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James Hutton

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James Hutton
Hutton as painted by Sir Henry Raeburn
Born14 June 1726 (1726-06-14)
Edinburgh , Scotland
Died26 March 1797 (1797-03-27)
NationalityScottish
CitizenshipScotland
Known forPlutonic geology
Deep time
Scientific career
FieldsGeology

James Hutton MD (Edinburgh, 3 June 1726 OS (14 June 1726 NS) – 26 March 1797) was a Scottish geologist, physician, naturalist, chemist and experimental farmer. He is considered the father of modern geology.[1][2] His theories of geology and geologic time,[3] also called deep time,[4] came to be included in theories which were called plutonism and uniformitarianism.

Early life and career

James Hutton was born in Edinburgh on 3 June 1726 OS as one of five children of a merchant who was Edinburgh City Treasurer, but who died when James was still young. Hutton's mother - Sarah Balfour - had him 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" i.e. Classics (Latin and Greek). He was apprenticed to a lawyer when he was 17, but took more interest in chemical experiments than legal work and at the age of 18 became a physician's assistant as well as attending lectures in medicine at the University of Edinburgh. After three years he studied the subject in Paris (University of Paris), then in 1749 took the degree of Doctor of Medicine at Leyden with a thesis on blood circulation.[5] 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.[6]

After his degree Hutton returned to London, then in mid-1750 went back 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,[7] manufacturing the crystalline salt which was used for dyeing, metalworking and as smelling salts and previously was 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.[8]

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] 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.[10] He recorded his ideas and innovations in an unpublished treatise on The Elements of Agriculture.[11]

This developed his interest in meteorology and geology,[10] and by 1753 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, and Hutton 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 James Clerk Maxwell (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 John Playfair, philosopher David Hume and economist Adam Smith.[14] Hutton held no position in Edinburgh University and communicated his scientific findings through the Royal Society of Edinburgh. He was particularly friendly with Joseph Black, and the two of them together with Adam Smith founded the Oyster Club for weekly meetings, with Hutton and Black finding a venue which turned out to have rather disreputable associations.[14]

Between 1767 and 1774 Hutton had considerable 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. 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.[15]

Theory of rock formations

Hutton hit on a variety of ideas 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,[16] 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,[17] which he had printed and circulated privately.[18] 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 than 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

At Glen Tilt in the Cairngorm mountains in the Scottish Highlands in 1785, Hutton found granite penetrating metamorphic schists, in a way which indicated that the granite had been molten at the time. This showed to him that granite formed from cooling of molten rock, not precipitation out of water as others at the time believed, and that the granite must be younger than the schists.[19][20]

He went on to find a similar penetration of volcanic rock through sedimentary rock near the centre of Edinburgh, at Salisbury Crags,[2] adjoining Arthur's Seat: this is now known as Hutton's Section.[21][22] He found other examples in Galloway in 1786, and on the Isle of Arran in 1787.

Hutton Unconformity at Jedburgh. Photograph (2003) below Clerk of Eldin illustration (1787).

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 Arran he found his first example of Hutton's Unconformity to the north of Newton Point near Lochranza,[23][24] but the limited view meant that the condition of the underlying strata was not clear enough for him,[25] and he incorrectly thought that the strata were conformable at a depth below the exposed outcrop.[26]

Later in 1787 Hutton noted what is now known as the Hutton Unconformity at Inchbonny,[3] Jedburgh, in layers of sedimentary rock.[27] 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.[25]

An eroded outcrop at Siccar Point showing sloping red sandstone above vertical greywacke was sketched by Sir James Hall in 1788.

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.[25] 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".[28][29] Playfair later commented about the experience, "the mind seemed to grow giddy by looking so far into the abyss of time".[30] 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”.[25]

Hutton reasoned that there must have been several cycles, each involving deposition on the seabed, uplift with tilting and erosion then undersea again for further layers to be deposited, and there could have been many cycles before over an extremely long history. In a 1788 paper he presented at the Royal Society of Edinburgh,[3] Hutton remarked, "we find no vestige of a beginning, no prospect of an end." (This memorable line[3][31] was quoted in the 1989 song “No Control” by songwriter and professor Greg Graffin.[32])

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;[18] the theory as read at the 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.[17]

Following criticism, especially Richard Kirwan's, who thought him atheist and not logical, among other things,[17] Hutton published a two volume version of his theory in 1795,[33][34] 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.[35] 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 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 opened up the concept of deep time for scientific purposes, in opposition to Catastrophism. 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.[19] 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, in order to allow time for the changes. Before long, scientific inquiries provoked by his claims had pushed back the age of the earth into the millions of years– still too short when compared with what is known in the 21st century, but a distinct improvement.

Acceptance of geological theories

The prose of Principles of Knowledge was so obscure, in fact, that it also impeded the acceptance of Hutton's geological theories.[36] Restatements of his geological ideas (though not his thoughts on evolution) by John Playfair in 1802 and then Charles Lyell in the 1830s removed this hindrance. If anything, Hutton's ideas were eventually accepted too well. At least some of the initial resistance to modern scientific ideas like plate tectonics and asteroid strikes causing mass extinctions can be attributed to too-strict adherence to uniformitarianism.[citation needed]

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.

Evolution

Hutton also advocated uniformitarianism for living creatures too– 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.[35]

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 were "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.

Hutton saw his "principle of variation" as explaining the development of varieties, but rejected the idea of evolution originating species as a "romantic fantasy"[citation needed]. As a deist, to him this mechanism allowed species to form varieties better adapted to particular conditions and was evidence of benevolent design in nature. Hutton's ideas on geology were clarified in Charles Lyell's books, which Charles Darwin read with enthusiasm during his voyage on the Beagle, and it remained to Darwin independently to develop the idea of natural selection to explain The Origin of Species and bring it to the forefront of public consciousness at the same time as providing the voluminous evidence necessary to win over the scientific community to the theory.

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.
  • 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.
  • 1792. Dissertations on different subjects in natural philosophy. Edinburgh & London: Strahan & Cadell.
  • 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.
  • 1794. An investigation of the principles of knowledge and of the progress of reason, from sense to science and philosophy. Edinburgh: Strahan & Cadell.
  • 1795. Theory of the Earth; with proofs and illustrations. Edinburgh: Creech. 2 vols.
  • 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.

See also

References

  1. ^ 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). {{cite web}}: External link in |publisher= (help)
  2. ^ a b David Denby (11 October 2004). "Northern Lights: How modern life emerged from eighteenth-century Edinburgh" (html). The New Yorker. Review of James Buchan's Crowded With Genius (Capital of the Mind in the UK). 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 raised 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." Coolly discarding Biblical accounts of creation, the book that he eventually published, "The Theory of the Earth," helped establish the foundations of modern geology. {{cite web}}: Italic or bold markup not allowed in: |publisher= (help)
  3. ^ a b c d American Museum of Natural History (2000). "James Hutton: The Founder of Modern Geology". Earth: Inside and Out. The result, therefore, of this physical enquiry," Hutton concluded, "is that we find no vestige of a beginning, no prospect of an end.
  4. ^ Kenneth L. Taylor (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. {{cite web}}: Unknown parameter |month= ignored (help)
  5. ^ "Early Years". James Hutton.org. Retrieved 2008-04-11.
  6. ^ "Settled and Unsettled". James Hutton.org. Retrieved 2008-04-11.
  7. ^ "Thoughts of Settling in the World". James Hutton.org. Retrieved 2008-04-11.
  8. ^ "Business and Related Interests". James Hutton.org. Retrieved 2008-04-11.
  9. ^ "James Hutton the Farmer". James Hutton.org. Retrieved 2008-04-11.
  10. ^ a b "Return to Slighhouses and Farm Improvement". James Hutton.org. Retrieved 2008-04-11.
  11. ^ "The Elements of Agriculture". James Hutton.org. Retrieved 2008-04-11.
  12. ^ Campbell, Lewis (1882). The Life of James Clerk Maxwell. London: Macmillan and Company. p. 18. {{cite book}}: Unknown parameter |coauthors= ignored (|author= suggested) (help)
  13. ^ "Return to Edinburgh". James Hutton.org. Retrieved 2008-04-11.
  14. ^ a b "Hutton's Contemporaries and The Scottish Enlightenment". James Hutton.org. Retrieved 2008-04-11. Cite error: The named reference "soc1" was defined multiple times with different content (see the help page).
  15. ^ "The Forth and Clyde Canal". James Hutton.org. Retrieved 2008-04-11.
  16. ^ "The Theory of the Earth". James Hutton.org. Retrieved 2008-04-11.
  17. ^ a b c Theory of the Earth full text (1788 version)
  18. ^ a b Concerning the System of the Earth abstract
  19. ^ a b Robert Macfarlane (13 September 2003). "Glimpses into the abyss of time" (html). The Spectator. Review of Repcheck's The Man Who Found Time. 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. {{cite web}}: Italic or bold markup not allowed in: |publisher= (help)
  20. ^ Scottish Geology - Glen Tilt
  21. ^ Scottish Geology - Hutton's Section at Salisbury Crags
    Scottish Geology - Hutton's Rock at Salisbury Crags
  22. ^ Hutton's Section at Hoyrood Park
  23. ^ "Hutton's Unconformity". Isle of Arran Heritage Museum. 18 July 2008. Retrieved 2008-10-20. {{cite web}}: Cite has empty unknown parameter: |coauthors= (help)
  24. ^ "Hutton's Unconformity - Lochranza, Isle of Arran, UK - Places of Geologic Significance on Waymarking.com". Retrieved 2008-10-20.
  25. ^ a b c d Keith Montgomery (2003). "Siccar Point and Teaching the History of Geology" (pdf). University of Wisconsin. Retrieved 2008-03-26.
  26. ^ Hugh Rance (1999). "Hutton's unconformities" (pdf). Historical Geology: The Present is the Key to the Past. QCC Press. Retrieved 2008-10-20.
  27. ^ "Jedburgh: Hutton's Unconformity" (html). Jedburgh online. 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.
  28. ^ Hutton’s Journeys to Prove his Theory
  29. ^ Hutton's Unconformity
  30. ^ John Playfair. "Hutton's Unconformity" (html). Transactions of the Royal Society of Edinburgh, vol. V, pt. III, 1805, quoted in Natural History, June 1999.
  31. ^ Keith Stewart Thomson. "Vestiges of James Hutton" (html). American Scientist online, V. 89 #3 p. 212, May/June 2001 doi:10.1511/2001.3.212. 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 previously contemplated, that the rocks making up the earth today have not, after all, been here since Creation. {{cite web}}: External link in |work= (help); templatestyles stripmarker in |work= at position 63 (help)
  32. ^ Greg Graffin (1989). "Lyrics, No Control" (html). No Control (Bad Religion album). there's no vestige of a beginning, no prospect of an end (Hutton, 1795)
  33. ^
  34. ^
  35. ^ a b Paul N. Pearson (16 October 2003). "In Retrospect" (html). Nature V. 425 #6959, p. 665. Comments on Hutton's 3-volume 1794 work, An Investigation of the Principles of Knowledge and of the Progress of Reason, from Sense to Science and Philosophy. {{cite web}}: External link in |work= (help); Italic or bold markup not allowed in: |publisher= (help)
  36. ^ Geikie, Archibald (1897). The Founders of Geology. London: Macmillan and Company. p. 166.

Further reading

  • Jack Repcheck: The Man Who Found Time: James Hutton and the Discovery of the Earth's Antiquity. London and Cambridge, Massachusetts: Simon & Schuster (2003). ISBN 0743231899 (UK), ISBN 073820692X (US).
  • Stephen Baxter: Ages in Chaos: James Hutton and the Discovery of Deep Time. New York: Tor Books (Forge imprint), 2004. ISBN 0-76531-238-7. Published in the UK as Revolutions in the Earth: James Hutton and the True Age of the World. London: Weidenfeld & Nicolson, 2003. ISBN 0-29782-975-0.

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