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James Hutton

March 26, 2023

For other people named James Hutton, see James Hutton (disambiguation).

James Hutton FRSE ( /ˈhʌtən/; 3 June O.S.1726[1] – 26 March 1797) was a Scottish geologist, agriculturalist, chemical manufacturer, naturalist and physician.[2] Often referred to as the "Father of Modern Geology,"[3][4] he played a key role in establishing geology as a modern science.

James Hutton

FRSE
Painted by Sir Henry Raeburn (1776)
Born14 June 1726
Edinburgh, Scotland
Died26 March 1797 (aged 70)
Edinburgh, Scotland
Alma materUniversity of Edinburgh
University of Paris
Known forPlutonic geology
uniformitarianism
Scientific career
FieldsGeology
InfluencesJohn Walker
InfluencedCharles Lyell
Notes
Statue of James Hutton, Scottish National Portrait Gallery. Location: 55°57′20″N 3°11′35″W / 55.955684°N 3.193047°W / 55.955684; -3.193047 (slighhouses)

Hutton advanced the idea that the physical world's remote history can be inferred from evidence in present-day rocks. Through his study of features in the landscape and coastlines of his native Scottish lowlands, such as Salisbury Crags or Siccar Point, he developed the theory that geological features could not be static but underwent continuing transformation over indefinitely long periods of time. From this he argued, in agreement with many other early geologists, that the Earth could not be young. He was one of the earliest proponents of what in the 1830s became known as uniformitarianism, the science which explains features of the Earth's crust as the outcome of continuing natural processes over the long geologic time scale. Hutton also put forward a thesis for a 'system of the habitable Earth' proposed as a deistic mechanism designed to keep the world eternally suitable for humans,[5] an early attempt to formulate what today might be called one kind of anthropic principle.

Some reflections similar to those of Hutton can be found in publications of his contemporaries, such as the French naturalist Georges-Louis Leclerc de Buffon,[5] but it is chiefly Hutton's pioneering work that established the field.[6][7]

Early life and career

Hutton was born in Edinburgh on 3 June O.S. 1726, as one of five children of Sarah Balfour and William Hutton, a merchant who was Edinburgh City Treasurer. Hutton's father died in 1729, when he was three.

He was educated at the High School of Edinburgh where he was particularly interested in mathematics and chemistry, then when he was 14 he attended the University of Edinburgh as a "student of humanity", studying the classics. He was apprenticed to the lawyer George Chalmers WS when he was 17, but took more interest in chemical experiments than legal work. At the age of 18, he became a physician's assistant, and attended lectures in medicine at the University of Edinburgh.

After a two-year stay in Paris, James Hutton arrived in Leiden in 1749, where he enrolled at the University of Leiden on August 14, 1749, at the home of the then rector magnificus Joachim Schwartz to obtain a doctorate in medicine. He stayed with the widow Van der Tas (née Judith Bouvat) at the Langebrug, which corresponds to the current address Langebrug 101 in Leiden. His supervisor was Professor Frederik Winter, who was not only a professor at Leiden University, but also court physician to the Stadholder. The Latin manuscript of Hutton's dissertation also contained 92 theses, two of which were successfully defended in public by James Hutton on September 3, 1749. On September 12, 1749, James Hutton obtained his doctorate in medicine from Leiden University with a physico-medical thesis entitled Sanguine et Circulatione Microcosmi. The thesis was printed by Wilhelmus Boot, book printer in Leiden. It is believed that James Hutton returned to Britain shortly after his promotion.[8][9]: 2 

After his degree Hutton went to London, then in mid-1750 returned to Edinburgh and resumed chemical experiments with close friend, James Davie. Their work on production of sal ammoniac from soot led to their partnership in a profitable chemical works,[9]: 2  manufacturing the crystalline salt which was used for dyeing, metalworking and as smelling salts and had been available only from natural sources and had to be imported from Egypt. Hutton owned and rented out properties in Edinburgh, employing a factor to manage this business.[10]

Farming and geology

Hutton inherited from his father the Berwickshire farms of Slighhouses, a lowland farm which had been in the family since 1713, and the hill farm of Nether Monynut.[9]: 2–3  In the early 1750s he moved to Slighhouses and set about making improvements, introducing farming practices from other parts of Britain and experimenting with plant and animal husbandry.[9]: 2–3  He recorded his ideas and innovations in an unpublished treatise on The Elements of Agriculture.[9]: 60 

This developed his interest in meteorology and geology. In a 1753 letter he wrote that he had "become very fond of studying the surface of the earth, and was looking with anxious curiosity into every pit or ditch or bed of a river that fell in his way". Clearing and draining his farm provided ample opportunities. The mathematician John Playfair described Hutton as having noticed that "a vast proportion of the present rocks are composed of materials afforded by the destruction of bodies, animal, vegetable and mineral, of more ancient formation". His theoretical ideas began to come together in 1760. While his farming activities continued, in 1764 he went on a geological tour of the north of Scotland with George Maxwell-Clerk,[11] ancestor of the famous James Clerk Maxwell.[12]

Edinburgh and canal building

In 1768, Hutton returned to Edinburgh, letting his farms to tenants but continuing to take an interest in farm improvements and research which included experiments carried out at Slighhouses. He developed a red dye made from the roots of the madder plant.[13]

He had a house built in 1770 at St John's Hill, Edinburgh, overlooking Salisbury Crags. This later became the Balfour family home and, in 1840, the birthplace of the psychiatrist James Crichton-Browne. Hutton was one of the most influential participants in the Scottish Enlightenment, and fell in with numerous first-class minds in the sciences including mathematician John Playfair, philosopher David Hume and economist Adam Smith.[14] Hutton held no position in the University of Edinburgh and communicated his scientific findings through the Royal Society of Edinburgh. He was particularly friendly with physician and chemist Joseph Black, and together with Adam Smith they founded the Oyster Club for weekly meetings.

Between 1767 and 1774 Hutton had close involvement with the construction of the Forth and Clyde canal, making full use of his geological knowledge, both as a shareholder and as a member of the committee of management, and attended meetings including extended site inspections of all the works. At this time he is listed as living on Bernard Street in Leith.[15] In 1777 he published a pamphlet on Considerations on the Nature, Quality and Distinctions of Coal and Culm which successfully helped to obtain relief from excise duty on carrying small coal.[16]

In 1783, he was a joint founder of the Royal Society of Edinburgh.[17]

Later life and death

From 1791 Hutton suffered extreme pain from stones in the bladder and gave up field work to concentrate on finishing his books. A dangerous and painful operation failed to resolve his illness.[18] He died in Edinburgh and was buried in the vault of Andrew Balfour, opposite the vault of his friend Joseph Black, in the now sealed south-west section of Greyfriars Kirkyard in Edinburgh, commonly known as the Covenanter's Prison.

Hutton did not marry and had no legitimate children.[17] Around 1747, he had a son by a Miss Edington, and though he gave his child, James Smeaton Hutton, financial assistance, he had little to do with the boy, who went on to become a post-office clerk in London.[19]

Theory of rock formations

Hutton developed several hypotheses to explain the rock formations he saw around him, but according to Playfair he "was in no haste to publish his theory; for he was one of those who are much more delighted with the contemplation of truth, than with the praise of having discovered it". After some 25 years of work,[20] his Theory of the Earth; or an Investigation of the Laws observable in the Composition, Dissolution, and Restoration of Land upon the Globe was read to meetings of the Royal Society of Edinburgh in two parts, the first by his friend Joseph Black on 7 March 1785, and the second by himself on 4 April 1785. Hutton subsequently read an abstract of his dissertation Concerning the System of the Earth, its Duration and Stability to Society meeting on 4 July 1785,[21] which he had printed and circulated privately.[22] In it, he outlined his theory as follows;

The solid parts of the present land appear in general, to have been composed of the productions of the sea, and of other materials similar to those now found upon the shores. Hence we find reason to conclude:

1st, That the land on which we rest is not simple and original, but that it is a composition, and had been formed by the operation of second causes.
2nd, That before the present land was made, there had subsisted a world composed of sea and land, in which were tides and currents, with such operations at the bottom of the sea as now take place. And,

Lastly, That while the present land was forming at the bottom of the ocean, the former land maintained plants and animals; at least the sea was then inhabited by animals, in a similar manner as it is at present.
Hence we are led to conclude, that the greater part of our land, if not the whole had been produced by operations natural to this globe; but that in order to make this land a permanent body, resisting the operations of the waters, two things had been required;
1st, The consolidation of masses formed by collections of loose or incoherent materials;

2ndly, The elevation of those consolidated masses from the bottom of the sea, the place where they were collected, to the stations in which they now remain above the level of the ocean.

Search for evidence

 
Hutton's Glen Tilt exposure at collapsed Dail-an-eas Bridge upstream from Forest Lodge, drawn by John Clerk of Eldin in 1785. The bridge collapsed in approximately 1973. Location: 56°51′04″N 3°44′31″W / 56.851082°N 3.741822°W / 56.851082; -3.741822 (Dail-an-eas bridge)
 
Intrusive dike eroded by the River Tay near Stobhall described by Hutton. Location: 56°29′23″N 3°25′28″W / 56.48964°N 3.42455°W / 56.48964; -3.42455 (dike near Stobhall)
 
Geological dike eroded by the River Garry at Dalnacardoch described by Hutton and drawn by Clerk. Location: 56°52′50″N 4°05′41″W / 56.880493°N 4.09473°W / 56.880493; -4.09473 (Dalnacardoch dikes)

In the summer of 1785 at Glen Tilt and other sites in the Cairngorm mountains in the Scottish Highlands, Hutton found granite penetrating metamorphic schists, in a way which indicated that the granite had been molten at the time. This was Hutton's first geological field trip and he was invited by the Duke of Atholl to his hunting lodge, Forest Lodge. The exposures at the Dail-an-eas Bridge demonstrated to him that granite formed from the cooling of molten rock rather than it precipitating out of water as others at the time believed, and therefore the granite must be younger than the schists.[23][24] Hutton presented his theory of the earth on March 4 and April 7, 1785, at the Royal Society of Edinburgh.[25]

He went on to find a similar penetration of volcanic rock through sedimentary rock in Edinburgh, at Salisbury Crags,[4] adjoining Arthur's Seat – this area of the Crags is now known as Hutton's Section.[26][27] He found other examples in Galloway in 1786, and on the Isle of Arran in 1787.

 
Hutton's Unconformity on Arran

The existence of angular unconformities had been noted by Nicolas Steno and by French geologists including Horace-Bénédict de Saussure, who interpreted them in terms of Neptunism as "primary formations". Hutton wanted to examine such formations himself to see "particular marks" of the relationship between the rock layers. On the 1787 trip to the Isle of Arran he found his first example of Hutton's Unconformity to the north of Newton Point near Lochranza,[28][29] but the limited view meant that the condition of the underlying strata was not clear enough for him,[30] and he incorrectly thought that the strata were conformable at a depth below the exposed outcrop.[31]

Later in 1787 Hutton noted what is now known as the Hutton or "Great" Unconformity at Inchbonny,[6] Jedburgh, in layers of sedimentary rock.[32] As shown in the illustrations to the right, layers of greywacke in the lower layers of the cliff face are tilted almost vertically, and above an intervening layer of conglomerate lie horizontal layers of Old Red Sandstone. He later wrote of how he "rejoiced at my good fortune in stumbling upon an object so interesting in the natural history of the earth, and which I had been long looking for in vain." That year, he found the same sequence in Teviotdale.[30]

 
An eroded outcrop at Siccar Point showing sloping red sandstone above vertical greywacke was sketched by Sir James Hall in 1788. Location: 55°55′53″N 2°18′05″W / 55.9315°N 2.3013°W / 55.9315; -2.3013 (Hutton Unconformity , Jedburgh)

In the Spring of 1788 he set off with John Playfair to the Berwickshire coast and found more examples of this sequence in the valleys of the Tour and Pease Burns near Cockburnspath.[30] They then took a boat trip from Dunglass Burn east along the coast with the geologist Sir James Hall of Dunglass. They found the sequence in the cliff below St. Helens, then just to the east at Siccar Point found what Hutton called "a beautiful picture of this junction washed bare by the sea".[33][34] Playfair later commented about the experience, "the mind seemed to grow giddy by looking so far into the abyss of time".[35] Continuing along the coast, they made more discoveries including sections of the vertical beds showing strong ripple marks which gave Hutton "great satisfaction" as a confirmation of his supposition that these beds had been laid horizontally in water. He also found conglomerate at altitudes that demonstrated the extent of erosion of the strata, and said of this that "we never should have dreamed of meeting with what we now perceived".[30]

Hutton reasoned that there must have been innumerable cycles, each involving deposition on the seabed, uplift with tilting and erosion then undersea again for further layers to be deposited. On the belief that this was due to the same geological forces operating in the past as the very slow geological forces seen operating at the present day, the thicknesses of exposed rock layers implied to him enormous stretches of time.[6]

Publication

Though Hutton circulated privately a printed version of the abstract of his Theory (Concerning the System of the Earth, its Duration, and Stability) which he read at a meeting of the Royal Society of Edinburgh on 4 July 1785;[22] the full account of his theory as read at 7 March 1785 and 4 April 1785 meetings did not appear in print until 1788. It was titled Theory of the Earth; or an Investigation of the Laws observable in the Composition, Dissolution, and Restoration of Land upon the Globe and appeared in Transactions of the Royal Society of Edinburgh, vol. I, Part II, pp. 209–304, plates I and II, published 1788.[21] He put forward the view that "from what has actually been, we have data for concluding with regard to that which is to happen thereafter." This restated the Scottish Enlightenment concept which David Hume had put in 1777 as "all inferences from experience suppose ... that the future will resemble the past", and Charles Lyell memorably rephrased in the 1830s as "the present is the key to the past".[36] Hutton's 1788 paper concludes; "The result, therefore, of our present enquiry is, that we find no vestige of a beginning,–no prospect of an end."[21] His memorably phrased closing statement has long been celebrated.[6][37] (It was quoted in the 1989 song "No Control" by songwriter and professor Greg Graffin.[38])

Following criticism, especially the arguments from Richard Kirwan who thought Hutton's ideas were atheistic and not logical,[21] Hutton published a two volume version of his theory in 1795,[39][40] consisting of the 1788 version of his theory (with slight additions) along with a lot of material drawn from shorter papers Hutton already had to hand on various subjects such as the origin of granite. It included a review of alternative theories, such as those of Thomas Burnet and Georges-Louis Leclerc, Comte de Buffon.

The whole was entitled An Investigation of the Principles of Knowledge and of the Progress of Reason, from Sense to Science and Philosophy when the third volume was completed in 1794.[41] Its 2,138 pages prompted Playfair to remark that "The great size of the book, and the obscurity which may justly be objected to many parts of it, have probably prevented it from being received as it deserves."

Opposing theories

His new theories placed him into opposition with the then-popular Neptunist theories of the German geologist Abraham Gottlob Werner, that all rocks had precipitated out of a single enormous flood. Hutton proposed that the interior of the Earth was hot, and that this heat was the engine which drove the creation of new rock: land was eroded by air and water and deposited as layers in the sea; heat then consolidated the sediment into stone, and uplifted it into new lands. This theory was dubbed "Plutonist" in contrast to the flood-oriented theory.

As well as combating the Neptunists, he also accepted the growing consensus on the concept of deep time for scientific purposes. Rather than accepting that the earth was no more than a few thousand years old, he maintained that the Earth must be much older, with a history extending indefinitely into the distant past.[23] His main line of argument was that the tremendous displacements and changes he was seeing did not happen in a short period of time by means of catastrophe, but that processes still happening on the Earth in the present day had caused them. As these processes were very gradual, the Earth needed to be ancient, to allow time for the changes. Contemporary investigations had shown that the geologic record required vast time, but no good way of assigning actual years was found for over a century (Rudwick, Bursting the Limits of Time). Hutton's idea of infinite cycles with humans present throughout is quite different from modern geology, with a definite time of formation and directional change through time, but his supporting evidence for the long-term effects of geological processes was valuable in the development of historical geology.

Acceptance of geological theories

It has been claimed that the prose of Principles of Knowledge was so obscure that it also impeded the acceptance of Hutton's geological theories.[42] Restatements of his geological ideas (though not his thoughts on evolution) by John Playfair in 1802 and then Charles Lyell in the 1830s popularised the concept of an infinitely repeating cycle, though Lyell tended to dismiss Hutton's views as giving too much credence to catastrophic changes.

 
John Kay's caricature of James Hutton studying the "faces" of rock (1787).

Other contributions

Meteorology

It was not merely the earth to which Hutton directed his attention. He had long studied the changes of the atmosphere. The same volume in which his Theory of the Earth appeared contained also a Theory of Rain. He contended that the amount of moisture which the air can retain in solution increases with temperature, and, therefore, that on the mixture of two masses of air of different temperatures a portion of the moisture must be condensed and appear in visible form. He investigated the available data regarding rainfall and climate in different regions of the globe, and came to the conclusion that the rainfall is regulated by the humidity of the air on the one hand, and mixing of different air currents in the higher atmosphere on the other.

Earth as a living entity

Hutton taught that biological and geological processes are interlinked.[43] James Lovelock, who developed the Gaia hypothesis in the 1970s, cites Hutton as saying that the Earth was a superorganism and that its proper study should be physiology.[44] Lovelock writes that Hutton's view of the Earth was rejected because of the intense reductionism among 19th-century scientists.[44]

Evolution

Hutton also advocated uniformitarianism for living creatures  – evolution, in a sense – and even suggested natural selection as a possible mechanism affecting them:

...if an organised body is not in the situation and circumstances best adapted to its sustenance and propagation, then, in conceiving an indefinite variety among the individuals of that species, we must be assured, that, on the one hand, those which depart most from the best adapted constitution, will be the most liable to perish, while, on the other hand, those organised bodies, which most approach to the best constitution for the present circumstances, will be best adapted to continue, in preserving themselves and multiplying the individuals of their race. – Investigation of the Principles of Knowledge, volume 2.[41]

Hutton gave the example that where dogs survived through "swiftness of foot and quickness of sight... the most defective in respect of those necessary qualities, would be the most subject to perish, and that those who employed them in greatest perfection... would be those who would remain, to preserve themselves, and to continue the race". Equally, if an acute sense of smell became "more necessary to the sustenance of the animal... the same principle [would] change the qualities of the animal, and.. produce a race of well scented hounds, instead of those who catch their prey by swiftness". The same "principle of variation" would influence "every species of plant, whether growing in a forest or a meadow". He came to his ideas as the result of experiments in plant and animal breeding, some of which he outlined in an unpublished manuscript, the Elements of Agriculture. He distinguished between heritable variation as the result of breeding, and non-heritable variations caused by environmental differences such as soil and climate.[41]

Though he saw his "principle of variation" as explaining the development of varieties, Hutton rejected the idea that evolution might originate species as a "romantic fantasy", according to palaeoclimatologist Paul Pearson.[45] Influenced by deism,[46] Hutton thought the mechanism allowed species to form varieties better adapted to particular conditions and provided evidence of benevolent design in nature. Studies of Charles Darwin's notebooks have shown that Darwin arrived separately at the idea of natural selection which he set out in his 1859 book On the Origin of Species, but it has been speculated that he had some half-forgotten memory from his time as a student in Edinburgh of ideas of selection in nature as set out by Hutton, and by William Charles Wells and Patrick Matthew who had both been associated with the city before publishing their ideas on the topic early in the 19th century.[41]

Works

  • 1785. Abstract of a dissertation read in the Royal Society of Edinburgh, upon the seventh of March, and fourth of April, MDCCLXXXV, Concerning the System of the Earth, Its Duration, and Stability. Edinburgh. 30pp. at Oxford Digital Library.
  • 1788.The theory of rain. Transactions of the Royal Society of Edinburgh, vol. 1, Part 2, pp. 41–86.
  • 1788. Theory of the Earth; or an investigation of the laws observable in the composition, dissolution, and restoration of land upon the Globe. Transactions of the Royal Society of Edinburgh, vol. 1, Part 2, pp. 209–304. at Internet Archive.
  • 1792. Dissertations on different subjects in natural philosophy. Edinburgh & London: Strahan & Cadell. at Google Books
  • 1794. Observations on granite. Transactions of the Royal Society of Edinburgh, vol. 3, pp. 77–81.
  • 1794. A dissertation upon the philosophy of light, heat, and fire. Edinburgh: Cadell, Junior, Davies. at e-rara (ETH-Bibliothek)
  • 1794. An investigation of the principles of knowledge and of the progress of reason, from sense to science and philosophy. Edinburgh: Strahan & Cadell. at (VIRGO) University of Virginia Library)
  • 1795. Theory of the Earth; with proofs and illustrations. Edinburgh: Creech. 3 vols. at e-rara (ETH-Bibliothek)
  • 1797. Elements of Agriculture. Unpublished manuscript.
  • 1899. Theory of the Earth; with proofs and illustrations, vol III, Edited by Sir Archibald Geikie. Geological Society, Burlington House, London. at Internet Archive

Recognition

 
Street sign in the Kings Buildings complex in Edinburgh to the memory of James Hutton

See also

References

  1. ^ 14 June 1726 New Style.
  2. ^ Waterston, Charles D; Macmillan Shearer, A (2006). (PDF). Vol. I. Edinburgh: The Royal Society of Edinburgh. ISBN 978-0-902198-84-5. Archived from the original (PDF) on 19 September 2015. Retrieved 17 July 2012.
  3. ^ University of Edinburgh. . Hutton's Millennial Plaque, which reads, "In honour of James Hutton 1726–1797 Geologist, chemist, naturalist, father of modern geology, alumnus of the University," is located at the main entrance of the Grant Institute. Archived from the original on 1 November 2007.
  4. ^ a b David Denby (11 October 2004). "Northern Lights: How modern life emerged from eighteenth-century Edinburgh". The New Yorker. In 1770, James Hutton, an experimental farmer and the owner of a sal ammoniac works, began poking into the peculiar shapes and textures of the Salisbury Crags, the looming, irregular rock formations in Edinburgh. Hutton noticed something astonishing—fossilized fish remains embedded in the rock. The remains suggested that volcanic activity had lifted the mass from some depth in the sea. In 1785, he delivered a lecture to the Royal Society of Edinburgh, which included the remarkable statement that "with respect to human observation, this world has neither a beginning nor an end." The book that he eventually published, Theory of the Earth, helped to establish modern geology.
  5. ^ a b M. J. S. Rudwick (15 October 2014). Earth's Deep History: How It Was Discovered and Why It Matters. University of Chicago Press. pp. 68–70. ISBN 978-0-226-20393-5.
  6. ^ a b c d American Museum of Natural History (2000). . Earth: Inside and Out. Archived from the original on 3 March 2016. "The result, therefore, of this physical enquiry", Hutton concluded, "is that we find no vestige of a beginning, no prospect of an end".
  7. ^ Kenneth L. Taylor (September 2006). "Ages in Chaos: James Hutton and the Discovery of Deep Time". The Historian (abstract). Book review of Stephen Baxter. ISBN 0-7653-1238-7. Retrieved 8 April 2017.
  8. ^ Schuchmann, J.B. (2023). James Hutton's stay in Leiden (1749) (1st ed.). Leiden, The Netherlands: Leidse Geologische Vereniging. pp. 1–86. ISBN 9789090365442.
  9. ^ a b c d e Dean 1992
  10. ^ . James Hutton.org.uk. Archived from the original on 26 July 2011. Retrieved 3 August 2019.
  11. ^ . James Hutton.org.uk. Archived from the original on 26 July 2011. Retrieved 3 August 2019., Playfair
  12. ^ Campbell, Lewis; Garnett, William (1882). The Life of James Clerk Maxwell. London: Macmillan and Company. p. 18. hutton George Clerk Maxwell.
  13. ^ "Return to Edinburgh". James Hutton.org.uk. Archived from the original on 8 September 2012. Retrieved 11 April 2008.
  14. ^ . James Hutton.org.uk. Archived from the original on 26 July 2011. Retrieved 3 August 2019.
  15. ^ "Williamson's directory for the City of Edinburgh, Canongate, Leith and suburbs". National Library of Scotland. 1773–1774. p. 36. Retrieved 2 December 2017.
  16. ^ . James Hutton.org.uk. Archived from the original on 26 July 2011. Retrieved 3 August 2019.
  17. ^ a b (PDF). The Royal Society of Edinburgh. July 2006. ISBN 0-902-198-84-X. Archived from the original (PDF) on 24 January 2013. Retrieved 21 November 2016.
  18. ^ "James Hutton | Encyclopedia.com". www.encyclopedia.com.
  19. ^ . James Hutton.org.uk. Archived from the original on 26 July 2011. Retrieved 3 August 2019.
  20. ^ "Theory of the Earth". James Hutton.org.uk. Archived from the original on 8 September 2012. Retrieved 11 April 2008.
  21. ^ a b c d full text (1788 version)
  22. ^ a b Concerning the System of the Earth 7 September 2008 at the Wayback Machine abstract
  23. ^ a b Robert Macfarlane (13 September 2003). "Glimpses into the abyss of time". The Spectator. Hutton possessed an instinctive ability to reverse physical processes – to read landscapes backwards, as it were. Fingering the white quartz which seamed the grey granite boulders in a Scottish glen, for instance, he understood the confrontation that had once occurred between the two types of rock, and he perceived how, under fantastic pressure, the molten quartz had forced its way into the weaknesses in the mother granite.
  24. ^ "Glen Tilt". Scottish Geology. Retrieved 3 May 2011.
  25. ^ Stephen J. Gould, page 70, Time's Arrow, Time's Circle, 1987
  26. ^ Scottish Geology – Hutton's Section at Salisbury Crags
    Scottish Geology – Hutton's Rock at Salisbury Crags
  27. ^ Cliff Ford (1 September 2003). . Geos.ed.ac.uk. Archived from the original on 24 June 2011. Retrieved 3 May 2011.
  28. ^ "Hutton's Unconformity". Isle of Arran Heritage Museum. 2014. Retrieved 20 November 2017.
  29. ^ "Hutton's Unconformity – Lochranza, Isle of Arran, UK – Places of Geologic Significance on Waymarking.com". Retrieved 20 October 2008.
  30. ^ a b c d Keith Montgomery (2003). "Siccar Point and Teaching the History of Geology" (PDF). University of Wisconsin. Retrieved 26 March 2008.
  31. ^ Hugh Rance (1999). (PDF). Historical Geology: The Present is the Key to the Past. QCC Press. Archived from the original (PDF) on 3 December 2008. Retrieved 20 October 2008.
  32. ^ . Jedburgh online. Archived from the original on 9 August 2010. Whilst visiting Allar's Mill on the Jed Water, Hutton was delighted to see horizontal bands of red sandstone lying 'unconformably' on top of near vertical and folded bands of rock.
  33. ^ "Hutton's Journeys to Prove his Theory". James-hutton.org.uk. Archived from the original on 2 August 2012. Retrieved 3 May 2011.
  34. ^ . Snh.org.uk. Archived from the original on 24 September 2015. Retrieved 3 May 2011.
  35. ^ John Playfair (1999). "Hutton's Unconformity". Transactions of the Royal Society of Edinburgh, vol. V, pt. III, 1805, quoted in Natural History, June 1999. Archived from the original on 8 July 2012.
  36. ^ Elizabeth Lincoln Mathieson (13 May 2002). . The Geological Society of America. Archived from the original on 9 March 2016. Retrieved 28 September 2010.
  37. ^ Thomson, Keith (2001). . American Scientist. 89 (3): 212. doi:10.1511/2001.3.212. Archived from the original on 11 June 2011. It is ironic that Hutton, the man whose prose style is usually dismissed as unreadable, should have coined one of the most memorable, and indeed lyrical, sentences in all science: "(in geology) we find no vestige of a beginning,—no prospect of an end." In those simple words, Hutton framed a concept that no one had contemplated, that the rocks making up the earth today have not, after all, been here since Creation.
  38. ^ Greg Graffin (1989). "Lyrics, No Control". No Control. there's no vestige of a beginning, no prospect of an end (Hutton, 1795)
  39. ^ Theory of the Earth, Volume 1 at Project Gutenberg
  40. ^ Theory of the Earth, Volume 2 at Project Gutenberg
  41. ^ a b c d Pearson, Paul N. (October 2003). "In retrospect". Nature. 425 (6959): 665. Bibcode:2003Natur.425..665P. doi:10.1038/425665a. S2CID 161935273.
  42. ^ Geikie, Archibald (1897). The Founders of Geology. London: Macmillan and Company. p. 166. james hutton geology.
  43. ^ Capra, Fritjof (1996). The web of life: a new scientific understanding of living systems. Garden City, N.Y: Anchor Books. p. 23. ISBN 0-385-47675-2. cited in "Gaia hypothesis"
  44. ^ a b Lovelock, James (1979). GAIA – A new look at life on Earth. Oxford University Press. pp. viii, 10. ISBN 978-0-19-286030-9.
  45. ^ Connor, Steve (16 October 2003). "The original theory of evolution... were it not for the farmer who came up with it, 60 years before Darwin". The Independent. Retrieved 5 February 2014.
  46. ^ Dean, Dennis R. (1992). James Hutton and the History of Geology. Cornell University Press. pp. 265. ISBN 978-0801426667. James Hutton deist -wikipedia.
  47. ^ Keith Stewart Thomson (May–June 2001). "Vestiges of James Hutton". American Scientist V. 89 #3 p. 212.

Further reading

External links

 
Wikiquote has quotations related to James Hutton.
 
Wikimedia Commons has media related to James Hutton.
 
Wikisource has the text of the 1911 Encyclopædia Britannica article "Hutton, James".
 
Wikisource has the text of the 1885–1900 Dictionary of National Biography's article about Hutton, James (1726-1797).
  • James-Hutton.org, links to James Hutton – The Man and The James Hutton Trail.
  • James Hutton and Uniformitarianism (scroll down)
  • at the Wayback Machine (archived 8 May 2006)
  • Gould, Stephen Jay. . B16: The History of Life: Source Book. pp. 137, 138, 139, 140. Archived from the original on 8 June 2019. Retrieved 17 July 2014.
  • Works by James Hutton at Project Gutenberg
  • Works by or about James Hutton at Internet Archive
  • O'Connor, John J.; Robertson, Edmund F., "James Hutton", MacTutor History of Mathematics archive, University of St Andrews
  • Digitized volumes at the Linda Hall Library:
    • Hutton's (1788), "Theory of the Earth." Transactions of the Royal Society of Edinburgh, Vol. 1, no. 20.
    • Hutton's (1795–1899), Theory of the earth, with proofs and illustrations, 3 vols.
    • John Playfair (1802), Illustrations of the Huttonian theory of the Earth
    • John Playfair (1815), Explication de Playfair sur la théorie de la terre par Hutton (French)

March 26, 2023
james, hutton, other, people, named, disambiguation, frse, june, 1726, march, 1797, scottish, geologist, agriculturalist, chemical, manufacturer, naturalist, physician, often, referred, father, modern, geology, played, role, establishing, geology, modern, scie. For other people named James Hutton see James Hutton disambiguation James Hutton FRSE ˈ h ʌ t en 3 June O S 1726 1 26 March 1797 was a Scottish geologist agriculturalist chemical manufacturer naturalist and physician 2 Often referred to as the Father of Modern Geology 3 4 he played a key role in establishing geology as a modern science James HuttonFRSEPainted by Sir Henry Raeburn 1776 Born14 June 1726Edinburgh ScotlandDied26 March 1797 aged 70 Edinburgh ScotlandAlma materUniversity of EdinburghUniversity of ParisKnown forPlutonic geologyuniformitarianismScientific careerFieldsGeologyInfluencesJohn WalkerInfluencedCharles LyellNotesMember of the Royal Society of Agriculture of FranceStatue of James Hutton Scottish National Portrait Gallery Location 55 57 20 N 3 11 35 W 55 955684 N 3 193047 W 55 955684 3 193047 slighhouses Hutton advanced the idea that the physical world s remote history can be inferred from evidence in present day rocks Through his study of features in the landscape and coastlines of his native Scottish lowlands such as Salisbury Crags or Siccar Point he developed the theory that geological features could not be static but underwent continuing transformation over indefinitely long periods of time From this he argued in agreement with many other early geologists that the Earth could not be young He was one of the earliest proponents of what in the 1830s became known as uniformitarianism the science which explains features of the Earth s crust as the outcome of continuing natural processes over the long geologic time scale Hutton also put forward a thesis for a system of the habitable Earth proposed as a deistic mechanism designed to keep the world eternally suitable for humans 5 an early attempt to formulate what today might be called one kind of anthropic principle Some reflections similar to those of Hutton can be found in publications of his contemporaries such as the French naturalist Georges Louis Leclerc de Buffon 5 but it is chiefly Hutton s pioneering work that established the field 6 7 Contents 1 Early life and career 1 1 Farming and geology 1 2 Edinburgh and canal building 2 Later life and death 3 Theory of rock formations 3 1 Search for evidence 4 Publication 5 Opposing theories 6 Acceptance of geological theories 7 Other contributions 7 1 Meteorology 7 2 Earth as a living entity 7 3 Evolution 8 Works 9 Recognition 10 See also 11 References 12 Further reading 13 External linksEarly life and career EditHutton was born in Edinburgh on 3 June O S 1726 as one of five children of Sarah Balfour and William Hutton a merchant who was Edinburgh City Treasurer Hutton s father died in 1729 when he was three He was educated at the High School of Edinburgh where he was particularly interested in mathematics and chemistry then when he was 14 he attended the University of Edinburgh as a student of humanity studying the classics He was apprenticed to the lawyer George Chalmers WS when he was 17 but took more interest in chemical experiments than legal work At the age of 18 he became a physician s assistant and attended lectures in medicine at the University of Edinburgh After a two year stay in Paris James Hutton arrived in Leiden in 1749 where he enrolled at the University of Leiden on August 14 1749 at the home of the then rector magnificus Joachim Schwartz to obtain a doctorate in medicine He stayed with the widow Van der Tas nee Judith Bouvat at the Langebrug which corresponds to the current address Langebrug 101 in Leiden His supervisor was Professor Frederik Winter who was not only a professor at Leiden University but also court physician to the Stadholder The Latin manuscript of Hutton s dissertation also contained 92 theses two of which were successfully defended in public by James Hutton on September 3 1749 On September 12 1749 James Hutton obtained his doctorate in medicine from Leiden University with a physico medical thesis entitled Sanguine et Circulatione Microcosmi The thesis was printed by Wilhelmus Boot book printer in Leiden It is believed that James Hutton returned to Britain shortly after his promotion 8 9 2 After his degree Hutton went to London then in mid 1750 returned to Edinburgh and resumed chemical experiments with close friend James Davie Their work on production of sal ammoniac from soot led to their partnership in a profitable chemical works 9 2 manufacturing the crystalline salt which was used for dyeing metalworking and as smelling salts and had been available only from natural sources and had to be imported from Egypt Hutton owned and rented out properties in Edinburgh employing a factor to manage this business 10 Farming and geology Edit Hutton inherited from his father the Berwickshire farms of Slighhouses a lowland farm which had been in the family since 1713 and the hill farm of Nether Monynut 9 2 3 In the early 1750s he moved to Slighhouses and set about making improvements introducing farming practices from other parts of Britain and experimenting with plant and animal husbandry 9 2 3 He recorded his ideas and innovations in an unpublished treatise on The Elements of Agriculture 9 60 Front entrance to Hutton s farm Slighhouses Location 55 49 36 N 2 17 09 W 55 82675 N 2 28586 W 55 82675 2 28586 slighhouses This developed his interest in meteorology and geology In a 1753 letter he wrote that he had become very fond of studying the surface of the earth and was looking with anxious curiosity into every pit or ditch or bed of a river that fell in his way Clearing and draining his farm provided ample opportunities The mathematician John Playfair described Hutton as having noticed that a vast proportion of the present rocks are composed of materials afforded by the destruction of bodies animal vegetable and mineral of more ancient formation His theoretical ideas began to come together in 1760 While his farming activities continued in 1764 he went on a geological tour of the north of Scotland with George Maxwell Clerk 11 ancestor of the famous James Clerk Maxwell 12 Edinburgh and canal building Edit In 1768 Hutton returned to Edinburgh letting his farms to tenants but continuing to take an interest in farm improvements and research which included experiments carried out at Slighhouses He developed a red dye made from the roots of the madder plant 13 He had a house built in 1770 at St John s Hill Edinburgh overlooking Salisbury Crags This later became the Balfour family home and in 1840 the birthplace of the psychiatrist James Crichton Browne Hutton was one of the most influential participants in the Scottish Enlightenment and fell in with numerous first class minds in the sciences including mathematician John Playfair philosopher David Hume and economist Adam Smith 14 Hutton held no position in the University of Edinburgh and communicated his scientific findings through the Royal Society of Edinburgh He was particularly friendly with physician and chemist Joseph Black and together with Adam Smith they founded the Oyster Club for weekly meetings Between 1767 and 1774 Hutton had close involvement with the construction of the Forth and Clyde canal making full use of his geological knowledge both as a shareholder and as a member of the committee of management and attended meetings including extended site inspections of all the works At this time he is listed as living on Bernard Street in Leith 15 In 1777 he published a pamphlet on Considerations on the Nature Quality and Distinctions of Coal and Culm which successfully helped to obtain relief from excise duty on carrying small coal 16 In 1783 he was a joint founder of the Royal Society of Edinburgh 17 Later life and death Edit The memorial to James Hutton at his grave in Greyfriars Kirkyard in Edinburgh Location 55 56 44 N 3 11 32 W 55 945626 N 3 192200 W 55 945626 3 192200 slighhouses From 1791 Hutton suffered extreme pain from stones in the bladder and gave up field work to concentrate on finishing his books A dangerous and painful operation failed to resolve his illness 18 He died in Edinburgh and was buried in the vault of Andrew Balfour opposite the vault of his friend Joseph Black in the now sealed south west section of Greyfriars Kirkyard in Edinburgh commonly known as the Covenanter s Prison Hutton did not marry and had no legitimate children 17 Around 1747 he had a son by a Miss Edington and though he gave his child James Smeaton Hutton financial assistance he had little to do with the boy who went on to become a post office clerk in London 19 Theory of rock formations EditHutton developed several hypotheses to explain the rock formations he saw around him but according to Playfair he was in no haste to publish his theory for he was one of those who are much more delighted with the contemplation of truth than with the praise of having discovered it After some 25 years of work 20 his Theory of the Earth or an Investigation of the Laws observable in the Composition Dissolution and Restoration of Land upon the Globe was read to meetings of the Royal Society of Edinburgh in two parts the first by his friend Joseph Black on 7 March 1785 and the second by himself on 4 April 1785 Hutton subsequently read an abstract of his dissertation Concerning the System of the Earth its Duration and Stability to Society meeting on 4 July 1785 21 which he had printed and circulated privately 22 In it he outlined his theory as follows The solid parts of the present land appear in general to have been composed of the productions of the sea and of other materials similar to those now found upon the shores Hence we find reason to conclude 1st That the land on which we rest is not simple and original but that it is a composition and had been formed by the operation of second causes 2nd That before the present land was made there had subsisted a world composed of sea and land in which were tides and currents with such operations at the bottom of the sea as now take place And Lastly That while the present land was forming at the bottom of the ocean the former land maintained plants and animals at least the sea was then inhabited by animals in a similar manner as it is at present Hence we are led to conclude that the greater part of our land if not the whole had been produced by operations natural to this globe but that in order to make this land a permanent body resisting the operations of the waters two things had been required 1st The consolidation of masses formed by collections of loose or incoherent materials 2ndly The elevation of those consolidated masses from the bottom of the sea the place where they were collected to the stations in which they now remain above the level of the ocean Search for evidence Edit Hutton s Glen Tilt exposure at collapsed Dail an eas Bridge upstream from Forest Lodge drawn by John Clerk of Eldin in 1785 The bridge collapsed in approximately 1973 Location 56 51 04 N 3 44 31 W 56 851082 N 3 741822 W 56 851082 3 741822 Dail an eas bridge Intrusive dike eroded by the River Tay near Stobhall described by Hutton Location 56 29 23 N 3 25 28 W 56 48964 N 3 42455 W 56 48964 3 42455 dike near Stobhall Geological dike eroded by the River Garry at Dalnacardoch described by Hutton and drawn by Clerk Location 56 52 50 N 4 05 41 W 56 880493 N 4 09473 W 56 880493 4 09473 Dalnacardoch dikes Hutton s Section on Edinburgh s Salisbury Crags Location 55 56 36 N 3 10 02 W 55 9432 N 3 1672 W 55 9432 3 1672 Hutton s Section at Salisbury Crags In the summer of 1785 at Glen Tilt and other sites in the Cairngorm mountains in the Scottish Highlands Hutton found granite penetrating metamorphic schists in a way which indicated that the granite had been molten at the time This was Hutton s first geological field trip and he was invited by the Duke of Atholl to his hunting lodge Forest Lodge The exposures at the Dail an eas Bridge demonstrated to him that granite formed from the cooling of molten rock rather than it precipitating out of water as others at the time believed and therefore the granite must be younger than the schists 23 24 Hutton presented his theory of the earth on March 4 and April 7 1785 at the Royal Society of Edinburgh 25 He went on to find a similar penetration of volcanic rock through sedimentary rock in Edinburgh at Salisbury Crags 4 adjoining Arthur s Seat this area of the Crags is now known as Hutton s Section 26 27 He found other examples in Galloway in 1786 and on the Isle of Arran in 1787 Hutton s Unconformity on Arran Hutton Unconformity at Jedburgh Photograph 2003 below Clerk of Eldin illustration 1787 Location 55 28 20 N 2 33 16 W 55 4721 N 2 5545 W 55 4721 2 5545 Hutton Unconformity Jedburgh The existence of angular unconformities had been noted by Nicolas Steno and by French geologists including Horace Benedict de Saussure who interpreted them in terms of Neptunism as primary formations Hutton wanted to examine such formations himself to see particular marks of the relationship between the rock layers On the 1787 trip to the Isle of Arran he found his first example of Hutton s Unconformity to the north of Newton Point near Lochranza 28 29 but the limited view meant that the condition of the underlying strata was not clear enough for him 30 and he incorrectly thought that the strata were conformable at a depth below the exposed outcrop 31 Later in 1787 Hutton noted what is now known as the Hutton or Great Unconformity at Inchbonny 6 Jedburgh in layers of sedimentary rock 32 As shown in the illustrations to the right layers of greywacke in the lower layers of the cliff face are tilted almost vertically and above an intervening layer of conglomerate lie horizontal layers of Old Red Sandstone He later wrote of how he rejoiced at my good fortune in stumbling upon an object so interesting in the natural history of the earth and which I had been long looking for in vain That year he found the same sequence in Teviotdale 30 An eroded outcrop at Siccar Point showing sloping red sandstone above vertical greywacke was sketched by Sir James Hall in 1788 Location 55 55 53 N 2 18 05 W 55 9315 N 2 3013 W 55 9315 2 3013 Hutton Unconformity Jedburgh In the Spring of 1788 he set off with John Playfair to the Berwickshire coast and found more examples of this sequence in the valleys of the Tour and Pease Burns near Cockburnspath 30 They then took a boat trip from Dunglass Burn east along the coast with the geologist Sir James Hall of Dunglass They found the sequence in the cliff below St Helens then just to the east at Siccar Point found what Hutton called a beautiful picture of this junction washed bare by the sea 33 34 Playfair later commented about the experience the mind seemed to grow giddy by looking so far into the abyss of time 35 Continuing along the coast they made more discoveries including sections of the vertical beds showing strong ripple marks which gave Hutton great satisfaction as a confirmation of his supposition that these beds had been laid horizontally in water He also found conglomerate at altitudes that demonstrated the extent of erosion of the strata and said of this that we never should have dreamed of meeting with what we now perceived 30 Hutton reasoned that there must have been innumerable cycles each involving deposition on the seabed uplift with tilting and erosion then undersea again for further layers to be deposited On the belief that this was due to the same geological forces operating in the past as the very slow geological forces seen operating at the present day the thicknesses of exposed rock layers implied to him enormous stretches of time 6 Publication EditThough Hutton circulated privately a printed version of the abstract of his Theory Concerning the System of the Earth its Duration and Stability which he read at a meeting of the Royal Society of Edinburgh on 4 July 1785 22 the full account of his theory as read at 7 March 1785 and 4 April 1785 meetings did not appear in print until 1788 It was titled Theory of the Earth or an Investigation of the Laws observable in the Composition Dissolution and Restoration of Land upon the Globe and appeared in Transactions of the Royal Society of Edinburgh vol I Part II pp 209 304 plates I and II published 1788 21 He put forward the view that from what has actually been we have data for concluding with regard to that which is to happen thereafter This restated the Scottish Enlightenment concept which David Hume had put in 1777 as all inferences from experience suppose that the future will resemble the past and Charles Lyell memorably rephrased in the 1830s as the present is the key to the past 36 Hutton s 1788 paper concludes The result therefore of our present enquiry is that we find no vestige of a beginning no prospect of an end 21 His memorably phrased closing statement has long been celebrated 6 37 It was quoted in the 1989 song No Control by songwriter and professor Greg Graffin 38 Following criticism especially the arguments from Richard Kirwan who thought Hutton s ideas were atheistic and not logical 21 Hutton published a two volume version of his theory in 1795 39 40 consisting of the 1788 version of his theory with slight additions along with a lot of material drawn from shorter papers Hutton already had to hand on various subjects such as the origin of granite It included a review of alternative theories such as those of Thomas Burnet and Georges Louis Leclerc Comte de Buffon The whole was entitled An Investigation of the Principles of Knowledge and of the Progress of Reason from Sense to Science and Philosophy when the third volume was completed in 1794 41 Its 2 138 pages prompted Playfair to remark that The great size of the book and the obscurity which may justly be objected to many parts of it have probably prevented it from being received as it deserves Opposing theories EditHis new theories placed him into opposition with the then popular Neptunist theories of the German geologist Abraham Gottlob Werner that all rocks had precipitated out of a single enormous flood Hutton proposed that the interior of the Earth was hot and that this heat was the engine which drove the creation of new rock land was eroded by air and water and deposited as layers in the sea heat then consolidated the sediment into stone and uplifted it into new lands This theory was dubbed Plutonist in contrast to the flood oriented theory As well as combating the Neptunists he also accepted the growing consensus on the concept of deep time for scientific purposes Rather than accepting that the earth was no more than a few thousand years old he maintained that the Earth must be much older with a history extending indefinitely into the distant past 23 His main line of argument was that the tremendous displacements and changes he was seeing did not happen in a short period of time by means of catastrophe but that processes still happening on the Earth in the present day had caused them As these processes were very gradual the Earth needed to be ancient to allow time for the changes Contemporary investigations had shown that the geologic record required vast time but no good way of assigning actual years was found for over a century Rudwick Bursting the Limits of Time Hutton s idea of infinite cycles with humans present throughout is quite different from modern geology with a definite time of formation and directional change through time but his supporting evidence for the long term effects of geological processes was valuable in the development of historical geology Acceptance of geological theories EditIt has been claimed that the prose of Principles of Knowledge was so obscure that it also impeded the acceptance of Hutton s geological theories 42 Restatements of his geological ideas though not his thoughts on evolution by John Playfair in 1802 and then Charles Lyell in the 1830s popularised the concept of an infinitely repeating cycle though Lyell tended to dismiss Hutton s views as giving too much credence to catastrophic changes John Kay s caricature of James Hutton studying the faces of rock 1787 Other contributions EditMeteorology Edit It was not merely the earth to which Hutton directed his attention He had long studied the changes of the atmosphere The same volume in which his Theory of the Earth appeared contained also a Theory of Rain He contended that the amount of moisture which the air can retain in solution increases with temperature and therefore that on the mixture of two masses of air of different temperatures a portion of the moisture must be condensed and appear in visible form He investigated the available data regarding rainfall and climate in different regions of the globe and came to the conclusion that the rainfall is regulated by the humidity of the air on the one hand and mixing of different air currents in the higher atmosphere on the other Earth as a living entity Edit Hutton taught that biological and geological processes are interlinked 43 James Lovelock who developed the Gaia hypothesis in the 1970s cites Hutton as saying that the Earth was a superorganism and that its proper study should be physiology 44 Lovelock writes that Hutton s view of the Earth was rejected because of the intense reductionism among 19th century scientists 44 Evolution Edit Hutton also advocated uniformitarianism for living creatures evolution in a sense and even suggested natural selection as a possible mechanism affecting them if an organised body is not in the situation and circumstances best adapted to its sustenance and propagation then in conceiving an indefinite variety among the individuals of that species we must be assured that on the one hand those which depart most from the best adapted constitution will be the most liable to perish while on the other hand those organised bodies which most approach to the best constitution for the present circumstances will be best adapted to continue in preserving themselves and multiplying the individuals of their race Investigation of the Principles of Knowledge volume 2 41 Hutton gave the example that where dogs survived through swiftness of foot and quickness of sight the most defective in respect of those necessary qualities would be the most subject to perish and that those who employed them in greatest perfection would be those who would remain to preserve themselves and to continue the race Equally if an acute sense of smell became more necessary to the sustenance of the animal the same principle would change the qualities of the animal and produce a race of well scented hounds instead of those who catch their prey by swiftness The same principle of variation would influence every species of plant whether growing in a forest or a meadow He came to his ideas as the result of experiments in plant and animal breeding some of which he outlined in an unpublished manuscript the Elements of Agriculture He distinguished between heritable variation as the result of breeding and non heritable variations caused by environmental differences such as soil and climate 41 Though he saw his principle of variation as explaining the development of varieties Hutton rejected the idea that evolution might originate species as a romantic fantasy according to palaeoclimatologist Paul Pearson 45 Influenced by deism 46 Hutton thought the mechanism allowed species to form varieties better adapted to particular conditions and provided evidence of benevolent design in nature Studies of Charles Darwin s notebooks have shown that Darwin arrived separately at the idea of natural selection which he set out in his 1859 book On the Origin of Species but it has been speculated that he had some half forgotten memory from his time as a student in Edinburgh of ideas of selection in nature as set out by Hutton and by William Charles Wells and Patrick Matthew who had both been associated with the city before publishing their ideas on the topic early in the 19th century 41 Works Edit1785 Abstract of a dissertation read in the Royal Society of Edinburgh upon the seventh of March and fourth of April MDCCLXXXV Concerning the System of the Earth Its Duration and Stability Edinburgh 30pp at Oxford Digital Library 1788 The theory of rain Transactions of the Royal Society of Edinburgh vol 1 Part 2 pp 41 86 1788 Theory of the Earth or an investigation of the laws observable in the composition dissolution and restoration of land upon the Globe Transactions of the Royal Society of Edinburgh vol 1 Part 2 pp 209 304 at Internet Archive 1792 Dissertations on different subjects in natural philosophy Edinburgh amp London Strahan amp Cadell at Google Books 1794 Observations on granite Transactions of the Royal Society of Edinburgh vol 3 pp 77 81 1794 A dissertation upon the philosophy of light heat and fire Edinburgh Cadell Junior Davies at e rara ETH Bibliothek 1794 An investigation of the principles of knowledge and of the progress of reason from sense to science and philosophy Edinburgh Strahan amp Cadell at VIRGO University of Virginia Library 1795 Theory of the Earth with proofs and illustrations Edinburgh Creech 3 vols at e rara ETH Bibliothek 1797 Elements of Agriculture Unpublished manuscript 1899 Theory of the Earth with proofs and illustrations vol III Edited by Sir Archibald Geikie Geological Society Burlington House London at Internet ArchiveRecognition Edit Street sign in the Kings Buildings complex in Edinburgh to the memory of James Hutton A street was named after Hutton in the Kings Buildings complex a series of science buildings linked to Edinburgh University in the early 21st century The punk band Bad Religion quoted James Hutton with no vestige of a beginning no prospect of an end in their song No Control 47 Mount Hutton in the Sierra Nevada Mountain Range is named after Hutton See also EditDeep history James Hutton Institute Climate of Scotland Geology of Scotland Shen Kuo Time s Arrow Time s Cycle a book by Stephen Jay Gould that reassesses Hutton s workReferences Edit 14 June 1726 New Style Waterston Charles D Macmillan Shearer A 2006 Former Fellows of the Royal Society of Edinburgh 1783 2002 Biographical Index PDF Vol I Edinburgh The Royal Society of Edinburgh ISBN 978 0 902198 84 5 Archived from the original PDF on 19 September 2015 Retrieved 17 July 2012 University of Edinburgh Millennial Plaques James Hutton Hutton s Millennial Plaque which reads In honour of James Hutton 1726 1797 Geologist chemist naturalist father of modern geology alumnus of the University is located at the main entrance of the Grant Institute Archived from the original on 1 November 2007 a b David Denby 11 October 2004 Northern Lights How modern life emerged from eighteenth century Edinburgh The New Yorker In 1770 James Hutton an experimental farmer and the owner of a sal ammoniac works began poking into the peculiar shapes and textures of the Salisbury Crags the looming irregular rock formations in Edinburgh Hutton noticed something astonishing fossilized fish remains embedded in the rock The remains suggested that volcanic activity had lifted the mass from some depth in the sea In 1785 he delivered a lecture to the Royal Society of Edinburgh which included the remarkable statement that with respect to human observation this world has neither a beginning nor an end The book that he eventually published Theory of the Earth helped to establish modern geology a b M J S Rudwick 15 October 2014 Earth s Deep History How It Was Discovered and Why It Matters University of Chicago Press pp 68 70 ISBN 978 0 226 20393 5 a b c d American Museum of Natural History 2000 James Hutton The Founder of Modern Geology Earth Inside and Out Archived from the original on 3 March 2016 The result therefore of this physical enquiry Hutton concluded is that we find no vestige of a beginning no prospect of an end Kenneth L Taylor September 2006 Ages in Chaos James Hutton and the Discovery of Deep Time The Historian abstract Book review of Stephen Baxter ISBN 0 7653 1238 7 Retrieved 8 April 2017 Schuchmann J B 2023 James Hutton s stay in Leiden 1749 1st ed Leiden The Netherlands Leidse Geologische Vereniging pp 1 86 ISBN 9789090365442 a b c d e Dean 1992 Business and Related Interests James Hutton org uk Archived from the original on 26 July 2011 Retrieved 3 August 2019 Farming and Hutton the Geologist James Hutton org uk Archived from the original on 26 July 2011 Retrieved 3 August 2019 Playfair Campbell Lewis Garnett William 1882 The Life of James Clerk Maxwell London Macmillan and Company p 18 hutton George Clerk Maxwell Return to Edinburgh James Hutton org uk Archived from the original on 8 September 2012 Retrieved 11 April 2008 Hutton s Contemporaries and The Scottish Enlightenment James Hutton org uk Archived from the original on 26 July 2011 Retrieved 3 August 2019 Williamson s directory for the City of Edinburgh Canongate Leith and suburbs National Library of Scotland 1773 1774 p 36 Retrieved 2 December 2017 The Forth and Clyde Canal James Hutton org uk Archived from the original on 26 July 2011 Retrieved 3 August 2019 a b Biographical Index of Former Fellows of the Royal Society of Edinburgh 1783 2002 PDF The Royal Society of Edinburgh July 2006 ISBN 0 902 198 84 X Archived from the original PDF on 24 January 2013 Retrieved 21 November 2016 James Hutton Encyclopedia com www encyclopedia com Settled and Unsettled James Hutton org uk Archived from the original on 26 July 2011 Retrieved 3 August 2019 Theory of the Earth James Hutton org uk Archived from the original on 8 September 2012 Retrieved 11 April 2008 a b c d Theory of the Earth full text 1788 version a b Concerning the System of the Earth Archived 7 September 2008 at the Wayback Machine abstract a b Robert Macfarlane 13 September 2003 Glimpses into the abyss of time The Spectator Hutton possessed an instinctive ability to reverse physical processes to read landscapes backwards as it were Fingering the white quartz which seamed the grey granite boulders in a Scottish glen for instance he understood the confrontation that had once occurred between the two types of rock and he perceived how under fantastic pressure the molten quartz had forced its way into the weaknesses in the mother granite Glen Tilt Scottish Geology Retrieved 3 May 2011 Stephen J Gould page 70 Time s Arrow Time s Circle 1987 Scottish Geology Hutton s Section at Salisbury CragsScottish Geology Hutton s Rock at Salisbury Crags Cliff Ford 1 September 2003 Hutton s Section at Hoyrood Park Geos ed ac uk Archived from the original on 24 June 2011 Retrieved 3 May 2011 Hutton s Unconformity Isle of Arran Heritage Museum 2014 Retrieved 20 November 2017 Hutton s Unconformity Lochranza Isle of Arran UK Places of Geologic Significance on Waymarking com Retrieved 20 October 2008 a b c d Keith Montgomery 2003 Siccar Point and Teaching the History of Geology PDF University of Wisconsin Retrieved 26 March 2008 Hugh Rance 1999 Hutton s unconformities PDF Historical Geology The Present is the Key to the Past QCC Press Archived from the original PDF on 3 December 2008 Retrieved 20 October 2008 Jedburgh Hutton s Unconformity Jedburgh online Archived from the original on 9 August 2010 Whilst visiting Allar s Mill on the Jed Water Hutton was delighted to see horizontal bands of red sandstone lying unconformably on top of near vertical and folded bands of rock Hutton s Journeys to Prove his Theory James hutton org uk Archived from the original on 2 August 2012 Retrieved 3 May 2011 Hutton s Unconformity Snh org uk Archived from the original on 24 September 2015 Retrieved 3 May 2011 John Playfair 1999 Hutton s Unconformity Transactions of the Royal Society of Edinburgh vol V pt III 1805 quoted in Natural History June 1999 Archived from the original on 8 July 2012 Elizabeth Lincoln Mathieson 13 May 2002 The Present is the Key to the Past is the Key to the Future The Geological Society of America Archived from the original on 9 March 2016 Retrieved 28 September 2010 Thomson Keith 2001 Vestiges of James Hutton American Scientist 89 3 212 doi 10 1511 2001 3 212 Archived from the original on 11 June 2011 It is ironic that Hutton the man whose prose style is usually dismissed as unreadable should have coined one of the most memorable and indeed lyrical sentences in all science in geology we find no vestige of a beginning no prospect of an end In those simple words Hutton framed a concept that no one had contemplated that the rocks making up the earth today have not after all been here since Creation Greg Graffin 1989 Lyrics No Control No Control there s no vestige of a beginning no prospect of an end Hutton 1795 Theory of the Earth Volume 1 at Project Gutenberg Theory of the Earth Volume 2 at Project Gutenberg a b c d Pearson Paul N October 2003 In retrospect Nature 425 6959 665 Bibcode 2003Natur 425 665P doi 10 1038 425665a S2CID 161935273 Geikie Archibald 1897 The Founders of Geology London Macmillan and Company p 166 james hutton geology Capra Fritjof 1996 The web of life a new scientific understanding of living systems Garden City N Y Anchor Books p 23 ISBN 0 385 47675 2 cited in Gaia hypothesis a b Lovelock James 1979 GAIA A new look at life on Earth Oxford University Press pp viii 10 ISBN 978 0 19 286030 9 Connor Steve 16 October 2003 The original theory of evolution were it not for the farmer who came up with it 60 years before Darwin The Independent Retrieved 5 February 2014 Dean Dennis R 1992 James Hutton and the History of Geology Cornell University Press pp 265 ISBN 978 0801426667 James Hutton deist wikipedia Keith Stewart Thomson May June 2001 Vestiges of James Hutton American Scientist V 89 3 p 212 Further reading EditBaxter Stephen 2003 Ages in Chaos James Hutton and the Discovery of Deep Time New York Tor Books 2004 ISBN 0 7653 1238 7 Published in the UK as Revolutions in the Earth James Hutton and the True Age of the World London Weidenfeld amp Nicolson ISBN 0 297 82975 0 Dean Dennis R 1992 James Hutton and the history of geology Ithaca Cornell University Press ISBN 9780801426667 Playfair John 1822 Biographical Account of the late James Hutton M D The Works of John Playfair Esq Vol IV Edinburgh Constable Repcheck Jack 2003 The Man Who Found Time James Hutton and the Discovery of the Earth s Antiquity London and Cambridge Massachusetts Simon amp Schuster ISBN 0 7432 3189 9 UK ISBN 0 7382 0692 X US External links Edit Wikiquote has quotations related to James Hutton Wikimedia Commons has media related to James Hutton Wikisource has the text of the 1911 Encyclopaedia Britannica article Hutton James Wikisource has the text of the 1885 1900 Dictionary of National Biography s article about Hutton James 1726 1797 James Hutton org links to James Hutton The Man and The James Hutton Trail James Hutton and Uniformitarianism scroll down James Hutton s memorial in Greyfriars Kirkyard Edinburgh First Publication of Theory of the Earth Accessible Historical Perspective on James Hutton at the Wayback Machine archived 8 May 2006 Gould Stephen Jay Justice Scalia s Misunderstanding B16 The History of Life Source Book pp 137 138 139 140 Archived from the original on 8 June 2019 Retrieved 17 July 2014 Works by James Hutton at Project Gutenberg Works by or about James Hutton at Internet Archive O Connor John J Robertson Edmund F James Hutton MacTutor History of Mathematics archive University of St Andrews Digitized volumes at the Linda Hall Library Hutton s 1788 Theory of the Earth Transactions of the Royal Society of Edinburgh Vol 1 no 20 Hutton s 1795 1899 Theory of the earth with proofs and illustrations 3 vols John Playfair 1802 Illustrations of the Huttonian theory of the Earth John Playfair 1815 Explication de Playfair sur la theorie de la terre par Hutton French Retrieved from https en wikipedia org w index php title James Hutton amp oldid 1146659002, wikipedia, wiki, book, books, library,

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