Abstract
There is myriad evidence that global warming is exerting a profoundly disruptive influence on the lifeways of modern native (Yup'ik) communities living in the Yukon-Kuskokwim (Y-K) delta of southwestern Alaska. Yup'ik subsistence is intimately tied to seasonal change and the ability to accurately predict the availability of plant and animal resources. It therefore seems reasonable to suggest that periods of climatic instability such as the Little Ice Age (LIA) may have had a deleterious effect on Yup'ik communities in the past. However, at present there are no palaeotemperature records that document the localised climatic changes of the last millennium in the Y-K Delta region. This lack of data hinders our understanding of the archaeological record from the site of Nunalleq, which is situated at the heart of the delta and was occupied during the LIA. To address this oversight, this paper presents the results of a Coleoptera (beetle) based climate reconstruction from a peat profile in the vicinity of Nunalleq to investigate the magnitude of Late Holocene climatic changes. Using the Mutual Climatic Range (MCR) method, we reconstruct mean summer and winter temperatures from the mid-15th to late-19th centuries. The results indicate that the past environments of Nunalleq were characterised by a climate significantly cooler than the present. The earliest definitive evidence for Little Ice Age cooling dates from the late 16th century, when mean summer temperatures were at least 1.2ᵒC below the modern mean. Temperatures appear to have remained lower than modern until the early 19th century. The coolest Nunalleq record – 1.3ᵒC below the modern mean summer temperatures – is centred on AD 1815, after which there is evidence for climatic amelioration. These data present differences with observations from other regions of Alaska and underline the importance of more local palaeoclimate reconstructions, particularly when interrogating the relationships between past climatic and social change.
Highlights
Arguments for the influence of climate on the successes and failures of past human societies are well rehearsed (Diamond, 2005; Van de Noort, 2013)
This paper presents the results of a high-resolution palaeoclimate reconstruction from a sediment profile closely associated with this late prehistoric Yup'ik archaeological site
Despite the smaller volume of samples analysed in the present study, our minimum number of individuals (MNI) are consistently equal to, or higher than, those obtained from other studies of Coleoptera subfossils extracted from peat bogs (e.g. Buckland et al, 2009; Khorasani et al, 2015; Panagiotakopulu and Buckland, 2013; Vickers et al, 2011)
Summary
Arguments for the influence of climate on the successes and failures of past human societies are well rehearsed (Diamond, 2005; Van de Noort, 2013). There are myriad examples across the world that are posited as attempts by past societies towards predicting and influencing the arrival of seasons (Chamberlain, 2000; Robbins, 2000; Burroughs, 2005). Dugmore et al, 2007a, 2012; Carleton et al, 2017) Nowhere are such considerations more relevant than in the circumpolar regions of the globe, where lifeways rely on the ability to predict the seasons and weather (Ford and Smit, 2004) and climatic changes are more rapid and pronounced than at temperate latitudes (IPCC, 2013). Vegetation is dominated by tundra communities (Babcock and Ely, 1994) characterised by a mixture of graminoid-rich meadows and dwarf shrub tussock tundra of Betula nana, Rubus chamaemorus and Empetrum nigrum
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