James Croll Explained

James Croll
Honorific Suffix:FRS
Birth Date:1821 1, df=yes
Birth Place:Little Whitefield, Perthshire, Scotland
Death Place:Perth, Scotland
Nationality:Scottish
Occupation:Scientist

James Croll, FRS, (2 January 1821 – 15 December 1890) was a 19th-century Scottish scientist who developed a theory of climate variability based on changes in the Earth's orbit.

Life

James Croll was born in 1821 on the farm of Little Whitefield, near Wolfhill in Perthshire, Scotland, the son of David Croll, mason, and his wife Janet Geddes. He was largely self-educated. At 16 he became an apprentice wheelwright at Collace near Wolfhill, and then because of health problems a tea merchant in Elgin, Moray. In 1848 he married Isabella Macdonald, daughter of John Macdonald and Annabella Sime, of Forres.

In the 1850s he managed a temperance hotel in Blairgowrie, and was then an insurance agent in Glasgow, Edinburgh and Leicester. In 1859, he became a janitor at the museum of the Andersonian University in Glasgow. He was able to use the university library to get access to books, and taught himself physics and astronomy to develop his ideas.

From 1864, Croll corresponded with Sir Charles Lyell,[1] on links between ice ages and variations in the Earth's orbit. He theorized that changes in the Earth's orbit could cause the Gulf Stream to be diverted, bringing less heat to the Arctic. More ice would then lead to more sunlight being reflected, causing a feedback loop. His ideas were published in the Philosophical Magazine in 1864, attributed to "James Croll, Anderson's University".[2]

This led to a position in the Edinburgh office of the Geological Survey of Scotland, as keeper of maps and correspondence, where the director, Sir Archibald Geikie, encouraged his research. He published a number of books and papers which "were at the forefront of contemporary science",[3] including Climate and Time, in Their Geological Relations in 1875. He corresponded with Charles Darwin on erosion by rivers.

In 1876, he was elected Fellow of the Royal Society, and awarded an honorary degree by the University of St Andrews. He retired in 1880 because of ill health.

Death

Croll died on 15 December 1890 at 5 Pitcullen Crescent, Perth, Scotland. He was buried in a family grave in Cargill, Perthshire.[2]

Croll's work has been widely recognised in scientific circles and societies. The highest award of the Quaternary Research Association is the James Croll Medal.

Theory of ice ages

Croll was the leading proponent of an astronomical-based theory of climate change, now known as the "Astronomical Theory of Climate Change".[4] Using formulae for orbital variations developed by Urbain Le Verrier (which had led to the discovery of Neptune), Croll developed a theory of the effects of variations of the Earth's orbit on climate cycles. His idea was that decreases in winter sunlight would favour snow accumulation, and for the first time coupled this to the idea of a positive ice-albedo feedback to amplify the solar variations. Croll further argued that the accumulation of snow would change the pattern of trade winds, leading to the deflection of warming currents like the Gulf Stream, and finally a self-sustaining ice age. He suggested that when orbital eccentricity is high winters will tend to be colder when the Earth is farther from the sun in that season and hence, that during periods of high orbital eccentricity, ice ages occur on 22,000-year cycles in each hemisphere, and alternate between southern and northern hemispheres, lasting approximately 10,000 years each.[5]

Croll's theory predicted multiple ice ages, asynchronous in northern and southern hemispheres, and that the last ice ages should have ended about 80,000 years ago. Evidence was just then emerging of multiple ice ages, and geologists were interested in a theory to explain this. Geologists were not then able to date sediments accurately enough to determine if glaciation was synchronous between the hemispheres, though the limited evidence more pointed towards synchronicity than not. More crucially, estimates of the recession rate of the Niagara Falls indicated that the last ice age ended 6,000 to 35,000 years ago – a large range, but enough to rule out Croll's theory, to those who accepted the measurements.

Croll's work was widely discussed, but by the end of the 19th century, his theory was generally discredited. However, the basic idea of orbitally-forced insolation variations influencing terrestrial temperatures – now known generally as Milankovitch cycles – was further developed by Milutin Milankovitch and eventually, in modified form, triumphed in 1976.[6] A number of scholars have argued that Croll's contribution was sufficiently fundamental as to describe the orbital cycles as Croll-Milankovitch Cycles.[7]

Works

Notes

  1. Web site: Index of some of Croll's correspondence . NAHSTE . 30 July 2006 . dead . https://web.archive.org/web/20061001195139/http://www.nahste.ac.uk/pers/c/GB_0237_NAHSTE_P0321/ . 1 October 2006 .
  2. Fred Pearce . Caretaker who solved the ice age mystery . New Scientist . Aug 25, 2018 .
  3. Web site: Croll: a forgotten hero of Perth. Prof David Crichton. 11 October 2004. https://web.archive.org/web/20041011190311/http://www.scoti.org.uk/local_heroes.htm . 11 October 2004.
  4. Web site: James Croll in Context: The Encounter between Climate Dynamics and Geology in the Second Half of the Nineteenth Century. 2006. James Rodger Fleming. 20 May 2015. 21 May 2015. https://web.archive.org/web/20150521002349/http://www.meteohistory.org/2006historyofmeteorology3/3fleming_croll.pdf. dead.
  5. Iain Stewart. 3 March 2012. Men of Rock. Motion Picture. English. 16 October 2017. BBC.
  6. Hays . J. D. . Imbrie . John . Shackleton . N. J. . 1976-12-10 . Variations in the Earth's Orbit: Pacemaker of the Ice Ages: For 500,000 years, major climatic changes have followed variations in obliquity and precession. . Science . en . 194 . 4270 . 1121–1132 . 10.1126/science.194.4270.1121 . 0036-8075.
  7. Edwards . Kevin J. . 2022 . ‘The most remarkable man’: James Croll, Quaternary scientist . Journal of Quaternary Science . en . 37 . 3 . 400–419 . 10.1002/jqs.3420 . 0267-8179. 2164/18340 . free .
Attribution

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