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  • 101.
    Macphail, Richard
    et al.
    Institute of Archaeology, University College London.
    Cruise, Gill
    Courty, Marie-Agnès
    CNRS, UMR 7194/UPR 8521 PROMES, Procédés et Matériaux Solaires, Rambla de la Thermodynamique, Tecnosud.
    Crowther, John
    Archaeological Services (UWLAS), University of Wales.
    Linderholm, Johan
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    E6 Gudbrandsdalen project (Brandrud, Fryasletta, Grytting, and Øybrekka), Oppland, Norway: soil micromorphology (with selected microchemistry, bulk soil-chemistry, carbon-polymer, particle-size, and pollen analyses)2016In: Gård og utmark i Gudbrandsdalen / [ed] Ingar M. Gundersen, Portal forlag, 2016, p. 304-317Chapter in book (Refereed)
  • 102.
    Macphail, Richard I
    et al.
    UCL.
    Bill, Jan
    Universitetsmuseet Oslo.
    Cannel, Rebecca
    Universitetsmuseet Oslo.
    Linderholm, Johan
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Rødsrud, Christian
    Universitetsmuseet Oslo.
    Integrated microstratigraphic investigations of coastal archaeological soils and sediments in Norway: the Gokstad ship burial mound and its environs including the Viking harbour settlement of Heimdaljordet, Vestfold2013In: Quaternary International, ISSN 1040-6182, E-ISSN 1873-4553, Vol. 315, p. 131-146Article in journal (Refereed)
    Abstract [en]

    Investigations of past coastal landscape development have included soil micromorphology, chemistry and microfossil recording of soils and sediments associated with marine inundation and terrestrial soil formation in marine sediments. This paper reports on similarly studied site formation processes at Norwegian coastal sites in Vestfold, Norway: the Viking Period Gokstad Ship Burial Mound and nearby contemporary harbour site of Heimdaljordet. At Gokstad, strategically-focused coring revealed mound composition and an example of its buried soil and geology. The latter investigation suggested that post glacial uplift led to a ‘slowstand’ period of intertidal reworking of till before ∼700 BC emergence and development of terrestrial soils. At Heimdaljordet, typically laminated intertidal silty clay loam sediments were sealed by beach sands, into which, for example, a boat grave was dug. Post-depositional processes affecting the Gokstad Mound were compared to those in other mounds, including those recorded in experimental earthworks. Waterlogged conditions in the Gokstad mound led to iron–phosphate migration and preferential deposition of vivianite in turf layers where relict litter (L) layers remained visible, and where wood chips from constructional activities are also very well preserved (as is the long ship itself). These soil insights and other paleoenvironmental studies of the buried soil and numerous turf sequences showed that the contemporary AD 900 Viking landscape was totally terrestrial. It had become wet sedge grassland managed for grazing. The partial weathering of turves and anomalous presence within them of ‘fresh’ roots apparently indicates the possibility that turves were stacked and stored ahead of mound building. The 10th C robber trench had developed muddy features, and rooting traces show that it was not backfilled, but was slowly infilled by humic soil silting from turf mound layers. This event did not affect the overall anaerobic burial conditions in the mound, which can be starkly compared to those at the Heimdaljordet boat grave. Here, because of acidic subaerial weathering, the wooden boat only survives as an acidic pellety humus formed of wood residues that are often ferruginised. Iron appears to be concentrated at iron nail locations. Unlike the Gokstad mound, no bone survives, but one sample found a typical ‘body stain’ of secondary iron and phosphate close by the iron encrusted sword in the grave (potentially the pelvic region of the inhumation). Here, mineralised faecal gut remains have an assumed hydroxyapatite composition, and embed phytoliths and pollen/spores, as found in human coprolites and cess deposits studied elsewhere.

  • 103.
    Macphail, Richard I.
    et al.
    University College, London.
    Bill, Jan
    Crowther, John
    Haită, Constantin
    Linderholm, Johan
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Popovici, Dragomir
    Rødsrud, Christian Løchsen
    European ancient settlements: a guide to their composition and morphology based on soil micromorphology and associated geoarchaeological techniques; introducing the contrasting sites of Chalcolithic Borduşani-Popină, Borcea River, Romania and the Viking Age Heimdaljordet, Vestfold, Norway2017In: Quaternary International, ISSN 1040-6182, E-ISSN 1873-4553, Vol. 460, p. 30-47Article in journal (Refereed)
    Abstract [en]

    Specific soil micromorphological, broader geoarchaeological and environmental archaeology signatures of settlement activities and land use have been identified from numerous case studies across Europe – from Romania to western Norway. In order to demonstrate how such investigations contribute to our understanding of settlement morphology and its wider landscape, an improved way of organising site-specific information or guide was created (Macphail and Goldberg, in press). Activities and land use are divided into 'Within Settlement', 'Peripheral to Settlement' and 'The Settlement's Wider Landscape'. Major themes identified are: Constructions (and materials), Trackways and paths (and other communication/transport-associated features), Animal Management, Water Management, Waste Disposal (1: middening; 2: human waste), Specialist Domestic and Industrial Activities and Funerary Practices. In the case of trackway deposits, their characterisation aids the identification of intensely occupied areas compared to rural communications, although changing land use within urban areas has also produced 'rural signatures' (e.g. as associated with animal management), for example in Late Roman cities. Specialist activities such as fish and crop processing or working with lead and other metals, in-field and within-wall manuring, stabling and domestic occupation floor-use evidence, and identification of different funerary practice – cremations, boat graves and other inhumations, and excarnation features – and peripheral constructions such as boat-houses, are also noted. New information from the Chalcolithic tell site of Borduşani-Popină, Romania and seasonally occupied Viking settlement of Heimdaljordet, Norway, is introduced.

  • 104. Macphail, Richard I.
    et al.
    Cruise, G. M.
    Allen, Michael J.
    Linderholm, Johan
    A rebuttal of the views expressed in "Problems of unscientific method and approach in Archaeological soil and pollen analysis of experimental floor deposits; with special reference to Butser Ancient Farm, Hampshire, UK by R.I. Macphail, G.M. Cruise, M. Allen, J. Linderholm and P. Reynolds" by Matthew Canti, Stephen Carter, Donald Davidson and Susan Limbrey2006In: Journal of Archaeological Science, Vol. 33, no 2, p. 299-305Article in journal (Refereed)
  • 105. Macphail, Richard I.
    et al.
    Cruise, G. M.
    Allen, Michael J.
    Linderholm, Johan
    Umeå University, Faculty of Arts, Archaeology and Sami Studies.
    Reynolds, Peter
    Archaeological soil and pollen analysis of experimental floor deposits; with special reference to Butser Ancient Farm, Hampshire, UK2004In: Journal of Archaeological Science, Vol. 31, no 2, p. 175-191Article in journal (Refereed)
  • 106.
    Macphail, Richard I
    et al.
    University College London.
    Linderholm, Johan
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Microstratigraphy (soil micromorphology and microchemistry, soil chemistry, and magnetic susceptibility)2018In: Avaldsnes: a sea-kings' manor in first-millennium Western Scandinavia / [ed] Dagfinn Skre, Berlin: Mouton de Gruyter, 2018, 104, p. 379-420Chapter in book (Refereed)
  • 107. Macphail, Richard
    et al.
    Johan, Linderholm
    Umeå University, Faculty of Arts, Archaeology and Sami Studies.
    Nina, Karlsson
    Umeå University, Faculty of Arts, Archaeology and Sami Studies.
    Scanian pithouses;: interpreting fills of grubenhäuser: examples from England and Sweden.2006In: Proceedings from the VIII Nordic conference on the applications of Scientific Methods in Archaeology Umeå 2001., 2006Conference paper (Other academic)
    Abstract [en]

    Grubenhäuser or pithouses are common

    archaeological features. This paper focuses upon

    some examples studied through soil

    micromorphology and chemistry from one

    Swedish and five English sites dating to around 400-

    800 AD, where in situ floor deposits from

    contemporary long house/rectangular house

    structures have not survived. Fills are divided into

    two kinds, homogeneous and heterogeneous types.

    Homogeneous fills may represent infilling by turf

    (local soil) employed in their construction, while

    individual homogeneous layers within a

    grubenhaus may result from a period of biological

    homogenisation marking a cessation in infilling.

    Heterogeneous fills, some examples of which have

    been additionally studied through microchemical

    techniques, may yield unique examples of cultural

    deposits. Grubenhäuser fills thus not only provide

    important information on the archaeology of the

    features themselves, but can provide the proxy

    information on the local managed landscape and

    soils, and a settlement’s morphology, in areas and

    periods where other sources of geoarchaeological data have been lost.

  • 108. Macphail, Richard
    et al.
    Linderholm, Johan
    Umeå University, Faculty of Arts, Archaeology and Sami Studies. Miljöarkeologiska Laboratoriet. Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    ”Dark earth”: recent studies of ”Dark earth” and ”dark - earth - like” microstratigraphy in England, UK.2004In: Terres noires - Dark Earth.: Actes de la table-ronde internationale tenue à Louvain-la-Neuve, les 09 et 10 novembre 2001, 2004, p. 35-42Conference paper (Other academic)
  • 109.
    Sciuto, Claudia
    et al.
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Allios, Dominique
    LAHM University of Rennes 2, France.
    Bendoula, Ryad
    ITAP, Irstea, Montepllier Sup Agro, Université de Montpellier, IRSTEA, France.
    Cocoual, Antoine
    W3DS, Rennes, France.
    Gardel, Marie-Elise
    Amicale Laïque de Carcassonne, France.
    Geladi, Paul
    SLU, Swedish university of Agricultural Sciences, Umeå, Sweden.
    Gobrecht, Alexia
    ITAP, Irstea, Montepllier Sup Agro, Université de Montpellier, IRSTEA, France.
    Gorretta, Natalie
    ITAP, Irstea, Montepllier Sup Agro, Université de Montpellier, IRSTEA, France.
    Guermeur, Nominoe
    LAHM University of Rennes 2, France.
    Jay, Sylvain
    ITAP, Irstea, Montepllier Sup Agro, Université de Montpellier, IRSTEA, France.
    Linderholm, Johan
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Thyrel, Mikael
    SLU, Swedish university of Agricultural Sciences, Umeå, Sweden.
    Characterization of building materials by means of spectral remote sensing: the example of Carcassonne's defensive wall (Aude, France)2019In: Journal of Archaeological Science: Reports, ISSN 2352-409X, E-ISSN 2352-4103, p. 396-405Article in journal (Refereed)
    Abstract [en]

    Geological and archaeological analysis of stone masonries in standing structures helps reveal information aboutuse of natural resources. At the same time, the study of historical materials is useful for conservators and culturalheritage management. Geochemical and petrographic analysis of building material types is usually done throughdestructive analysis on a few selected samples and can be problematic due to the costs of operations and the sizeof buildings themselves. This paper demonstrates that the combination of hyperspectral imaging portable NearInfrared (NIR) spectroscopy and Energy Dispersive X-ray Fluorescence (ED-XRF) spectroscopy can be useful foranalysing types of raw materials used in distinct construction phases of the inner defensive wall in the citadel ofCarcassonne (Aude, France). Stratigraphic analysis of the architecture, short-range spectral remote sensing andportable ED-XRF measurements were combined in an interdisciplinary approach to classify sandstone elements.The experimental protocol for in situ non-destructive analysis and classification of the masonry types allows theinvestigation of the monument in a diachronic perspective, collecting information to delineate raw materialsvarieties and their use or re-use through time.

  • 110.
    Sciuto, Claudia
    et al.
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Geladi, Paul
    SLU Swedish University of Agricultural Sciences, Umeå, Sweden.
    La Rosa, Lorenza
    Department of Archaeology, Conservation and History, University of Oslo, Oslo, Norway.
    Linderholm, Johan
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Thyrel, Mikael
    SLU Swedish University of Agricultural Sciences, Umeå, Sweden.
    Hyperspectral Imaging for Characterization of Lithic Raw Materials: the Case of aMesolithic Dwelling in Northern Sweden2019In: Lithic Technology, ISSN 2051-6185, Vol. 44, no 1, p. 22-35Article in journal (Refereed)
    Abstract [en]

    This study proposes a method for the classification of lithic raw materials by means of hyperspectralimaging, a non-destructive fast analytical technique. The information potential of this approach wastested on a dwelling site dated to mid-late Mesolithic (7200–5800 BP) at Lillsjön, Ångermanland,Sweden. A dataset of lithic tools and flakes (2612 objects) made of quartz and quartzite, wasanalyzed using a shortwave infrared hyperspectral imaging system. The classification of the rawmaterials was performed applying multivariate statistical models. A random test set of 55artefacts was selected, classified according to spectral signature and divided into categoriescorresponding to different geological materials. The same test set was analyzed with EnergyDispersive X-Ray Fluorescence (ED XRF) to validate the classification. The entire dataset of lithicscollected on the site was then classified applying a SIMCA model. The distribution of items onthe site was visualized in a 3D GIS platform according to their geological characteristics tohighlight patterns that could indicate different use of the space and dynamics of raw materialssupply over time.

  • 111.
    Sciuto, Claudia
    et al.
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Linderholm, Johan
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Geladi, Paul
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab. SLU.
    Near Infrared imaging spectroscopy for raw materials characterization: the example of a mesolithic dwelling site in Northern Sweden2017In: The exploitation of raw materials in prehistory: sourcing, processing and distribution / [ed] Telmo Pereira, Xavier Terradas, Nuno Bicho, Newcastle upon Tyne: Cambridge Scholars Publishing, 2017, p. 113-120Chapter in book (Refereed)
  • 112. Svedberg, Stig
    et al.
    Jerand, Philip
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies.
    Linderholm, Johan
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Spelar det någon roll hur vi tar prover?: en provtagningsstrategisk och markkemisk samt markfysikalisk fallstudie av en boplats, 1750-300 f.Kr. RAÄ Tanum 1821:12016In: Arkeologi i Tanums världsarv: åttatusen år I Tanum utifrån sex arkeologiska undersökningar för väg E6 / [ed] Christina Toreld, Uddevalla: Bohusläns museums förlag , 2016, p. 147-165Chapter in book (Other academic)
  • 113.
    Viklund, Karin
    et al.
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies.
    Linderholm, Johan
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies.
    Haparandabanan, Lokal 20 och 39, SU 2007. Makrofossilanalyser och markkemiska analyser.2008Report (Other academic)
  • 114.
    Viklund, Karin
    et al.
    Umeå University, Faculty of Arts, Archaeology and Sami Studies. Miljöarkeologiska laboratoriet.
    Linderholm, Johan
    Umeå University, Faculty of Arts, Archaeology and Sami Studies.
    Haparandabanan, Miljöarkeologisk undersökning av jordprover från förundersökningar på fyra boplatser 2006.2007Report (Other academic)
  • 115.
    Viklund, Karin
    et al.
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Linderholm, Johan
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Ljunga 50, Sävsjö sn, Jönköpings län. Miljöarkeologisk undersökning av ett brandgravfält2010Report (Other academic)
  • 116.
    Viklund, Karin
    et al.
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies.
    Linderholm, Johan
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies.
    Miljöarkeologi längs E20, delen Lundsbrunn - Holmestad, Götene kommun, Västergötland2008Report (Other (popular science, discussion, etc.))
  • 117.
    Viklund, karin
    et al.
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies.
    Linderholm, Johan
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies.
    Miljöarkeologiska analyser av jordprover från Askim, raä nr 285, Askim socken2009Report (Other academic)
  • 118.
    Viklund, Karin
    et al.
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies.
    Linderholm, Johan
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies.
    Miljöarkeologiska analyser av jordprover från Brattbergstorpet, raä 730, Kville sn2009Report (Other academic)
  • 119.
    Viklund, Karin
    et al.
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies.
    Linderholm, Johan
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies. MAL.
    Mölndal 79, miljöarkeologiska analyser.2008Report (Other academic)
  • 120.
    Viklund, Karin
    et al.
    Umeå University, Faculty of Arts, Archaeology and Sami Studies, Environmental Archaeology Lab.
    Linderholm, JohanUmeå University, Faculty of Arts, Archaeology and Sami Studies, Environmental Archaeology Lab.Engelmark, RogerUmeå University, Faculty of Arts, Archaeology and Sami Studies, Environmental Archaeology Lab.
    Fähus från bronsålder till idag: stallning och utegångsdrift i långtidsperspektiv1998Collection (editor) (Other academic)
  • 121.
    Viklund, Karin
    et al.
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Linderholm, Johan
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Macphail, Richard I
    UCL.
    Integrated Palaeoenvironmental Study: Micro- and Macrofossil Analysis and Geoarchaeology (soil chemistry, magnetic susceptibility and micromorphology).2013In: E18-prosjektet Gulli-Langåker: Oppsummering og arkeometriske analyser / [ed] Gjerpe, Lars Erik, Bergen: Fagbokforlaget, 2013, p. 25-83Chapter in book (Refereed)
  • 122.
    Östman, Sofi
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Eriksson, Samuel
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Linderholm, Johan
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Miljöarkeologisk analys av prover från Kålsered, RAÄ 486, Björlanda sn, Bohuslän2017Report (Other academic)
  • 123.
    Östman, Sofi
    et al.
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Eriksson, Samuel
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Buckland, Philip
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Linderholm, Johan
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Miljöarkeologisk analys av prover från RAÄ 113:1 och Obj.nr 10. Själevadsocken, Örnsköldsvik kommun, Västernorrlands län, Ångermanland2017Report (Other academic)
  • 124.
    Östman, Sofi
    et al.
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Eriksson, Samuel
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Linderholm, Johan
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Vilardi, Stefano
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies.
    Miljöarkeologisk analys av prover från långhus, en båtgrav och andra anläggningar inom projekt Eg Sykehus, Kristiansand kommune, Vest-Agder ID233602018Report (Other academic)
  • 125.
    Östman, Sofi
    et al.
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Eriksson, Samuel
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Linderholm, Johan
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Wallin, Jan-Erik
    Miljöarkeologisk analys av prover från projekt Rv. 36 Skyggestein-Skjelbredstrand, Skien kommune, Telemark, Norge. ID29972, 135869. Teknisk rapport2017Report (Other academic)
  • 126.
    Östman, Sofi
    et al.
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Linderholm, Johan
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Miljöarkeologiska analyser av fyra härdprover från Giergebuodo, en samisk högfjällsboplats i Nordland fylke,Tysfjord kommune, Norge2014Report (Other academic)
  • 127.
    Östman, Sofi
    et al.
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Linderholm, Johan
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Raä 1670, Furuvik, Lycksele. Analys av ett makrofossilprov2011Report (Other academic)
  • 128.
    Östman, Sofi
    et al.
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Lundberg, Anna
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Eriksson, Samuel
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Linderholm, Johan
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Miljöarkeologisk analys av fyra prover från Göteborg RAÄ 509, Västergötland2017Report (Other academic)
  • 129.
    Östman, Sofi
    et al.
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Wallin, Jan-Erik
    Linderholm, Johan
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Miljöarkeologisk analys av stads- och kulturlager samt en tunna från Falun RAÄ 68, Falun socken, Dalarnas län2014Report (Other academic)
  • 130.
    Östman, Sofi
    et al.
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Wallin, Jan-Erik
    Olsson, Fredrik
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Linderholm, Johan
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Miljöarkeologiska analyser av prover från gropar och odlingslager i stadsmiljö, Thomas Angells gate, Trondheim, Sør Trøndelag, Norge2015Report (Other academic)
  • 131.
    Östman, Sofi
    et al.
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Wallin, Jan-Erik
    Pollenlaboratoriet, Umeå.
    Olsson, Fredrik
    PalaeoEntoLab, Umeå.
    Linderholm, Johan
    Umeå University, Faculty of Arts, Department of historical, philosophical and religious studies, Environmental Archaeology Lab.
    Miljöarkeologiska analyser från Torvet i Trondeim C, Sør Trøndelag, Norge2016Report (Other academic)
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