanderthal ancestors, there is a good chance that at least a simple form of language was very widespread at this point, if not earlier. Paintings first appeared—or were preserved—around 50,000 years ago, but beads and ornaments can be traced back much earlier. The oldest so far are shell beads from Es-Skhul cave on Mount Carmel in Israel, dating back about 130,000 years. They mark out personal identity, and hence the idea that one person can appreciate these signals in another. Shell beads occurred again at Blombos in South Africa about 70,000 years ago, along with a piece of engraved ochre. Burials have a similar antiquity: both Neanderthal and early modern burials occurred from about 130,000 years ago—although older finds such as the numerous human remains in one cave at Atapuerca, or cutmarks on a skull at Bodo in Ethiopia, may indicate there was already a special interest in human bodies. The burials suggest that early humans had a strong idea of the needs of others. Some burials—both of early moderns and Neanderthals—had red ochre smeared on the bodies. This is likely to have carried symbolic significance. "Symbolism" has played a crucial part in all modern human behavior, underpinning language, religion, and art. However, studying its origins presents pitfalls, because other animals seem capable of using symbols, as when a chimpanzee offers a clipped leaf to another. The line between such "signs" and symbols is easily blurred. But the projection of symbols into the outside world in the form of material objects is a measurable step, so long as they survive. The beads and burials are among the earliest evidence of behavior which may, in fact, have had much deeper origins. The great breakout (about 100,000 years ago) More than 100,000 years ago, the early modern humans began to expand outside Africa, leading to the greatest diaspora in human history. Variation in modern human DNA preserves geographic signals that tell us something about past population movements. Even better, fossil DNA can be isolated from bone specimens up to about 50,000 years old in cool climates, and sometimes even older. The results confirm that the Neanderthals were a truly separate species, with their ancestors separating from ours between 500,000 and 700,000 years ago, and living on until about 40,000 years ago. Some of the clearest genetic signals come from parts of the genome that do not recombine each generation—that is, the Y-chromosome and mitochondrial DNA. These have allowed scientists to assemble "family trees" which show that all modern humans ( Homo sapiens ) are related within about 150,000 years. They also indicate, along with the archaeological evidence, that modern humans surged out of Africa after that date, sweeping around the world and eventually completely replacing other hominins such as the Neanderthals and Denisovans—although some of their genes survived in us, thanks to rare past matings between species. In essence, this was a great population expansion rather than a migration. Populations remained in Africa and along the way, but this astonishing wave of advance headed east across Asia, then north into Europe, and ultimately to all parts of the world. The start was necessarily from north-east Africa, offering a land route into the Middle East and, at times of low sea-level, a likely southern one to Arabia . Climate changes almost certainly played a major part: each time "green Sahara" became desert Sahara in the rhythmic changes of the ice ages, this would pulse people out into the Levant . Modern humans are visible there around 130,000 years ago—but Neanderthals succeeded them around 80,000 years ago as conditions became colder again. Probably by then, the great move east had already happened: early modern humans had covered the 12,000 kilometers to Australia as long as 70,000 years ago. At least 45,000 years ago, they were in north-east China , perhaps arriving by a route north of the Himalayas. From there, it was 6,000km to the Bering landbridge that would lead to Alaska. By 14,500 years ago, modern humans were in Monte Verde, Chile after an astonishing 15,000km journey down the Americas. The severe cold of the last glacial maximum , 20,000 years ago, must have slowed down this progress. Sea levels dropped more than 100 meters, and northern populations were rolled back by the ice advances. Many American archaeologists still believe the first settlement in their continent began after this, but footprint trails in New Mexico dated to the 20,000s BCE are part of growing evidence for earlier dates. Such debates do not alter the big picture: at times, our direct ancestors were progressing about a kilometer every five years; at others, they were shooting forward great distances. Some of them, at least, had become adventurers, with something like the wanderlust characteristic of modern explorers. They traveled both inland and along the coasts, by foot and certainly by boat. They covered high and low terrain, in warm and cold, wet and dry—all the while, living by the ancient and enduring adaptation of hunting and gathering. Last of the Neanderthals (about 40,000 years ago) Historically, studies in human evolution greatly emphasized Europe. While the balance has rightly been redressed to a global perspective in the last 50 years, Europe remains important in our record—both because northern climates better preserve organic remains including DNA, and because this rich record has been studied intensively for more than 150 years. Amid the great diaspora of early modern humans, a newer perspective is that, by the time the last Neanderthals were gone from Europe, fully modern humans had already dispersed through Australia and throughout the Far East. But these events remain puzzling because the Neanderthals had held their own with early modern humans for hundreds of thousands of years across a fluctuating frontier, and were dominant in the Middle East as late as 60,000 years ago. The Neanderthals have an enduring fascination because they are so like us and yet so different. They were stocky and strong, and had a brain size as large as ours. Their abilities have been debated for more than a century, but there is strong evidence that they are an alternative humanity rather than an inferior humanity. They had full control of fire, made bone tools, and used pigments as well as burying their dead. Their replacement by modern humans was completed between 50,000 and 40,000 years ago. What gave the moderns the edge? It could be that a known series of rapid climate fluctuations destabilized the Neanderthal populations. There is evidence that they were living in small groups, under stress and with significant inbreeding , and a consensus now is that demographic factors were a main cause of their disappearance. Talking point: Art and technology In Europe, the traditional idea of a "creative revolution" was highlighted by the disappearance of the Neanderthals around 40,000 years ago, and the arrival of new populations with new toolkits—the Upper Paleolithic with its blade tools, bone tools and artwork. Elsewhere, such advanced traits often appeared earlier. At the moment, the earliest known cave art comes from Karampuang Hill on Sulawesi, Indonesia, where there are representations of humans and animals dated to 51,000 years ago. European art is considerably later, except for some markings which could have been made by Neanderthals, who certainly used pigments. From around 40,000 years ago, there began to be other representations, including one of exceptional importance: a small statue of mammoth ivory found in a cave in what is now southern Germany. It combines the head of a lion with a human body , showing the artist's ability to morph a 3D form which may have had religious significance. By the time of the 20,000s BCE, we see many signs of new technologies and skills: basketry in the Gravettian phase of central Europe; the first pottery in China ; polished axes in Australia and New Guinea ; and specialized use of marine resources in South Africa, Indonesia and elsewhere. Probably, there were also the first domesticated dogs , who became well-documented in Europe about 15,000 years ago. After the ice (about 20,000 years ago) Following the glacial maximum, there came a steady return to warmer conditions, culminating in the period we call the Holocene . Ice sheets retreated to the north, temperate vegetation appeared and the sea came up, with profound effects on coastal settlement around the world. Along with new environmental stresses, around 12,000 years ago came the next major shift in human adaptation: the agricultural revolution . The domestication of plants and animals soon led to vast increases in population numbers. Villages, towns and civilizations followed, ultimately made possible by the control of food supplies that hunters and gatherers could never have, but also dependent on technological advances and complex social behavior. It is easy to take for granted that we are human. But knowing the human evolutionary story, even if at times from only a few fossil fragments, shows it could easily have been otherwise. Had climate patterns been slightly different, Neanderthals might have survived. They or the Denisovans could be carrying the flag of progress, in a different way and at a different pace. Today, we are still not on top of things. The greatest changes in the world are humanly created, and they stem above all from our vast numbers. For at least 99.5% of the time of Homo , our ancestors lived as hunters and gatherers, with global numbers no more than a few million. Yet now, over a single human lifespan, the global population has grown fourfold, from 2 billion to 8 billion. The story of human evolution is about more than bones and stones. It helps us to see our many strengths and limitations. The strengths include an ability to manage rapid cultural change, especially in technology—the key to our survival over a very long period, and vital for coping with environmental change. But this ability is also having many unforeseen consequences to our planet and its biodiversity, and to our own human societies. It is a triumph that most of the 8 billion humans alive today are living relatively happily and, thanks to modern medicine, for longer than ever before. But it is all part of a high-risk species strategy that has characterized the story of human evolution from its earliest origins nearly 8 million years ago. Throughout this story, success has regularly thrown up new sets of problems. Our ancient ancestors had no choice but to forge forwards into the unknown, adapting to survive. Many times over, they surmounted challenges at least as great as those we face today. Provided by The Conversation This article is republished from The Conversation under a Creative Commons license. 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In light of this tragic incident, massage parlors and spas are being urged to reinforce their training programs for staff and ensure that safety measures are strictly adhered to. Clients, on the other hand, are advised to communicate openly with their massage therapists about any preexisting medical conditions or concerns to ensure that the treatment is tailored to their specific needs.
Tencent Video, one of China's leading online streaming platforms, recently announced a revision in its VIP device access rights for new subscribers while ensuring that existing member benefits remain unchanged. This move has sparked discussions and reactions among the platform's user base, with many expressing their opinions on social media and online forums.
The decision by special counsel Jack Smith, who had fiercely sought to hold Mr Trump criminally accountable for his efforts to subvert the 2020 election, represented the end of the federal effort against the former president following his election victory this month despite the election-related cases and multiple other unrelated criminal charges against him. The move, announced in court papers, marks the end of the Justice Department’s landmark effort to hold Mr Trump accountable for what prosecutors called a criminal conspiracy to cling to power in the run-up to his supporters’ attack on the US Capitol on January 6 2021. In court papers, prosecutors said the Justice Department’s position “is that the Constitution requires that this case be dismissed before the defendant is inaugurated”. Mr Smith’s team emphasised that the move to abandon the prosecutions, in federal courts in Washington and Florida, was not a reflection of their view on the merits of the cases but rather a reflection of their commitment to longstanding department policy. “That prohibition is categorical and does not turn on the gravity of the crimes charged, the strength of the Government’s proof, or the merits of the prosecution, which the Government stands fully behind,” the prosecutors wrote in Monday’s court filing in the election interference case. The decision was expected after Mr Smith’s team began assessing how to wind down both the 2020 election interference case and the separate classified documents case in the wake of Mr Trump’s victory over Vice President Kamala Harris. The Justice Department believes Trump can no longer be tried in accordance with longstanding policy that says sitting presidents cannot be prosecuted. Mr Trump has cast both cases as politically motivated and has vowed to fire Mr Smith as soon as he takes office in January. The 2020 election case brought last year was once seen as one of the most serious legal threats facing the Republican as he vied to reclaim the White House. However, it quickly stalled amid legal fighting over Mr Trump’s sweeping claims of immunity from prosecution for acts he took while in the White House. The US Supreme Court in July ruled for the first time that former presidents have broad immunity from prosecution, and sent the case back to US District Judge Tanya Chutkan to determine which allegations in the indictment, if any, could proceed to trial. The case was just beginning to pick up steam again in the trial court in the weeks leading up to this year’s election. Mr Smith’s team filed a lengthy brief in October laying out new evidence they planned to use against him at trial, accusing him of “resorting to crimes” in an increasingly desperate effort to overturn the will over voters after he lost to President Joe Biden.As we celebrate the completion of 41,715 units in Liaoning Province, we are reminded of the importance of strategic planning, effective execution, and a relentless commitment to serving the needs of the people. The early completion of the "Bao Jiao Fang" mission is a testament to the power of determination and teamwork in overcoming challenges and achieving success.