“In my personal archaeological research I’ve been focused on the shores of Lake Erie (and a few inland sites) beach and general shoreline lithic retrievals— on the Canadian side of the lake—for many years.”
Top Left- one of the retrieval locations. Top Right- one of the retrieved teeth sent to Dr. Walker. Center- eg’s of stone artifacts discovered in indirect association with some of the teeth.
The surf and weather are odd bedfellows, on one hand revealing and on the other destroying, so it seemed obvious to me that I should keep eyes to the ground, sand, and wave line and to pick up what seemed to me to be artifacts.
Occasionally friable materials turn up such as large, disarticulated bones. Even a basket made from reeds turned up. And then there’s the teeth— found in several varied locations and in indirect association with what look to me like artifacts and pierced pebbles.
I’ve yet, however, to find any of this material in situ, i.e. still buried in its confining sediments.
Some of the teeth seem to have been ‘broken’ perpendicular to the long axes, some seem to have been burned and some show calcified deposits of calculus in the interproximal grooves (I worked in dentistry for several years so have a basic understanding of tooth morphology and deposit identification etc).
Some teeth were found inland quite a few miles away from Lake Erie. I later contacted Dr. Danny Walker, RPA, Wyoming Assistant State Archaeologist at the Comparative Osteology Museum and Zooarchaeology Laboratory. I emailed to him photos and descriptions of the teeth. He kindly offered to study several of the teeth. (Dr. Walker is a co-author of the research paper, Unraveling the sequence and structure of the protein osteocalcin from a 42 ka fossil horse, Geochimica et CosmochimicaActa 2006;70(8):2034-44.)
(Center) Equus Scotti- Pleistocene horse once native to North America.
Along with his graduate students, Dr. Walker identified the teeth that I had mailed to him as Equusscotti—Pleistocene ice-age horse. Now the story begins to resemble somewhat the X-files. The established archaeological community here in Ontario and the Royal Ontario Museum (I made all aware of the teeth, the lithics and the identification offered by Dr. Walker) disputed the finds, the identification and the lithics. The Royal Ontario Museum also told me that if I had the teeth dated and they showed as pre-contact, then they would offer this explanation— that the teeth were deposited on the Lake Erie shoreline after being brought aboard lake freighters from Europe; i.e. that they may have filled their ballast with gravels which could have included the teeth.
Putting aside the low probability of this possibility, as well as the fact that Equus scotti is a North American horse, the skeptics have failed to address the fact that some teeth were discovered inland—many miles away from Lake Erie. For the Silo, Jarrod Barker.
Within the last generation, archaeology has undergone a major transformation, developing from an independent small-scale activity, based upon museums and a few university departments, into a large-scale state organization based upon national legislation.
Dreamer by Thomas Dodd Photography
This has entailed an increase in resources on an unprecedented scale, and has drastically changed the profile of archaeology, which is now firmly fixed within the political and national domains. Moreover, decision making within the discipline has shifted from museums and university departments towards various new national agencies for the conservation and protection of the cultural heritage.
The tradition of archaeology in the Americas (both North and South America) is defined by cross-cultural comparative research that draws heavily on an innovative tradition of regional-scale fieldwork.
Many early archaeo-pioneers worked in multiple culture areas of the Americas, seeking direct connections between the archaeological record and living or historical indigenous peoples, and fostering close ties with the related field of anthropology as a result.
WPA trowel men at work,Thompson Village Site,Tennessee. Image courtesy of the Frank H. McClung Museum, University of Tennessee (62HY5[B]This brief overview covers seminal developments in stratigraphic excavation (the idea that time deposits artifacts in successive layers- the lower the layer, the older the artifact), regional survey, and other field methods within their historical and geographic context.
Such pioneering archaeological efforts across the globe are often lauded for their early attention to stratigraphy and the association of geological or cultural strata with change in human societies over time. In the Americas, as in other parts of the globe, such attention was often the result of non-systematic excavations into mounds of anthropomorphic origin. In other words- ‘grave robbers’. Continue reading by clicking here.For the Silo, David M. Carballo /academia.edu / Department of Archaeology, Boston University/ Jarrod Barker.
Featured image- Archaeological Pioneers Of The Americas Gordon Willey Tula Mexico
Cahokia – Kunnemann Group submitted by durhamnature. Excavation of Kunnemann Mound, one of 6-11, from “Cahokia Mounds” via Archive.org
For over 25 years archaeological efforts have been ongoing to delineate where potential prehistoric trails exist across the landscape of southern Ontario. Trails were created and used by the earliest inhabitants of the region after glaciers disappeared some 15,000 years ago. One of the roles for a trail system was to help keep people alive.
The challenge to identify the existence of these trails is that they existed approximately 10,000 years ago. The primary region for this research has been Haldimand-Norfolk County. In the past seven years the search for prehistoric trail systems in these two counties has become increasingly intensive as part of the Haldimand-Norfolk Archaeological Regional Project (HNARP) http://www.hnarp.ca/ .
The premise of the regional project is to better understand how early people lived and managed their lives on a landscape once rich with animal, plant, and raw resources such as rock for making stone tools.
A critical activity that has assisted this regional project is permission to walk over farm lands from supportive agricultural land owners to help find these trails. Access to farm lands assists archaeologists to identify where people lived in the region. The land mass of the two counties combined covers approximately 2,000 square kilometers.
Historically, it was always possible to read information written down and recorded about trails in the region. This would include place names and popularly used trails. Even oral history in Haldimand County by senior land owners some 30 years ago mentioned trails used by people to walk across the landscape to neighbouring farms, villages, and the shores of Lake Erie.
To date, archaeologists have identified artifacts left behind by people still exist after 10,000 years of changes to the landscape. One piece of evidence has been the type of stone used for making tools. Throughout the world people searched out different types of rock for making stone tools.
In Haldimand County, chert formations created over tens of millions of years ago can be found. These chert formations have different identifying markers such as colours and fossils that make chert distinct from others. It is these identifying markers that help chert to be identified from its original source and help to develop new evidence to show where and when people lived and crossed the landscape.
It is hoped that finding and identifying the different colour cherts and fossils in the rock will help archaeologists piece together Haldimand-Norfolk County’s long forgotten past. For the Silo, Lorenz Bruechert.
There is a paucity of Palaeolithic art in the southern Levant prior to 15000 years ago. The Natufian culture (15000–11500 BP; Grosman 2013) marks a threshold in the magnitude and diversity of artistic manifestations (Bar-Yosef 1997). Nevertheless, depictions of the human form remain rare—only a few representations of the human face have been reported to date. This PDF article presents a 12000-year-old example unearthed at the Late Natufian site of Nahal Ein Gev II (NEGII), just east of the Sea of Galilee, Israel (see Figure 1 PDF link below). The object provides a glimpse into Natufian conventions of human representation, and opens a rare opportunity for deeper understanding of the Natufian symbolic system.
The NEGII face is carved from a limestone pebble measuring 90×60mm.
Minimalistic manipulation of the pebble’s surface creates a simple but realistic human expression. The artist used the natural form of the pebble to represent the outline of a human head, and slightly modified the stone’s perimeter with a flat band to shape the contours of the face(see Figure 2a PDF link below). The main modification engraved on the front of the pebble consists of a T-shaped linear relief that emphasizes an eyebrow ridge and nose; two low arcs that meet at the centre of the pebble form the eyebrow ridge and then turn downward to depict a straight, elongated nose.
By skillful play with line depth and curvature,the artist has achieved a soft depiction of the cheeks and deep, shaded eye sockets (see Figure 3 PDF link below). The artistic qualities of the representation are schematic, but they present a realistic and uniquely expressive human face.
Leore Grosman
The back of the pebble is not carved but is lightly modified at the edges. Microscopic analysis shows a few small, smooth and shiny areas that may have been created by gentle polishing of the surface with a soft material such as skin or fabric, or by…… continue reading this article by clicking here.For the Silo by Leore Grosman, with Natalie Munro and Hadas Goldgeier/ academia.eu. Feature image photo by Dana Shaham.
The Canada Aviation and Space Museum is proud to support OEX Recovery Group Incorporated (“OEX”), in a project involving the search-and-recovery of nine free-flight Avro Arrow models from Lake Ontario. The project was created by OEX as a Canada 150 initiative.
As one of the three museums under the new Ingenium banner, the Canada Aviation and Space Museum – in collaboration with the Canadian Conservation Institute – will provide historical information to support the conservation, treatment, and collection of any recovered models or materials.
The Avro Arrow was the first and last supersonic interceptor designed and built in Canada. Developed between 1953 and 1959, it was produced to counter jet-powered Soviet bombers that had the potential to attack North America over the Arctic.
The nine Avro Arrow free-flight models that OEX hopes to locate and recover were test models used to evaluate aerodynamic qualities and stability of the storied aircraft’s design. They were flown over Lake Ontario between 1954 and 1957.
Through a national partnership involving the Canada Aviation and Space Museum, OEX, the Royal Canadian Air Force and the Canadian Conservation Institute, the Museum will keep the public apprised of any milestones in the search-and-recovery mission. It will also provide periodic updates on plans for conservation, preparation and public exhibition of the artifacts.
OEX holds survey and recovery permits from the Ontario Ministry of Tourism, Culture and Sport. It is financially supported by a group of Canadian mining companies and financial institutions, and is funding survey and recovery work, as well as committing to conservation work and display costs.
Follow this exciting story as it unfolds, using the hashtag #raisethearrow or via IngeniumCanada.org.
Quotations
“Our museum is thrilled to be partnering on this historically significant search-and-recovery project. The Canada Aviation and Space Museum’s collection comprises the largest surviving pieces of the Avro Arrow: a nose section and two wingtips. A free-flight model would be a wonderful addition to our collection, and to the Arrow story we share with Canadians.”
– Fern Proulx, interim President and CEO of Ingenium
“As professional explorers in the mining business, we initiated this program about a year ago with the idea of bringing back a piece of lost Canadian history to the Canadian public. As individuals, as a company, as a group and with our partners and our project participants in this search effort, we all have the same goal in mind: to find and return these beautiful pieces of Canadian technology to the public eye during this anniversary year of our incredible country. Like Avro, our own corporate group was built on dreams, and this project is a proud reminder of what we as Canadians have done, what we do, and what we can do.”
– John Burzynski, President and CEO of Osisko Mining Inc. and head of OEX Recovery Group Incorporated
For the Silo, Zoë Lomer.
About the Canada Aviation and Space Museum
Located on a former military air base just 5 kilometres from the Prime Minister’s residence at 24 Sussex Drive in Ottawa, the Museum focuses on aviation in Canada within an international context, from its beginnings in 1909 to the present day. As Canada’s contribution to aviation expanded to include aerospace technology, the Museum’s collection and mandate grew to include space flight. The Collection itself consists of more than 130 aircraft and artifacts (propellers, engines) from both civil and military service. It gives particular, but not exclusive, reference to Canadian achievements. The most extensive aviation collection in Canada, it is also considered one of the finest aviation museums in the world.
Museum Highlights: Largest surviving pieces of the famous Avro Arrow (its nose section and two wing tips); the original Canadarm used on the Endeavour space shuttle; Lancaster WWII bomber; Life in Orbit: The International Space Station exhibition.
About Ingenium – Canada’s Museums of Science and Innovation
Launched in June 2017, Ingenium is a new national brand established to preserve and share Canada’s story of scientific and technological heritage. This corporate brand, which celebrates ingenuity, encompasses three national institutions – the Canada Agriculture and Food Museum, the Canada Aviation and Space Museum, and the Canada Science and Technology Museum. Under the Ingenium brand, these three museums are places where the past meets the future, with spaces where visitors can learn and explore, play and discover. Ingenium also has an eye to the future with a state-of-the-art Collections Conservation Centre, set to open in 2018, digital and social media platforms, and travelling national and international exhibitions to educate, entertain and engage audiences across Canada and around the world. For more, visit us: IngeniumCanada.org.
Association entre le Musée de l’aviation et de l’espace du Canada et des partenaires nationaux pour la recherche et la récupération d’appareils Arrow de Avro à vol libre dans le lac Ontario
OTTAWA, le 14 juillet 2017 – Le Musée de l’aviation et de l’espace du Canada est fier de soutenir le OEX Recovery Group Incorporated (« OEX ») pour un projet de recherche et de récupération de neuf appareils Arrow de Avro à vol libre dans le lac Ontario. OEX a mis sur pied ce projet dans le cadre d’une initiative Canada 150.
Le Musée de l’aviation et de l’espace du Canada, l’un des trois musées de la bannière Ingenium, en collaboration avec l’Institut canadien de conservation, fournira des renseignements historiques pour soutenir la conservation, le traitement et la collecte de tout appareil ou matériel récupéré.
L’appareil Arrow de Avro a été le premier et le dernier intercepteur supersonique de conception et de fabrication canadienne. Créé entre 1953 et 1959, il a été produit pour résister aux bombardiers à turboréacteurs soviétiques qui avaient la capacité d’attaquer l’Amérique du Nord en passant par l’Arctique.
Les neuf appareils Arrow de Avro à vol libre que OEX espère repérer et récupérer étaient des maquettes utilisées pour évaluer les caractéristiques aérodynamiques et la stabilité de la conception légendaire de l’aéronef. Ils ont survolé le lac Ontario entre 1954 et 1957.
Dans le cadre d’un partenariat national entre le Musée de l’aviation et de l’espace du Canada, OEX, l’Aviation royale canadienne et l’Institut canadien de conservation, le Musée tiendra le public informé sur les étapes de la mission de recherche et de récupération. Il fournira également des mises à jour périodiques sur les plans de conservation, de préparation et d’expositions publiques des artefacts.
OEX détient des permis de reconnaissance et de récupération du ministère du Tourisme, de la Culture et du Sport de l’Ontario, et est soutenu financièrement par un groupe de sociétés minières et d’institutions financières. L’organisme finance le travail de reconnaissance et de récupération, et s’engage à soutenir les coûts de conservation et d’exposition.
Suivez le déroulement de cette passionnante histoire à l’aide du mot-clic #rechercherArrow ou en cliquant sur IngeniumCanada.org.
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Citations
« Notre Musée est ravi de son partenariat pour ce projet de recherche et de récupération d’importance historique. La collection du Musée de l’aviation et de l’espace du Canada compte les plus grandes pièces restantes de l’Arrow d’Avro : une partie avant et deux extrémités d’ailes. Un appareil à vol libre serait un merveilleux ajout à notre collection ainsi qu’à l’histoire du Arrow que nous partageons avec les Canadiens. »
– Fern Proulx, président-directeur général par intérim d’Ingenium
« En tant qu’explorateurs professionnels du secteur minier, nous avons lancé ce programme il y a environ un an dans le but de présenter un morceau perdu de l’histoire canadienne aux citoyens. En tant qu’individus, qu’entreprise, que groupe et avec nos partenaires et les personnes participant à ce projet de recherche, nous avons un seul objectif : retrouver et retourner ces magnifiques pièces de technologie canadienne au public pendant l’année anniversaire de notre superbe pays. Tout comme Avro, notre propre groupe de sociétés s’est bâti sur des rêves, et ce projet rappelle fièrement ce que nous avons fait, ce que nous faisons et ce que nous pouvons faire en tant que Canadiens. »
– John Burzynski, président-directeur général de la minière Osisko et chef du OEX Recovery Group Incorporated
Le Musée de l’aviation et de l’espace du Canada
Le Musée : Situé sur une ancienne base militaire à seulement cinq kilomètres du 24, prom. Sussex à Ottawa, résidence du premier ministre, le Musée concentre ses activités sur l’aviation au Canada dans un contexte international, des débuts de l’aviation au Canada en 1909 jusqu’à nos jours. Comme la contribution à l’aviation du Canada a évolué pour inclure les technologies aérospatiales, la collection et le mandat du Musée se sont aussi élargis pour inclure les vols spatiaux. La collection comprend plus de 130 aéronefs et artéfacts (hélices, moteurs) militaires et civils. L’accent est mis, mais n’est pas exclusif, sur les réalisations canadiennes. Il s’agit de la collection d’aéronefs la plus importante au Canada, et l’un des plus beaux musées mondiaux de l’aviation.
Pièces de résistance: Le plus gros élément du fameux Avro Arrow encore disponible (le nez de l’appareil); le Canadarm d’origine de la navette spatiale Endeavour; le bombardier Lancaster WWII; l’exposition Vivre en orbite : la station spatiale internationale.
À propos d’Ingenium : Musées des sciences et de l’innovation du Canada
Dévoilée en juin 2017, Ingenium est une nouvelle identité qui a été adoptée pour préserver et raconter l’histoire du patrimoine scientifique et technologique du Canada. S’inspirant de la racine latine du mot « ingéniosité », cette identité corporative englobe trois institutions nationales, soit le Musée de l’agriculture et de l’alimentation du Canada, le Musée de l’aviation et de l’espace du Canada et le Musée des sciences et de la technologie du Canada. Sous l’identité Ingenium, ces trois musées deviennent des lieux où le passé rejoint le futur, et où les visiteurs peuvent apprendre et explorer, s’amuser et faire des découvertes. Ingenium se tourne aussi vers l’avenir grâce à son Centre de conservation des collections à la fine pointe de la technologie, dont l’ouverture est prévue en 2018, à ses plateformes numériques et sociales, ainsi qu’à ses expositions itinérantes d’envergure nationale et internationale qui sauront éduquer, divertir et captiver des publics de tous âges partout au Canada et dans le monde entier. Pour en savoir davantage, visitez-nous à IngeniumCanada.org/fr.
Levallois lithic technology in the USA? The cores tell the story by Richard Doninger EDS. DISCLAIMER- We reproduce here a portion of our disclaimer from Doninger’s PCN Part1 article. Doninger’s collection is controversial and may indeed be a mix of genuine artifacts and geofacts.
One of the primary reasons to look at his material is the story he tells. It is one that the founders, members, and many readers of PCN (click here)are very familiar with. It involves a mainstream science community that is so dogmatic in its beliefs that it is willing to both block evidence or not even look at evidence that might challenge those beliefs. These beliefs include that there were no genuinely ancient people in the Americas and that early people throughout the world were less intelligent than us.
The idea that Lower, Middle, or Early Upper Paleolithic-style tools (in the European archaeology sense) are present in the Americas and mainstream resistance to the possibility is something that founding members geologist Virginia Steen-McIntyre (volcanic ash specialist), archaeologist Chris Hardaker, and geologist, the late Sam L. VanLandingham (diatomist) are/were all too familiar with as are also copy editors Tom Baldwin and David Campbell. This is not to mention the layout editor’s experience of censorship regarding evidence disproving cognitive evolution.
So, in a field where censorship of challenging evidence is routine—anthropology—virtually every proclamation the field makes needs to be questioned. One thing that we can be certain of is that once someone becomes “professional” in this field, in all likelihood, they will already be strongly opinionated regarding what is possible.
Dr. Steen-McIntyre, who started this regular feature section of PCN make it as a means to encourage avocational archaeologists and to help them raise the bar above the mere collecting of artifacts (the easy part) to adopting as many professional practices as possible especially in the recording and presenting of their finds. While Doninger’s artifacts are all surface collected, with few specific details of their discoveries recorded he does, nonetheless, present an interesting case that Levallois technology was established and varied in the southwest Indiana (c. Evansville) region.
Our publishing of Rick’s series is not an endorsement of his collection per se, but a reminder that we in the U.S. need to hold our anthropologists accountable as objective scientists, and, like in the field of astronomy, take the contributions of its amateur enthusiasts with a degree of interest.
In Part 1, I shared the story of my initial experience in trying to get input from the mainstream American archaeology community regarding Levallois artifacts including cores I have found in southwest Indiana (e.g., Fig.1) They repeatedly told me that such lithic technology wasn’t present in this country. After many years of research and communication with many professionals, I came to realize a few things that I wasn’t aware of. The first thing is that just because someone is an archaeologist by profession it does not mean that they have any expertise in lithic technology from prehistoric times.
The second is that just because an archaeologist has expertise in Native American lithic technology, does not mean they have any knowledge about lithic technology of early man such as that found abroad, e.g., “Levallois.” This leads to the third and most disappointing which is that many mainstream archaeologists will pretend to know a great deal more about the subject than they actually do and, often, rather than admit that they don’t will fall into simply towing the party line and coming back with a standard mainstream answer should you offer them any kind of evidence that challenges their long held beliefs such as about our origins or how old were the “first Americans” or who might they have been.
I guess one lesson I have learned well is that PhD B.S. is still discernible as B.S. even to a window cleaner such as myself and even though the attempt to camouflage it in scholarly data is present.
After almost two decades of inquiry and research on early lithic technology it seems to me that there is still very little known by American archaeologists about what is considered late Lower or Middle Paleolithic technology such as that found in sites abroad which are “usually” associated with Neanderthal occupations. The terms “Acheulian,” “Mousterian,” or “Levallois” all seem to produce perplexed looks when mentioned in most archaeologist circles and among those who are considered experts in the area of ancient flint tools and flint knapping.
Having said all of these things, I would like to share a bit from an amateur perspective on the subject. I mentioned in my last PCN article that I was told by lithic experts abroad that the only way to identify Levallois lithic reduction was to have some of the cores from which the proposed Levallois flake tools were struck.
Levallois cores are very distinct in appearance and are rarely mistaken for later type technologies such as those blade cores from what is considered the Upper Paleolithic.
There are at least four known core preps which I have found to be considered Levallois which yield several different flake types used in producing a fairly wide variety of tools found from what is considered the late Lower and Middle Paleolithic. All of these are unmistakably different from the American Clovis and later technologies commonly found in the USA.
Those four include the most commonly described “tortoise” (refer to Fig. 1, above), the “centripetal or discoidal” (refer to Fig.2, above),“triangular or chapeau de gendarme,” and the “blocky” core (see Fig.3 below)- all of which yield a very specific type of tool which are similar in morphology and are mostly made on flakes rather than blades (which are the hallmark of most known Native American technologies).
When archaeologists or collectors discover lithic scatters or “debitage” left from Clovis or later archaic tool production it is very recognizable to the trained eye familiar with Native American tool industries. The same applies with Levallois technology and the debitage produced from it. It is unmistakable to the trained eye but can remain virtually invisible to the eye programmed to see Clovis and later evidence, which seems to have been the case for decades now among American archaeologists. They have been recognizing only the evidence that they have been trained to see. That can now change as there is sufficient evidence in enough quantity to recognize what has been considered late Lower and Middle Paleolithic technology all over the world and is now available for analysis here in the USA.
If “the cores tell the story” it can now be told because we have the cores! For this article I have included an example of each core preparation as well as an example point tool (see Fig.4 below) made on Levallois flakes from such cores. A close look at the cores will reveal the negative triangular scars from where triangular flakes were struck revealing the method of reduction.
Levallois lithic reduction has been shown to be a more productive method of tool making in general than the later blade technologies as a wider range of tools can be produced by making the tools on flakes rather than blades. Contrary to the most commonly held belief that later blade technologies such as Clovis or Solutrean were more advanced, I personally believe the Levallois reduction resulted in a much wider range of tools from the same basic core preps which leave one to conclude that it is actually more advanced and complex than those who are assumed to have come later in history.
Over the last several years I have witnessed many who claim expertise in flint knapping who are able to produce virtually every kind of Native American “arrowhead” or bifacial blade tool commonly seen within the known Clovis or later tool industries. Some talented knappers can produce a very fine Clovis point in a matter of minutes and other arrowheads present little challenge in reproduction; but rare are the ones who can reproduce Levallois tools. How the flakes are struck so systematically and consistently from the same core preparation remains a mystery to most. One simply cannot appreciate the complexity of the industry without having such an industry to observe and most American archaeologists have never seen much less handled tools from an actual Levallois assemblage.
We have in recent years witnessed various claims of alleged “pre-Clovis” tools having been found. There are the tools from Meadowcroft Rock Shelter, Buttermilk Creek, Paisley Cave, Cactus Hill, Topper and others, each producing artifacts believed by the finders to represent cultures living here prior to those which produced the famed Clovis industry.
Unlike Clovis technology which has been found in sufficient quantity to establish an identifiable industry, none of the alleged pre-Clovis artifacts have been proven to be of an identifiable technology which has been seen anywhere else in the world in contexts believed to be older than Clovis, leaving only speculation and theory in regard to an actual identifiable “industry” to accompany the claims of a “pre-Clovis” origin.
This is not the case in regard to the assemblages of Levallois artifacts such as the ones being found in as many as eight different states now. These collections clearly display a specific identifiable technology commonly found in sites around the world which are always believed to be from contexts thousands of years older than any yet recorded in the USA. The scholarly critics of “pre-Clovis” claims often use the reasoning that none of the sites have produced a “coherent set of lithic artifacts” to justify the claims.
Having seen much of the lithic evidence from the sites such as Buttermilk Creek and Meadowcroft, I can understand the reluctance to welcome such scant evidence to support the claims because of the absence of a recognizable technology.
Levallois technology is not ambiguous when it is found, regardless of the location. The name is the first indicator in the process of identification…”prepared core.” When such cores are found, identification of the “industry” can begin and an understanding of the actual “technology” becomes comprehensive.
Although I am only showing a few cores and point tools in this article, there are hundreds more in my possession to support my claims of an actual “industry” based on Levallois reduction.
As I have stated previously, I am making no claims regarding the age of these artifacts but rather the “technology” of the tools which is clearly paralleled in the later Acheulian and Middle Paleolithic Mousterian industries of the Old World.
Although the images shown are some of the basic cores and points of the industry, there are also dozens of other tool types present in our assemblages such as burins, blades, hand axes, bolas, scrapers, planes, awls, ochers and effigies. Tools made on the cores themselves are also common, displaying the life of the core and its utilization as different tools during the reduction process of extracting flakes for points, blades and other utensils.
Although considered and labeled as “primitive man” technology when found abroad to support the proposed “out of Africa” human migration theory, I disagree with such labels and assumptions in regard to this technology. Levallois reduction obviously requires both planning and skillful execution to produce such an industry in such an efficient use of available lithic material resources.
The presence of what has been called “old world” technology here in the USA clearly shows that what is being taught in regard to our origins as a nation is wrong and needs to be acknowledged by those who are promoting such error. The evidence is as solid as the rock from which it is hewn. For the Silo (from PCN Vol7 Issue3)- Richard Doninger, a surface-artifact collector living in Evansville southwest Indiana.
Eds. Comment- Rick makes a very interesting case for a lithic technology that appears to be little-known to archaeologists in the U.S. There is still the problem that the artifacts are not documented as to the exact context of each, which, unfortunately, limits the value of the specimens.
However, if the technology is as abundant as Rick’s collection suggests, we simply recommend that he “re-collect” duplicate examples from specific locations with an exacting record of what he has found and where.
Avocational archaeology is a special section of Pleistocene Coalition News started by PC founding member, Dr. Virginia Steen-McIntyre, to encourage amateur archaeologists.
“Our museum is thrilled to be partnering on this historically significant search-and-recovery project. The Canada Aviation and Space Museum’s collection comprises the largest surviving pieces of the Avro Arrow: a nose section and two wingtips. A free-flight model would be a wonderful addition to our collection, and to the Arrow story we share with Canadians.”
“As professional explorers in the mining business, we initiated this program about a year ago with the idea of bringing back a piece of lost Canadian history to the Canadian public. As individuals, as a company, as a group and with our partners and our project participants in this search effort, we all have the same goal in mind: to find and return these beautiful pieces of Canadian technology to the public eye during this anniversary year of our incredible country. Like Avro, our own corporate group was built on dreams, and this project is a proud reminder of what we as Canadians have done, what we do, and what we can do.”
