DOCSLIB.ORG

Drimolen-Field-Schoo

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Drimolen-Field-Schoo 201 7 DRIMOLEN FIELD SCHOOL SOUTH AFRICA th st 30 JUNE – 21 JULY The Drimolen Field School provides students with a unique opportunity to work at a UNESCO World Heritage fossil site in the Cradle of Humankind, South Africa. LEARN ABOUT… ARCHAEOLOGY GEOARCHAEOLOGY PALAEOANTHROPOLOGY Staff and students of the 2017 Field School STUDENT INFORMATION Supported by… THE DRIMOLEN SITE DRIMOLEN PALAEOCAVE BACKGROUND Drimolen palaeocave was discovered in 1992 near the famous early hominin & early stone age bearing palaeocave sites of Swartkrans and Sterkfontein, in the Cradle of Humankind UNESCO World Heritage Area; about 40 km outside of Johannesburg, South Africa. It is the third richest fossil hominin site in Southern Africa, having produced over 130 hominin fossils representing Paranthropus robustus and early Homo. At least one hominin fossil has been recovered during every year of excavation. In 2016 the field school students found a cranium of a sub-adult early Homo individual; as well as two partial Paranthropus crania. These fossils have all come from an area of the site called the Main ABOVE: Location of Quarry, which is estimated to have been infilled with fossils & Drimolen. archaeology between 2.0 & 1.4 million years (Ma) ago. BELOW: Aerial view of the Main Quarry & Makondo EXCAVATIONS BACKGROUND In 2014-16 the field school also started work on a new deposit, called the Drimolen Makondo. This new deposit is much older than the Main Quarry & likely formed between 2.6 & 2.3 Ma, the same time period as Sterkfontein, where the early hominin species, Australopithecus africanus has been found. We used ground penetrating radar to try & establish the extent of the Makondo & other fossil deposits on the hillside above the Main Quarry & exploring these will continue to be a major focus of 2017, along with continued excavation in the rich hominin bearing Main Quarry. TEACHING WHAT TO EXPECT THE DETAILS The Field School is designed as a full introduction to Palaeontological, Palaeoanthropological and Archaeological work in South Africa with an extensive teaching component both theoretical and practical. In particular it focuses on methods for the excavation and recovery of fossil bone material from such sites. Currently the field school is being run on a more informal basis and so non-La Trobe students will not be able to get university credit for attending the field school. La Trobe students will be able to enroll in a reading course with Prof Herries if they are in their 2nd or 3rd year (any course costs are extra if they wish to do this, see cost). First preference will be given to students who are also interested in undertaking honours or post-graduate work with Prof Herries (in Archaeological Science/Geoarchaeology at La Trobe in Melbourne), Dr Adams (in Palaeontology at Monash in Melbourne) or Dr Menter (in Palaeoanthropology at the U. Johannesburg) and those with aligned interests at an undergraduate or masters level. While graduate students will be considered, the main focus of the field school is designed for preparation towards higher degree research. As such, there is an extensive teaching component to the field school, both practical and classroom -based. DAILY LECTURES LECTURES ARE GIVEN IN A RELAXED ENVIRONMENT TO PROVIDE YOU WITH THE RIGHT FOUNDATION TO BUILD PRACTICAL SKILLS 01 THE DRIMOLEN SITE 02 KARST GEOLOGY & CAVE STRATIGRAPHY 03 SITE FORMATION & TAPHONOMY 04 GEOCHRONOLOGY 05 PALAEOENVIRONMENT & PALAEODIETS 06 THE SOUTH AFRICAN HOMININ RECORD 07 ARCHAEOLOGY FROM ESA TO LSA 08 THE PALAEONTOLOGICAL RECORD 09 FAUNAL ANALYSIS & PALAEOECOLOGY 10 SURVEY & EXCAVATION TECHNIQUES 11 GROUND PENETRATING RADAR TEACHING HOMININS & ARCHAEOLOGY ABOVE: Oldowan style quartz tool RIGHT: Dr Menter with DNH 7 BELOW: Possible bone tools MEET THE HOMININS FOSSILS AND ARCHAEOLOGY Drimolen Main Quarry dates to sometime between 2.0 and 1.4 million years ago and contains numerous fossils of early Homo and Paranthropus robustus, including DNH7, the most complete skull of P. robustus found to date; and a rare female specimen. The Main Quarry deposit is also unique in that has produced some of the youngest infant hominin fossils ever discovered in Africa as well as many female Paranthropus robustus fossils. The Main Quarry is also incredibly rich in primate fossils and has also produced some of the earliest bone tools and a small assemblage of Oldowan-like stone tools. The new 2.6 - 2.3 Ma Drimolen Makondo site is yet to yield hominins but has exceptionally preserved articulated remains of species such as the false sabre tooth cat, Dinofelis and a range of other carnivores (Rovinsky et. al. (2015; www.archaeomagnetism.com/downloads [password=downloads]). As part of the fieldschool we take the students to see the original Drimolen hominins as well as a range of others from sites like Taung, Sterkfontein, Swartkrans, Malapa,& Kromdraai EXCAVATING WHAT TO EXPECT THE MORE YOU DIG, THE MORE YOU FIND Students will also be taught excavation techniques, field sampling techniques and field survey. While there is a teaching component of the field school the main purpose is excavation, which can be strenuous and requires that students are fit and healthy. We generally excavate 6 days a week with a weekly trip to the museums to see the fossils, to the other fossil sites and then on safari. While the field school is designed to be a fun and exciting experience it is not a holiday and we will be working long days to get as much accomplished as possible; more opportunities for you to find a hominin! Students excavating at the Main Quarry and Makondo ACCOMMODATION & AMENITIES GAME RESERVE SAFARI LODGE WHEN IN AFRICA… We will be staying at the Safari Lodge in the game reserve on which the site is located. This is a tented safari camp that has all the modern conveniences. Each tent sleeps four or two people each and are shared, with male and female tents allocated. Each has electricity, a bathroom and a balcony from which to watch the sun go down. The safari camp lodge has a large common area with further toilets, electricity, a fireplace, pool table and braai pit (South African BBQ). In addition, there is a large industrial kitchen as well as a laundry room. CATERING BREAKFAST, LUNCH & DINNER All meals (breakfast and dinner at camp and lunch on site are prepared by a cook and are included. Please be sure to let Prof Herries know of any specific dietary requirements early on. A trip will also be covered (but not the alcohol, you buy that yourself) to the famous Carnivore Restaurant where, if you wish you can eat a range of African game meat including Crocodile, Ostrich, Kudu, Springbok, Zebra and often much more. SAFARI PILANESBERG GAME RESERVE SEE THE BIG FIVE Students will partake in a wildlife safari at Pilanesberg Game Reserve, an ancient extinct volcano. Here you will potentially be able to see the Big 5 (although being wild this is not guaranteed) as well as other extant versions of the species you may find during excavation. In 2014 everyone saw elephant, rhino, buffalo and lions and some saw hyenas as well as a range of other animals (e.g. hippos, crocodiles). In 2016 we again saw lion, as well as leopard and wild dog. There are also Iron Age remains in the Park that can be visited. A trip to a local market will also be arranged DON’T HANG AROUND! PLACES ARE LIMITED SO APPLY NOW! CONTACT PROF ANDY HERRIES FOR AN APPLICATION FORM [email protected] .
Load more

Recommended publications
  • Title: Drimolen Crania Indicate Contemporaneity of Australopithecus, Paranthropus and Early Homo Erectus in S
    Submitted Manuscript: Confidential Title: Drimolen crania indicate contemporaneity of Australopithecus, Paranthropus and early Homo erectus in S. Africa Authors: Andy I.R. Herries1,2*†, Jesse M. Martin1†, A.B. Leece1†, Justin W. Adams3,2†, Giovanni Boschian4,2†, Renaud Joannes-Boyau5,2, Tara R. Edwards1, Tom Mallett1, Jason Massey3,6, Ashleigh Murszewski1, Simon Neuebauer7, Robyn Pickering8.9, David Strait10,2, Brian J. Armstrong2, Stephanie Baker2, Matthew V. Caruana2, Tim Denham11, John Hellstrom12, Jacopo Moggi-Cecchi13, Simon Mokobane2, Paul Penzo-Kajewski1, Douglass S. Rovinsky3, Gary T. Schwartz14, Rhiannon C. Stammers1, Coen Wilson1, Jon Woodhead12, Colin Menter13 Affiliations: 1. Palaeoscience Labs, Dept. Archaeology and History, La Trobe University, Bundoora, 3086, VIC, Australia. 2. Palaeo-Research Institute, University of Johannesburg, Gauteng Province, South Africa. 3. Department of Anatomy and Developmental Biology, Biomedicine Discovery Institute, Monash University, VIC, Australia. 4. Department of Biology, University of Pisa, Italy 5. Geoarchaeology and Archaeometry Research Group (GARG), Southern Cross University, Military Rd, Lismore, 2480, NSW, Australia 6. Department of Integrative Biology and Physiology, University of Minnesota Medical School, USA 7. Department of Human Evolution, Max Planck Institute for Evolutionary Anthropology, Germany. 8. Department of Geological Sciences, University of Cape Town, Western Cape, South Africa 9. Human Evolution Research Institute, University of Cape Town, Western Cape, South Africa 10. Department of Anthropology, Washington University in St. Louis, St. Louis, USA 11. Geoarchaeology Research Group, School of Archaeology and Anthropology, Australian National University, Canberra, ACT, Australia 12. Earth Sciences, University of Melbourne, Australia 13. Department of Biology, University of Florence, Italy 14. Institute of Human Origins, School of Human Evolution and Social Change, Arizona State University, U.S.A.
    [Show full text]
  • Informative Potential of Multiscale Observations in Archaeological Biominerals Down to the Nanoscale Ina Reiche, Aurélien Gourrier
    Informative potential of multiscale observations in archaeological biominerals down to the nanoscale Ina Reiche, Aurélien Gourrier To cite this version: Ina Reiche, Aurélien Gourrier. Informative potential of multiscale observations in archaeologi- cal biominerals down to the nanoscale. Philippe Dillmann; Irène Nenner; Ludovic Bellot-Gurlet. Nanoscience and Cultural Heritage, Atlantis Press, 2016, 978-94-6239-197-0. 10.2991/978-94-6239- 198-7_4. hal-01380156 HAL Id: hal-01380156 https://hal.archives-ouvertes.fr/hal-01380156 Submitted on 12 Oct 2016 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. Distributed under a Creative Commons Attribution - NonCommercial - ShareAlike| 4.0 International License Chapter 4 Informative potential of multiscale observations in archaeological biominerals down to the nanoscale. Ina Reiche1,2*, Aurélien Gourrier3,4** 1 Sorbonne Universités, Université Paris 06, Laboratoire d’Archéologie Moléculaire et Structurale, UMR 8220 CNRS, 75005 Paris, France. 2 Rathgen Forschungslabor, Staatliche Museen zu Berlin Stiftung Preußischer Kulturbesitz, 14059 Berlin, Allemagne 3 Univ. Grenoble Alpes, LIPHY, F-38000 Grenoble, France 4 CNRS, LIPHY, F-38000 Grenoble, France * [email protected] ** [email protected] Abstract Humans have intentionally used biological materials such as bone, ivory and shells since prehistoric times due to their particular physical and chemical properties.
    [Show full text]
  • Evidence of Termite Foraging by Swartkrans Early Hominids
    Evidence of termite foraging by Swartkrans early hominids Lucinda R. Backwell*† and Francesco d’Errico‡§ *Palaeo-Anthropology Unit for Research and Exploration, Department of Palaeontology, Palaeo-Anthropology Research Group, and †Department of Anatomical Sciences, University of the Witwatersrand, Private Bag 3, Wits, 2050, Johannesburg, South Africa; and ‡Institut de Pre´histoire et de Ge´ologie du Quaternaire, Unite´Mixte de Recherche 5808 du Centre National de la Recherche Scientifique, Baˆtiment 18, Avenue des Faculte´s, 33405 Talence, France Communicated by Erik Trinkaus, Washington University, St. Louis, MO, November 20, 2000 (received for review September 14, 2000) Previous studies have suggested that modified bones from the body surface activated silicone paste for molds, and Araldite M Lower Paleolithic sites of Swartkrans and Sterkfontein in South resin and HY 956 Hardener for casts) was used to replicate the Africa represent the oldest known bone tools and that they were 68 Swartkrans (SKX) and 1 Sterkfontein (SE) purported bone used by Australopithecus robustus to dig up tubers. Macroscopic tools, and optical and scanning electron microscopy was used to and microscopic analysis of the wear patterns on the purported identify their surface modifications. Microscopic images of the bone tools, pseudo bone tools produced naturally by known transparent resin replicas were digitized at 40ϫ magnification on taphonomic processes, and experimentally used bone tools con- a sample of 18 fossils from Swartkrans. The orientation and firm the anthropic origin of the modifications. However, our dimension of all visible striations were recorded by using MI- analysis suggests that these tools were used to dig into termite CROWARE image analysis software (14).
    [Show full text]
  • Male Philopatry and Female Dispersal Amongst Two Species of Early Hominins from the Sterkfontein Valley
    Page 1 of 2 News and Views Male philopatry and female dispersal amongst two species of early hominins from the Sterkfontein valley An article by Sandi Copeland and colleagues,1 which appeared in Nature on 02 June 2011, strongly Author: Nikolaas J. van der Merwe1 suggests that amongst two species of early hominins that were present in the Sterkfontein Valley, the male individuals were much less likely to disperse from their natal group than the female Affiliation: individuals. The two species were Australopithecus africanus from Sterkfontein and Paranthropus 1Department of Archaeology, robustus from nearby Swartkrans. The ranges on the landscape of the male and female fossil University of Cape Town, Cape Town, South Africa specimens were determined by measuring the strontium isotope ratios in their tooth enamel and comparing the results with those from the geological substrate of the Sterkfontein Valley. Most of Email: the male specimens had lived in the area from birth (thus male philopatry), whilst a substantial nikolaas.vandermerwe@uct. number of the female specimens had come from somewhere else. ac.za Postal address: All the cave sites that have yielded hominin fossils in the Cradle of Humankind occur in the Department of Archaeology, Malmani dolomite formation. These sites include Sterkfontein, Swartkrans, Kromdraai, University of Cape Town, Makapansgat and Drimolen. The Malmani dolomite is a relatively narrow formation on the Private Bag, Rondebosch 7701, South Africa landscape, running from south-west to north-east for more than 60 km, but with a width of only 7 km – 9 km. From the cave sites of Sterkfontein and Swartkrans, the formation extends about How to cite this article: 2 km – 3 km to the south-east and 5 km – 6 km to the north-west.
    [Show full text]
  • Sterkfontein (South Africa) Work, the Descent of Man
    mankind, as Charles Darwin had predicted in his 1871 Sterkfontein (South Africa) work, The Descent of Man. Hence, from both an historical and an heuristic point of view, the Sterkfontein discoveries gave rise to No 915 major advances, factually and conceptually, in the understanding of the time, place, and mode of evolution of the human family. This seminal role continued to the present with the excavation and analysis of more specimens, representing not only the skull, endocranial casts, and teeth, but also the bones of the vertebral column, the shoulder girdle and upper Identification limb, and the pelvic girdle and lower limb. The Sterkfontein assemblage of fossils has made it Nomination The Fossil Hominid Sites of possible for palaeoanthropologists to study not merely Sterkfontein, Swartkrans, Kromdraai individual and isolated specimens, but populations of and Environs early hominids, from the points of view of their demography, variability, growth and development, Location Gauteng, North West Province functioning and behaviour, ecology, taphonomy, and palaeopathology. State Party Republic of South Africa The cave sites of the Sterkfontein Valley represent the Date 16 June 1998 combined works of nature and of man, in that they contain an exceptional record of early stages of hominid evolution, of mammalian evolution, and of Justification by State Party hominid cultural evolution. They include in the deposits from 2.0 million years onwards in situ The Sterkfontein Valley landscape comprises a archaeological remains which are of outstanding number of fossil-bearing cave deposits which are universal value from especially the anthropological considered to be of outstanding universal value, point of view.
    [Show full text]
  • Terrestrial Laser Scanning and Photogrammetry Techniques for Documenting Fossil‐Bearing Palaeokarst with an Example from the Drimolen Palaeocave System, South Africa
    Revised: 15 February 2017 Accepted: 11 July 2017 DOI: 10.1002/arp.1580 RESEARCH ARTICLE Terrestrial laser scanning and photogrammetry techniques for documenting fossil‐bearing palaeokarst with an example from the Drimolen Palaeocave System, South Africa Brian J. Armstrong1 | Alex F. Blackwood1 | Paul Penzo‐Kajewski1 | Colin G. Menter2 | Andy I.R. Herries1,2 1 Palaeoscience Laboratories, Department of Archaeology and History, La Trobe University, Abstract Melbourne Campus, Bundoora, 3086, Victoria, This paper presents the results of a recent three‐dimensional (3D) survey at the Drimolen Australia Makondo palaeontological deposits in the Hominid Sites of South Africa UNESCO World 2 Centre for Anthropological Research, Heritage site. The Drimolen Makondo is a palaeokarstic feature that consists of a heavily eroded University of Johannesburg, Johannesburg, 2.6‐2.0 Ma fossil‐bearing palaeocave remnant. With photogrammetry and a laser scan survey, Gauteng Province, South Africa two 3D site models were created, georectified, and imported into geographical information sys- Correspondence Brian J. Armstrong, Palaeoscience tem software. This paper outlines both of these survey techniques and provides an assessment Laboratories, Department of Archaeology and of the relevant merits of each method and their applicability for detailed recording and archival History, La Trobe University, Melbourne documentation of palaeokarstic palaeontological and archaeological sites. Given the complex Campus, Bundoora, 3086, VIC, Australia. Email: [email protected];
    [Show full text]
  • Multimodal Spatial Mapping and Visualisation of Dinaledi Chamber and Rising Star Cave
    Article Multimodal spatial mapping and visualisation of Dinaledi Chamber and Rising Star Cave Kruger, Ashley, Randolph-Quinney, Patrick, S. and Elliott, Marina Available at http://clok.uclan.ac.uk/16971/ Kruger, Ashley, Randolph-Quinney, Patrick, S. and Elliott, Marina (2016) Multimodal spatial mapping and visualisation of Dinaledi Chamber and Rising Star Cave. South African Journal of Science, 112 (5/6). ISSN 0038-2353 It is advisable to refer to the publisher’s version if you intend to cite from the work. 10.17159/ sajs.2016/20160032 For more information about UCLan’s research in this area go to http://www.uclan.ac.uk/researchgroups/ and search for <name of research Group>. For information about Research generally at UCLan please go to http://www.uclan.ac.uk/research/ All outputs in CLoK are protected by Intellectual Property Rights law, including Copyright law. Copyright, IPR and Moral Rights for the works on this site are retained by the individual authors and/or other copyright owners. Terms and conditions for use of this material are defined in the http://clok.uclan.ac.uk/policies/ CLoK Central Lancashire online Knowledge www.clok.uclan.ac.uk Research Article Spatial mapping and visualisation of Rising Star Cave Page 1 of 11 Multimodal spatial mapping and visualisation of AUTHORS: Dinaledi Chamber and Rising Star Cave Ashley Kruger1 Patrick Randolph-Quinney1,2* Marina Elliott1 The Dinaledi Chamber of the Rising Star Cave has yielded 1550 identifiable fossil elements – representing the largest single collection of fossil hominin material found on the African continent to date. The fossil chamber AFFILIATIONS: in which Homo naledi was found was accessible only through a near-vertical chute that presented immense 1Evolutionary Studies Institute, practical and methodological limitations on the excavation and recording methods that could be used within School of Geosciences, the Cave.
    [Show full text]
  • A Revised Listing of Fossil Mammals from the Haasgat Cave System Ex Situ Deposits (HGD), South Africa
    Palaeontologia Electronica palaeo-electronica.org A revised listing of fossil mammals from the Haasgat cave system ex situ deposits (HGD), South Africa Justin W. Adams ABSTRACT Haasgat is a formerly mined cave system in the western part of the Schurveberg Mountain Range. In 1988 fossiliferous ex situ calcified sediment blocks were collected from Haasgat and mechanically processed. Limited publication on the resulting Haasgat Dumpsite faunal assemblage (HGD) described a large of extinct terminal Pliocene or early Pleistocene primates, including Papio angusticeps and a novel spe- cies of extinct Cercopithecoides, but an essentially modern of ungulates. Starting in 2010, renewed geologic and paleontologic research at Haasgat included a critical reevaluation of the published HGD assemblage and the first analysis of nearly 1,500 specimens that were never cataloged or described in the literature. This paper pres- ents a significantly revised Haasgat faunal list, specimen counts, and a basic descrip- tion of the taxonomically identifiable assemblage with an emphasis on the non-primate mammalian specimens. In contrast to the original faunal descriptions, the occurrence of several modern and fossil artiodactyls in the cannot be supported. The only carni- vores originally described from HGD (a Chasmaporthetes nitidula maxilla and Canis mesomelas mandible), along with two primate crania and a handful of other specimens have been lost from the collections; however, analysis of the undocumented speci- mens yielded previously unidentified primate remains and a cf. Dinofelis sp. fourth metatarsal. In contrast to the original interpretations of Haasgat based on HGD, the revised and expanded assemblage does not necessitate the local occurrence of closed forest or swamp environs, or imply a depositional age between 1.5 and 0.5 million years.
    [Show full text]
  • Curriculum Vitae Darryl J. De Ruiter
    Curriculum Vitae Darryl J. de Ruiter Department of Anthropology Evolutionary Studies Institute Texas A&M University Center of Excellence in Paleosciences College Station, Texas University of the Witwatersrand 77843-4352 Johannesburg, 2050 Tel: +1-979-458-5986 South Africa Fax: +1-979-845-4070 Tel: 011 27 11 717-6668 Email: [email protected] Fax: 011 27 11 339-7202 CITATIONS OVERVIEW Scopus h index = 34; number of citations = 3237 Web of Science h index = 35; number of citations = 3067 Google Scholar h index = 44; number of citations = 5765; i10 index = 69 EDUCATION 2001 Doctor of Philosophy in Palaeoanthropology, School of Anatomical Sciences, University of the Witwatersrand, South Africa. Dissertation: A Methodological Analysis of the Relative Abundance of Hominids and other Macromammals from the Site of Swartkrans, South Africa 1995 Master of Arts in Anthropology, University of Manitoba, Winnipeg, Manitoba, Canada 1992 Bachelor of Arts in Anthropology (Advanced), University of Manitoba, Winnipeg, Manitoba, Canada PROFESSIONAL EMPLOYMENT 2019 – Department Head, Department of Anthropology, Texas A&M University 2017 – 2019 Associate Department Head, Department of Anthropology, Texas A&M University 2013 – Professor and Cornerstone Faculty Fellow in Liberal Arts, Department of Anthropology, Texas A&M University 2013 – Honorary Reader, Evolutionary Studies Institute, University of the Witwatersrand 2009 – 2013 Associate Professor, Department of Anthropology, Texas A&M University 2009 – 2013 Honorary Reader, Institute for Human Evolution, University
    [Show full text]
  • The Threat of Mine Effluent to the UNESCO Status of the Cradle of Humankind World Heritage Site
    The threat of mine effluent to the UNESCO status of the Cradle of Humankind World Heritage Site JF DURAND,* J MEEUVIS** AND M FOURIE*** Abstract There is a significant environmental risk posed to the region in which one of the most important and richest archaeological and palaeontological resources is located in South Africa. This area, known as the Cradle of Humankind World Heritage (COHWHS), is situated adjacent to one of the richest gold bearing geological sequence in the world. The mine pollution which is emanating from the mines in the form of acid mine drainage (AMD) is threatening this remarkable resource which has yielded the biggest collection of hominin fossils in the world. The environmental degradation of the COHWHS will have a major impact on the archaeological and palaeontological heritage of not only South Africa, but the world, as well as the tourism, hospitality and education sectors of South Africa. If monitoring, mitigation and management measures are not implemented effectively with immediate effect to avoid or minimise the negative effects, the COHWHS may stand the risk of losing its status and be demoted to the UNESCO List of World Heritage in Danger. Ultimately, if the site loses the characteristics that determined its inscription in the World Heritage List, the World Heritage Committee may decide to delete the property from its list. Keywords: Cradle of Humankind World Heritage Site, Sterkfontein Caves, acid mine drainage, archaeological and palaeontological resources, dolomite, karst system, risks and impacts Disciplines: Environmental management, Palaeontology, Archaeology 1. Introduction The Cradle of Humankind to the north of Krugersdorp on the West Rand in Gauteng was awarded World Heritage Site status by the United Nations Educational, Scientific and Cultural * Department of Zoology, University of Johannesburg; (all correspondence should be sent to: [email protected]).
    [Show full text]
  • Francesco D'errico LIST of PUBLICATIONS
    Francesco d’Errico Francesco d’Errico LIST OF PUBLICATIONS 1. Monographs Monographs in preparation Backwell, L., d’Errico, F., Kalahari San material culture: Ancestral knowledge shared by elders at Museum Africa. Published Monographs 1) d’Errico, F. 2003. Néandertaliens et hommes anatomiquement modernes : des trajectoires parallèles vers la modernité culturelle. Habilitation à Diriger des Recherches. Bordeaux : Université Bordeaux 1, pp. 186. 2) Bosinki G., d’Errico, F., Schiller P. 2001. Die Gravierten Frauendarstellungen von Gönnersdorf. Der Magdalenien-Fundplatz Gönnersdorf, Band 8. Franz Steiner Verlag GMBH. Stuttgart 364 pp., 233 figs., 197 planches h.t. 3) d’Errico, F. 1995. L'art gravé azilien. De la technique à la signification. XXXIème Supplément à Gallia-Préhistoire. Paris : CNRS Editions, 329 pp. 2. Edited Monographs 1) Henshilwood, Ch. et d’Errico F. (Eds.) 2011. Homo symbolicus: the dawn of language, imagination and spirituality. Amsterdam: Benjamins. 2) d’Errico, F., Hombert J.-M. (Eds.) 2009. Becoming eloquent. Advances on the emergence of language, human cognition, and modern cultures. Amsterdam: Benjamins. 3) d’Errico, F. et L. Backwell (Eds). 2005. From tools to symbols. From Early Hominids to Modern Humans. Johannesburg: Wits University Press. 4) Zilhão J. & d’Errico, F. 2003 (Eds.) The Chronology of the Aurignacian and of the Transitional Technocomplexes. Dating, Stratigraphies, Cultural Implications. Portuguese Institute of Archaeology (IPA) monographs series Trabalhos de Arqueologia. 5) Giacobini G. & d’Errico, F. (Eds.), 1986: I cacciatori neandertaliani, Jaca Book: Milano. 3. Articles in peer reviewed journals (• journals wiht impact factor) • Backwell, L., Bradfield, J., Carlson, K.J., Jashashvili, T., Wadley, L., d’Errico, F. 2017 en révision.
    [Show full text]
  • Contact Information
    DRIMOLEN HUMAN ORIGINS PROJECT University of Victoria-University of Johannesburg June 2-23, 2014 DRIMOLEN The site of Drimolen was discovered in 1992 near Swartkrans and Sterkfontein in the Cradle of Humankind, 40 km outside of Johannesburg, South Africa. It is one of the richest fossil hominin sites in southern Africa, having produced over 100 hominin fossils representing Paranthropus robustus and early Homo. The Drimolen fossil site is unique in that has produced some of the youngest infant hominin fossils ever discovered in Africa. The site dates to approximately 1.5 million years ago and is incredibly rich in primate fossils. Fossil hominins have been recovered during most field seasons. COURSE CREDITS Students will receive credit for ANTH 343 A01: Archaeological Field Techniques (please note University of Victoria students who have already taken this course can arrange to take ANTH 395 A01: Paleoanthropological Field Techniques; please contact Dr. Kurki for details) and ANTH 344 A01: Regional Topics in Archaeology: South Africa for a total of 3.0 credits. This is the equivalent of 6 credit hours in the US system. Syllabi for these courses will be available for download from our website in February 2014. Under the direction of Dr. Colin Menter, students registered for these courses will excavate at the site, receive training in excavation, surveying/mapping, recording and laboratory techniques. They will also attend lectures given by Dr. Menter and Dr. Kurki and will visit important human origins sites (please see below). ACCOMODATIONS AND AMENITIES We will be staying at the Ngomo Safari Lodge in the luxury safari camp.
    [Show full text]