Review of energy production in the perspective of landscape history

Authors

  • Zita Szabó Szent István University, Department of Landscape Planning and Regional Development H-1118 Budapest, Villányi út 29-43. https://orcid.org/0000-0002-6329-2915
  • Ágnes Sallay Szent István University, Department of Landscape Planning and Regional Development H-1118 Budapest, Villányi út 29-43.

DOI:

https://doi.org/10.56617/tl.3481

Keywords:

landscape type, renewable energy, spatial planning, landscape history

Abstract

Nowadays, with the improvement of renewable energy sources, the structure of the landscape is changing, and energy production appears as parallel land use. To understand the landscape effects of energy production and use, it is necessary to examine how the relationship between landscape and energy has changed from a historical point of view. In our paper, we examine the processes from ancient times to the present according to landscape types. Our results are summarized by landscape type, and the effects are summarized in terms of their durability and extent. According to our results, the landscape effects of energy production and use are typically long-lasting, local effects are first replaced by regional and then global effects.

Author Biographies

  • Zita Szabó, Szent István University, Department of Landscape Planning and Regional Development H-1118 Budapest, Villányi út 29-43.

    szabo.zita28@gmail.com

  • Ágnes Sallay, Szent István University, Department of Landscape Planning and Regional Development H-1118 Budapest, Villányi út 29-43.

    sallay.agnes@tajk.szie.hu

References

Andersen, T.B., Jensen, P.S., Skovsgaard, C.S. 2013: The Heavy Plough and the Agricultural Revolution in Medieval Europe, Discussion Papers on Business and Economics 6: 69. https://doi.org/10.2139/ssrn.2362894

Anonymus 1906: La Catastrophe des Mines de Courrieres. In Le Petit Journal.

Anonymus 2010: The abominable gas man. The Economist. 2010. október 14. The Economist Newspaper Limited.

Anonymus 2011: Villamosítás történet. http://www.szatmarimuzeum.hu/a-muzeumrol/villamositas-tortenet.

Anonymus 2019a: Oil Pipelines Europe. https://www.fuelseurope.eu/data-room/oil-pipelines-map-of-europe/

Anonymus 2019b: Russia's Nuclear Fuel Cycle. http://world-nuclear.org/

Anonymus 2019c: Wind & Energie https://windfakten.at

Anonymus 2019d: Energieforschung für die Zukunft. https://www.aspern-seestadt.at

Antal I. 2013: A magyar villamosenergia-iparkialakulása 1878-1895. A Magyar Tudománytörténeti Intézet Tudományos Közleményei 70: 227.

Arnett, J.C., Schaffer, L. A., Rumberg, J.P., Tolbert, R.E.L. 1984: Design, installation and performance of the ARCO Solar one-megawatt power plant. In: Photovoltaic Solar Energy Conference; Proceedings of the Fifth International Conference, Athens, Greece, October 17-21, 1983 (A85-11301 02-44). Dordrecht, D. Reidel Publishing Co., pp. 314-320.

Benson, F.J., Lay, M.G. 2019: Roads and Highways. (www.britannica.com)

Bilgili, M., Yasar, A., Simsek, E. 2011: Offshore wind power development in Europe and its comparison with onshore counterpart. Renewable and Sustainable Energy Reviews 15(2): 905-915. https://doi.org/10.1016/j.rser.2010.11.006

Bischoff, G. 1968: Die Energierohstoffvorkommen der Erde und ihre weltwirtschaftliche Nutzung. Die Erde 99: 115-132.

Büntgen, U., Myglan, V. S., Charpentier Ljungqvist, F., McCormick, M., Di Cosmo, N., Sigl, M., Jungclaus, J., Wagner, S., Krusic, P. J., Esper, J., Kaplan, J. O., de Vaan, M. A. C., Luterbacher, J., Wacker, L., Tegel, W., Kirdyanov, A. V. 2016: Cooling and societal change during the Late Antique Little Ice Age from 546 to around 600 AD. Nature Geoscience, p. 7.

Cahill, N. 2000: Olynthus and Greek Town Planning. Classical World 93(5): 497-515. https://doi.org/10.2307/4352442

Carruthers, J.E., Solomon, L.H., Waddams, A.L., Atwater, G.I., Riva, J.P. 2019: Natural Gas (www.britannica.com)

Cech, T.V. 2010: Principles of water resources: history, development, management, and policy. John Wiley & Sons, Inc. New Jersey. p. 576.

Colm, G. 2007: Cordoba Water Wheel. https://commons.wikimedia.org.

Csanády G., Csizmady A., Kőszeghy L., Tomay K. 2008: Társadalom - tér - szerkezet. ELTE TTK Városi és Regionális Kutatások Központja, Budapest. p. 264.

Csemez A. 1997: Tájtervezés - tájrendezés. Mezőgazda Kiadó, Budapest. p. 296.

Deffree, S. 2019: Karl Benz drives the first automobile, July 3, 1886. (www.edn.com)

Dodson, J., Li, X., Sun, N., Atahan, P., Zhou, X., Liu, H., Zhao, K., Hu, S., Yang, Z. 2014: Use of coal in the Bronze Age in China. The Holocene 24 (5): 525-530. https://doi.org/10.1177/0959683614523155

Dyer, A. 1976: Wood and Coal: A Change of Fuel. History Today 19.

Egyesült Nemzetek Éghajlatváltozási keretegyezménye 2016

European Landscape Convention, 20.X.2000.

Galili, E., Arenson, S. 2017: The ancient and modern salt industry on the Mediterranean coast of Israel. Salt of the Earth Company Ltd., Haifa. p. 108.

Gordon, J.M. 2001: Solar Energy: The State of the Art. International Solar Energy Society. p. 598.

Gowlett, J.A. J. 2016: The discovery of fire by humans: a long and convoluted process. Phylosophical Transactions of the Royal Society B. 371. https://doi.org/10.1098/rstb.2015.0164

Grüll T. 2017: A Római Birodalom gazdasága. Gondolat Kiadó, Budapest. p. 340.

Hughes, J.D. 1996: Pan's Travail: Environmental Problems of the Ancient Greeks and Romans. Johns Hopkins University, Baltimore. p. 288.

Kádár P. 2010: A vízimalmoktól a vízerőművekig. Új Mandátum Könyvkiadó, Budapest. p. 552.

Kaplan, J.O., Krumhard, K.M., Zimmermann, N. 2009: The prehistoric and preindustrial deforestation of Europe. Quaternary Science Reviews 28(27-28): 3016-3034. https://doi.org/10.1016/j.quascirev.2009.09.028

Lendering, J. 2002: Royal Road (www.livius.org) https://doi.org/10.1145/504689.504690

Little, L.K. (ed.) 2007: Plague and the End of Antiquity: The Pandemic of 541-750. Cambridge University Press, Cambridge. p. 360. https://doi.org/10.1017/CBO9780511812934

Liu, H. 1998: Pipeline. (www.britannica.com)

Lund, J. 2004: 100 Years of Geothermal Power Production. Geo-Heat Centre Quarterly Bulletin 25(1): 11-19.

Lund, J. W., Bjelm, L., Bloomquist, G., Mortensen, A.K. 2007: Characteristics, development and utilization of geothermal resources - a Nordic perspective. Geo-Heat Centre Quarterly Bulletin 31(1): 140-147. https://doi.org/10.18814/epiiugs/2008/v31i1/019

MacDonald, K. 2017: The use of fire and human distribution. Temperature (Austin) 4(2): 153-165. https://doi.org/10.1080/23328940.2017.1284637

Malamina, P. 2013: Energy, power and growth in the High Middle Ages. University Magna Graecia, Catanzaro. p. 19.

Máté G., K. Német A. 2014: Középkori eredetű malmok és malomhelyek továbbélése a Kapos és a Völgységipatak vízgyűjtőjében. Középkori elemek a mai magyar anyagi kultúrában. Agroinform Kiadó és Nyomda Kft., Budapest. p. 68.

Mende J. 1936: Watt James és a gőzgép gyártása. Huszadik Század 1936. április.

Mir-Babayev, M. Y. 2012: A brief history of oil and gas well drilling. Visions of Azerbaijan 2012 (Jan-Feb)

Miser, T. 2015: A Short History of the Evolving Uses of Natural Gas. Power Engineering 2(119)

Mumford, L. 1961: The City in History. Secker-Warburg, London. p. 657.

Mumford, L. 2000: A gép mítosza: válogatott tanulmányok. Európa Könyvkiadó, Budapest. p. 342.

Munkácsy B. 2018: Energiaföldrajz és energiatervezés. Eötvös Loránd Tudományegyetem, Természettudományi Kar. p. 149.

Péti M. 2011: A területi tervezés és fejlesztés a fenntarthatóság jegyében & Stratégiai környezeti vizsgálatok földrajzi szemlélettel. Földrajzi tanulmányok 7: 1-207.

Perlin, J. 2013: Let It Shine: The 6,000-Year Story of Solar Energy. New World Library, New York. p. 544.

Poirazidis, K. 2017: Systematic Raptor Monitoring as conservation tool: 12 year results in the light of landscape changes in Dadia-Lefkimi-Soufli National Park. Nature Conservation 22: 17-50. https://doi.org/10.3897/natureconservation.22.20074

Rojas-Sola, J.I., Amezcua-Oga'yar, J.M. 2004: Southern spanish windmills: Technological aspects. Renewable Energy 30: 1943-1953. https://doi.org/10.1016/j.renene.2005.03.016

Ruggles, D.F. 2000: Gardens, Landscape, and Vision in the Palaces of Islamic Spain. Penn State Press, PA, University Park. p. 32.

Smith, A.H.V. 1997: Provenance of Coals from Roman Sites in England and Wales. Britannia 28: 297-324. https://doi.org/10.2307/526770

Smith, K.P. 2010: Landnám: the settlement of Icelandin archaeological and historicalperspective. World Archeology 26(3): 319-347. https://doi.org/10.1080/00438243.1995.9980280

Stremke, 2010: Designing Sustainable Energy Landscapes. Concepts, Principles and Procedures. Wageningen Uniersity, Wageningen. p. 202.

Sheperd, D.G. 2014: Historical Development of Windmill. Cornell University, New York. p. 46.

Taylor, R. 2012: How a Roman Aqueduct Works. Archeology 65(2)

Tihanyi Z. 2016: Az egységes európai villamosenergia-rendszerről rendszerirányítói szemmel. MAVIR, Budapest. p. 62.

Tóth E. 2004: Római utak Pannoniában. Ókor 2004(1): 43-48.

Vajda Gy. 2009: Energia és társadalom. MTA Társadalomkutató Központ, Budapest. p. 484.

Vajda Gy. 2014: Okok és következmények az energetikában. Akadémiai Kiadó Budapest. p. 392.

Vladár T. 2006: 270 éve született James Watt, a gőzgép feltalálója. Múlt-kor 2006(Jan)

Vestergaard, J., Brandstrup, L., Goddard, R. D. 2004: A Brief History of the Wind Turbine Industries in Denmark and the United States. In: Academy of International Business (Southeast USA Chapter) Conference Proceedings, November 2004. pp. 322-327.

Wertime, T.A. 1983: The Furnace versus the Goat: The Pyrotechnologic Industries and Mediterranean Deforestation in Antiquity. Journal of Field Archaeology 10(4): 445-452. https://doi.org/10.2307/529467

Published

2020-07-13

Issue

Section

Articles

How to Cite

Review of energy production in the perspective of landscape history. (2020). JOURNAL OF LANDSCAPE ECOLOGY | TÁJÖKOLÓGIAI LAPOK , 18(1), 45-64. https://doi.org/10.56617/tl.3481

Similar Articles

61-70 of 92

You may also start an advanced similarity search for this article.