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Publication date: January 2017Source:Journal of Archaeological Science, Volume 77 Author(s): Dorcas Vannieuwenhuyse, Sue O’Connor, Jane BalmeThe Pleistocene continent of Sahul was first settled by people who arrived by watercraft from Island South East Asia about 50,000 years ago. Some of the oldest archaeological sites in Sahul are located in the southern Kimberley, in northwest Australia. This area lies within the southern zone of influence of the tropical monsoon and thus has always been highly sensitive to changes in monsoon dynamics over time. How these climatic changes have affected the colonisation and occupation of Australia is an important research theme in Australian archaeology. This paper illustrates the contribution and challenges of micromorphology in deciphering palaeoenvironmental and anthropogenic markers in a still largely unexplored Australian context. Micromorphological analysis of two archaeological sequences in the Napier Range (Carpenters Gap 1 and 3) provides a complementary and comprehensive reconstruction of the human-climate history in this area spanning nearly 50,000 years of Australian human presence. The results demonstrate an opportunistic use of sites by people through time, surprisingly independent of local climatic variation, suggesting highly flexible subsistence strategies.

Publication date: January 2017Source:Journal of Archaeological Science, Volume 77 Author(s): Sue O’Connor, Anthony Barham, Ken Aplin, Tim MaloneyMany of the key debates in archaeology hinge on the chronology and interpretation of data gathered from cave and rockshelter stratigraphies, especially those in karstic limestone environments which are selectively targeted by archaeologists because of their superior preservation characteristics. It has long been recognized that such sites often contain a variety of cemented deposits including cave breccias and that some breccias contain anthropogenic inclusions such as stone artefacts, shell and burnt animal bones. Cementation enhances the survival through time of such brecciated deposits. This can result in chrono-stratigraphic intervals surviving on cave walls and speleothems that are no longer represented in the stratigraphy of cave floors. This has important implications for understanding apparent presence/absence of human occupation and cultural continuity as seen in archaeo-stratigraphy in caves and rockshelters, especially in relation to human migration in the humid tropics in SE Asia and the Pacific, and over Pleistocene to Holocene timescales. Here we discuss localized breccia formation, the erosional processes that leave remnant deposits adhering to walls and speleothems at heights well above current cave floors, and the possible significance of local and regional processes, especially changing base levels, in triggering gutting out phases impacting cave floor sediment architectures. Equally significant in terms of chronological completeness, representativeness and bias is the contribution made by cultural materials encased in older breccias as they erode and are (re-)incorporated into younger accumulating cultural deposits. Case studies from cave sites in Papua New Guinea and Timor Leste are used to illustrate these issues.

Publication date: February 2017Source:Journal of Archaeological Science, Volume 78 Author(s): A.C. Colonese, A. Lucquin, E.P. Guedes, R. Thomas, J. Best, B.T. Fothergill, N. Sykes, A. Foster, H. Miller, K. Poole, M. Maltby, M. Von Tersch, O.E. CraigPoultry products are rarely considered when reconstructing pottery use through organic residue analysis, impinging upon our understanding of the changing role of these animals in the past. Here we evaluate an isotopic approach for distinguishing chicken fats from other animal products. We compare the carbon isotopes of fatty acids extracted from modern tissues and archaeological bones and demonstrate that archaeological bones from contexts associated with pottery provide suitable reference ranges for distinguishing omnivorous animal products (e.g. pigs vs. chickens) in pots. When applied to pottery from the Anglo-Saxon site of Flixborough, England, we succeeded in identifying residues derived from chicken fats that otherwise could not be distinguished from other monogastric and ruminant animals using modern reference values only. This provides the first direct evidence for the processing of poultry or their products in pottery. The results highlight the utility of ‘in-situ’ archaeological bone lipids to identify omnivorous animal-derived lipids in archaeological ceramic vessels.

Publication date: Available online 11 January 2017Source:Journal of Archaeological Science Author(s): Dolores R. Piperno, Anthony J. Ranere, Ruth Dickau, Francisco AceitunoThe various theoretical approaches advanced over the past 50 years to explain the origins of agriculture have prompted much discussion and debate. Most recently, controversy has arisen concerning the utility of two Darwinian approaches; namely, cultural niche construction (CNC) and human behavioral ecology-derived optimal foraging theory (OFT). Recent papers advocate for the primacy of cultural niche construction, calling for optimal foraging approaches to be all but disregarded in the quest to explain how and why foragers became farmers (Smith, 2015, 2016; Zeder, 2015, 2016). In particular, it is claimed that archaeological, paleo-environmental, and paleontological evidence from the Neotropics of northern South America fail to meet predictions derived from OFT theory, while predictions said to be derived from CNC-based approaches are supported (Smith, 2015, 2016; Zeder, 2015). However, a number of misreadings of the northern South America evidence are made in those discussions, while some pertinent literature is not considered. In this paper we discuss these misreadings and provide a clear re-articulation of the original data and interpretations, finding support for OFT predictions. Our re-evaluations of OFT and CNC further suggest they can, in fact, be complimentary explanatory approaches.

Publication date: February 2017Source:Journal of Archaeological Science, Volume 78 Author(s): Gilliane Monnier, Ellery Frahm, Bing Luo, Kele MissalThe analysis of residues on stone tools can yield important insights into the tool-using behaviors of Paleolithic hominins. The ambiguity of residue identifications using visible-light microscopy (VLM) has led to the development of additional techniques for their characterization. Reflectance-based Fourier-transform infrared microspectroscopy (FTIRM) is a technique with great potential to aid in non-destructive residue identifications. Recent applications of the technique, however, have been hampered by methodological challenges, causing the infrared signals to be dominated by the stone rather than the residues. We address this problem by systematically testing the limits of FTIRM on five categories of experimental plant residues (wood bark, wood pith, grass leaves, starch, and resin). We demonstrate that it is possible to obtain FTIRM spectra of in situ plant residues wherein the effect of the stone is virtually eliminated. We also generate reflectance FTIRM spectral standards for each plant residue investigated and provide peak assignments for the major peaks in all spectra. The sensitivity of the technique means that slight differences in sample preparation can result in spectral differences as well. This means that archaeological application of the technique will require (1) careful, peak-by-peak analyses of the results, (2) extensive spectral libraries, and (3) research into the effects of decomposition.

Publication date: February 2017Source:Journal of Archaeological Science, Volume 78 Author(s): Mikkel Schubert, Marjan Mashkour, Charleen Gaunitz, Antoine Fages, Andaine Seguin-Orlando, Shiva Sheikhi, Ahmed H. Alfarhan, Saleh A. Alquraishi, Khaled A.S. Al-Rasheid, Richard Chuang, Luca Ermini, Cristina Gamba, Jaco Weinstock, Onar Vedat, Ludovic OrlandoHorses, asses and zebras, can produce first-generation F1-hybrids, despite their striking karyotypic and phenotypic differences. Such F1-hybrids are mostly infertile, but often present characters of considerable interest to breeders. They were extremely valued in antiquity, and commonly represented in art and on coinage. However, hybrids appear relatively rarely in archaeological faunal assemblages, mostly because identification based on morphometric data alone is extremely difficult. Here, we developed a methodological framework that exploits high-throughput sequencing data retrieved from archaeological material to identify F1-equine hybrids. Our computational methodology is distributed in the open-source Zonkey pipeline, now part of PALEOMIX (https://github.com/MikkelSchubert/paleomix), together with full documentation and examples. Using both synthetic and real sequence datasets, from living and ancient F1-hybrids, we find that Zonkey shows high sensitivity and specificity, even with limited sequencing efforts. Zonkey is thus well suited to the identification of equine F1-hybrids in the archaeological record, even in cases where DNA preservation is limited. Zonkey can also help determine the sex of ancient animals, and allows species identification, which advantageously complements morphological data in cases where material is fragmentary and/or multiple candidate equine species coexisted in sympatry.

Publication date: February 2017Source:Journal of Archaeological Science, Volume 78 Author(s): A. Blomme, P. Degryse, E. Dotsika, D. Ignatiadou, A. Longinelli, A. SilvestriGlass objects from Pydna and Methoni in modern-day Greece, dated to the eighth to fourth century BC, were chemically investigated. The combined use of multiple analytical techniques allowed the elemental and isotopic characterization of these polychrome and colourless glass artefacts in order to examine their provenance. All fragments were found to be soda-lime-silica natron-based glass produced from a rather pure silica-rich sand containing sea shells, and mixed with natron possibly coming from more than one source. Based on the strontium and neodymium isotopic signatures, most glass artefacts likely derive from a Syro-Palestinian production site although the exact location is unknown. Also the oxygen isotopic signature of most of the samples suggests the manufacturing of the artefacts from raw materials with a primary origin along the Syro-Palestinian coast. Nevertheless, the use of particular raw materials cannot be excluded for some artefacts, as some samples show enriched δ18O values pointing to a different glassmaking tradition.