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21 Nov 2022
Removing Barriers to Reproducible Research in ArchaeologyEmma Karoune and Esther Plomp https://doi.org/10.5281/zenodo.7320029
Three levels of reproducible workflow remove barriers for archaeologists and increase accessibilityRecommended by Ben Marwick based on reviews by Sam Leggett, Cyler Conrad, Cheng Liu and Lisa Lodwick
Over the last decade, a small but growing community of archaeologists, from a diversity of intellectual and demographic backgrounds, have been striving for computational reproducibility in their published research. In their survey of the accomplishments of this thriving community, Emma Karoune and Esther Plomp (2022) analyzed the wide variety of approaches researchers have taken to enhance the reproducibility of their research. A key contribution of this paper is their excellent synthesis of diverse approaches into three levels of increasing complexity. This is helpful because it provides multiple entry points for researchers new to the challenge of fortifying their research. Many researchers assume that computational reproducibility is only achievable if they have a high degree of technical skill with computers, or is only necessary if their work is very computationally intensive. Karoune and Plomp give three compelling reasons why reproducibility is important for all archaeological research, and through their three levels they demonstrate that how these levels can be accomplished with basic, non-specialized computer skills and widely used free software. They showcase exemplary work from a variety of archaeologists to show how practical and achievable reproducible research is for all archaeologists. They advocate for archaeologists to use the most widely used and supported tools and services to support their reproducible research, such as the R and Python programming languages for data analysis, and Git and GitHub for collaboration.
This paper, with its extensive appendix including thoughtful responses to frequently asked questions about reproducible research in archaeology, is likely to have a wide reach and influence, beyond previous works on this topic that have largely focused on technical details. Karoune and Plomp have provided the on-ramp for a generation of archaeologists who will find their questions about reproducible research answered here. They will also find an agreeable entry point to reproducible research in one of the three levels described by the authors. Will every archaeologist embrace this way of working? Should they? The work of Leonelli (2018) can help us anticipate the answers to these questions. Leonelli asks where are the limits to reproducibility, and how do the characteristics of different ways of knowing affect the desirability of reproducibility? Leonelli's work invites us to consider that there will be archaeologists coming from different epistemic cultures for whom the motivations presented by Karoune and Plomp will not resonate. For example, archaeologists engaged in mostly hermeneutical social science and humanities research, who do little or no quantitative analysis and statistics, are unlikely to see reproducibility as meaningful or desirable for their work. We can describe these researchers as working in interpretative or constructivist epistemic cultures. In these cultures, the particulars of how an individual researcher engages with their subject are exclusive and unique, and they would argue it cannot be fully captured or shared in an meaningful way (Elman and Kapiszewski 2017). Here, knowledge is situational, emerging from a specific, once-off combination of people and circumstances. One example in archaeology is the chaîne opératoire approach of stone artefact analysis, which Monnier and Missal (2014:61) describe as "based upon the analyst's experience and intuition, and it is not replicable, nor quantifiable". To make sense of this example we can draw on Galison's (1997) concept of 'image traditions' and 'logic traditions'. An image tradition is a way of knowing that is qualitative, based on composing narratives from drawings and photographs. A logic tradition is based on the use of instruments and statistical methods to collect standardised quantitative data. Chaîne opératoire approaches fall into the image tradition, along with many other ways of working in archaeology that do not generate numbers or use them to support claims about the past. Archaeologists working in a logic tradition will find reproducible research to be more meaningful than those working in an image tradition.
We should be mindful not to claim that one epistemic culture is superior to another because reproducibility is not meaningful or attainable for researchers in one culture. Such a claim would threaten the plurality that is essential for the reliability of scientific knowledge (Massimi 2022). Instead we should identify those communities in archaeology where reproducible research is both meaningful and attainable, but has not yet been widely embraced. That is the where the most beneficial effects can be expected. According to Leonelli's (2018) framework, we can recognise these communities by a few basic characteristics. For example: they are doing computationally intensive archaeology, such as using or writing software to collect, simulate, analyse or visualise data; they are doing experimental archaeology; or they are making knowledge claims that are supported by tables of numeric data and data visualisations. Archaeologists whose work shares one or more of these characteristics will find the guidance provided here by Karoune and Plomp to be highly instructive and relevant, and stand the most to benefit from it.
But it is not only individual archaeological scientists that have potential to benefit from how Karoune and Plomp have lowered the barriers to reproducible research. An especially important implication of this paper is that by lowering the barriers to reproducible research, Karoune and Plomp help us all to lower barriers to participation in archaeology in general. Documenting our research transparently, and sharing our materials (such as data and code and so on) openly, can profoundly change how others can participate in archaeology. By doing this, we are enabling students and researchers elsewhere, for example in low and middle income locations, to use our materials in their teaching and learning. Other researchers and students can apply our methods to their data, and combine their data with ours to achieve syntheses beyond what a single project can do. Similarly, for archaeologists working with local, descendant or marginalized communities, the tools of reproducible research are vital for enabling community members to have full access to the archaeological process, and thus reproducibility may be considered a necessity for decolonising the discipline. Karoune and Plomp present the CARE principles (Carroll et al. 2020) to guide archaeologists in ensuring community control of data so that reproducibility can be ethically accomplished with community safety and well-being as a priority. This may have a profoundly positive impact on the demographics of archaeology, as it lowers the barriers of meaningful participation by people far beyond our immediate groups of collaborators.
Making archaeology more accessible is of critical importance in stemming the negative social impacts of pseudoarchaeologists, who often claim that archaeologists actively suppress the truth of the archaeological record through secrecy, elitism, and exclusiveness. The harm in this is twofold. First, that pseudoarchaeology typically erases Indigenous heritage by claiming that their past achievements were due to an ancient, extinct advanced civilization, not Indigenous people. These claims are often adopted by white supremacists to support racist and antisemitic conspiracy theories (Turner and Turner 2021), which sometimes leads to prejudice, physical violence, radicalization and extremism. A second type of harm that can come from claims of secrecy and elitism is it drains public trust in experts, leading to science denial. Not only trust in archaeologists, but trust in many kinds of experts, including those working on urgent contemporary issues such as public health and climate change. Karoune and Plomp's work is important here because it provides a practical and affordable pathway for archaeologists to fight claims of secrecy and elitism by sharing their work in ways that make it possible for non-academics to inspect the analyses and logic in detail. Claims of secrecy and elitism can be easily countered by openness, transparently and reproducibility by archaeologists. This is not only useful for tackling pseudoarchaeologists, but also in enacting an ethic of care, framing members of the public as people that not only care about archaeology as part of humanity's shared heritage, but also care for the construction of reliable interpretations of the archaeological record to provide secure and authentic foundations for their social identities and relationships (Wylie et al 2018; de la Bellacasa 2011). By striving for reproducible research in the way described by Karoune and Plomp, we are practicing a kind of reciprocal care among ourselves as archaeologists, and between archaeologists and members of the public as two communities who care about the human past.
Karoune, E., and Plomp, E. (2022). Removing Barriers to Reproducible Research in Archaeology. Zenodo, 7320029, ver. 5 peer-reviewed and recommended by Peer Community in Archaeology. https://doi.org/10.5281/zenodo.7320029
de la Bellacasa, M. P. (2011). Matters of care in technoscience: Assembling neglected things. Social Studies of Science, 41(1), 85–106. https://doi.org/10.1177/0306312710380301
Carroll, S. R., Garba, I., Figueroa-Rodríguez, O. L., Holbrook, J., Lovett, R., Materechera, S., Parsons, M., Raseroka, K., Rodriguez-Lonebear, D., Rowe, R., Sara, R., Walker, J. D., Anderson, J., and Hudson, M. (2020). The CARE Principles for Indigenous Data Governance. Data Science Journal, 19(1), Article 1. https://doi.org/10.5334/dsj-2020-043
Elman, C., and Kapiszewski, D. (2017). Benefits and Challenges of Making Qualitative Research More Transparent. Inside Higher Ed 2017, http://web.archive.org/web/20220407064134/https://www.insidehighered.com/blogs/rethinking-research/benefits-and-challenges-making-qualitative-research-more-transparent (accessed 21 Oct, 2022).
Galison, P. (1997). Image and logic: a material culture of microphysics. Chicago (IL): University of Chicago Press.
Leonelli, S. (2018). Re-Thinking Reproducibility as a Criterion for Research Quality [preprint]. Available online: http://philsci-archive.pitt.edu/id/eprint/14352 (Accessed 21 Oct 2022).
Massimi, M. (2022). Perspectival realism. Oxford University Press.
Monnier, G. F., and Kele M.. "Another Mousterian debate? Bordian facies, chaîne opératoire technocomplexes, and patterns of lithic variability in the western European Middle and Upper Pleistocene." Quaternary International 350 (2014): 59-83. https://doi.org/10.1016/j.quaint.2014.06.053
Turner, D. D., and Turner, M. I. (2021). “I’m Not Saying It Was Aliens”: An Archaeological and Philosophical Analysis of a Conspiracy Theory. In A. Killin and S. Allen-Hermanson (Eds.), Explorations in Archaeology and Philosophy (pp. 7–24). Springer International Publishing. https://doi.org/10.1007/978-3-030-61052-4_2
Wylie, C., Neeley, K., and Ferguson, S. (2018). Beyond Technological Literacy: Open Data as Active Democratic Engagement? Digital Culture & Society, 4(2), 157–182. https://doi.org/10.14361/dcs-2018-0209
|Removing Barriers to Reproducible Research in Archaeology||Emma Karoune and Esther Plomp||<p>Reproducible research is being implemented at different speeds in different disciplines, and Archaeology is at the start of this journey. Reproducibility is the practice of reanalysing data by taking the same steps and producing the same or sim...||Computational archaeology||Ben Marwick||2022-06-07 10:02:46||View|
01 Dec 2022
Surface texture analysis in Toothfrax and MountainsMap® SSFA module: Different software packages, different results?Ivan CALANDRA, Konstantin BOB, Gildas MERCERON, François BLATEYRON, Andreas HILDEBRANDT, Ellen SCHULZ-KORNAS, Antoine SOURON, Daniela E. WINKLER https://doi.org/10.5281/zenodo.4671438
An important comparison of software for Scale Sensitive Fractal Analysis : are ancient and new results compatible?Recommended by Alain Queffelec and Florent Rivals based on reviews by Antony Borel and 2 anonymous reviewers
The community of archaeologists, bioanthropologist and paleontologists relying on tools use-wear and dental microwear has grown in the recent years, mainly driven by the spread of confocal microscopes in the laboratories. If the diversity of microscopes is quite high, the main software used for 3D surface texture data analysis are mostly different versions of the same Mountains Map core. In addition to this software, since the beginning of 3D surface texture analysis in dental microwear, surface sensitive fractal analysis (SSFA) initially developed for industrial research (Brown & Savary, 1991) have been performed in our disciplines with the Sfrax/Toothfrax software for two decades (Ungar et al., 2003). This software being discontinued, these calculations have been integrated to the new versions of Mountains Map, with multi-core computing, full integration in the software and an update of the calculation itself.
New research based on these standard parameters of surface texture analysis will be, from now on, mainly calculated with this new add-on of Mountains Map, and will be directly compared with the important literature based on the previous software. The question addressed by Calandra et al. (2022), gathering several prominent researchers in this domain including the Mountains Map developer F. Blateyron, is key for the future research: can we directly compare SSFA results from both software?
Thanks to a Bayesian approach to this question, and comparing results calculated with both software on three different datasets (two on dental microwear, one on lithic raw materials), the authors show that the two software gives statistically different results for all surface texture parameters tested in the paper. Nevertheless, applying the new calculation to the datasets, they also show that the results published in original studies with these datasets would have been similar. Authors also claim that in the future, researchers will need to re-calculate the fractal parameters of previously published 3D surfaces and cannot simply integrate ancient and new data together.
We also want to emphasize the openness of the work published here. All datasets have been published online and will be probably very useful for future methodological works. Authors also published their code for statistical comparison of datasets, and proposed a fully reproducible article that allowed the reviewers to check the content of the paper, which can also make this article of high interest for student training.
This article is therefore a very important methodological work for the community, as noted by all three reviewers. It will certainly support the current transition between the two software packages and it is necessary that all surface texture specialists take these results and the recommendation of authors into account: calculate again data from ancient measurements, and share the 3D surface measurements on open access repositories to secure their access in the future.
Brown CA, and Savary G (1991) Describing ground surface texture using contact profilometry and fractal analysis. Wear, 141, 211–226. https://doi.org/10.1016/0043-1648(91)90269-Z
Calandra I, Bob K, Merceron G, Blateyron F, Hildebrandt A, Schulz-Kornas E, Souron A, and Winkler DE (2022) Surface texture analysis in Toothfrax and MountainsMap® SSFA module: Different software packages, different results? Zenodo, 7219877, ver. 4 peer-reviewed and recommended by Peer Community in Archaeology. https://doi.org/10.5281/zenodo.7219877
Ungar PS, Brown CA, Bergstrom TS, and Walker A (2003) Quantification of dental microwear by tandem scanning confocal microscopy and scale-sensitive fractal analyses. Scanning: The Journal of Scanning Microscopies, 25, 185–193. https://doi.org/10.1002/sca.4950250405
|Surface texture analysis in Toothfrax and MountainsMap® SSFA module: Different software packages, different results?||Ivan CALANDRA, Konstantin BOB, Gildas MERCERON, François BLATEYRON, Andreas HILDEBRANDT, Ellen SCHULZ-KORNAS, Antoine SOURON, Daniela E. WINKLER||<p>The scale-sensitive fractal analysis (SSFA) of dental microwear textures is traditionally performed using the software Toothfrax. SSFA has been recently integrated to the software MountainsMap® as an optional module. Meanwhile, Toothfrax suppor...||Computational archaeology, Palaeontology, Traceology||Alain Queffelec||Anonymous, John Charles Willman, Antony Borel||2022-07-07 09:58:50||View|
12 Dec 2022
Can growth in captivity alter the calcaneal microanatomy of a wild ungulate?Romain Cottereau, Katia Ortiz, Yann Locatelli, Alexandra Houssaye*, Thomas Cucchi* https://doi.org/10.1101/2022.08.22.504790
Mobility in pigs: A microanatomical perspectiveRecommended by Nimrod Marom based on reviews by Max Price and Ignacio A. Lazagabaster
Pig domestication and husbandry involved complex processes of introduction, introgression, and feralization that challenge our understanding of human/suid interactions in ancient times. This challenge is a constant stimulus for the development of novel methods and techniques to illuminate aspects of early pig husbandry, such as human-induced changes in mobility. Using geometric morphometrics, Harbers et al. (2020) have shown that the calcaneus records a plastic response to reduced mobility and hence to human management. In the present study, Cottereau et al. (2022) explore the possibility that a similar plastic response to different mobility regimes can be observed in the microanatomy of the calcaneus using CT scans. Their research utilizes a sample of calcanei obtained from Mesolithic specimens, and also from recent suids kept in natural habitat, large pen, and stall. Their results suggest that bone microanatomy is more affected by population differences than by mobility patterns, as illustrated by the similarity between Mesolitic boar calcanei and their difference from recent, free wild boar.
Cottereau R, Ortiz K, Locatelli Y, Houssaye A, Cucchi T (2022), bioRxiv, 504790, ver. 5 peer-reviewed and recommended by Peer Community in Archaeology. https://doi.org/10.1101/2022.08.22.504790
Harbers H, Neaux D, Ortiz K, Blanc B, Laurens F, Baly I, Callou C, Schafberg R, Haruda A, Lecompte F, Casabianca F, Studer J, Renaud S, Cornette R, Locatelli Y, Vigne J-D, Herrel A, Cucchi T (2020) The mark of captivity: plastic responses in the ankle bone of a wild ungulate (Sus scrofa). Royal Society Open Science, 7, 192039. https://doi.org/10.1098/rsos.192039
|Can growth in captivity alter the calcaneal microanatomy of a wild ungulate?||Romain Cottereau, Katia Ortiz, Yann Locatelli, Alexandra Houssaye*, Thomas Cucchi*||<p style="text-align: justify;">Reduced mobility associated with captivity induce changes in biomechanical stress on the skeleton of domesticated animals. Due to bone plasticity, the morphology and the internal structure of the bones can respond t...||Neolithic, Zooarchaeology||Nimrod Marom||2022-08-26 20:29:01||View|
26 Oct 2022
Technological analysis and experimental reproduction of the techniques of perforation of quartz beads from the Ceramic period in the AntillesMadeleine Raymond, Pierrick Fouéré, Ronan Ledevin, Yannick Lefrais and Alain Queffelec https://osf.io/preprints/socarxiv/a5tgp
Using Cactus Thorns to Drill Quartz: A Proof of ConceptRecommended by Donatella Usai and Jonathan Hanna based on reviews by Viola Stefano, ? and 1 anonymous reviewer
Quartz adornments (beads, pendants, etc.) are frequent artifacts found in the Caribbean, particularly from Early Ceramic Age contexts (~500 BC-AD 700). As a form of specialization, these are sometimes seen as indicative of greater social complexity and craftsmanship during this time. Indeed, ethnographic analogy has purported that such stone adornments require enormous inputs of time and labor, as well as some technological sophistication with tools hard-enough to create the holes (e.g., metal or diamonds). However, given these limitations, one would expect unfinished beads to be a common artifact in the archaeological record. Yet, whereas unworked/raw materials are often found, beads with partial/unfinished perforations are not.
|Technological analysis and experimental reproduction of the techniques of perforation of quartz beads from the Ceramic period in the Antilles||Madeleine Raymond, Pierrick Fouéré, Ronan Ledevin, Yannick Lefrais and Alain Queffelec||<p style="text-align: justify;">Personal ornaments are a very specific kind of material production in human societies and are particularly valuable artifacts for the archaeologist seeking to understand past societies. In the Caribbean, Early Ceram...||Lithic technology, Neolithic, South America, Symbolic behaviours, Traceology||Donatella Usai||2022-09-06 14:01:51||View|
21 Mar 2023
Archaeology, Typology and Machine EpistemologyGavin Lucas https://zenodo.org/record/7267834
Automation and Novelty –Archaeocomputational Typo-Praxis in the Wake of the Third Science RevolutionRecommended by Shumon Tobias Hussain, Felix Riede and Sébastien Plutniak based on reviews by Rachel Crellin and 1 anonymous reviewer
“Archaeology, Typology and Machine Epistemology” submitted by G. Lucas (1) offers a refreshing and welcome reflection on the role of computer-based practice, type-thinking and approaches to typology in the age of big data and the widely proclaimed ‘Third Science Revolution’ (2–4). At the annual meeting of the EAA in Maastricht in 2017, a special thematic block was dedicated to issues and opportunities linked to the Third Science Revolution in archaeology “because of [its] profound and wide ranging impact on practice and theory in archaeology for the years to come” (5). Even though the Third Science Revolution, as influentially outlined by Kristiansen in 2014 (2), has occasionally also been met with skepticism and critique as to its often implicit scientism and epistemological naivety (6–8), archaeology as a whole seems largely euphoric as to the promises of the advancing ‘revolution’. As Lucas perceptively points out, some even regard it as the long-awaited opportunity to finally fulfil the ambitions and goals of Anglophone processualism. The irony here, as Lucas rightly notes, is that early processualists initially foregrounded issues of theory and scientific epistemology, while much work conducted under the banner of the Third Science Revolution, especially within its computational branches, does not. Big data advocates have echoed Anderson’s much-cited “end of theory” (9) or at least emphatically called for an ‘empirization’ and ‘computationalization’ of theory, often under the banner of ‘data-driven archaeology’ (10), yet typically without much specification of what this is supposed to mean for archaeological theory and reflexivity. The latter is indeed often openly opposed by archaeological Third Science Revolution enthusiasts, arguably because it is viewed as part of the supposedly misguided ‘post-modernist’ project.
Lucas makes an original meta-archaeological contribution here and attempts to center the epistemological, ontological and praxeological dimensions of what is actually – in situated archaeological praxis and knowledge-production – put at stake by the mobilization of computers, algorithms and artificial intelligence (AI), including its many but presently under-reflected implications for ordering practices such as typologization. Importantly, his perspective thereby explicitly and deliberately breaks with the ‘normative project’ in traditional philosophy of science, which sought to nail down a universal, prescriptive way of doing science and securing scientific knowledge. He instead focuses on the practical dimensions and consequences of computer-reliant archaeologies, what actually happens on the ground as researchers try to grapple with the digital and the artefactual and try to negotiate new insights and knowledge, including all of the involved messiness – thereby taking up the powerful impetus of the broader practice turn in interdisciplinary science studies and STS (Science and Technology Studies (11)) (12–14), which have recently also re-oriented archaeological self-observation, metatheory and epistemology (15). This perspective on the dawning big data age in archaeology and incurred changes in the status, nature and aims of type-thinking produces a number of important insights, which Lucas fruitfully discusses in relation to promises of ‘automation’ and ‘novelty’ as these feature centrally in the rhetorics and politics of the Third Science Revolution.
With regard to automation, Lucas makes the important point that machine or computer work as championed by big data proponents cannot adequately be qualified or understood if we approach the issue from a purely time-saving perspective. The question we have to ask instead is what work do machines actually do and how do they change the dynamics of archaeological knowledge production in the process? In this optic, automation and acceleration achieved through computation appear to make most sense in the realm of the uncontroversial, in terms of “reproducing an accepted way of doing things” as Lucas says, and this is precisely what can be observed in archaeological practice as well. The ramifications of this at first sight innocent realization are far-reaching, however. If we accept the noncontroversial claim that automation partially bypasses the need for specialists through the reproduction of already “pre-determined outputs”, automated typologization would primarily be useful in dealing with and synthesizing larger amounts of information by sorting artefacts into already accepted types rather than create novel types or typologies. If we identity the big data promise at least in part with automation, even the detection of novel patterns in any archaeological dataset used to construct new types cannot escape the fact that this novelty is always already prefigured in the data structure devised. The success of ‘supervised learning’ in AI-based approaches illustrates this. Automation thus simply shifts the epistemological burden back to data selection and preparation but this is rarely realized, precisely because of the tacit requirement of broad non-contentiousness.
Minimally, therefore, big data approaches ironically curtail their potential for novelty by adhering to conventional data treatment and input formats, rarely problematizing the issue of data construction and the contested status of (observational) data themselves. By contrast, they seek to shield themselves against such attempts and tend to retain a tacit universalism as to the nature of archaeological data. Only in this way is it possible to claim that such data have the capacity to “speak for themselves”. To use a concept borrowed from complexity theory, archaeological automation-based type-construction that relies on supposedly basal, incontrovertible data inputs can only ever hope to achieve ‘weak emergence’ (16) – ‘strong emergence’ and therefore true, radical novelty require substantial re-thinking of archaeological data and how to construct them. This is not merely a technical question as sometimes argued by computational archaeologies – for example with reference to specifically developed, automated object tracing procedures – as even such procedures cannot escape the fundamental question of typology: which kind of observations to draw on in order to explore what aspects of artefactual variability (and why). The focus on readily measurable features – classically dimensions of artefactual form – principally evades the key problem of typology and ironically also reduces the complexity of artefactual realities these approaches assert to take seriously. The rise of computational approaches to typology therefore reintroduces the problem of universalism and, as it currently stands, reduces the complexity of observational data potentially relevant for type-construction in order to enable to exploration of the complexity of pattern. It has often been noted that this larger configuration promotes ‘data fetishism’ and because of this alienates practitioners from the archaeological record itself – to speak with Marxist theory that Lucas briefly touches upon. We will briefly return to the notion of ‘distance’ below because it can be described as a symptomatic research-logical trope (and even a goal) in this context of inquiry.
In total, then, the aspiration for novelty is ultimately difficult to uphold if computational archaeologies refuse to engage in fundamental epistemological and reflexive self-engagement. As Lucas poignantly observes, the most promising locus for novelty is currently probably not to be found in the capacity of the machines or algorithms themselves, but in the modes of collaboration that become possible with archaeological practitioners and specialists (and possibly diverse other groups of knowledge stakeholders). In other words, computers, supercomputers and AI technologies do not revolutionize our knowledge because of their superior computational and pattern-detection capacities – or because of some mysterious ‘superintelligence’ – but because of the specific ‘division of labour’ they afford and the cognitive challenge(s) they pose. Working with computers and AI also often requires to ask new questions or at least to adapt the questions we ask. This can already be seen on the ground, when we pay attention to how machine epistemologies are effectively harnessed in archaeological practice (and is somewhat ironic given that the promise of computational archaeology is often identified with its potential to finally resolve "long-standing (old) questions"). The Third Science Revolution likely prompts a consequential transformation in the structural and material conditions of the kinds of ‘distributed’ processes of knowledge production that STS have documented as characteristic for scientific discoveries and knowledge negotiations more generally (14, 17, 18). This ongoing transformation is thus expected not only to promote new specializations with regard to the utilization of the respective computing infrastructures emerging within big data ecologies but equally to provoke increasing demand for new ways of conceptualizing observations and to reformulate the theoretical needs and goals of typology in archaeology. The rediscovery of reflexivity as an epistemic virtue within big data debates would be an important step into this direction, as it would support the shared goal of achieving true epistemic novelty, which, as Lucas points out, is usually not more than an elusive self-declaration. Big data infrastructures require novel modes of human-machine synergy, which simply cannot be developed or cultivated in an atheoretical and/or epistemological disinterested space.
Lucas’ exploration ultimately prompts us to ask big questions (again), and this is why this is an important contribution. The elephant in the room, of course, is the overly strong notion of objectivity on which much computational archaeology is arguably premised – linked to the vow to eventually construct ‘objective typologies’. This proclivity, however, re-tables all the problematic debates of the 1960s and – to speak with the powerful root metaphor of the machine fueling much of causal-mechanistic science (19, 20) – is bound to what A. Wylie (21) and others have called the ‘view from nowhere’. Objectivity, in this latter view, is defined by the absence of positionality and subjectivity – chiefly human subjectivity – and the promise of the machine, and by extension of computational archaeology, is to purify and thus to enhance processes of knowledge production by minimizing human interference as much as possible. The distancing of the human from actual processes of data processing and inference is viewed as positive and sometimes even as an explicit goal of scientific development. Interestingly, alienation from the archaeological record is framed as an epistemic virtue here, not as a burden, because close connection with (or even worse, immersion in) the intricacies of artefacts and archaeological contexts supposedly aggravates the problem of bias. The machine, in this optic, is framed as the gatekeeper to an observer-independent reality – which to the backdoor often not only re-introduces Platonian/Aristotelian pledges to a quasi-eternal fabric of reality that only needs to be “discovered” by applying the right (broadly nonhuman) means, it is also largely inconsistent with defendable and currently debated conceptions of scientific objectivity that do not fall prey to dogma.
Furthermore, current discussions on the open AI ChatGPT have exposed the enormous and still under-reflected dangers of leaning into radical renderings of machine epistemology: precisely because of the principles of automation and the irreducible theory-ladenness of all data, ecologies such as ChatGPT tend to reinforce the tacit epistemological background structures on which they operate and in this way can become collaborators in the legitimization and justification of the status quo (which again counteracts the potential for novelty) – they reproduce supposedly established patterns of thought. This is why, among other things, machines and AI can quickly become perpetuators of parochial and neocolonial projects – their supposed authority creates a sense of impartiality that shields against any possible critique. With Lucas, we can thus perhaps cautiously say that what is required in computational archaeology is to defuse the authority of the machine in favour of a new community archaeology that includes machines as (fallible) co-workers. Radically put, computers and AI should be recognized as subjects themselves, and treated as such, with interesting perspectives on team science and collaborative practice.
1. Lucas, G. (2022). Archaeology, Typology and Machine Epistemology. https:/doi.org/10.5281/zenodo.7620824.
2. Kristiansen, K. (2014). Towards a New Paradigm? The Third Science Revolution and its Possible Consequences in Archaeology. Current Swedish Archaeology 22, 11–34. https://doi.org/10.37718/CSA.2014.01.
3. Kristiansen, K. (2022). Archaeology and the Genetic Revolution in European Prehistory. Elements in the Archaeology of Europe. https://doi.org/10.1017/9781009228701
4. Eisenhower, M. S. (1964). The Third Scientific Revolution. Science News 85, 322/332. https://www.sciencenews.org/archive/third-scientific-revolution.
5. The ‘Third Science Revolution’ in Archaeology. http://www.eaa2017maastricht.nl/theme4 (March 16, 2023).
6. Ribeiro, A. (2019). Science, Data, and Case-Studies under the Third Science Revolution: Some Theoretical Considerations. Current Swedish Archaeology 27, 115–132. https://doi.org/10.37718/CSA.2019.06
7. Samida, S. (2019). “Archaeology in times of scientific omnipresence” in Archaeology, History and Biosciences: Interdisciplinary Perspectives, pp. 9–22. https://doi.org/10.1515/9783110616651
8. Sørensen, T. F.. (2017). The Two Cultures and a World Apart: Archaeology and Science at a New Crossroads. Norwegian Archaeological Review 50, 101–115. https://doi.org/10.1080/00293652.2017.1367031
9. Anderson, C. (2008). The end of theory: The data deluge makes the scientific method obsolete. Wired. https://www.wired.com/2008/06/pb-theory/.
10. Gattiglia, G. (2015). Think big about data: Archaeology and the Big Data challenge. Archäologische Informationen 38, 113–124. https://doi.org/10.11588/ai.2015.1.26155
11. Hackett, E. J. (2008). The handbook of science and technology studies, Third edition, MIT Press/Society for the Social Studies of Science.
12. Ankeny, R., Chang, H., Boumans, M. and Boon, M. (2011). Introduction: philosophy of science in practice. Euro Jnl Phil Sci 1, 303. https://doi.org/10.1007/s13194-011-0036-4
13. Soler, L., Zwart, S., Lynch, M., Israel-Jost, V. (2014). Science after the Practice Turn in the Philosophy, History, and Social Studies of Science, Routledge.
14. Latour, B. and Woolgar, S. (1986). Laboratory life: the construction of scientific facts, Princeton University Press.
15. Chapman, R. and Wylie, A. (2016) Evidential reasoning in archaeology, Bloomsbury Academic.
16. Greve, J. and Schnabel, A. (2011). Emergenz: zur Analyse und Erklärung komplexer Strukturen, Suhrkamp.
17. Shapin, S., Schaffer, S. and Hobbes, T. (1985). Leviathan and the air-pump: Hobbes, Boyle, and the experimental life, including a translation of Thomas Hobbes, Dialogus physicus de natura aeris by Simon Schaffer, Princeton University Press.
18. Galison, P. L. and Stump, D. J. (1996).The Disunity of Science: Boundaries, Contexts, and Power, Stanford University Press.
19. Pepper, S. C. (1972). World hypotheses: a study in evidence, 7. print, University of California Press.
20. Hussain, S. T. (2019). The French-Anglophone divide in lithic research: A plea for pluralism in Palaeolithic Archaeology, Open Access Leiden Dissertations. https://hdl.handle.net/1887/69812
21. A. Wylie, A. (2015). “A plurality of pluralisms: Collaborative practice in archaeology” in Objectivity in Science, pp. 189-210, Springer. https://doi.org/10.1007/978-3-319-14349-1_10
|Archaeology, Typology and Machine Epistemology||Gavin Lucas||<p>In this paper, I will explore some of the implications of machine learning for archaeological method and theory. Against a back-drop of the rise of Big Data and the Third Science Revolution, what lessons can be drawn from the use of new digital...||Computational archaeology, Theoretical archaeology||Shumon Tobias Hussain||Anonymous, Rachel Crellin||2022-10-31 15:25:38||View|
06 Oct 2023
From paper to byte: An interim report on the digital transformation of two thing editionsAuth. Frederic; Rösler, Katja; Domscheit, Wenke; Hofmann, Kerstin P. https://doi.org/10.5281/zenodo.7304578
Revitalising archaeological corpus publications through digitisation – the Corpus der römischen Funde im europäischen Barbaricum and the Conspectus Formarum Terrae Sigillatae Modo Confectae as exemplary casesRecommended by Felix Riede, Sébastien Plutniak and Shumon Tobias Hussain based on reviews by Sebastian Hageneuer and Adéla Sobotkova
The paper entitled “From paper to byte: An interim report on the digital transformation of two thing editions” submitted by Frederic Auth and colleagues discusses how those rich and often meticulously illustrated catalogues of particular find classes that exist in many corners of archaeology can be brought to the cutting edge of contemporary research through digitisation. This paper was first developed for a special conference session convened at the EAA annual meeting in 2021 and is intended for an edited volume on the topic of typology, taxonomy, classification theory, and computational approaches in archaeology.
Auth et al. (2023) begin with outlining the useful notion of the ‘thing-edition’ originally coined by Kerstin Hofmann in the context of her work with the many massive corpora of finds that have characterised, in particular, earlier archaeological knowledge production in Germany (Hofmann et al. 2019; Hofmann 2018). This work critically examines changing trends in the typological characterisation and recording of various find categories, their theoretical foundations or lack thereof and their legacy on contemporary practice. The present contribution focuses on what happens with such corpora when they are integrated into digitisation projects, specifically the efforts by the German Archaeological Institute (DAI), the so-called iDAI.world and in regard to two Roman-era material culture groups, the Corpus der römischen Funde im europäischen Barbaricum (Roman finds from beyond the empire’s borders in eight printed volumes covering thousands of finds of various categories), and the Conspectus Formarum Terrae Sigillatae Modo Confectae (Roman plain ware).
Drawing on Bruno Latour’s (2005) actor-network theory (ANT), Auth et al. discuss and reflect on the challenges met and choices to be made when thing-editions are to be transformed into readily accessible data, that is as linked to open, usable data. The intellectual and infrastructural workload involved in such digitisation projects is not to be underestimated. Here, the contribution by Auth et al. excels in the manner that it does not present the finished product – the fully digitised corpora – but instead offers a glimpse ‘under the hood’ of the digitisation process as an interaction between analogue corpus, research team, and the technologies at hand. These aspects were rarely addressed in the literature, rooted in the 1970s early work (Borillo and Gardin 1974; Gaines 1981), on archaeological computerised databases, focused on technical dimensions (see Rösler 2016 for an exception). Their paper can so also be read in the broader context of heterogeneous computer-assisted knowledge ecologies and ‘mangles of practice’ (see Pickering and Guzik 2009) in which practitioners and technological structures respond to each other’s needs and attempt to cooperate in creative ways. As such, Auth et al.’s considerations not least offer valuable resources for Science and Technology Studies-inspired discussions on the cross-fertilization of archaeological theory, practice and currently emerging material and virtual research infrastructures and can be read in conjunction to Gavin Lucas’ (2022) paper on ‘machine epistemology’ due to appear in the same volume.
Perhaps more importantly, however, the work by Auth and colleagues (2023) exemplifies the due diligence required in not merely turning a catalogue from paper to digital document but in transforming such catalogues into long-lasting and patently usable repositories of generations of scholars to come. Deploying the Latourian notions of trade-off and recursive reference, Auth et al. first examine the structure, strengths, and weakness of the two corpora before moving on to showing how the freshly digitised versions offer new and alternative ways of analysing the archaeological material at hand, notably through immediate visualisation opportunities, through ceramic form combinations, and relational network diagrams based on the data inherent in the respective thing-editions.
Catalogues including basic descriptions and artefact illustrations exist for most if not all archaeological periods. They constitute an essential backbone of archaeological work as repeated access to primary material is impractical if not impossible. The catalogues addressed by Auth et al. themselves reflect major efforts on behalf of archaeological experts to arrive at clear and operational classifications in a pre-computerised era. The continued and expanded efforts by Auth and colleagues build on these works and clearly demonstrate the enormous analytical potential to make such data not merely more accessible but also more flexibly interoperable. Their paper will therefore be an important reference for future work with similar ambitions facing similar challenges.
Auth, Frederic, Katja Rösler, Wenke Domscheit, and Kerstin P. Hofmann. 2023. “From Paper to Byte: A Workshop Report on the Digital Transformation of Two Thing Editions.” Zenodo. https://doi.org/10.5281/zenodo.8214563
Borillo, Mario, and Jean-Claude Gardin. 1974. Les Banques de Données Archéologiques. Marseille: Éditions du CNRS.
Gaines, Sylvia W., ed. 1981. Data Bank Applications in Archaeology. Tucson, AZ: University of Arizona Press.
Hofmann, Kerstin P. 2018. “Dingidentitäten Und Objekttransformationen. Einige Überlegungen Zur Edition von Archäologischen Funden.” In Objektepistemologien. Zum Verhältnis von Dingen Und Wissen, edited by Markus Hilgert, Kerstin P. Hofmann, and Henrike Simon, 179–215. Berlin Studies of the Ancient World 59. Berlin: Edition Topoi. https://dx.doi.org/10.17171/3-59
Hofmann, Kerstin P., Susanne Grunwald, Franziska Lang, Ulrike Peter, Katja Rösler, Louise Rokohl, Stefan Schreiber, Karsten Tolle, and David Wigg-Wolf. 2019. “Ding-Editionen. Vom Archäologischen (Be-)Fund Übers Corpus Ins Netz.” E-Forschungsberichte des DAI 2019/2. E-Forschungsberichte Des DAI. Berlin: Deutsches Archäologisches Institut. https://publications.dainst.org/journals/efb/2236/6674
Latour, Bruno. 2005. Reassembling the Social: An Introduction to Actor-Network-Theory. Oxford: Oxford University Press.
Lucas, Gavin. 2022. “Archaeology, Typology and Machine Epistemology.” Zenodo. https://doi.org/10.5281/zenodo.7622162
Pickering, Andrew, and Keith Guzik, eds. 2009. The Mangle in Practice: Science, Society, and Becoming. The Mangle in Practice. Science and Cultural Theory. Durham, NC: Duke University Press.
Rösler, Katja. 2016. “Mit Den Dingen Rechnen: ‚Kulturen‘-Forschung Und Ihr Geselle Computer.” In Massendinghaltung in Der Archäologie. Der Material Turn Und Die Ur- Und Frühgeschichte, edited by Kerstin P. Hofmann, Thomas Meier, Doreen Mölders, and Stefan Schreiber, 93–110. Leiden: Sidestone Press.
|From paper to byte: An interim report on the digital transformation of two thing editions||Auth. Frederic; Rösler, Katja; Domscheit, Wenke; Hofmann, Kerstin P.||<p>One specific form of publication for archaeological objects are catalogues, atlases and corpora. Kerstin Hofmann has introduced the term ‘Ding-Editionen’ (thing editions) for this category of publications that present their data in lists, short...||Antiquity, Computational archaeology, Dating, Theoretical archaeology||Felix Riede||2022-11-08 16:00:49||View|
21 Mar 2023
Hafted stone and shell tools in the Asia Pacific RegionChristopher Buckley https://doi.org/10.31234/osf.io/8cwa2
From Polished Stone Tools to Population Dynamics: Ethnographic Archives as InsightsRecommended by Solène Denis based on reviews by Adrian L. Burke and 1 anonymous reviewer
Most archaeological contexts provide objects without organic materials making them quite silent regarding their hafting techniques and use. This is especially true for the polished stone tools that only thanks to a few discoveries in a wet environment, we can obtain some insights regarding their hafting techniques. Use-wear analysis can also be of some support to get a better picture of these artefacts (e.g. Masclans Latorre 2020), whose typology testifies to an important diversity in European Neolithic contexts that sometimes are well-documented from the chaîne opératoire perspective (see De Labriffe and Thirault dir. 2012).
The study offered by Chris Buckley (2023) constitutes an important contribution to animating these tools. His work relies on the Asia Pacific region, where he gathered data and mapped more than 300 ethnographic hafted stone and shell tools. This database is available on a webpage https://www.google.com/maps/d/u/0/viewer?mid=1D_sC7VUtQRuRcCgc9rROVU7ghrdiVAg&ll=-2.458804534247277%2C154.35254980859378&z=6, providing a short description and pictures of some of the items, completed by Supplementary data.
Thanks to this important record of entire objects, the author presents the different possibilities regarding hafting styles, blade orientations and attachment techniques. The combination of these different characteristics led the author to the introduction of a dynamic typology based on the concept of ‘morphospace’. Eight types have been so identified for the Asia Pacific region.
The geographical distribution of these types is then presented and questioned, bringing also to the forefront some archaeological findings. An emphasis is made on New Guinea island where documentation is important. We can mention the emblematic work of Anne-Marie and Pierre Pétrequin (1993 and 2020) focused on West Papua, providing one of the most consulted books on stone axes by archaeologists.
The worthy explanations tested to understand this repartition mobilize archaeological or linguistic data to hypothesise a three waves model of innovations in link with agricultural practices. A discussion on the correlation between material culture and language highlights in the background the need for interdisciplinary to deal finely with these interactions and linkages as has been effectively demonstrated elsewhere (Hermann and Walworth 2020).
To conclude, the convergence between European Neolithic and New Guinea polished stone tools is demonstrated here through ‘morphospace’ comparisons. Thanks to this study, the polished stone tools come alive more than any European archaeological context would allow. The population dynamics investigated through these tools are directly relevant to current scientific issues concerning material culture. This example of convergent evolution is therefore an important key to considering this article as a source of inspiration for the archaeological community.
Buckley C. (2023). Hafted Stone and Shell Tools in the Asia Pacific Region, PsyArXiv, v.3 peer-reviewed and recommended by Peer Community in Archaeology. https://doi.org/10.31234/osf.io/8cwa2
De Labriffe A., Thirault E. dir. (2012). Produire des haches au Néolithique, de la matière première à l’abandon, Paris, Société préhistorique française (Séances de la Société préhistorique française, 1).
Hermann A., Walworth M. (2020). Approche interdisciplinaire des échanges interculturels et de l’intégration des communautés polynésiennes dans le centre du Vanuatu, Journal de la Société des Océanistes, 151, 239-262. https://doi-org.docelec.u-bordeaux.fr/10.4000/jso.11963
Masclans Latorre A. (2020). Use-wear Analyses of Polished and Bevelled Stone Artefacts during the Sepulcres de Fossa/Pit Burials Horizon (NE Iberia, c. 4000–3400 cal B.C.), Oxford, BAR Publishing (BAR International Series 2972).
Pétrequin P., Pétrequin A.-M. (1993). Écologie d'un outil : la hache de pierre en Irian Jaya (Indonésie), Paris, CNRS Editions.
Pétrequin P., Pétrequin A.-M. (2020). Ecology of a Tool: The ground stone axes of Irian Jaya (Indonesia). Oxbow Books.
|Hafted stone and shell tools in the Asia Pacific Region||Christopher Buckley||<p>Hafted stone tools fell into disuse in the Pacific region in the 19th and 20th centuries. Before this occurred, examples of tools were collected by early travelers, explorers and tourists. These objects, which now reside in ethnographic collect...||Asia, Conservation/Museum studies, Lithic technology, Neolithic, Oceania||Solène Denis||2022-11-09 18:37:08||View|
02 Dec 2023
Research perspectives and their influence for typologiesEnrico Giannichedda https://doi.org/10.5281/zenodo.7322855
Complexity and Purpose – A Pragmatic Approach to the Diversity of Archaeological Classificatory Practice and TypologyRecommended by Shumon Tobias Hussain, Felix Riede and Sébastien Plutniak based on reviews by Ulrich Veit, Martin Hinz, Artur Ribeiro and 1 anonymous reviewer
“Research perspectives and their influence for typologies” by E. Giannichedda (1) is a contribution to the upcoming volume on the role of typology and type-thinking in current archaeological theory and praxis edited by the recommenders. Taking a decidedly Italian perspective on classificatory practice grounded in what the author dubs the “history of material culture”, Giannichedda offers an inventory of six divergent but overall complementary modes of ordering archaeological material: i) chrono-typological and culture-historical, ii) techno-anthropological, iii) social, iv) socio-economic and v) cognitive. These various lenses broadly align with similarly labeled perspectives on the archaeological record more generally. According to the author, they lend themselves to different ways of identifying and using types in archaeological work. Importantly, Giannichedda reminds us that no ordering practice is a neutral act and typologies should not be devised for their own sake but because we have specific epistemic interests. Even though this view is certainly not shared by everyone involved in the broader debate on the purpose and goal of systematics, classification, typology or archaeological taxonomy (2–4), the paper emphatically defends the long-standing idea that ordering practices are not suitable to elucidate the structure and composition of reality but instead devise tools to answer certain questions or help investigate certain dimensions of complex past realities. This position considers typologies as conceptual prosthetics of knowing, a view that broadly resonates with what is referred to as epistemic instrumentalism in the philosophy of science (5, 6). Types and type-work should accordingly reflect well-defined means-end relationships.
Based on the recognition of archaeology as part of an integrated “history of material culture” rooted in a blend of continental and Anglophone theories, Giannichedda argues that type-work should pay attention to relevant relations between various artefacts in a given historical context that help further historical understanding. Classificatory practice in archaeology – the ordering of artefactual materials according to properties – must thus proceed with the goal of multifaceted “historical reconstruction in mind”. It should serve this reconstruction, and not the other way around. By drawing on the example of a Medieval nunnery in the Piedmont region of northwestern Italy, Giannichedda explores how different goals of classification and typo-praxis (linked to i-v; see above) foreground different aspects, features, and relations of archaeological materials and as such allow to pinpoint and examine different constellations of archaeological objects. He argues that archaeological typo-praxis, for this reason, should almost never concern itself with isolated artefacts but should take into account broader historical assemblages of artefacts. This does not necessarily mean to pay equal attention to all available artefacts and materials, however. To the contrary, in many cases, it is necessary to recognize that some artefacts and some features are more important than others as anchors grouping materials and establishing relations with other objects. An example are so-called ‘barometer objects’ (7) or unique pieces which often have exceptional informational value but can easily be overlooked when only shared features are taken into consideration. As Giannichedda reminds us, considering all objects and properties equally is also a normative decision and does not render ordering less subjective. The archaeological analysis of types should therefore always be complemented by an examination of variants, even if some of these variants are idiosyncratic or even unique. A type, then, may be difficult to define universally.
In total, “Research perspectives and their influence for typologies” emphasizes the need for “elastic” and “flexible” approaches to archaeological types and typologies in order to effectively respond to the manifold research interests cultivated by archaeologists as well as the many and complex past realities they face. Complexity is taken here to indicate that no single research perspective and associated mode of ordering can adequately capture the dimensionality and richness of these past realities and we can therefore only benefit from multiple co-existing ways of grouping and relating archaeological artefacts. Different logics of grouping may simply reveal different aspects of these realities. As such, Giannichedda’s proposal can be read as a formulation of the now classic pluralism thesis (8–11) – that only a plurality of ways of ordering and interrelating artefacts can unlock the full suite of relationships within historical assemblages archaeologists are interested in.
1. Giannichedda, E. (2023). Research perspectives and their influence for typologies, Zenodo, 7322855, ver. 9 peer-reviewed and recommended by Peer Community in Archaeology. https://doi.org/10.5281/zenodo.7322855
2. Dunnell, R. C. (2002). Systematics in Prehistory, Illustrated Edition (The Blackburn Press, 2002).
3. Reynolds, N. and Riede, F. (2019). House of cards: cultural taxonomy and the study of the European Upper Palaeolithic. Antiquity 93, 1350–1358. https://doi.org/10.15184/aqy.2019.49
4. Lyman, R. L. (2021). On the Importance of Systematics to Archaeological Research: the Covariation of Typological Diversity and Morphological Disparity. J Paleo Arch 4, 3. https://doi.org/10.1007/s41982-021-00077-6
5. Van Fraassen, B. C. (2002). The empirical stance (Yale University Press).
6. Stanford, P. K. (2006). Exceeding Our Grasp: Science, History, and the Problem of Unconceived Alternatives (Oxford University Press). https://doi.org/10.1093/0195174089.001.0001
7. Radohs, L. (2023). Urban elite culture: a methodological study of aristocracy and civic elites in sea-trading towns of the southwestern Baltic (12th-14th c.) (Böhlau).
8. Kellert, S. H., Longino, H. E. and Waters, C. K. (2006). Scientific pluralism (University of Minnesota Press).
9. Cat, J. (2012). Essay Review: Scientific Pluralism. Philosophy of Science 79, 317–325. https://doi.org/10.1086/664747
10. Chang, H. (2012). Is Water H2O?: Evidence, Realism and Pluralism (Springer Netherlands). https://doi.org/10.1007/978-94-007-3932-1
11. Wylie, A. (2015). “A plurality of pluralisms: Collaborative practice in archaeology” in Objectivity in Science, (Springer), pp. 189–210. https://doi.org/10.1007/978-3-319-14349-1_10
|Research perspectives and their influence for typologies||Enrico Giannichedda||<p>This contribution opens with a brief reflection on theoretical archaeology and practical material classification activities. Following this, the various questions that can be asked of artefacts to be classified will be briefly addressed. Questi...||Theoretical archaeology||Shumon Tobias Hussain||2022-11-10 20:14:52||View|
02 May 2023
Transmission of lithic and ceramic technical know-how in the Early Neolithic of central-western Europe: Shedding Light on the Social Mechanisms underlying Cultural TransitionSolène Denis, Louise Gomart, Laurence Burnez-Lanotte, Pierre Allard https://osf.io/gqnht/
A Thought Provoking Consideration of Craft in the NeolithicRecommended by Clare Burke based on reviews by Bogdana Milić and 1 anonymous reviewer
The pioneering work of Leroi-Gourhan introduced archaeologists to the concept of the chaîne opératoire, whereby, like his supervisor Mauss, Leroi-Gourhan proposed direct links between bodily actions and aspects of cultural identity. The chaîne opératoire offers a powerful conceptual tool with which to reconstruct and describe the technological practices undertaken by craftspeople, linking material objects to the cultural context in which crafts are learnt. Although initially applied to lithics, the concept today is well known in ceramic studies, as well as, other material crafts, in order to identify aspects of tradition and identity through ideas linked to technological style[3,4] and communities of practice.
Utilizing this approach, Denis et al. use the chaîne opératoire to look at both lithics and ceramics together from a diachronic viewpoint, to examine technical systems present over the transition between Linearbandkeramic (LBK) and post LBK Blicquy/Villeneuve-Saint German (BQY/VSG) timeframes. This much needed comparative and diachronic perspective, focuses on material from the sites of Vaux-et-Borset and Verlaine in Belgium, and has enabled the authors to consider the impact of changing social dynamics on these two crafts simultaneously.
The authors examine the ceramic and lithic assemblages from a macroscopic and morphological perspective in order to identify techniques of production. The data gathered testifies to the dominance of one production technique for each craft within the LBK. There is particularly striking homogeneity noted for the lithics that suggests the transmission of a single tradition over the Hesbaye area, whilst the ceramics display greater regional diversity. The picture alters somewhat for the BQY/VSG material where it seems there is an increase in the diversity of production techniques, with both the introduction of new techniques, as well as a degree of hybridization of earlier techniques to form new BQY/VSG chaînes opératoires that have LBK roots. The BQY/VSG diversity noted for the lithics is especially interesting, with the introduction of techniques that attest to increased expertise which the authors attest to the migration of an external group.
The results of this work have allowed Denis et al. to discuss multiple influences on the technical systems they identify. Rather than trying to fit the data within a single model, the authors demonstrate the need for nuance, considering the social changes associated with Neolithic migration and interactions, as multifaced and dynamic. As such, they are able to show not only the influence of contact with other groups, but that the apparent migration of external groups does not simply lead to the replacement of the crafting heritage already established at the sites they have examined.
In concluding the authors acknowledge, that as scholars push the existing state of knowledge (in this respect analysis of raw materials would make an especially important contribution), the picture presented in the paper may alter. Future work will hopefully fill in current gaps, particularly in terms of how far the trends identified extend, and the extent to which the lithic and ceramic pictures diversify on a broader geographical scale. It is certain that based on such results, future work should adopt the comparative approach presented by the authors, who have demonstrated its explanatory potential for understanding the technical and cultural groups we all study.
 Mauss, M. 2009 . Techniques, Technology and Civilisation. Edited and introduced by N. Schlanger. New York/Oxford: Durkheim Press/Berghahn Books.
 Lechtman, H. 1977. Style in Technology: some early thoughts. In H. Lechtman and R.S. Merrill (eds.) Material Culture: styles, organization and dynamics of technology. Proceedings of the American Ethnological Society 1975, St. Paul, 3-20.
 Gosselain, O. 1992. Technology and Style: Potters and Pottery Among Bafia of Cameroon. Man 27(3) 559- 586. htpps://doi.org/10.2307/2803929.
 Wenger, E. 1998. Communities of practice: Learning, meaning, and identity. Cambridge: Cambridge University Press.
 Denis, S., Gomart, L., Burnez-Lanotte, L. and Allard, P. (2023). Transmission of lithic and ceramic technical know-how in the Early Neolithic of central-western Europe: Shedding Light on the Social Mechanisms underlying Cultural Transition. OSF Preprints, gqnht, ver. 5 peer-reviewed and recommended by Peer Community in Archaeology. https://doi.org/10.31219/osf.io/gqnht
|Transmission of lithic and ceramic technical know-how in the Early Neolithic of central-western Europe: Shedding Light on the Social Mechanisms underlying Cultural Transition||Solène Denis, Louise Gomart, Laurence Burnez-Lanotte, Pierre Allard||<p>Research on the European Neolithisation agrees that a process of colonisation throughout the sixth millennium BC underlies the spread of agricultural ways of life on the continent. From central to central-western Europe, this colonisation path ...||Ceramics, Europe, Lithic technology, Neolithic||Clare Burke||2022-11-18 12:03:55||View|
28 Aug 2023
Geometric Morphometric Analysis of Projectile Points from the Southwest United StatesRobert J. Bischoff https://doi.org/10.31235/osf.io/a6wjc
2D Geometric Morphometrics of Projectile Points from the Southwestern United StatesRecommended by Adrian L. Burke based on reviews by James Conolly and 1 anonymous reviewer
Bischoff (2023) is a significant contribution to the growing field of geometric morphometric analysis in stone tool analysis. The subject is projectile points from the southwestern United States. Projectile point typologies or systematics remain an important part of North American archaeology, and in fact these typologies continue to be used primarily as cultural-historical markers. This article looks at projectile point types using a 2D image geometric morphometric analysis as a way of both improving on projectile point types but also testing if these types are in fact based in measurable reality. A total of 164 point outlines are analyzed using Elliptical Fourier, semilandmark and landmark analyses. The author also uses a network analysis to look at possible relationships between projectile point morphologies in space. This is a clever way of working around the predefined distributions of projectile point types, some of which are over 100 years old. Because of the dynamic nature of stone tools in terms of their use, reworking and reuse, this article can also provide solutions for studying the dynamic nature of stone tools. This article therefore also has a wide applicability to other stone tool analyses.
Bischoff, R. J. (2023) Geometric Morphometric Analysis of Projectile Points from the Southwest United States, SocArXiv, a6wjc, ver. 8 peer-reviewed and recommended by Peer Community in Archaeology. https://doi.org/10.31235/osf.io/a6wjc
|Geometric Morphometric Analysis of Projectile Points from the Southwest United States||Robert J. Bischoff||<p style="text-align: justify;">Traditional analyses of projectile points often use visual identification, the presence or absence of discrete characteristics, or linear measurements and angles to classify points into distinct types. Geometric mor...||Archaeometry, Computational archaeology, Lithic technology, North America||Adrian L. Burke||2022-12-18 03:38:14||View|