New horizons at L’Anse aux Meadows New horizons at L’Anse aux Meadows Paul M. Ledgera,b,1, Linus Girdland-Flinkc, and Véronique Forbesa aDepartment of Archaeology, Queens College, Memorial University of Newfoundland, St. John’s, NL, Canada A1C 5S7; bDepartment of Geography, Memorial University of Newfoundland, St. John’s, NL, Canada A1B 3X9; and cSchool of Natural Sciences and Psychology, Liverpool John Moores University, L3 3AF Liverpool, United Kingdom Edited by Dolores R. Piperno, Smithsonian Institution, Washington, DC, and approved June 17, 2019 (received for review May 9, 2019) The UNESCO World Heritage site of L’Anse aux Meadows (LAM) in northern Newfoundland is the only undisputed site of pre-1492 pres- ence of Europeans in the Americas. In August 2018, we undertook fieldwork at LAM to sample the peat bog 30 m east of the Norse ruins for a multiproxy paleoenvironmental assessment of Norse settle- ment. Instead, we encountered a new cultural horizon. Here we re- port our fieldwork at this iconic site and a Bayesian analysis of legacy radiocarbon data, which nuance previous conclusions and suggest Norse activity at LAM may have endured for a century. In light of these findings, we reflect on how the cultural horizon, containing nonnative ecofacts, may relate to indigenous or Norse activities. Norse | indigenous | Bayesian modeling | insects | pollen The Norse colonization of the North Atlantic, a defining fea-ture of the Viking Age, reached its ultimate extent on the shores of Newfoundland some 4 centuries before Christopher Columbus (1). Pre-Columbian presence of Europeans in the New World had often been suspected on the basis of oral histories inscribed by mid-13th century Icelandic scholars in Grænlendinga Saga and Eiríks Saga Rauða. These sagas recounted how Norse explorers from Greenland discovered and established a settlement in Vínland, a land west of Greenland (2). Nevertheless, it was not until the 1960s that definitive evidence was discovered near the Newfoundland outport of L’Anse aux Meadows (LAM) (1). Throughout the 1960s, 8 Icelandic-style turf structures were ex- cavated at LAM (Fig. 1), identifying Norse material culture such as a bronze cloak pin, a steatite spindle whorl, and evidence of rudi- mentary iron working (2). The remainder of the European material culture was nondiagnostic, comprising fragmentary iron, primarily nails and rivets, a bone needle fragment, and a whetstone (1). Numerous stone tools pertaining to indigenous peoples were also recovered (2), perhaps suggesting LAM was the theater of the earliest contact between Europeans and North Americans. In the 1970s, further excavations by Parks Canada revealed iron-worked wooden objects and jasper fire starters matching rocks that outcrop in western Greenland and Iceland (2). A wealth of wooden debit- age was also uncovered, which was attributed to both indigenous and Norse occupations (2). Compared with Norse sites in Green- land, the limited suite of material culture from LAM is notable for the near absence of steatite and osseous material commonly used for all manner of implements in Greenland (Fig. 1). Botanical analyses identified wood and nuts from the White Walnut (Juglans cinerea), an exotic species in Newfoundland that suggests wider- ranging Norse voyages to the south (2). Over 100 ecofacts associated with the archaeological heritage (wood and charcoal) were submitted for radiocarbon dating (2). Dates ranged from 5,080 ± 110 14C y B.P. (Qu-365; charcoal) to 260 ± 110 14C y B.P. (S-1167; worked wood), encompassing the suite of occupations at the site. Assays from Norse contexts (56 assays) ranged from 1,630 ± 70 14C y B.P. (WAT-420; charred wood) to 865 ± 65 14C y B.P. (S-1091; wood). Icelandic saga literature, and references to Vínland in an ecclesiastical treatise from ca. AD 1075, suggested LAM should date to ca. AD 1000, something the radiocarbon data seemed to challenge (2). It was not until the “in-built” ages of materials such as wood and charcoal became widely recognized that these conflicting narra- tives could be reconciled. Assays on short-lived macrofossils (twigs) from Norse contexts dated to between 1,050 ± 65 14C y B.P. (S-1340; Abies sp. twig; Cal AD 895–1030) and 955 ± 100 14C y B.P. (S-1355; Larix sp. twig; Cal AD 995–1185), suggesting an occupa- tion centered on AD 1000 (2). A weighted mean of twig dates— notwithstanding issues associated with combination of 14C ages from multiple individuals—provided a result of AD 986–1022 (3). Despite being the earliest known European outpost in North America, LAM remains enigmatic. None of the structures are identifiable as animal shelters, nor is there faunal evidence for animal husbandry—the foundation of Norse subsistence in Greenland and Iceland (2). LAM is therefore an outlier within the Norse settlements of the North Atlantic. The paucity of material culture and shallow deposits indicate a transitory place functioning as a base for exploration of North America (2). Al- though the Norse colonization of the North Atlantic is often viewed as a search for farmland, it was also an endeavor to secure luxury resources for European markets (4). From this perspective, perhaps a Norse outpost makes perfect sense. LAM is located on the shores of a rich cod fishery—which, 6 centuries later, was home to hundreds of seasonal French fishers (5)—and in a dense nesting region for eiders (6). Both stockfish (dried cod) and eiderdown were highly prized commodities in the Viking Age (4, 7). Fieldwork Our trench, measuring 0.65 × 1.50 m, was located 30 m east of Ruin D (Fig. 1). The new cultural horizon (4A800B7) was encoun- tered between 35 and 45 cm (Fig. 2) and comprised finely laminated (0.5 to 1.0 cm thick) apparently trampled surfaces containing char- coal, wood debitage, and charred plant remains. Abundant well- preserved plant (leaves and twigs) and insect remains were evident to the naked eye. A 2-L bulk sample of the layer and a monolith spanning the cultural horizon and natural peat were collected (Fig. 2). Environmental Archaeological Analyses The peat monolith was cut into contiguous 1 cm3 subsamples, and the pollen content was analyzed (e.g., ref. 8). A 450-mL subsample of the 2-L bulk was disaggregated in <2% NaOH, then washed through a series of sieves. Residues were hand- sorted under a binocular microscope to isolate charcoal, seeds, in- sects, and wood debitage. Short-lived plant macrofossils selected from 3 levels (as illustrated in Fig. 2) were submitted for C14 dating at the André E. Lalonde Accelerator Mass Spectrometry Laboratory. The pollen content is notable for tree, shrub, and heath percent- ages (in particular, Myrica), which are high in respect to the aspect of the site and previous studies at LAM (1, 9). Apophytes (e.g., Rumex sp. Achillea millefolium type) are elevated at ca. 10% total land pollen (TLP), while exotics such as Juglans (Walnut) and Humulus type (hops or cannabis) are also present. Sporormiella-type fungi, exclusively associated with the dung of grazing herbivores (caribou in the case of Newfoundland), were also found in 7 of 12 samples. Author contributions: P.M.L. and V.F. designed research; P.M.L., L.G.-F., and V.F. per- formed research; P.M.L. and V.F. analyzed data; and P.M.L. and V.F. wrote the paper. The authors declare no conflict of interest. This open access article is distributed under Creative Commons Attribution License 4.0 (CC BY). 1To whom correspondence may be addressed. Email: pledger@mun.ca. Published online July 15, 2019. www.pnas.org/cgi/doi/10.1073/pnas.1907986116 PNAS | July 30, 2019 | vol. 116 | no. 31 | 15341–15343 A N TH R O P O LO G Y B R IE F R EP O R T D o w n lo a d e d a t U n iv e rs ity o f A b e rd e e n o n J a n u a ry 1 5 , 2 0 2 0 http://crossmark.crossref.org/dialog/?doi=10.1073/pnas.1907986116&domain=pdf http://creativecommons.org/licenses/by/4.0/ mailto:pledger@mun.ca https://www.pnas.org/cgi/doi/10.1073/pnas.1907986116 The concentration of insect remains in 4A800B7 (0.24 beetles per mL−3) is very high compared with natural peatlands. Most abundant are rove beetles such as Pycnoglypta sp., typically domi- nant on archaeological sites. Other examples include Acidota quadrata (Zetterstedt), a Holarctic species previously unrecorded in Newfoundland, and Simplocaria metallica (Sturm), a pill beetle considered adventive (nonnative) in Canada (10). Of further note is a dock/sorrel seed that compares favorably to Rumex aquaticus L., a species of uncertain status in Newfoundland (11). Bayesian Modeling of Radiocarbon Data Legacy 14C data pertaining to the Norse and indigenous (often re- ferred to as Recent Indian, a cultural group ancestral to the Beothuk) occupations at LAM were collated from the Canadian Archaeologi- cal Radiocarbon Database and placed within a relative chronological framework (Fig. 2) using published data (1, 2). A series of Bayesian models were constructed in OxCal (Fig. 2F) to estimate start and end dates for the Norse and indigenous occupations, individual structures, and 4A800B7 under varying prior information. Modeling results were remarkably consistent (Fig. 2F), and model A suggests Norse occu- pation began Cal AD 910–1030 (2σ; boundary: Start Norse), ended Cal AD 1030–1145 (2σ; boundary: End Norse), and endured for 0 to 195 y (2σ; span: Sequence Norse). Greater uncertainty surrounds indigenous occupations, where a start of Cal AD 710–1130 (2σ; boundary: Start pre-Beothuk) and end of Cal AD 1540–1815 (2σ; boundary: End pre-Beothuk) is indicated. Assays from 4A800B7 date it to the mid-12th to the late 13th centuries (Fig. 2). Discussion Bayesian modeling has confirmed previous conclusions (2, 3) regarding Norse arrival, but suggests a potentially longer than as- sumed period of use (up to 195 y). This does not imply a continuous occupation, which, given the shallow cultural deposits, seems un- likely. Rather, it indicates the possibility of sporadic Norse activity beyond the early 11th century. Data from indigenous contexts is less precise, and activity is modeled to have begun between the 8th and 12th centuries. LAM therefore could have been a shared zone of interaction. Radiocarbon data place 4A800B7 in the 12th and 13th centuries, implying an association with indigenous activities. Assuming an indigenous association poses the question: What process formed 4A800B7? The deposit is thick (≥10 cm), with excellent preservation and fine laminations, which indicate rapid accumulation and burial of trampled material. The concentrations of insects, wood debitage, charcoal, and weed pollen are suggestive of abundant organic waste. Sporormiella-type fungi also point to the incorporation of dung into the matrix of the deposit, or the nearby presence of grazing animals. Similar deposits are well documented from Greenlandic Norse sites (8), but contrast with shallow cultural layers from contemporary indigenous settings in Newfoundland. The ecofactual content of 4A800B7 poses interesting bio- geographical questions, but offers few clues to its cultural affinity. The dock seed (cf. Rumex aquaticus) may derive from an introduced plant native to Eurasia, but the tendency of Rumex species to hybridize complicates secure identification. Cereal-type pollen could derive from wild grasses, while Humulus lupulus-type and Juglans may have arrived through wind dispersal. However, their sole presence in the cultural horizon and the past identification of Juglans macrofossils at LAM is intriguing. Of the beetles, S. metallica is considered native to Greenland, where it has been found in Norse and Pre-Inuit contexts, while A. quadrata, never previously identified from Newfoundland, is common in the circumpolar north. If any of these species truly are introductions to Newfoundland, their arrival by the 13th century may have been via either Norse or indigenous trade or migration routes. Conclusions The results presented here pose more questions than answers. The cultural deposit that we have discovered at LAM exhibits affinities with cultural layers from across the Norse North Atlantic, but our analyses demonstrate it postdates even the most generous estimates for Norse activity in Newfoundland. Ecofacts from cultural waste sandwiched between layers of peat may not be as evocative as artifacts such as a ringed bronze pin, or a finely crafted lithic projectile point. Yet, they Eastern Settlement ICEL AND NEWFOUNDLAND Western Settlement L’Anse aux Meadows GR EEN LAN D LABRADOR 1960s 1973 1974 1975 1976 2018 trench location Excavations Bone (undiff) Wood Wool Leather Iron Stone Whale bone Walrus ivory Copper alloy Caribou antler Steatite Iron slag 0 10 1 100 0.1 Fig. 1. The North Atlantic region. (Left Inset) Summary of material culture from church farms (blue), farms (red), and shielings (green) in Green- land in terms of raw materials. The material culture assemblage from LAM is represented in yellow (Right Inset). The location of Norse ruins and exca- vations at LAM. 15342 | www.pnas.org/cgi/doi/10.1073/pnas.1907986116 Ledger et al. D o w n lo a d e d a t U n iv e rs ity o f A b e rd e e n o n J a n u a ry 1 5 , 2 0 2 0 https://www.pnas.org/cgi/doi/10.1073/pnas.1907986116 present new horizons for examining the environmental legacies of inter- and intracontinental movement of people within North America prior to 1492. Whatever their affinity, the cultural deposits within the LAM peatlands preserve unique archaeological and bio- geographical stories waiting to be told. ACKNOWLEDGMENTS. We thank Birgitta Wallace for stimulating discussions and support and the Parks Canada staff at LAM and Dartmouth. We also wish to thank Meghan Burchell and Bryn Tapper for help with imagery and Dawn Mooney and Yannick Miras for advice on botanical IDs. We acknowledge support from Memorial University Faculty Start-Up Funds. 1. A. S. Ingstad, Excavations of a Norse Settlement at L’Anse Aux Meadows, New- foundland 1961-1968 (The Norse Discovery of North America, Norwegian University Press, Oslo, Norway, 1985), Vol. 1. 2. B. L. Wallace, The Norse in Newfoundland: L’Anse aux Meadows and Vinland. Nfld. Stud. 19, 5–43 (2003). 3. R. Nydal, A critical review of radiocarbon dating of a Norse settlement at L’Anse aux Meadows, Newfoundland, Canada. Radiocarbon 31, 976–985 (1989). 4. C. K. Keller, Furs, fish and ivory: Medieval Norseman at the Arctic fringe. J. North Atlantic 3, 1–23 (2010). 5. B. Tapper, “An archaeological analysis of the distribution of French fishing rooms on the Petit Nord, Newfoundland,” Masters thesis, Memorial University of Newfound- land, St. John’s, NL, Canada (2014). 6. T. J. Kristensen, J. E. Curtis, Late Holocene hunter-gatherers at L’Anse aux Meadows and the dynamics of bird and mammal hunting in Newfoundland. Arctic Anthropol. 49, 68–67 (2012). 7. V. Forbes, Duck fleas as evidence for eiderdown production on archaeological sites. J. Archaeol. Sci. 61, 105–111 (2015). 8. P. M. Ledger, K. J. Edwards, J. E. Schofield, Taphonomy or signal sensitivity in palaeoecological investigations of Norse landnám in Vatnahverfi, southern Greenland? Boreas 44, 197–215 (2015). 9. A. M. Davis, J. H. McAndrews, B. L. Wallace, Paleoenvironment and the archaeo- logical record at the L’Anse aux Meadows site, Newfoundland. Geoarch 3, 53–64 (1988). 10. Y. Bousquet, P. Bouchard, A. E. Davies, D. Sykes, Checklist of Beetles (Coleoptera) of Canada and Alaska (Pensoft, Sofia, Bulgaria, 2013). 11. S. J. Meades, L. Brouillet, “Annotated checklist of the vascular plants of Newfoundland and Labrador.” Flora of Newfoundland and Labrador (2019). https://newfoundland- labradorflora.ca/index.cfm. Accessed 9 May 2019. 25 μm 10 mm South West North East 4A800B7-1 Smithy Activity T-393; S-1101; T-366; S-1127 House A occupation T-310 Firepit S-1124 Start of Norse occupation House D occupation WAT-420; T-364 Construction House F occupation T-325; T-326; S-1351; S-1108; S-1350; St-2665? Start House D End House D T-817 End House AEnd Smithy Construction T-531; S-1104; S-1102 End House F Other Norse activity T-327; T-324; T-306; T-309; T-367 End of Norse occupation Bog/Middens TO-116; S1092; S-1119; S-1358;S-1339; S-1346;S-1109; S-1343; S-1348; S-1090; S-1118; S-1115; S-1342; S-1347; S-1106; S-1352; S-1357; S-1114; S-1112; S-1120; S-1110; S-1093; ; ; ; S-1113 TO-119 S-1111 S-1091; ; ; ; ; S-1340 TO-117 S-1355TO-118 Qu-350; WAT-436 800B Activity UOC-7390 UOC-7389 End of 800B Start of 800B UOC-7388 Start House FStart House AStart Smithy Construction T-530; T-818 Dark brown to black poorly humified ericaceous PEAT with patches of Polytrichum Surface vegetation and root mat. Dark brown to black poorly humified PEAT rich in Polytrichum and monocot remains Orange brown to golden brown poorly humified Sphagnum PEAT. Red brown (becoming black brown) laminated PEAT rich in poorly humified woody remains, monocots, Sphagnum, charcoal and insects. Orange brown to golden brown poorly to moderately humified Sphagnum PEAT. 33 De pth 20 Be tul a 90 My ric a g ale 50 Pi ce a Pi nu s 50 Er ica ce ae Al nu s 20 Ru bu s c ha ma em or us 20 Po ac ea e Cy pe ra ce ae Sa ng uis or ba Ap iac ea e 20 Ch en op od iac ea e Ru me x a ce tos a- typ e Ru me x a ce tos ell a Ra nu nc ulu s a cri s-t yp e La ctu ce ae Ac hil lea -ty pe Br as sic ac ea e Mo nti a f on tan a As ter ac ea e So rd ar ia- typ e ( 55 A) Sp or or mi ell a- typ e ( T- 11 3) Po do sp or a- typ e ( T- 36 8) Ge lan isp or a ( T- 1a ) Hu mu lus lu pu lus -ty pe Ce re al- typ e Ju gla ns 0 100 Tr ee s, Sh ru bs an d H ea ths He rb s Ap op hy tes Ex oti cs Trees, shrubs and heaths Herbs Apophytes Fungi Exotics 45 S-1167; Qu-348; T-410; S-1361; Qu-352; S-1166; S-1354; S-1129; Qu-349; Beta-252633; Beta-252632; T-411; S-1123; S-1098; S-1099; T-365; S-1095; T-368; S-1121; S-1126 Pre-Beothuk activity Start pre-Beothuk End Pre-Beothuk 1 mm 1 mm 500 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 UOC-7388 (633 ± 23; Sphagnum moss; 36-35 cm) UOC-7389 (733 ± 22; Larix sp. twig; 38-37 cm) UOC-7390 (847 ± 22; Indet. twig; 45-44 cm) Boundary: End Norse Boundary: Start Norse Boundary: End pre-Beothuk Boundary: Start pre-Beothuk Modelled date (cal. AD) 0 100 200 300 400 500 600 Model A Model B Model C Model D Model E Model F A B C D E H Duration (years) F G Span Duration of pre-Beothuk 630-895 [1σ]; 475-1045 [2σ] 700 800 900 1000 1100 1200 Span Duration of Norse 0-100 [1σ]; 0-195 [2σ] Fig. 2. Results of analyses. (A) Trench stratigraphy and monolith sampling location. (B) Percentage pollen diagram displaying selected taxa (sum = ≥500 TLP), “+” indicates <1% TLP. (C) Insects and seeds from 4A800B7 (left to right): Eanus macullipennis, S. metallica, A. quadrata, Pycnoglypta sp., and dock seed (cf. R. aquaticus). (D) Pollen (left to right): H. lupulus-type, Juglans, and cereal-type. (E) Wood debitage from 4A800B7. (F) Probability distributions for start and end of Norse and indigenous occupations and calibrated C14 assays from 4A800B7. (H) Modeled durations for Norse (red) and indigenous (blue) activity. (G) Prior information incorporated into all Bayesian models (A–F). Dates in italics were treated as outliers using the OxCal charcoal outlier model. Assays in bold red are short-lived elements also treated as outliers in models B, D, and F. Terminus post quem of 890 ± 60 in models C and D and 985 ± 1 in models E and F was included to indicate that Norse settlement at LAM occurred after the settlement of Iceland and Greenland, respectively. Ledger et al. PNAS | July 30, 2019 | vol. 116 | no. 31 | 15343 A N TH R O P O LO G Y B R IE F R EP O R T D o w n lo a d e d a t U n iv e rs ity o f A b e rd e e n o n J a n u a ry 1 5 , 2 0 2 0 https://newfoundland-labradorflora.ca/index.cfm https://newfoundland-labradorflora.ca/index.cfm