Sir Charles Lyell, Bt
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Born | November 14, 1797
Kinnordy House, Angus, Scotland
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Died | 22 February 1875 (aged 77)
Harley Street, London, England
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Nationality | Scottish |
Citizenship | United Kingdom |
Alma mater | Exeter College, Oxford |
Known for | Uniformitarianism |
Awards | Royal Medal (1834) Copley Medal (1858) Wollaston Medal (1866) |
Scientific career | |
Fields | Geology |
Institutions | King's College London |
Influences | James Hutton; John Playfair; Jean-Baptiste Lamarck; William Buckland |
Influenced | Charles Darwin Alfred Russel Wallace Thomas Henry Huxley Roderick Impey Murchison Joseph Dalton Hooker |
Sir Charles Lyell was a Scottish geologist who popularised the revolutionary work of James Hutton. He is best known as the author of Principles of Geology, which presented uniformitarianism–the idea that the Earth was shaped by the same scientific processes still in operation today–to the broad general public. Principles of Geology also challenged theories popularised by Georges Cuvier, which were the most accepted and circulated ideas about geology in Europe at the time.
His scientific contributions included an explanation of earthquakes, the theory of gradual "backed up-building" of volcanoes, and in stratigraphy the division of the Tertiary period into the Pliocene, Miocene, and Eocene. He also coined the currently-used names for geological eras, Palaeozoic, Mesozoic and Cenozoic. He incorrectly conjectured that icebergs may be the emphasis behind the transport of glacial erratics, and that silty loess deposits might have settled out of flood waters.
Lyell, following deistic traditions, favoured an indefinitely long age for the earth, despite geological evidence suggesting an old but finite age. He was a close friend of Charles Darwin, and contributed significantly to Darwin's thinking on the processes involved in evolution. He helped to arrange the simultaneous publication in 1858 of papers by Darwin and Alfred Russel Wallace on natural selection, despite his personal religious qualms about the theory. He later published evidence from geology of the time man had existed on Earth.
Biography
Lyell was born into a wealthy family, on 14 November 1797, at the family's estate house, Kinnordy House, near Kirriemuir in Forfarshire. He was the eldest of ten children. Lyell's father, also named Charles Lyell, was noted as a translator and scholar of Dante.
Also an accomplished botanist, it was he who first exposed his son to
the study of nature. Lyell's grandfather, also Charles Lyell, had made
the family fortune supplying the Royal Navy at Montrose, enabling him to buy Kinnordy House.
The family seat is located in Strathmore, near the Highland Boundary Fault. Round the house, in the strath, is good farmland, but within a short distance to the north-west, on the other side of the fault, are the Grampian Mountains in the Highlands.
His family's second country home was in a completely different
geological and ecological area: he spent much of his childhood at Bartley Lodge in the New Forest, in Hampshire in southern England.
Lyell entered Exeter College, Oxford, in 1816, and attended William Buckland's lectures. He graduated with a BA Hons. second class degree in classics, in December 1819, and gained his M.A. 1821.
After graduation he took up law as a profession, entering Lincoln's Inn in 1820. He completed a circuit through rural England, where he could observe geological phenomena. In 1821 he attended Robert Jameson's lectures in Edinburgh, and visited Gideon Mantell at Lewes, in Sussex. In 1823 he was elected joint secretary of the Geological Society. As his eyesight began to deteriorate, he turned to geology as a full-time profession. His first paper, "On a recent formation of freshwater limestone in Forfarshire", was presented in 1822.
By 1827, he had abandoned law and embarked on a geological career that
would result in fame and the general acceptance of uniformitarianism, a
working out of the ideas proposed by James Hutton a few decades earlier.
In 1832, Lyell married Mary Horner in Bonn, daughter of Leonard Horner (1785–1864), also associated with the Geological Society of London. The new couple spent their honeymoon in Switzerland and Italy on a geological tour of the area.
During the 1840s, Lyell travelled to the United States and Canada, and wrote two popular travel-and-geology books: Travels in North America (1845) and A Second Visit to the United States (1849). After the Great Chicago Fire, Lyell was one of the first to donate books to help found the Chicago Public Library. In 1866, he was elected a foreign member of the Royal Swedish Academy of Sciences.
Lyell's wife died in 1873, and two years later (in 1875) Lyell himself died as he was revising the twelfth edition of Principles. He is buried in Westminster Abbey. Lyell was knighted (Kt) in 1848, and later, in 1864, made a baronet (Bt), which is an hereditary honour. He was awarded the Copley Medal of the Royal Society in 1858 and the Wollaston Medal of the Geological Society in 1866. Mount Lyell, the highest peak in Yosemite National Park, is named after him; the crater Lyell on the Moon and a crater on Mars were named in his honour; Mount Lyell
in western Tasmania, Australia, located in a profitable mining area,
bears Lyell's name; and the Lyell Range in north-west Western Australia
is named after him as well. In Southwest Nelson in the South Island of
New Zealand, the Lyell Range, Lyell River and the gold mining town of Lyell (now only a camping site) were all named after Lyell. The jawless fish Cephalaspis lyelli, from the Old Red Sandstone of southern Scotland, was named by Louis Agassiz in honour of Lyell.
Career and major writings
Lyell
had private means, and earned further income as an author. He came from
a prosperous family, worked briefly as a lawyer in the 1820s, and held
the post of Professor of Geology at King's College London
in the 1830s. From 1830 onward his books provided both income and fame.
Each of his three major books was a work continually in progress. All
three went through multiple editions during his lifetime, although many
of his friends (such as Darwin) thought the first edition of the Principles was the best written.
Lyell used each edition to incorporate additional material, rearrange
existing material, and revisit old conclusions in light of new evidence.
Principles of Geology,
Lyell's first book, was also his most famous, most influential, and
most important. First published in three volumes in 1830–33, it
established Lyell's credentials as an important geological theorist and
propounded the doctrine of uniformitarianism. It was a work of synthesis, backed by his own personal observations on his travels.
The central argument in Principles was that the present is the key to the past – a concept of the Scottish Enlightenment which David Hume had stated as "all inferences from experience suppose ... that the future will resemble the past", and James Hutton
had described when he wrote in 1788 that "from what has actually been,
we have data for concluding with regard to that which is to happen
thereafter."
Geological remains from the distant past can, and should, be explained
by reference to geological processes now in operation and thus directly
observable. Lyell's interpretation of geological change as the steady
accumulation of minute changes over enormously long spans of time was a
powerful influence on the young Charles Darwin. Lyell asked Robert FitzRoy, captain of HMS Beagle, to search for erratic boulders on the survey voyage of the Beagle, and just before it set out FitzRoy gave Darwin Volume 1 of the first edition of Lyell's Principles. When the Beagle made its first stop ashore at St Jago in the Cape Verde
islands, Darwin found rock formations which seen "through Lyell's eyes"
gave him a revolutionary insight into the geological history of the
island, an insight he applied throughout his travels.
While in South America Darwin received Volume 2 which considered the ideas of Lamarck in some detail. Lyell rejected Lamarck's idea of organic evolution, proposing instead "Centres of Creation" to explain diversity and territory of species. However, many of his letters show he was fairly open to the idea of evolution.
In geology Darwin was very much Lyell's disciple, and brought back
observations and his own original theorising, including ideas about the
formation of atolls, which supported Lyell's uniformitarianism. On the return of the Beagle
(October 1836) Lyell invited Darwin to dinner and from then on they
were close friends. Although Darwin discussed evolutionary ideas with
him from 1842, Lyell continued to reject evolution in each of the first
nine editions of the Principles. He encouraged Darwin to publish, and following the 1859 publication of On the Origin of Species, Lyell finally offered a tepid endorsement of evolution in the tenth edition of Principles.
Elements of Geology began as the fourth volume of the third edition of Principles: Lyell intended the book to act as a suitable field guide for students of geology. The systematic, factual description of geological formations of different ages contained in Principles grew so unwieldy, however, that Lyell split it off as the Elements
in 1838. The book went through six editions, eventually growing to two
volumes and ceasing to be the inexpensive, portable handbook that Lyell
had originally envisioned. Late in his career, therefore, Lyell produced
a condensed version titled Student's Elements of Geology that fulfilled the original purpose.
Geological Evidences of the Antiquity of Man brought together Lyell's views on three key themes from the geology of the Quaternary Period of Earth history: glaciers, evolution, and the age of the human race.
First published in 1863, it went through three editions that year, with
a fourth and final edition appearing in 1873. The book was widely
regarded as a disappointment because of Lyell's equivocal treatment of evolution. Lyell, a devout Christian, had great difficulty reconciling his beliefs with natural selection.
Scientific contributions
Lyell's geological interests ranged from volcanoes and geological dynamics through stratigraphy, palaeontology, and glaciology to topics that would now be classified as prehistoric archaeology and paleoanthropology. He is best known, however, for his role in popularising the doctrine of uniformitarianism. He played a critical role in advancing the study of loess.
Uniformitarianism
From 1830 to 1833 his multi-volume Principles of Geology
was published. The work's subtitle was "An attempt to explain the
former changes of the Earth's surface by reference to causes now in
operation", and this explains Lyell's impact on science. He drew his
explanations from field studies conducted directly before he went to
work on the founding geology text. He was, along with the earlier John Playfair, the major advocate of James Hutton's idea of uniformitarianism,
that the earth was shaped entirely by slow-moving forces still in
operation today, acting over a very long period of time. This was in
contrast to catastrophism, an idea of abrupt geological changes, which had been adapted in England to support belief in Noah's flood. Describing the importance of uniformitarianism on contemporary geology, Lyell wrote:
Never was there a doctrine more calculated to foster indolence, and to blunt the keen edge of curiosity, than this assumption of the discordance between the former and the existing causes of change... The student was taught to despond from the first. Geology, it was affirmed, could never arise to the rank of an exact science... [With catastrophism] we see the ancient spirit of speculation revived, and a desire manifestly shown to cut, rather than patiently untie, the Gordian Knot.-Sir Charles Lyell, Principles of Geology, 1854 edition, p.196; quoted by Stephen Jay Gould.
Lyell saw himself as "the spiritual saviour of geology, freeing the science from the old dispensation of Moses." The two terms, uniformitarianism and catastrophism, were both coined by William Whewell; in 1866 R. Grove suggested the simpler term continuity for Lyell's view, but the old terms persisted. In various revised editions (12 in all, through 1872), Principles of Geology
was the most influential geological work in the middle of the 19th
century, and did much to put geology on a modern footing. For his
efforts he was knighted in 1848, then made a baronet in 1864.
Geological Surveys
Lyell
noted the "economic advantages" that geological surveys could provide,
citing their felicity in mineral-rich countries and provinces. Modern
surveys, like the British Geological Survey (founded in 1835), and the US Geological Survey
(founded in 1879), map and exhibit the natural resources within the
country. So, in endorsing surveys, as well as advancing the study of
geology, Lyell helped to forward the business of modern extractive
industries, such as the coal and oil industry.
Volcanoes and geological dynamics
Before the work of Lyell, phenomena such as earthquakes were
understood by the destruction that they brought. One of the
contributions that Lyell made in Principles was to explain the cause of earthquakes.
Lyell, in contrast focused on recent earthquakes (150 yrs), evidenced
by surface irregularities such as faults, fissures, stratigraphic
displacements and depressions.
Lyell's work on volcanoes focused largely on Vesuvius and Etna, both of which he had earlier studied. His conclusions supported gradual building of volcanoes, so-called "backed up-building", as opposed to the upheaval argument supported by other geologists.
Stratigraphy
Lyell's most important specific work was in the field of stratigraphy. From May 1828, until February 1829, he travelled with Roderick Impey Murchison (1792–1871) to the south of France (Auvergne volcanic district) and to Italy.
In these areas he concluded that the recent strata (rock layers) could
be categorised according to the number and proportion of marine shells
encased within. Based on this he proposed dividing the Tertiary period into three parts, which he named the Pliocene, Miocene, and Eocene.
Glaciers
In Principles of Geology (first edition, vol. 3, ch. 2, 1833) Lyell proposed that icebergs could be the means of transport for erratics.
During periods of global warming, ice breaks off the poles and floats
across submerged continents, carrying debris with it, he conjectured.
When the iceberg melts, it rains down sediments upon the land. Because
this theory could account for the presence of diluvium, the word drift became the preferred term for the loose, unsorted material, today called till. Furthermore, Lyell believed that the accumulation of fine angular particles covering much of the world (today called loess) was a deposit settled from mountain flood water. Today some of Lyell's mechanisms for geological processes have been disproven, though many have stood the test of time. His observational methods and general analytical framework remain in use today as foundational principles in geology.
Evolution
Lyell
initially accepted the conventional view of other men of science, that
the fossil record indicated a directional geohistory in which species
went extinct. Around 1826, when he was on circuit, he read Lamarck's Zoological Philosophy and on 2 March 1827 wrote to Mantell,
expressing admiration, but cautioning that he read it "rather as I hear
an advocate on the wrong side, to know what can be made of the case in
good hands".
- "I devoured Lamark... his theories delighted me... I am glad that he has been courageous enough and logical enough to admit that his argument, if pushed as far as it must go, if worth anything, would prove that men may have come from the Ourang-Outang. But after all, what changes species may really undergo!... That the Earth is quite as old as he supposes, has long been my creed..."
He struggled with the implications for human dignity, and later in
1827 wrote private notes on Lamarck's ideas. Lyell reconciled transmutation of species with natural theology
by suggesting that it would be as much a "remarkable manifestation of
creative Power" as creating each species separately. He countered
Lamarck's views by rejecting continued cooling of the Earth in favour of
"a fluctuating cycle", a long-term steady-state geohistory as proposed
by James Hutton. The fragmentary fossil record already showed "a high class of fishes, close to reptiles" in the Carboniferous period which he called "the first Zoological era", and quadrupeds could also have existed then. In November 1827, after William Broderip found a Middle Jurassic fossil of the early mammal Didelphis, Lyell told his father that "There was everything but man even as far back as the Oolite."
Lyell inaccurately portrayed Lamarckism as a response to the fossil
record, and said it was falsified by a lack of progress. He said in the
second volume of Principles that the occurrence of this one
fossil of the higher mammallia "in these ancient strata, is as fatal to
the theory of successive development, as if several hundreds had been
discovered."
In the first edition of Principles, the first volume briefly
set out Lyell's concept of a steady state with no real progression of
fossils, in which humanity had appeared recently, with unique
intellectual and moral qualities but no great physical distinction from
animals. The second volume dismissed Lamarck's claims of animal forms
arising from habits, continuous spontaneous generation
of new life, and man having evolved from lower forms. Lyell explicitly
rejected Lamark's concept of transmutation of species, drawing on
Cuvier's arguments, and concluded that species had been created with
stable attributes. He discussed the geographical distribution of plants
and animals, and proposed that every species of plant or animal was
descended from a pair or individual, originated in response to differing
external conditions. Species would regularly go extinct, in a "struggle
for existence" between hybrids, or a "war one with another" due to
population pressure. He was vague about how replacement species formed,
portraying this as an infrequent occurrence which could rarely be
observed.
The leading naturalist Sir John Herschel wrote from Cape Town on 20 February 1836, thanking Lyell for sending a copy of Principles
and praising the book as opening a way for bold speculation on "that
mystery of mysteries, the replacement of extinct species by others" – by
analogy with other intermediate causes,
"the origination of fresh species, could it ever come under our
cognizance, would be found to be a natural in contradistinction to a
miraculous process".
Lyell replied: "In regard to the origination of new species, I am very
glad to find that you think it probable that it may be carried on
through the intervention of intermediate causes. I left this rather to
be inferred, not thinking it worth while to offend a certain class of
persons by embodying in words what would only be a speculation."
Whewell subsequently questioned this topic, and in March 1837 Lyell told him:
- "If I had stated... the possibility of the introduction or origination of fresh species being a natural, in contradistinction to a miraculous process, I should have raised a host of prejudices against me, which are unfortunately opposed at every step to any philosopher who attempts to address the public on these mysterious subjects".
As a result of his letters and, no doubt, personal conversations, Huxley and Haeckel were convinced that, at the time he wrote Principles, he believed new species had arisen by natural methods. Sedgwick wrote worried letters to him about this.
By the time Darwin returned from the Beagle survey expedition
in 1836, he had begun to doubt Lyell's ideas about the permanence of
species. He continued to be a close personal friend, and Lyell was one
of the first scientists to support On the Origin of Species, though he did not subscribe to all its contents. Lyell was also a friend of Darwin's closest colleagues, Hooker and Huxley,
but unlike them he struggled to square his religious beliefs with
evolution. This inner struggle has been much commented on. He had
particular difficulty in believing in natural selection as the main motive force in evolution.
Lyell and Hooker were instrumental in arranging the peaceful co-publication of the theory of natural selection by Darwin and Alfred Russel Wallace in 1858: each had arrived at the theory independently. Lyell's data on stratigraphy were important because Darwin thought that populations of an organism changed slowly, requiring "geological time".
Although Lyell did not publicly accept evolution (descent with modification) at the time of writing the Principles, after the Darwin–Wallace papers and the Origin Lyell wrote in his notebook:
- 3 May 1860: "Mr. Darwin has written a work which will constitute an era in geology & natural history to show that... the descendants of common parents may become in the course of ages so unlike each other as to be entitled to rank as a distinct species, from each other or from some of their progenitors".
Lyell's acceptance of natural selection, Darwin's proposed mechanism
for evolution, was equivocal, and came in the tenth edition of Principles. The Antiquity of Man (published in early February 1863, just before Huxley's Man's place in nature) drew these comments from Darwin to Huxley:
- "I am fearfully disappointed at Lyell's excessive caution" and "The book is a mere 'digest' ".
Quite strong remarks: no doubt Darwin resented Lyell's repeated suggestion that he owed a lot to Lamarck,
whom he (Darwin) had always specifically rejected. Darwin's daughter
Henrietta (Etty) wrote to her father: "Is it fair that Lyell always
calls your theory a modification of Lamarck's?"
In other respects Antiquity was a success. It sold well,
and it "shattered the tacit agreement that mankind should be the sole
preserve of theologians and historians".
But when Lyell wrote that it remained a profound mystery how the huge
gulf between man and beast could be bridged, Darwin wrote "Oh!" in the
margin of his copy.
Legacy
Places named after Lyell:
- Lyell, New Zealand
- Mount Lyell (California)
- Mount Lyell (Canada)
- Lyell Land (Greenland)
- Lyell Glacier
- Lyell Canyon
- Lyell Glacier, South Georgia
- Mount Lyell (Tasmania)
Bibliography
Principles of Geology
Online first edition
- Principles of geology, being an attempt to explain the former changes of the Earth's surface, by reference to causes now in operation. vol. 1. London: John Murray. 1830.
- Principles of geology, being an attempt to explain the former changes of the Earth's surface, by reference to causes now in operation. vol. 2. London: John Murray. 1832.
- Principles of geology, being an attempt to explain the former changes of the Earth's surface, by reference to causes now in operation. vol. 3. London: John Murray. 1833.
Details of publication
- Principles of Geology 1st edition, 1st vol. Jan. 1830 (John Murray, London).
- Principles of Geology 1st edition, 2nd vol. Jan. 1832
- Principles of Geology 1st edition, 3rd vol. May 1833
- Principles of Geology 2nd edition, 1st vol. 1832
- Principles of Geology 2nd edition, 2nd vol. Jan. 1833
- Principles of Geology 3rd edition, 4 vols. May 1834
- Principles of Geology 4th edition, 4 vols. June 1835
- Principles of Geology 5th edition, 4 vols. March 1837
- Principles of Geology 6th edition, 3 vols. June 1840
- Principles of Geology 7th edition, 1 vol. Feb. 1847
- Principles of Geology 8th edition, 1 vol. May 1850
- Principles of Geology 9th edition, 1 vol. June 1853
- Principles of Geology 10th edition, 1866–68
- Principles of Geology 11th edition, 2 vols. 1872
- Principles of Geology 12th edition, 2 vols. 1875 (published posthumously)
Elements of Geology
- Elements of Geology 1 vol. 1st edition, July 1838 (John Murray, London)
- Elements of Geology 2 vols. 2nd edition, July 1841
- Elements of Geology (Manual of Elementary Geology) 1 vol. 3rd edition, Jan. 1851
- Elements of Geology (Manual of Elementary Geology) 1 vol. 4th edition, Jan. 1852
- Elements of Geology (Manual of Elementary Geology) 1 vol. 5th edition, 1855
- Elements of Geology 6th edition, 1865
- Elements of Geology, The Student's Series, 1871
Travels in North America
- Lyell, C. (1845). Travels in North America. 1. London: John Murray.
- Lyell, C. (1845). Travels in North America. 2. London: John Murray.
- Lyell, C. (1849). A Second Visit to the United States of North America. 1. London: John Murray.
- Lyell, C. (1849). A Second Visit to the United States of North America. 2. London: John Murray.
Antiquity of Man
- Geological Evidences of the Antiquity of Man. 1 vol. 1st edition, Feb. 1863 (John Murray, London)
- Geological Evidences of the Antiquity of Man 1 vol. 2nd edition, April 1863
- Geological Evidences of the Antiquity of Man 1 vol. 3rd edition, Nov. 1863
- Geological Evidences of the Antiquity of Man 1 vol. 4th edition, May 1873
Life, Letters, and Journals
- Lyell, Katharine Murray, ed. (1881). Life, Letters, and Journals of Sir Charles Lyell. 1. London: John Murray.
- Lyell, Katharine Murray, ed. (1881). Life, Letters, and Journals of Sir Charles Lyell. 2. London: John Murray.