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Knowing Their Place: The Blue Hill Observatory and the Value of Local Knowledge in an Era of Synoptic Weather Forecasting, 1884–1894

Published online by Cambridge University Press:  30 August 2016

James Bergman
James Bergman*
Affiliation:
Michigan State University E-mail: [email protected]
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Argument

The history of meteorology has focused a great deal on the “scaling up” of knowledge infrastructures through the development of national and global observation networks. This article argues that such efforts to scale up were paralleled by efforts to define a place for local knowledge. By examining efforts of the Blue Hill Meteorological Observatory, near Boston, Massachusetts, to issue local weather forecasts that competed with the centralized forecasts of the U.S. Signal Service, this article finds that Blue Hill, as a user of the Signal Service's observation network, developed a new understanding of local knowledge by combining local observations of the weather with the synoptic maps afforded by the nationwide telegraph network of the U.S. Signal Service. Blue Hill used these forecasts not only as a service, but also as evidence of the superiority of its model of local forecasting over the Signal Service's model, and in the process opened up larger questions about the value of a weather forecast and the value of different kinds of knowledge in meteorology.

Type
Research Article
Information
Science in Context , Volume 29 , Issue 3 , September 2016 , pp. 305 - 346
Copyright
Copyright © Cambridge University Press 2016 

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References

Abbe, Cleveland. 1893. “Correspondence: The Needs of Meteorology.” American Meteorological Journal 9 (12):560562.Google Scholar
Abbe, Cleveland. 1901. “The Physical Basis of Long-Range Weather Forecasts.” Monthly Weather Review 29 (12):551561.CrossRefGoogle Scholar
Abbot, Charles Greeley. 1955. Sixty-Year Weather Forecasts. Washington: Smithsonian Institution.Google Scholar
Anderson, Katharine. 2005. Predicting the Weather: Victorians and the Science of Meteorology. Chicago: University of Chicago Press.Google Scholar
Balogh, Brian. 2009. A Government out of Sight: The Mystery of National Authority in Nineteenth-Century America. Cambridge and New York: Cambridge University Press.CrossRefGoogle Scholar
Baltimore Sun . 1888. “The Weather Bureau: Gen. Greely's Protest against Its Transfer to Civilian Control,” May 28, 1.Google Scholar
Boston Evening Transcript . 1887. “The Weather,” October 3, 8.Google Scholar
Bulletin of the New England Meteorological Society . 1884a. “[Background on New England Meteorological Society],” November, 1–2.Google Scholar
Bulletin of the New England Meteorological Society . 1884b. [Call for Observers], November, n.p.Google Scholar
Carnegie, Institution of Washington. 1929. Reports of the Conferences on Cycles. Washington: Carnegie Institution of Washington.Google Scholar
Chief Signal Officer. 1871. “Annual Report of the Chief Signal Officer of the Army to the Secretary of War for the Fiscal Year Ended June 30, 1871.” Washington: Government Printing Office.Google Scholar
Chief Signal Officer. 1874. “Annual Report of the Chief Signal Officer of the Army to the Secretary of War for the Fiscal Year 1873.” Washington: Government Printing Office.Google Scholar
Chief Signal Officer. 1880. “Annual Report of the Chief Signal Officer of the Army to the Secretary of War for the Fiscal Year 1879.” Washington: Government Printing Office.Google Scholar
Chief Signal Officer. 1881. “Annual Report of the Chief Signal Officer of the Army to the Secretary of War for the Fiscal Year Ended June 30, 1881.” Washington: Government Printing Office.Google Scholar
Chief Signal Officer. 1885. “Annual Report of the Chief Signal Officer of the Army to the Secretary of War for the Fiscal Year 1885.” Part 1. Washington: Government Printing Office.Google Scholar
Chief Signal Officer. 1888. “Annual Report of the Chief Signal Officer of the Army to the Secretary of War for the Year 1887.” Washington: Government Printing Office.Google Scholar
Chief Signal Officer. 1889. “Annual Report of the Chief Signal Officer of the Army to the Secretary of War for the Year 1888.” Washington: Government Printing Office.Google Scholar
Clayton, Henry Helm. 1884. “A Lately Discovered Meteorological Cycle: Introduction. Conclusion.” American Meteorological Journal 1 (4):130144.Google Scholar
Clayton, Henry Helm. 1885. “A Seven Day Weather Period.” American Meteorological Journal 2 (4): 162169.Google Scholar
Clayton, Henry Helm. 1887b. “A Plea for Civilian Control of the U. S. Weather-Bureau.” Science 9 (209):113114.Google Scholar
Clayton, Henry Helm. 1888a. “Letter to the Editor.” American Meteorological Journal 4 (9):412417.Google Scholar
Clayton, Henry Helm. 1888b. “Weather-Predicting.” Science 11 (258):2223.Google Scholar
Clayton, Henry Helm. 1888d. “Instructions for Observing Clouds.” American Meteorological Journal 5 (8):379380.Google Scholar
[Clayton, Henry Helm.] 1889. The Transfer of the United States Weather Service to a Civil Bureau: Historic Sketch, Replies to Objections against the Transfer, Present Need of Transfer, Opinions of Scientific Men, Opinions of the Press, Supplement. Boston: A. Mudge.Google Scholar
Clayton, Henry Helm. 1889. “Verification of Weather Forecasts.” American Meteorological Journal 6 (5):211219.Google Scholar
Clayton, Henry Helm. 1892. “Recent Efforts Toward the Improvement of Daily Weather Forecasts.” American Meteorological Journal 9 (3):128134.Google Scholar
Clayton, Henry Helm. 1893. “Six and Seven Day Weather Periodicities.” American Meteorological Journal 10 (1):3544.Google Scholar
Clayton, Henry Helm. 1894. “Six and Seven Day Weather Periods.” American Journal of Science (1880–1910) 47 (279):223231.Google Scholar
Clayton, Henry Helm. 1947. Solar Cycles. Washington: Smithsonian Institution.Google Scholar
Clayton, Henry Helm, and Fergusson, Sterling P.. 1892. Observations Made at the Blue Hill Observatory, Massachusetts, U.S.A.: Measurements of Cloud Heights and Velocities. Annals of the Astronomical Observatory at Harvard College. Cambridge: John Wilson and Sons.Google Scholar
Coen, Deborah. 2006. “Scaling Down: Mapping the Austrian Climate between Empire and Republic.” In Intimate Universality: Local and Global Themes in the History of Weather and Climate, edited by Fleming, James Rodger, Janković, Vladimir, and Coen, Deborah R., 115140. Sagamore Beach MA: Science History Publications, USA.Google Scholar
Conover, John H. 1990. The Blue Hill Meteorological Observatory: The First 100 Years: 1885–1985. Boston: American Meteorological Society.Google Scholar
Craft, Erik D. 1998. “The Value of Weather Information Services for Nineteenth-Century Great Lakes Shipping.” American Economic Review 88 (5):10591076.Google Scholar
Craft, Erik D. 1999. “Private Weather Organizations and the Founding of the United States Weather Bureau.” The Journal of Economic History 59 (4):10631071.Google Scholar
“Cyclostyle, noun.” 2016. OED Online. Oxford University Press, last accessed March 7, 2016.Google Scholar
Daily American . 1888. “The Tennessean Won: How a Murfreesboro Youth Eclipsed Prof. Hazen,” April 2, 4.Google Scholar
Daipha, Phaedra. 2015. Masters of Uncertainty: Weather Forecasters and the Quest for Ground Truth. Chicago: University of Chicago Press.Google Scholar
Davis, William Morris. 1885. “The Meteorological Observatory on Blue Hill.” Science 5 (121):440.Google Scholar
Davis, William Morris. 1888. “Correspondence: Local Weather Predictions.” American Meteorological Journal 4 (9):409412.Google Scholar
Douglass, Andrew Ellicott. 1919. Climatic Cycles and Tree-Growth. Carnegie Institution of Washington Publication 289. Washington: Carnegie Institution of Washington.Google Scholar
Dupree, A. Hunter. 1986. Science in the Federal Government: A History of Policies and Activities. Baltimore: Johns Hopkins University Press.Google Scholar
Edwards, Paul N. 2003. “Infrastructure and Modernity: Force, Time, and Social Organization in the History of Sociotechnical Systems.” In Modernity and Technology, edited by Misa, Thomas J., Brey, Philip, and Feenberg, Andrew, 185225. Cambridge: MIT Press.Google Scholar
Edwards, Paul N. 2006. “Meteorology as Infrastructural Globalism.” Osiris 2:229250.Google Scholar
Edwards, Paul N. 2010. A Vast Machine: Computer Models, Climate Data, and the Politics of Global Warming. Cambridge: MIT Press.Google Scholar
Engineering . 1885. “Meteorological Instruments,” December 4, 534–536.Google Scholar
Fergusson, Sterling P., and Brooks, Charles F.. 1947. “Henry Helm Clayton: 1861–1946.” Science 105:247248.Google Scholar
Fine, Gary Alan. 2007. Authors of the Storm: Meteorologists and the Culture of Prediction. Chicago: University of Chicago Press.Google Scholar
Fleming, James Rodger. 1990. Meteorology in America, 1800-1870. Baltimore: Johns Hopkins University Press.Google Scholar
Fleming, James Rodger. 2000. “Storms, Strikes, and Surveillance: The US Army Signal Office, 1861–1891.” Historical Studies in the Physical and Biological Sciences 30:315332.Google Scholar
Fleming, James Rodger, Janković, Vladimir, and Coen, Deborah R.. 2006. Intimate Universality: Local and Global Themes in the History of Weather and Climate. Sagamore Beach, MA: Science History Publications/USA.Google Scholar
Friedman, Robert Marc. 1989. Appropriating the Weather: Vilhelm Bjerknes and the Construction of a Modern Meteorology. Ithaca: Cornell University Press.Google Scholar
Galway, Joseph G. 1985. “J.P. Finley: The First Severe Storms Forecaster.” Bulletin of the American Meteorological Society 66 (11):13891395.Google Scholar
Gan. 1887. “Local Weather Predictions.” American Meteorological Journal 4 (8):373376.Google Scholar
Gan. 1888. “Correspondence: Local Weather Predictions.” American Meteorological Journal 5 (1):3843.Google Scholar
Gilbert, Grove Karl. 1884. “Finley's Tornado Predictions.” American Meteorological Journal. A Monthly Review of Meteorology and Allied Branches of Study (1884–1896) 1 (5): 166172.Google Scholar
Harper, Kristine C. 2003. “Research from the Boundary Layer Civilian Leadership, Military Funding and the Development of Numerical Weather Prediction (1946–55).” Social Studies of Science 33 (5): 667696.Google Scholar
Harper, Kristine. 2008. Weather by the Numbers: The Genesis of Modern Meteorology. Transformations. Cambridge: MIT Press.CrossRefGoogle Scholar
Hazen, Henry Allen. 1887. “Weather-Predictions.” Science 10 (256): 322323.CrossRefGoogle ScholarPubMed
Hazen, Henry Allen. 1888a. “Letter to Abbott Lawrence Rotch.” Harvard University. Records of the Blue Hill Meteorological Observatory. HUA UAV 221.4, Office Files 1884–1896, 1888, Box 1.Google Scholar
Hazen, Henry Allen. 1888b. “Letter to Abbott Lawrence Rotch,” May 7. Harvard University. Records of the Blue Hill Meteorological Observatory. HUA UAV 221.4, Office Files 1884–1896, 1888, Box 1.Google Scholar
Hazen, Henry Allen. 1888c. “Letter to Mark Harrington,” June 16. Harvard University. Records of the Blue Hill Meteorological Observatory. HUA UAV 221.4, Office Files 1884–1896, 1888, Box 1.Google Scholar
Hulme, Mike. 2008. “Geographical Work at the Boundaries of Climate Change.” Edited by Karin Backstrand and Eva Lovbrand. Transactions of the Institute of British Geographers 33 (1):511.Google Scholar
Humphreys, William Jackson. 1919. “Cleveland Abbe.” 7. Biographical Memoirs. Washington DC: National Academy of Sciences.Google Scholar
Janković, Vladimir, and Hebbert, Michael. 2012. “Hidden Climate Change—Urban Meteorology and the Scales of Real Weather.” Climatic Change 113 (1):2333.Google Scholar
Koelsch, William A. 1981. “The New England Meteorological Society, 1884–1896: A Study in Professionalization.” In The Origins of Academic Geography in the United States, edited by Blouet, Brian W., 4352. Brooklyn: Shoe String Press.Google Scholar
Koelsch, William A. 1986. “Ben Franklin's Heir: Alexander McAdie and the Experimental Analysis and Forecasting of New England Storms, 1884–1892.” New England Quarterly 59: 523543.Google Scholar
Koelsch, William A. 1996. “From Geo- to Physical Science: Meteorology and the American University.” In Historical Essays on Meteorology, 1919–1995: The Diamond Anniversary History Volume of the American Meteorological Society, edited by Fleming, James Rodger, 511540. Boston: American Meteorological Society.Google Scholar
Kohler, Robert E. 2002. Landscapes & Labscapes: Exploring the Lab-Field Border in Biology. Chicago: University of Chicago Press.Google Scholar
Loomis, Elias. 1894. A Treatise on Meteorology; with a Collection of Meteorological Tables. New York: Harper.Google Scholar
McAdie, Alexander. 1886. “Letter to Abbott Lawrence Rotch,” July 24. Harvard University. Records of the Blue Hill Meteorological Observatory. HUA UAV 221.4, Office Files 1884–1896, 1886, Box 1.Google Scholar
Miller, Clark, and Erickson, Paul. 2006. “The Politics of Bridging Scales and Epistemologies: Science and Democracy in Global Environmental Governance.” In Bridging Scales and Knowledge Systems: Concepts and Applications in Ecosystem Assessment, edited by Reid, Walter V. and Millennium Ecosystem Assessment (Program), 297314. Washington DC: Island Press.Google Scholar
Mills, Samuel. 1884. “Letter to Abbott Lawrence Rotch,” September 1. Harvard University. Records of the Blue Hill Meteorological Observatory. HUA UAV 221.4, Office Files 1884–1896, Founding of Blue Hill Observatory, Box 1.Google Scholar
Monmonier, Mark S. 1999. Air Apparent: How Meteorologists Learned to Map, Predict, and Dramatize Weather. Chicago, Ill.: University of Chicago Press.Google Scholar
Murphy, Allan H. 1996. “The Finley Affair: A Signal Event in the History of Forecast Verification.” Weather and Forecasting 11:320.Google Scholar
Nebeker, Frederik. 1995. Calculating the Weather: Meteorology in the 20th Century. San Diego: Academic Press.Google Scholar
“New England Meteorological Society.” 1884. American Meteorological Journal 1, no. 8, December: 300–305.Google Scholar
Niles, William H. 1884. “Letter to Abbott Lawrence Rotch,” September 19. Harvard University. Records of the Blue Hill Meteorological Observatory. HUA UAV 221.4, Office Files 1884–1896, Founding of Blue Hill Observatory, Box 1.Google Scholar
Pawley, Emily. 2013. “Experiments all for Worldly Gain’: Profit and Knowledge Making in Nineteenth-Century American Agriculture.” Paper presented at the Annual Meeting of the History of Science Society, November 22, 2013.Google Scholar
Pietruska, Jamie. 2009. “Propheteering: A Cultural History of Prediction in the Gilded Age.” Ph.D. Thesis, Cambridge: Massachusetts Institute of Technology.Google Scholar
Pietruska, Jamie. 2011. “US Weather Bureau Chief Willis Moore and the Reimagination of Uncertainty in Long-Range Forecasting.” Environment and History 17 (February):79105.Google Scholar
Pietruska, Jamie. Forthcoming. Looking Forward: Prediction and Uncertainty in Modern America. Chicago: University of Chicago Press.CrossRefGoogle Scholar
Porter, Theodore M. 1986. The Rise of Statistical Thinking, 1820–1900. Princeton: Princeton University Press.Google Scholar
Rotch, A. Lawrence. 1884. “Letter to Chief Signal Officer, Draft,” August 18. Harvard University. Records of the Blue Hill Meteorological Observatory. HUA UAV 221.4, Office Files 1884–1896, Founding of Blue Hill Observatory, Box 1.Google Scholar
Rotch, A. Lawrence. 1886. “The Mountain Meteorological Stations of Europe: Great Britain. Ben Nevis. Conclusion.” American Meteorological Journal 3 (1):1524.Google Scholar
Rotch, A. Lawrence. 1887a. An Account of the Foundation and Work of the Blue Hill Meteorological Observatory. Boston: A. Mudge & Son, Printers.Google Scholar
Rotch, A. Lawrence. 1887b. Results of the Meteorological Observations Made at the Blue Hill Meteorological Observatory, Massachusetts, U. S. A., in the Year 1886. Boston: A. Mudge.Google Scholar
Rotch, A. Lawrence. 1887c. “An Experiment in Local Weather Prediction.” American Meteorological Journal 3 (10):454458.Google Scholar
Rotch, A. Lawrence. 1888a. “The Organization of the Meteorological Service in Some of the Principal Countries of EUROPE: Germany, the Deutsche Seewarte, Maximum and Minimum.” American Meteorological Journal 4 (11):497512.Google Scholar
Rotch, A. Lawrence. 1888b. “Telegram to W.W. Clapp,” March 23. Harvard University. Records of the Blue Hill Meteorological Observatory. HUA UAV 221.4, Office Files 1884–1896, 1888, Box 1.Google Scholar
Rotch, A. Lawrence. Observations Made at the Blue Hill Observatory, Massachusetts, U.S.A., in the Years 1889 and 1890. 1896. Annals of the Astronomical Observatory at Harvard College. Cambridge: John Wilson and Sons.Google Scholar
Sandlin, Lee. 2013. Storm Kings: The Untold History of America's First Tornado Chasers. New York: Pantheon Books.Google Scholar
Scott, James C. 1998. Seeing like a State: How Certain Schemes to Improve the Human Condition Have Failed. New Haven: Yale University Press.Google Scholar
Sheynin, Oscar B. 1984. “On the History of the Statistical Method in Meteorology.” Archive for History of Exact Sciences 31 (1):5395.Google Scholar
Skowronek, Stephen. 1982. Building a New American State: The Expansion of Nationaladministrative Capacities, 1877–1920. Cambridge [Cambridgeshire] and New York: Cambridge University Press.Google Scholar
Specter, Michael. 2013. “Climate by Numbers.” The New Yorker, November 11, http://www.newyorker.com/magazine/2013/11/11/climate-by-numbers, accessed June 6, 2016.Google Scholar
Turner, Roger. 2006. “Teaching the Weather Cadet Generation: Aviation, Pedagogy and Aspirations to a Universal Meteorology in America, 1920–1950.” In Intimate Universality: Local and Global Themes in the History of Weather and Climate, edited by Fleming, James Rodger, Janković, Vladimir, and Coen, Deborah R., 141173. Sagamore Beach, MA: Science History Publications/USA.Google Scholar
Turner, Roger. 2010. “Weathering Heights: The Emergence of Aeronautical Meteorology as an Infrastructural Science.” Philadelphia: University of Pennsylvania.Google Scholar
Upton, Winslow. 1884. “Letter to Abbott Lawrence Rotch,” August 16. Harvard University. Records of the Blue Hill Meteorological Observatory. HUA UAV 221.4, Office Files 1884–1896, Founding of Blue Hill Observatory, Box 1.Google Scholar
“Verifications at the Signal Office.” 1889. American Meteorological Journal 6 (1):1832.Google Scholar
Vetter, Jeremy. 2005. “The Regional Development of Science: Knowledge, Environment, and Field Work in the United States Central Plains and Rocky Mountains, 1860–1920.” Ph.D. thesis, University of Pennsylvania (Philadelphia).Google Scholar
Vetter, Jeremy. 2011. “Lay Observers, Telegraph Lines, and Kansas Weather: The Field Network as a Mode of Knowledge Production.” Science in Context 24 (2):259280.Google Scholar
Ward, Robert DeCourcy. 1896. “Editorial Note: A Word of Farewell.” American Meteorological Journal 12 (12):367371.Google Scholar
Weart, Spencer R. 2008. The Discovery of Global Warming. Rev. and expanded ed. Cambridge: Harvard University Press.Google Scholar
Weber, Gustavus Adolphus. 1922. The Weather Bureau; Its History, Activities, and Organization. Service Monographs of the U.S. Government, no. 9. New York, London: D. Appleton and Company.Google Scholar
Whitnah, Donald Robert. 1961. A History of the United States Weather Bureau. Urbana: University of Illinois Press.Google Scholar
Willis, Edmund P., and Hooke, William H.. 2006. “Cleveland Abbe and American Meteorology, 1871–1901.” Bulletin of the American Meteorological Society 87 (3):315326.Google Scholar