Tobler's second law of geography

The second law of geography, according to Waldo Tobler, is "the phenomenon external to a geographic area of interest affects what goes on inside."[1][2][3][4] This is an extension of his first. He first published it in 1999 in reply to a paper titled "Linear pycnophylactic reallocation comment on a paper by D. Martin" and then again in response to criticism of his first law of geography titled "On the First Law of Geography: A Reply."[1][2] Much of this criticism was centered on the question of if laws were meaningful in geography or any of the social sciences. In this document, Tobler proposed his second law while recognizing others have proposed other concepts to fill the role of 2nd law. Tobler asserted that this phenomenon is common enough to warrant the title of 2nd law of geography.[2] Unlike Tobler's first law of geography, which is relatively well accepted among geographers, there are a few contenders for the title of the second law of geography.[5] Tobler's second law of geography is less well known but still has profound implications for geography and spatial analysis.[6]

Waldo Tobler in front of the Newberry Library. Chicago, November 2007

Tobler's second law of geography has implications whenever a boundary is drawn on a map, particularly in arbitrary boundaries such as political borders.

Foundation

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In spatial analysis, it is often (usually) necessary to subset a study area from the globe. Tobler's first law of geography states that "everything is related to everything else, but near things are more related than distant."[2][7] Thus, the geographic area relevant to a phenomenon being studied extends far outside this study area, and this relevant geographic location is not necessarily consistent over time. Due to distance decay, the effect of distant things falls as distance increases but never goes to zero. This has implications in both the modifiable areal unit problem (MAUP), the boundary problem, and the Uncertain geographic context problem (UGCoP).[8][9][10] In the boundary problem in particular, when geographic boundaries are arbitrary and not based on natural features, the phenomena under evaluation is likely to continue and be influenced by space beyond the study area.[11][12]

Controversy

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In general, some dispute the entire concept of laws in geography and the social sciences.[2][5] These criticisms have been addressed by Tobler and others.[2][5] However, this is an ongoing source of debate in geography and unlikely to be resolved anytime soon.

Other proposed second laws of geography

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Some have argued that geographic laws do not need to be numbered. However, the existence of a first invites the creation of a second. In addition to Tobler's second law, several scholars have proposed candidates for a second.

  • Arbia's law of geography: "Everything is related to everything else, but things observed at a coarse spatial resolution are more related than things observed at a finer resolution."[2][13][14]
  • Spatial heterogeneity: This concept has a longer history than the first law of geography and dates back to regional geography that emphasizes heterogeneity as "an inescapable characteristic of geography".[15] Spatial heterogeneity was first proposed as "a possible candidate" of the second law of geography by Michael F. Goodchild, who attributes this law to David Harvey.[5] Chinese geographers often cite it simply as the "second law of geography".[16]
  • Tim Foresman and Ruth Luscombe's Second law of geography: "Things that know where they are can act on their locational knowledge. Spatially enabled things have increased financial and functional utility."[17]
  • the uncertainty principle: "that the geographic world is infinitely complex and that any representation must therefore contain elements of uncertainty, that many definitions used in acquiring geographic data contain elements of vagueness, and that it is impossible to measure location on the Earth's surface exactly."[5]
  • It has been proposed that Tobler's first law of geography should be moved to the second and replaced with another.[5]

See also

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References

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  1. ^ a b Tobler, Waldo (1999). "Linear pycnophylactic reallocation comment on a paper by D. Martin". International Journal of Geographical Information Science. 13 (1): 85–90. Bibcode:1999IJGIS..13...85T. doi:10.1080/136588199241472.
  2. ^ a b c d e f g Tobler, Waldo (2004). "On the First Law of Geography: A Reply". Annals of the Association of American Geographers. 94 (2): 304–310. doi:10.1111/j.1467-8306.2004.09402009.x. S2CID 33201684. Retrieved 10 March 2022.
  3. ^ McClain, Bonny P (3 October 2023). Geospatial Analysis with SQL. Packt Publishing. ISBN 9781804616468. Retrieved 24 January 2024.
  4. ^ Thompson, Alexandra (11 January 2024). "Geeking Out on Geography: Mapping the Effects of the Coastal Barrier Resources Act". Resource Magazine. Retrieved 24 January 2024.
  5. ^ a b c d e f Goodchild, Michael (2004). "The Validity and Usefulness of Laws in Geographic Information Science and Geography". Annals of the Association of American Geographers. 94 (2): 300–303. doi:10.1111/j.1467-8306.2004.09402008.x. S2CID 17912938.
  6. ^ Mocnik, Franz-Benjamin (2021). "Benford's law and geographical information – the example of OpenStreetMap". International Journal of Geographical Information Science. 35 (9): 1746–1772. Bibcode:2021IJGIS..35.1746M. doi:10.1080/13658816.2020.1829627. S2CID 233602210.
  7. ^ Tobler W., (1970) "A computer movie simulating urban growth in the Detroit region". Economic Geography, 46(Supplement): 234–240.
  8. ^ Kwan, Mei-Po (2012). "The Uncertain Geographic Context Problem". Annals of the Association of American Geographers. 102 (5): 958–968. doi:10.1080/00045608.2012.687349. S2CID 52024592.
  9. ^ Openshaw, Stan (1983). The Modifiable Aerial Unit Problem (PDF). GeoBooks. ISBN 0-86094-134-5.
  10. ^ Chen, Xiang; Ye, Xinyue; Widener, Michael J.; Delmelle, Eric; Kwan, Mei-Po; Shannon, Jerry; Racine, Racine F.; Adams, Aaron; Liang, Lu; Peng, Jia (27 December 2022). "A systematic review of the modifiable areal unit problem (MAUP) in community food environmental research". Urban Informatics. 1 (1): 22. Bibcode:2022UrbIn...1...22C. doi:10.1007/s44212-022-00021-1. S2CID 255206315.
  11. ^ Henley, S. (1981). Nonparametric Geostatistics. Springer Netherlands. ISBN 978-94-009-8117-1.
  12. ^ Haining, Robert (1990). Spatial Data Analysis in the Social and Environmental Sciences by Robert Haining. Cambridge University Press. doi:10.1017/CBO9780511623356. ISBN 9780511623356.
  13. ^ Arbia, Giuseppe; Benedetti, R.; Espa, G. (1996). ""Effects of MAUP on image classification"". Journal of Geographical Systems. 3: 123–141.
  14. ^ Smith, Peter (2005). "The laws of geography". Teaching Geography. 30 (3): 150.
  15. ^ Hartshorne, R. (1939). "The nature of geography: A critical survey of current thought in the light of the past". Annals of the Association of American Geographers. 29 (3): 173–412. hdl:2027/coo.31924014016905. JSTOR 2561063.
  16. ^ Zhu, A. X.; Lu, G.; Liu, J.; Qin, C. Z.; Zhou, C (2018). "Spatial prediction based on Third Law of Geography". Annals of GIS. 24 (4): 225–240. Bibcode:2018AnGIS..24..225Z. doi:10.1080/19475683.2018.1534890. S2CID 61153749.
  17. ^ Foresman, T.; Luscombe, R. (2017). "The second law of geography for a spatially enabled economy". International Journal of Digital Earth. 10 (10): 979–995. Bibcode:2017IJDE...10..979F. doi:10.1080/17538947.2016.1275830. S2CID 8531285.