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1. Do counts of radiocarbon-dated archaeological sites reflect human population density? A preliminary empirical validation examining spatial variation across late Holocene California

   https://doi.org/10.1017/RDC.2024.81  

   Codding, Brian F; Meyer, Jack; Brewer, Simon C; Kelly, Robert L; Jones, Terry L (September 2024, Radiocarbon)

   Researchers increasingly rely on aggregations of radiocarbon dates from archaeological sites as proxies for past human populations. This approach has been critiqued on several grounds, including the assumptions that material is deposited, preserved, and sampled in proportion to past population size. However, various attempts to quantitatively assess the approach suggest there may be some validity in assuming date counts reflect relative population size. To add to this conversation, here we conduct a preliminary analysis coupling estimates of ethnographic population density with late Holocene radiocarbon dates across all counties in California. Results show that counts of late Holocene radiocarbon-dated archaeological sites increase significantly as a function of ethnographic population density. This trend is robust across varying sampling windows over the last 5000 BP. Though the majority of variation in dated-site counts remains unexplained by population density. Outliers reveal how departures from the central trend may be influenced by regional differences in research traditions, development-driven contract work, organic preservation, and landscape taphonomy. Overall, this exercise provides some support for the “dates-as-data” approach and offers insights into the conditions where the underlying assumptions may or may not hold. 

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2. Human–environment interactions in the Lake Junín basin: Fire, megafauna, deforestation, and domestication, from the peopling of the Andes to the Inca Empire

   https://doi.org/10.1016/j.quascirev.2024.109159  

   Marsh, Erik J; Rademaker, Kurt (March 2025, Quaternary Science Reviews)

   Human–environment interactions are a focus of interdisciplinary research in the high Andes, recently invigorated by sediment-core data from Lake Junín (Chinchaycocha). On the basis of these records, recent articles have argued that humans arrived in the Junín basin 13 thousand calibrated years ago (kya), set large-scale fires, and hunted Pleistocene megafauna to extinction. Declines in montane tree pollen beginning ~4 kya have been attributed to deforestation, camelid domestication, and agriculture on the high Andean puna. In this paper, we critically examine these arguments and contrast them with a compilation of archaeological data from the Lake Junín basin including 113 radiocarbon dates (12 unpublished), settlement patterns, camelid osteometry, macrobotanical remains, Inca period sites, and ethnographic and ethnohistoric descriptions of herding and farming. These data suggest that the earliest archaeological evidence for human occupation is not until ~11 kya, and there is no clear evidence for interaction with Pleistocene megafauna. Although the Junín basin is often cited as a center for camelid domestication in the middle Holocene, this claim remains tenuous, since osteometry struggles to distinguish wild and domestic camelids. Finally, ethnohistoric and ethnographic information offer no support for the argument that the basin was a "manufactured landscape" in the late Holocene. Moving forward, we recommend more careful consideration of (1) the mismatch of temporal resolution in paleoecological and archaeological chronologies, (2) the potential spatial mismatch in the catchment area of palaeoecological proxies and archaeological datasets, and (3) ambiguity in Sporormiella as a proxy for fauna and charcoal as a proxy for human activity. We suggest that future work on paleoecological proxies from 0.7 to 0.3 kya could be harnessed to build a comparative baseline, since these centuries saw large populations of humans and domesticated camelids near the lake. Our goal is to promote more robust reconstructions of human–environment interactions in the Lake Junín basin and elsewhere. 

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3. Approximate Bayesian Computation evaluation of the interactive effects of climate change and subsistence economic intensification on pre-contact population dynamics in western North America

   Wilson, Kurt M; Vernon, Kenneth B; Codding, Brian F; Brewer, Simon C (April 2024, Society for American Archaeology)

   Past population change is connected to significant shifts in human behavior and experience including landscape manipulation, subsistence change, sedentism, technological change, material inequality and more. However, population change appears to result from a complex interplay of human-environment interactions that feedback on each other, influencing and simultaneously impacted by processes such as subsistence intensification and climate change. Here we explore complex system dynamics of population change using theoretical and Approximate Bayesian Computational modeling combined with the archaeological record of the past 4,000 years in the Colorado Plateau and Great Basin regions of western North America as case studies to identify causal relationships and the different manners in which climate change may have interplayed with subsistence economic intensification and population dynamics. Using standard distance metric evaluation on the performance of 1,000,000 simulations compared with reconstructed past population sizes in each region reveals how climate change impacting landscape productivity can influence carrying capacity and structure population growth such that, when populations reach carrying capacity (Malthusian ceilings), intensification in their subsistence economy can send feedbacks into the socioecological system spurring rapid, differential, population growth. Comparisons of the two regions highlights how varied socioecological circumstances can produce alternative pathways to, and limitations on, population expansions. 

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4. THE INFLUENCE OF DEPOSITIONAL ENVIRONMENT AND BASIN HISTORY ON THE TAPHONOMY OF MAMMALIAN ASSEMBLAGES FROM THE BARSTOW FORMATION (MIDDLE MIOCENE), CALIFORNIA

   https://doi.org/https://doi.org/10.2110/palo.2019.067  

   Loughney, K.M.; Badgley, C. (April 2020, Palaios)

   null (Ed.)

   The Barstow Formation in the Mojave region of California was deposited in an extensional-basin setting of the Basin and Range province and preserves diverse middle Miocene mammalian assemblages. Six facies associations represent the dominant depositional environments in the basin, which changed through time from alluvial-fan and playa-dominated settings to floodplains and spring-fed wetlands. The majority of fossil localities and specimens occur in later-forming facies associations. We analyzed the taphonomic characteristics of fossil assemblages to test whether basin-scale facies associations or locality-scale facies exert more control on the preservational features of mammalian assemblages through the formation. We documented the facies settings of 47 vertebrate localities in the field in order to interpret depositional setting and the mode of accumulation for fossil assemblages. We evaluated skeletal material in museum collections for taphonomic indicators, including weathering stage, original bone-damage patterns, hydraulic equivalence, and skeletal-element composition. We evaluated four alternative modes of accumulation, including attritional accumulation on the land surface, accumulation by fluvial processes, carnivore or scavenger accumulations, and mass-death events. The majority of localities represent attritional accumulations at sites of long-term mortality in channel-margin, abandoned-channel, poorly drained floodplain, and ephemeral-wetland settings. Skeletal-element composition and taphonomic characteristics varied among facies, indicating an important role for depositional setting and landscape position on fossil-assemblage preservation. We find that locality-scale facies have a greater influence on the taphonomic characteristics of fossil assemblages; the taphonomy of each facies association is influenced by the facies that compose it. The facies composition and distribution within facies associations change through the formation, with a greater variety of depositional settings forming later in the history of the basin. Heterogeneous landscapes present more settings for fossil accumulation, contributing to the increase in fossil occurrence through the depositional history of the formation. 

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5. Spatiotemporal Dynamics of Prehistoric Human Population Growth: Radiocarbon Dates as Data and Population Ecology Models.

   https://doi.org/doi.org/10.1016/j.jas.2018.11.006  

   Robinson, E. (April 2019, Journal of archaeological science)

   Archaeologists now routinely use summed radiocarbon dates as a measure of past population size, yet few have coupled these measures to theoretical expectations about social organization. To help move the ‘dates as data’ approach from description to explanation, this paper proposes a new integrative theory and method for quan- titative analyses of radiocarbon summed probability distributions (SPDs) in space. We present this new approach to ‘SPDs in space’ with a case study of 3571 geo-referenced radiocarbon dates from Wyoming, USA. We develop a SPD for the Holocene in Wyoming, then analyze the spatial distribution of the SPD as a function of time using a standard nearest-neighbor statistic. We compare population growth and decline throughout the Holocene with expectations for different Ideal Distribution Models from population ecology that predict the relationship be- tween habitat quality and population density. Results suggest that populations in Wyoming were initially clustered and then became increasingly dispersed through the course of the Holocene. These results suggest that Allee-like benefits to aggregation, rather than ideal free-driven dispersion patterns, explain settlement decisions in response to growing populations. Our approach is a first step in constructing a method and theory for de- scribing relationships between social organization and population growth trends derived from archaeological radiocarbon time-series. 

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