Reformation and heterogeneity – connection between cultural and environmental manifestation in three spatial regions

Autor/innen

  • Györk Fülöp 2462 Martonvásár, Orgona út 17.

DOI:

https://doi.org/10.56617/tl.3574

Schlagwörter:

spatial heterogeneity, reformation, social effect, ecological effect, explorative research, spatial statistics, remote sensing

Abstract

The main aim of this explorative work is to study the connection between the spatial distribution of protestant population (religions affected by reformation) and the spatial heterogeneity of land cover. The empirical approach of the paper excludes any historical or cultural analysis. It is irrespective for the generating processes, and rather initiates a descriptive overview. The target is the relation, and the general quality of this relation between two basic factors of landscapes – forming effects out of social and natural sources – throughout a comparative case study. If the existence of this relation is objectively confirmed as results of this analysis, a future follow-up research shall investigate the existing causal relations and describes how the ecologically influential spatial structures of the landscapes are connected to social processes like the reformation. Recent study has an objective attitude to the descriptive analysis, and applies spatial statistic methods in NUTS 3 regions of three ‘study areas’: Hungary, Germany and Romania. The utilized input data was collected from the 2011 census and from the landscape indexing of low resolution multispectral satellite remote sensing data of MODIS satellite mission. The interpreted statistical results show a significant underlying background effect between the spatial heterogeneity and the spatial distribution of protestant citizens. The nature of this relationship is to be investigated in the future. The outputs of this study intends to show a direction for the explorative research by providing the first step-stones in the form of significant landscape indices, basic descriptive statistics and rough estimation of the strength of the underlying effect.

Autor/innen-Biografie

  • Györk Fülöp, 2462 Martonvásár, Orgona út 17.

    gyork.fulop@gmail.com

Literaturhinweise

Csemez A. 1996: Tájtervezés - tájrendezés. Mezőgazda Kiadó; Budapest. 466 p. (translation by the author) Fülöp Gy. 2011: Opening for people – Automated landscape variability assessment in KEO system. 2011 Ispra; Olaszország; VII. Conference on Image Information Mining: Geospatial Intelligence from Earth Observation. pp. 97–100.

Fülöp Gy. 2012: Optimized Pattern Size for land cover–land use information conversion. European Journal of Remote Sensing 45(1): 393–405. https://doi.org/10.5721/EuJRS20124533

Fülöp Gy. 2014/a: Mapping solution of Interscale Landscape Diversity Methodology. Journal of Agricultural Infromatics. 4(2): 43–52. https://doi.org/10.17700/jai.2013.4.2.120

Fülöp Gy. 2014/b: With the Eyes of a Human: Combining IIM Solutions of INLAND (Interscale Landscape Diversity Modelling Methodology), Soille P., Marchetti P.G., Iapaolo M., Colaiacomo L., Datcu M. (eds.): Proceedings of ESA-EUSC-JRC 9th Conference on Image Information Mining: The Sentinels Era. Bucharest, Romania. pp. 127–130.

Fülöp Gy. 2017: Földmegfigyelési adatokon alapuló tájváltozatossági mutatórendszer kialakítása statisztikai eszközökkel (doktori értekezés). Development of a landscape diversity index system with statistical tools based on Earth Observation data sources (doctoral dissertation). Szent István Egyetem Tájépítészeti és Tájökológiai Doktori Iskola, Budapest. 135 p.

Gustafson E.J. 1998: Quantifying Landscape Spatial Pattern: What is the State of Art? Ecosystems 1: 143–156. McGarigal K. 2015: FRAGSTATS 4.2 Help [on-line] http://www.umass.edu/landeco/research/fragstats/documents/fragstats.help.4.2.pdf [downloaded: 2015.03.26 9:15]

Mőcsényi M. 1968: A táj és a zöldterület fogalmi problémái a tájrendezés nézőpontjából. Településtudományi Közlemények 17(21): 66–76.

Openshaw S., Taylor P.J. 1979: A million or so correlation coefficients: three experiments on the modifiable areal unit problem. In: Wrigley N. (ed.): Statistical Applications in the Spatial Sciences. Pion, London. pp. 127–144.

Openshaw S., Taylor P.J. 1981: The modifiable areal unit problem, in: Wrigley N., Bennett R. (eds.): Quantitative Geography: A British View. Routledge and Kegan Paul, London. pp. 60–69.

Teleki P. 1937: A tájfogalom jelentőségéről (Rektori tanévnyitó beszéd a Műszaki és Gazdaságtudományi Egyetemen) Teleki, Pál gróf Különlenyomat a Budapesti Szemle 1937. évi novemberi füzetéből

Urban D.L., O’Neill R.V., Shigart H.H. 1987: Landscape Ecology. BioScience 37. pp. 119–27. https://doi.org/10.2307/1310366

Waltz U. 2011: Landscape Structure; Landscape Metrics and Biodiversity. Living Reviews in Landscape Research 5(3): 1–35. https://doi.org/10.12942/lrlr-2011-3

Veröffentlicht

2018-07-16

Ausgabe

Rubrik

Cikkek

Zitationsvorschlag

Reformation and heterogeneity – connection between cultural and environmental manifestation in three spatial regions. (2018). TÁJÖKOLÓGIAI LAPOK | JOURNAL OF LANDSCAPE ECOLOGY , 16(1), 23-33. https://doi.org/10.56617/tl.3574

Ähnliche Artikel

231-240 von 260

Sie können auch eine erweiterte Ähnlichkeitssuche starten für diesen Artikel nutzen.