Abstract
In the early Norse settlement period throughout the North Atlantic, effective management of the land area surrounding the domestic settlement, the home-field, was essential. In the Faroe Islands, the extent of home-field land suitable for growing fodder or cereal crops is limited by topography and by drainage highlighting the need to optimize the management of these land areas. In this paper we examine the management of home-fields through a modeling approach, allowing the long-term sustainability of the past agrarian system in the home-field area to be examined. The CENTURY agroecosystem model is used to predict soil organic carbon levels and the potential hay meadow and cereal production for locations around three settlements on the islands of Su{–}deroy, Sandoy, and Eysteroy. Using paleoclimatic data and measurements from buried soil materials alongside ethnographic and historical evidence on land management, the results from this model reveal maximum hay and barley yields attainable through early agrarian practices. Comparisons between modeled outputs and recorded yields from the nineteenth century show that there is a strong moderating influence on longer-term climatic fluctuations. The role of soil management is emphasized through comparison of long-term climate/yield data. This has been undertaken using statistical time series analyses, which reveal fluctuations in yield related to climate are relatively slight, except going into the twentieth century. It is concluded that intensity of soil management is the primary determinant of yield and could buffer cereal and hay yields against climatic downturns, and that from a low yield baseline in the early Norse settlement period, yield improves to an equilibrium level by the twelfth century.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Adderley, W. P., Simpson, I. A., Lockheart, M. J., Evershed, R. P., and Davidson, D. A. (2000). Modeling traditional manuring practice: soil organic matter sustainability of an early Shetland community. Human Ecology 28: 415–431.
AOAC (2000). Official Methods of Analysis of AOAC International, AOAC International, Gaithersburg, Maryland.
Arge, S. V. (1991). The Landnám in the Faroes. Arctic Anthropology 28: 101–120.
Arge, S. V. (1997). Í Uppistovubeitinum. Site and Settlement. Fróðskaparrit 45: 27–44.
Arge, S. V., Sveinbjarnardóttir, G., Edwards, K., and Buckland, P. C. (2005). Viking and medieval settlement in the Faroes: People, place and environment. Human Ecology 33: 597–620.
av Skarði, J. (1970). Faroese cultivating and peat spades. In Gailey, A., and Fenton, A. (eds.), The spade in Northern and Atlantic Europe, Belfast, Ulster Folk Museum—Institute of Irish Studies.
Bergþórsson, P. (1988). The effects of climatic variations on agriculture in Iceland. Section 2. The effects on agricultural production. In Parry, M. L., Carter, T. R., and Konijn, N. T. (eds.), Impacts of Climatic Variations on Agriculture, Vol. 1. Dordrecht, Kluwer, pp. 415–444.
Björk, S., Muscheler, R., Kromer, B., Andresen, C. S., Heinemeier, J., Johnsen, S. J., Conley, D., Koç, N., Spurk, M., and Veski, S. (2001). High-resolution analyses of an early Holocene climate event may imply decreased solar forcing as an important climate trigger. Geology 29: 1107–1110.
Bosatta, E., and Ågren, G. I. (1991). Dynamic of carbon and nitrogen in the organic matter of soil: A genetic theory. American Naturalist 138: 227–245.
Box, G. E. P., and Jenkins, G. M. (1976). Time Series Analysis: Forecasting and Control, Holden-Day, Oakland, California.
Briggs, A. P. (1924). Some applications of the colorometric phosphate method. Journal of Biological Chemistry 59: 255–264.
Cappelen, J., and Laursen, E. V. (1998). The climate of the Faroe Islands—With climatological standard normals 1961–1990. Danish Meteorological Institute Technical Report 98–14, DMI, Copenhagen.
Cook, E. R. (2003). Multiproxy reconstr uctions of the North Atlantic Oscillation (NAO) index: A critical review and new well-verified winter NAO index back to A.D. 1400. In Hurrell, J. W., Kushnir, Y., Ottersen, G., and Visbeck, M. (eds.), The North Atlantic Oscillation: Climatic Significance and Environmental Impact, Geophysical Monograph Series Vol. 134, American Geophysical Union, Washington, DC, pp. 63–79.
Crowley, T. J., and Lowery, T. (2000). How Warm Was the Medieval Warm Period? Ambio 29: 51–54.
Crowley, T. J. (2000). Causes of climate change over the past 1000 years. Science 289: 270– 277.
Dawson, A., Elliot, L., Noone, S., Hickey, K., Holt, T., Wadhams, P., and Foster, I. (2004). Historical storminess and climate “see-saws” in the North Atlantic region. Marine Geology 210: 247–259.
Debes, H. J. (1990). Problems concerning the earliest settlement in the Faroe Islands. Froðskaparrit 38: 23–34.
Elkington, T. T., and Jones, B. M. G. (1974). Biomass and primary productivity of birch (Betula pubescens s. lat.) in south-west Greenland. Journal of Ecology 62: 821–830.
Guttesen, R. (2001). Plant production on a Faroese farm 1813–1892, related to climatic fluctuations. Geografisk Tidsskrift, Danish Journal of Geography 101: 67–76.
Hannon, G. E., and Bradshaw, R. H. W. (2000). Impacts and timing of the first human settlement on vegetation of the Faroe islands. Quaternary Research 54: 404–413.
Hannon, G. E., Bradshaw, R. H. W., and Wastegård, S. (2003). Rapid vegetation change during the early Holocene in the Faroe Islands detected in terrestrial and aquatic ecosystems. Journal of Quaternary Science 18: 615–619.
Hansen, S. S. (1991). Toftanes: A Faroese Viking age farmstead from the 9–10th Centuries A.D. Acta Archaeological 61: 44–53.
Humlum, O., and Christensen, H. H. (1998). Mountain climate and periglacial phenomena in the Faroe Islands. Permafrost and Periglacial Processes 9: 189–211.
Insightful (2001). S-Plus Programmer's Guide, Data Analysis Products Division, Insightful Inc., Seattle, WA.
Jenkinson, D. S. (1990). The turnover of organic carbon and nitrogen in soil. Philosophical Transactions of the Royal Society of London. B. 329: 361–368.
Jenkinson, D. S., and Rayner, J. H. (1977). The turnover of soil organic matter in some of the Rothamsted classical experiments. Soil Science 123: 298–305.
Jenkinson, D. S., Harris, H. C., Ryan, J., McNeill, A. M., Pilbeam, C. J., and Coleman, K. (1999). Organic matter turnover in a calcareous clay soil from Syria under a two course cereal rotation. Soil Biology and Biochemistry 31: 687–693.
Jóhansen, J. (1975). Pollen diagrams from the Shetland and Faroe Islands. New Phytologist 75: 369–387.
Jóhansen, J. (1982). Vegetational development in the Faroes from 10,000 BP to the present. Danmarks Geologiske Undersøgelse Årbog 1981.
Jóhansen, J. (1989). Plantago lanceolota in the Faroe Islands and its significance as an indicator of prehistoric settlement. Fróðskaparrit 34–35: 68–75.
Jones, P. D., Osborn, T. J., and Briffa, K. R. (2003). Pressure-based measures of the North Atlantic Oscillation (NAO): A comparison of changes in the strength of the NAO and its influence on surface climate parameters. In Hurrell, J.W., Kushnir, Y., Ottersen, G., and Visbeck, M. (eds.), The North Atlantic Oscillation: Climatic Significance and Environmental Impact, Geophysical Monograph Series Vol. 134, American Geophysical Union, Washington, DC, pp. 51–62.
Kelly, R. H., Parton, W. J., Crocker, G. J., Grace, P. R., Klír, J., Körschens, M., Poulton, P. R., and Richer, D. D. (1997). Simulating trends in soil organic carbon in long-term experiments using the CENTURY model. Geoderma 81: 75–90.
Lawson, I. T., Church, M. J. McGovern, T. H., Arge, S. V., Woolett, J., Edwards, K., Gathorne-Hardy, F. J., Dugmore, A. J., Cook, G., Mairs, K.-A., Thomson, A. M., and Sveinbjarnardóttir, G. (2005). Historical Ecology on Sandoy, Faroe Islands: Paleoenvironmental and archaeological perspectives. Human Ecology 33: 651–684.
MacDonald, A. J., Poulton, P. R., Powlson, D. S., and Jenkinson, D. S. (1997). Effects of season, soil type and cropping on recoveries, residues and losses of 15N-labelled fertilizer applied to arable crops in spring. Journal of Agricultural Science, Cambridge 129:125–154.
Metherell, A. K., Harding, L. A., Cole, C. V., and Parton, W. J. (1993). CENTURY Soil organic matter model environment Agroecosystem version 4.0 technical documentation. Great Plains System Research Unit Technical Report No. 4. USDA-ARS, Fort Worth, Colorado.
Mortensen, L. M. (1995). Effect of carbon-dioxide concentration on biomass production and partitioning in Betula pubescens ehrh. seedlings at different ozone and temperature regimes. Environmental Pollution 87: 337–343.
Nelson, D. W., and Sommers, L. E. (1973). Determination of total nitrogen in plant material. Agronomy Journal 65: 109–112.
Nix, J. (1993). Farm Management Pocketbook, 24th edn., University of London, Wye College, London.
Nyman, A. (1958). Hay harvesting methods on the Faroe Islands. Acta Ethnologica et Folkloristica Europaea XXI/XXII: 101–106 (+ plates).
Ovington, J. D., and Madgwick, H. A. I. (1959). The growth and composition of natural stands of birch. I. Dry-matter production. Plant and Soil 10: 271–283.
Parton, W. J., Stewart, J. W. B. and Cole, C. V. (1988). Dynamics of C, N, P and S in grassland soils. A model. Biogeochemistry 5: 109–131.
Rasmussen, J., and Noe-Nygaard, A. (1970). Geology of the Faroe Islands. Danmarks Geologiske Undersøgelse, Series I, 25.
Shiel, R. S., and Hopkins, D. W. (1991). Effect of long-term fertilizer and manure treatments on the botanical composition of the Palace Leas meadow hay plots. North of England Soils Discussion Group Proceedings 26: 35–56.
Simpson, I. A. (1997). Relict properties of anthropogenic deep topsoils as indicators of infield management in Marwick, West Mainland, Orkney. Journal of Archaeological Science 24: 365–380.
Simpson, I. A., Adderley, W. P., Guðmundsson, G., Hallsdóttir, M., Siguriersson, M. Á., and Snæsdóttir, M. (2002). Soil limitations to agrarian land production in pre-modern Iceland. Human Ecology 30: 423–443.
Simpson, I. A., Guðmundsson, G., Thomson, A. M., and Cluett, J. (2004). Assessing the role of winter grazing in historic land degradation, Mývatnssveit, northeast Iceland. Geoarchaeology 19: 471–502.
Thorvaldsson, G., Haahr, P. T., and Høegh, K. (2000). Growth, development and nutritional value of grass species and varieties cultivated in Greenland, Iceland and the Faroe Islands 1996–1998, RALA report 206. Agricultural Research Institute, Reykjavík. p. 40.
Thorvaldsson, G., and Martin, R. C. (2004). Growth response of seven perennial grass species to three temperature regimes applied at two growth stages. Acta Agriculturae Scandinavica B. 54: 14–22.
Turrell, W., and Holliday, N. P. (2002). The Annual ICES Ocean Climate Status Summary 2001/2002. International Council for the Exploration of the Sea, Copenhagen.
Venables, W. N., and Ripley, B. D. (1999). Modern Applied Statistics with S-Plus, 3rd edn., Springer Verlag, New York.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Adderley, W.P., Simpson, I.A. Early-Norse Home-Field Productivity in the Faroe Islands. Hum Ecol 33, 711–736 (2005). https://doi.org/10.1007/s10745-005-6423-8
Issue Date:
DOI: https://doi.org/10.1007/s10745-005-6423-8