Rick Knecht

The genetic prehistory of the New World Arctic

Introduction Humans first peopled the North American Arctic (northern Alaska, Canada, and Greenland) around 6000 years ago, leaving behind a complex archaeological record that consisted of different cultural units and distinct ways of life, including the Early Paleo-Eskimos (Pre-Dorset/Saqqaq), the Late Paleo-Eskimos (Early Dorset, Middle Dorset, and Late Dorset), and the Thule cultures. Genetic origins of Paleo-Eskimos and Neo-Eskimos. All Paleo-Eskimos represent a single migration pulse from Siberia into the Americas, independent of the Neo-Eskimo Thule people (ancestors of modern-day Inuit) and the related extinct Sadlermiut population. The Siberian Birnirk people were likely cultural and genetic ancestors of modern-day Inuit. We also show ancient admixture between the Paleo- and Neo-Eskimo lineages, occurring at least 4000 years ago. Rationale We addressed the genetic origins and relationships of the various New World Arctic cultures to each other and to modern-day populations in the region. We obtained 26 genome-wide sequences and 169 mitochondrial DNA sequences from ancient human bone, teeth, and hair samples from Arctic Siberia, Alaska, Canada, and Greenland, and high-coverage genomes of two present-day Greenlandic Inuit, two Siberian Nivkhs, one Aleutian Islander, and two Athabascan Native Americans. Twenty-seven ancient samples were radiocarbon dated for accurate cultural assignment, of which 25 were corrected for marine reservoir effect to account for the dominant marine component in these individuals’ diets. Results Nuclear and mitochondrial DNA data unequivocally show that the Paleo-Eskimos are closer to each other than to any other present-day population. The Thule culture represents a distinct people that are genetic and cultural ancestors of modern-day Inuit. We additionally find the Siberian Birnirk culture (6th to 7th century CE) as likely cultural and genetic ancestors of the Thule. The extinct Sadlermiut people from the Hudson Bay region (15th to 19th century CE), considered to be Dorset remnants, are genetically closely related to Thule/Inuit, rather than the Paleo-Eskimos. Moreover, there is no evidence of matrilineal gene flow between Dorset or Thule groups with neighboring Norse (Vikings) populations settling in the Arctic around 1000 years ago. However, we do detect gene flow between the Paleo-Eskimo and Neo-Eskimo lineages, dating back to at least 4000 years. Conclusion Our study has a number of important implications: Paleo-Eskimos likely represent a single migration pulse into the Americas from Siberia, separate from the ones giving rise to the Inuit and other Native Americans, including Athabascan speakers. Paleo-Eskimos, despite showing cultural differences across time and space, constituted a single population displaying genetic continuity for more than 4000 years. On the contrary, the Thule people, ancestors of contemporary Inuit, represent a population replacement of the Paleo-Eskimos that occurred less than 700 years ago. The long-term genetic continuity of the Paleo-Eskimo gene pool and lack of evidence of Native American admixture suggest that the Saqqaq and Dorset people were largely living in genetic isolation after entering the New World. Thus, the Paleo-Eskimo technological innovations and changes through time, as evident from the archaeological record, seem to have occurred solely by movement of ideas within a single resident population. This suggests that cultural similarities and differences are not solid proxies for population movements and migrations into new and dramatically different environments, as is often assumed. Arctic genetics comes in from the cold Despite a well-characterized archaeological record, the genetics of the people who inhabit the Arctic have been unexplored. Raghavan et al. sequenced ancient and modern genomes of individuals from the North American Arctic (see the Perspective by Park). Analyses of these genomes indicate that the Arctic was colonized 6000 years ago by a migration separate from the one that gave rise to other Native American populations. Furthermore, the original paleo-inhabitants of the Arctic appear to have been completely replaced approximately 700 years ago. Science, this issue 10.1126/science.1255832; see also p. 1004 Early Arctic humans differed from both present-day Inuit and Native Americans. [Also see Perspective by Park] The New World Arctic, the last region of the Americas to be populated by humans, has a relatively well-researched archaeology, but an understanding of its genetic history is lacking. We present genome-wide sequence data from ancient and present-day humans from Greenland, Arctic Canada, Alaska, Aleutian Islands, and Siberia. We show that Paleo-Eskimos (~3000 BCE to 1300 CE) represent a migration pulse into the Americas independent of both Native American and Inuit expansions. Furthermore, the genetic continuity characterizing the Paleo-Eskimo period was interrupted by the arrival of a new population, representing the ancestors of present-day Inuit, with evidence of past gene flow between these lineages. Despite periodic abandonment of major Arctic regions, a single Paleo-Eskimo metapopulation likely survived in near-isolation for more than 4000 years, only to vanish around 700 years ago.

Maritime adaptations and dietary variation in prehistoric Western Alaska: Stable isotope analysis of permafrost‐preserved human hair

The reconstruction of diet and subsistence strategies is integral in understanding early human colonizations and cultural adaptations, especially in the Arctic-one of the last areas of North America to be permanently inhabited. However, evidence for early subsistence practices in Western Alaska varies, particularly with regards to the emergence, importance, and intensity of sea mammal hunting. Here, we present stable carbon and nitrogen isotope data from permafrost-preserved human hair from two new prehistoric sites in Western Alaska, providing a direct measure of diet. The isotope evidence indicates a heavy reliance on sea mammal protein among the earlier Norton-period group (1,750 ± 40 cal BP), confirming that the complex hunting technologies required to intensively exploit these animals were most likely already in place in this region by at least the beginning of 1st millennium AD. In contrast, analysis of the more recent Thule-period hair samples (650 ± 40 cal BP; 570 ± 30 cal BP) reveals a more mixed diet, including terrestrial animal protein. Sequential isotope analysis of two longer human hair locks indicates seasonal differences in diet in a single Norton-period individual but demonstrates little dietary variation in a Thule-period individual. These analyses provide direct evidence for dietary differences among Alaskas early Eskimo groups and confirm the antiquity of specialized sea mammal hunting and procurement technologies. The results of this study have implications for our understanding of human adaptation to maritime and high-latitude environments, and the geographical and temporal complexity in early Arctic subsistence.

Hair methylmercury levels of mummies of the Aleutian Islands, Alaska

Ancient human hair specimens can shed light on the extent of pre-historic exposures to methylmercury and provide valuable comparison data with current-day exposures, particularly for Indigenous Peoples who continue to rely upon local traditional food resources. Human hair from ancient Aleutian Island Native remains were tested for total and methylmercury (Hg, MeHg) and were radiocarbon dated. The remains were approximately 500 years old (1450 A.D.). For four adults, the mean and median total hair mercury concentration was 5.8 ppm (SD=0.9). In contrast, MeHg concentrations were lower with a mean of 1.2 ppm (SD=1.8) and a median of 0.54 ppm (0.12-3.86). For the five infants, the mean and median MeHg level was 1.2 ppm (SD=1.8) and 0.20 ppm (0.007-4.61), respectively. Segmental analyses showed variations in MeHg concentrations in 1-cm segments, consistent with fluctuations in naturally occurring exposure to mercury through dietary sources. The levels are comparable to or lower than those found in fish and marine mammal-eating populations today who rely far less on subsistence food than pre-historic humans. The findings are, therefore, compatible with increased anthropogenic release of trace metals during the past several centuries.

Specialized Processing of Aquatic Resources in Prehistoric Alaskan Pottery?: A Lipid-Residue Analysis of Ceramic Sherds from the Thule‐Period Site of Nunalleq, Alaska

Largely missing from the debate surrounding the use of pottery among arctic and subarctic hunter-gatherers are site-based biomolecular studies of vessel contents. This study used lipid-residue analysis to elucidate vessel function at Nunalleq (GDN-248), a late Thule-period coastal village site in the Yup’ik area of Western Alaska. In total, 31 pottery sherds and five soil samples were analyzed using gas chromatography and/or gas chromatography–mass spectrometry. The ubiquitous presence of aquatic biomarkers in all the pottery sherds suggests that pottery function at the site was directly linked to the use of aquatic resources. This indication of relatively specialized use of pottery at Nunalleq is particularly interesting when considered within the context of the site’s broader subsistence strategies, which included use of both aquatic and terrestrial resources. These findings appear to support a more general association between higher-latitude pottery traditions and the use of aquatic resources, though this topic requires further research.

Early medieval shellfish exploitation in Northwest Europe: investigations at the Sands of Forvie Shell Middens, Eastern Scotland, and the role of coastal resources in the First Millennium AD

ABSTRACT Coastal shell middens represent a well-known element of the archaeological record of island and coastal regions across the world and shellfish have been an important resource for subsistence since the mid Holocene. However, the factors that influence shellfishing remain poorly understood and in many regions investigations into the role of shellfish gathering often have remained focused on prehistoric examples to the detriment of shell middens of later dates. This article reports on the emerging evidence for large-scale exploitation of shellfish during a hitherto understudied period for shell midden archaeology in northwest Europe: the first millennium AD. The article includes a review of a series of previously unknown large mussel-dominated middens in eastern Scotland, an outline of their chronology and character, including Bayesian modeling of dates, and a synthesis of the emerging evidence for shellfish gathering in northwest Europe during the first millennium AD. The research represents the first investigation of large-scale early Medieval middens in Britain and the first review of their international parallels and the important new information they can provide for the early Medieval economy.

Early Medieval Shellfish Gathering at the Sands of Forvie, Aberdeenshire: Feast or Famine?

From 2010 to 2014, extensive shell middens were excavated at the Sands of Forvie, Aberdeenshire, and the wider landscape explored through a programme of soil and geophysical survey. The middens were dated to the 1st millennium ad and appear to represent intensive gathering and cooking of shellfish, particularly mussels. To date, few middens of the scale of the Forvie examples have been identified in Scotland, but the middens share some parallels with similar examples found in a broader North Sea context. This article reports on the findings of the excavations, provides an outline of the chronology of the middens, including Bayesian modelling of dates, and a brief review of the growing evidence for shellfish gathering in 1st-millennium ad Scotland and the wider north-west European context.