Abstract
Various methods for storing, retrieving, and analyzing historic land use records by means of electronic data processing are evaluated. The procedures are illustrated with data from a pilot study on the Swiss Plateau which is part of a broader landscape historical monitoring program at the Swiss Federal Institute of Forest, Snow and Landscape Research. The land use matrix was derived from topographic maps, aerial photographs and other land use records and spans approximately 100 yrs with an updating cycle of 7 to 20 yrs. A special technique was developed to generate series of digital maps and to superimpose the data layers of various time steps. Each landscape element is described with time-stamped attributes to ensure access to the entire “life history” from any point in space or time. The proposed data model proved to be a powerful tool for routine updating of digital maps. It can be used by practitioners as well as scientists working with Geographical Information Systems (ARC/INFO or similar package). With this procedure, disturbance maps over any number of available updates can be quickly generated, allowing the user to identify zones of similar degrading or upgrading tendency. The procedures for analyzing changing landscape structures include calculation of information theoretic indices (diversity, dominance), calculation of fractals, edge analysis, as well as landscape assessment along random traverses. The latter proved to be especially powerful, where barrier/habitat frequencies were evaluated. On the basis of all parameters calculated, landscape structures on the study plot seem to be ecologically most favorable in the 1930's followed by a strong degradation in the World War II - and the post-World War II period. In contrast to many hypotheses, the landscape structures in the second half of the 19th century were structurally less favorable than between 1900 and 1930.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Akademie für Naturschutz und Landschaftspflege (ANL), 1982. Hecken und Flurgehölze-Struktur, Funktion und Bewertung. Laufener Seminarbeiträge 5/82. Laufen/Salzach, 138 p.
Armstrong, M.P., 1988. Temporality in spatial databases. In: International Assoc. American Geographers (Hrsg.): Proc. of the GIS/LIS 88 Conference, San Antonio, TX. 880–889.
Burrough, P.A., 1990a. Principles of geographical information systems for land resources assessment. Clarendon Press, Oxford.
Burrough, P.A., 1990b. Methods of spatial analysis in GIS, Preface. Int. J. Geographical Information Systems 4, 3: 221–223.
Dansereau, P., 1957. Biogeography. An ecological perspective. Ronald Press, New York.
Donovan, M.L., Rabe, D.L., Oison, C.E., 1987. Use of geographic information systems to develop habitat suitability models. Wild. Soc. Bull. 15: 574–579.
Dürst, A., 1990. Die topographische Aufnahme des Kantons Zürich 1843–1851. Cartographica Helvetica1: 2–17.
Feldman, D.S., Gagnon, J., Hofmann, R., Simpson, J., 1987. StatViewII. The Solution for Data Analysis and Presentation Graphics. Abacus Concepts. Berkeley.
Forman, R.T.T., Godron, M., 1986. Landscape ecology. Wiley and Sons, New York.
Gardner, R., Milne, B.T., Turner, M.G., O'Neill, V.O., 1987. Neutral models for the analysis of broad-scale landscape pattern. Landscape Ecology 1: 19–28.
Gibbons, J.D., 1985. Nonparameteric methods for quantitative analysis. American Sciences Press, Columbus, OH.
Godron, M., Bacou, A.M., 1975. Sur les limites “optimales” séparant deux parties d'une biocénose hétérogène. Ann. Univ. Abidjan, Série E8(1): 317–324.
Haila, Y., 1986. North European land birds in forest fragments: evidence for area effects? In: Wildlife 2000. Modeling habitat relationships of terrestrial vertebrates. Edited by J. Verner, M.L. Morrison and C.J. Ralph. The University of Wisconsin Press, Madison and London, pp. 315–319.
Harley, J.B., 1989. Historical geography and the cartographic illusion, Journal of Historical Geography15: 80–91.
Helle, E. Helle, P., 1982. Edge effect on forest bird densities on off-shore islands in the northern Gulf of Bothnia. Ann. Zool. Fenn. 19: 165–169.
Hodgson, M.E., Alexander, R.H., 1990. Use of USGS historic topographic maps in GIS analysis. Proceedings of the 50th Annual Meeting of ACSM 3: 109–116.
Hollander, M., Wolfe, D., 1973. Nonparametric Statistical Methods. Wiley & Sons, New York.
Johnson, L.B., 1990. Analyzing spatial and temporal phenomena using geographical information systems. Landscape Ecology 4: 31–43.
Iverson, L.R., 1988. Land-use changes in Illinois. USA: The influence of landscape attributes on current and historic land use. Landscape Ecology 2: 45–61.
Iverson, L.R., Risser, P.G., 1987. Analyzing long-term changes in vegetation with geographic information systems and re- motely sensed data. Adv. Space Res. 7: 183–194.
Kienast, F., Frank, C., Leu, R., 1991. Analyse raum-zeitlicher Daten mit einem Geographischen Informationssystem. Ber. Eidgenöss. Forsch, anst. Wald Schnee Landsch. No. 328, 36p.
Kershaw, K.A., 1958. An investigation of the structure of a grassland community. J. Ecol. 46: 571–592; 47: 31–33.
Kopp, D., Jäger, K.D., Succow, M., 1982. Naturräumliche Grundlagen der Landnutzung. Akademie-Verlag, Berlin.
Langran, G., 1989. A review of temporal database research and its use in GIS applications. Int. J. Geographical Information Systems 3, 3: 215–232.
Lovejoy, S., 1982. Area-perimeter relation for rain and cloud areas. Science 216 (9): 185–187.
Lupien, A.B., Moreland, W.H., Dangermond, J., 1987. Net- work analysis in geographical information systems. Photogrammetric Engineering and Remote Sensing 53: 1417–1421.
MacArthur, R.H., Wilson, E.O., 1967. The theory of island biogeography. Princeton University Press, Princeton, NJ.
Müller, U.A., 1990. Alte Landkarten als landschaftshistorische Quellen am Beispiel des Passlandes Uri (15.–18. Jhd.) Cartographica Helvetica 2: 2–8.
O'Neill, R.V., Krummel, J.R., Gardner, R.H., Sugihara, G., Jackson, B., DeAngelis, D.L., Milne, B.T., Turner, M.G., Zygmunt, B., Christensen, S., Dale, V.H., Graham, R.L., 1988. Indices of landscape pattern. Landscape Ecology 1: 153–162.
O'Neill, R.V., Gardner, R.H., Turner, M.G. 1992. Ahierarchical neutral model for landscape analysis. Landscape Ecology 7: 55–61.
Paget, P. Godron, M., 1982. Analyse de l'ecologie des espèces dans les communautés. Paris, Masson.
Pastor, J. Broschart, M., 1990. The spatial pattern of a north conifer-hardwood landscape. Landscape Ecology 4: 55–68.
Pauritsch, G., Harbodt, A., 1988. Ergebnisse und Auswirkungen der Streuobstwiesenkartierung in Hessen. Natur und Landschaft 63: 340–341.
Pedroli, G.BasM., Borger, G.J., 1990. Historical land use and hydrology. A case study from eastern Noord-Brabant. Landscape Ecology 4: 237–248.
Poissonet, J., Godron, M., Poissonet, P., Long, G. 1973. A comparison of sampling methods in dense herbaceous vegetation. J. Range Manage. 26: 65–67.
Price, S., 1989. Modelling the temporal element in land infor- mation systems. Int. J. Geographical Information Systems 3, 3: 233–243.
Schwaar, J., 1972. Kulturlandschaften Nordwestdeutschlands und der Eifel in Vergangenheit, Gegenwart und Zukunft, Zeitschrift f. Kulturtechnik und Flurbereinigung 13: 151- 171.
Semotanova, E., 1988. Old maps and plans as important sources for conservation efforts. Historical Ecology 1: 213–227.
Sheail, J., 1984. Wildlife conservation: a historical perspective. Geography 69: 119–127.
Smith, T.R., Menon, S., Star, J.L., Estes, J.E., 1987. Requirements and principles for the implementation and construction of large-scale geographical information systems. Int. J. Ge- ographical Information Systems 1: 13–31.
Storms, G.L., Andrews, R.D., Phillips, R.L., Bishop, R.A., Sniff, D.B., Tester, J.R., 1976. Morphology, reproduction, dispersal and mortality of mid-western red fox populations. Wildl. Monogr. 49: 51–82.
Swingland, I.R, Greenwood, P.J., eds., 1983. The ecology of animal movement. Clarendon Press, Oxford.
Tarboton, D.G., Bras, R.L., Rodriguez-Iture, I., 1988. The fractal nature of river networks. Water Resources Research 24: 1317–1322.
Turner, M.G., 1987. Spatial simulation of landscape changes in Georgia: A comparison of three transition models. Landscape Ecology 1: 29–36.
Turner, M.G., Ruscher, C.L., 1988. Changes in landscape pat- terns in Georgia, USA. Landscape Ecology 1: 241–251.
Turner, M.G., 1990. Landscape changes in nine rural counties in Georgia. Photogrammetric Engineering and remote sensing 56, 3: 379–386.
Vickholm, M., 1983. Avointen reunojen vaikutus metsälinnustoon, M.S. theses, University of Helsinki, 120 pp.
Vrana, R., 1989. Historical data as an explicit component of land information systems. Int. J. Geographical Information Systems 3, 1: 33–49.
Weitnauer, E., Bruderer, B., 1987. Veränderungen der Brutvogel-Fauna der Gemeinde Oltingen in den Jahren 1935–1985. Der Ornithologische Beobachter 84: 1–9.
Willerding, U., 1988. Zur Entwicklung von Ackerunkrautgesellschaften vom Neolithikum bis in die Neuzeit. Forschungen und Berichte zur Vorund Frühgeschichte in Baden Wurtemberg 31–41.
Williams, M., 1989. Historical geography and the concept of landscape. Journal of Historical Geography 15: 92–104.
Wildi, O., Duelli, P., Kienast, F., 1990. Natur- und Land- schaftsschutzprobleme im Gebirge. Schweiz. Z. Forstwes. 141, 5: 367–376.
Woodwell, G.M., Whittaker, R.H., 1968. Primary production in terrestrial ecosystems. Amer. Zool. 8: 19–30.
Young, T.N., Eby, J.R., Allen, H.L., Hewitt, M.J. III, Dixon, K.R., 1987. Wildlife habitat analysis using Landsat and radi- otelemetry in a GIS with application to spotted owl preference for old growth. In: Proceedings of GIS'87, 2nd Annual Inter- national Conference, Exhibits and Workshops on Geographic Information Systems, pp. 595–600. San Francisco, CA.
Zöhrer, F., 1980. Forstinventur. Pareys Studientexte 26. Parey, Hamburg, Berlin.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Kienast, F. Analysis of historic landscape patterns with a Geographical Information System — a methodological outline. Landscape Ecol 8, 103–118 (1993). https://doi.org/10.1007/BF00141590
Issue Date:
DOI: https://doi.org/10.1007/BF00141590