Robert Brown

Britannica Concise Encyclopedia: Robert Brown

(born Dec. 21, 1773, Montrose, Angus, Scot. — died June 10, 1858, London, Eng.) Scottish botanist. The son of a clergyman, he studied medicine in Aberdeen and Edinburgh before entering the British army as an ensign and assistant surgeon (1795). He obtained the post of naturalist aboard a ship bound to survey the coasts of Australia (1801), and on the journey he gathered some 3,900 plant species. He published some of the results of his trip in 1810 in his classic Prodromus Florae Novae Hollandiae, laying the foundations of Australian botany and refining prevailing plant classification systems. In 1827 he transferred Joseph Banks's botanical collection to the British Museum and became keeper of the museum's newly formed botanical department. The following year he published his observation of the phenomenon that came to be called Brownian motion. In 1831 he noted the existence in plant cells of what he called the nucleus. He was the first to recognize the distinction between gymnosperms and angiosperms (flowering plants).

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Scientist: Robert Brown

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British botanist (1773–1858)

Brown, a clergyman's son from Montrose, Scotland, studied medicine at Edinburgh University. He joined the Fifeshire Regiment of Fencibles in 1795 and served five years in Ireland as a medical officer. During a visit to London in 1798 he was introduced to Sir Joseph Banks. This led, two years later, to his being recommended by Banks for the post of naturalist on the Investigator in an expedition to survey the coast of New Holland (Australia) under the command of Matthew Flinders. Brown accepted the appointment and the Investigator set sail for the Cape of Good Hope and Australia in 1801. During his five years with the expedition Brown collected 4000 plant specimens, and on his return to England spent another five years classifying these. Rather than use Linnaeus's artificial classification, he followed Antoine de Jussieu's more natural system, adding his own modifications and using microscopic characters to help delimit species. By 1810 he had described 2200 species, over 1700 of which were new (including 140 new genera). He intended to produce an extensive treatise on Australian plants but the poor sales of the first volume, which appeared in 1810, led him to discontinue publication of the remainder.

In the course of his painstaking work Brown became very familiar with plant morphology, which led him to make many important observations. He found that in conifers and related plants the ovary around the ovule is missing, thus establishing the basic difference between these plants and flowering plants or between the gymnosperms and the angiosperms, as the two groups of seed-bearing plants were later named. He also observed and named the nucleus, recognizing it as an essential part of living cells.

In 1827, while examining a suspension of pollen grains in water, under a microscope, Brown observed that the grains were in continuous erratic motion. Initially he believed that this movement was caused by some life force in the pollen, but when he extended his observations to inanimate particles suspended in water he found the same effect. This phenomenon was named Brownian motion and remained unexplained until the kinetic theory was developed.

From 1806 to 1822 Brown was librarian of the Linnean Society; in 1810 he also became librarian and curator at Banks's Soho Square residence. Banks stipulated in his will that on his death Brown should take charge of his house, library, and herbarium. In 1820 Brown duly inherited this responsibility and in 1827 he donated Banks's library and herbarium to the British Museum on the understanding that the trustees established an independent botany department in the museum. Thus a botanical collection became accessible to the general public for the first time in Britain.

Biography: Robert Brown

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Although Scottish botanist Robert Brown (1773-1858) was responsible for discovering the nucleus of a cell, he is perhaps best known for his discovery of the random movement of microscopic particles in asurrounding solution, later referred to as "Brownian motion." He also developed alternative plant classification systems.

Robert Brown was born in Montrose, Scotland - the son of an Episcopalian minister. Although he later discarded his religious faith, Brown gained an appreciation for high intellectual standards from his father. He studied at Marischal College in Aberdeen, and completed his medical studies at Edinburgh University in 1795.

Met Future Collaborator

Immediately after graduation, Brown served as an assistant surgeon in the Fifeshire Regiment of Fencibles, an army regiment stationed in Northern Ireland. His journal entries during this period suggest that Brown's military duties did not demand much of his time. Not one to waste time, Brown's intellectual curiosity led him to study the German language. He also continued his botanical pursuits, memorizing the structures of various plants such as ferns and mosses. His knowledge of German later helped Brown recognize a significant scientific work in that language (Geheimniss der Natur im Bau und in der Befruchtung der Blumen, by C.K. Sprengel, 1793) and bring it to the attention of peer and fellow scientist, Charles Darwin, in 1841.

During a 1798 military recruiting trip to London, Brown was introduced to Sir Joseph Banks. Banks was a prominent lover of botany who used the resources in his home (which included a large library and plant room) to create a botanical center for enthusiasts in the region. Banks was particularly interested in meeting Brown, who had been highly recommended by a peer, Jose Correa da Serra. Both Banks and his current botanist librarian were impressed with Brown's intellectual tenacity. The meeting between Brown and Banks was fortuitous and would later provide the young Scottish botanist with opportunities that would enhance his career. Brown continued to serve as an army official in London during 1798, but was not forgotten by Banks.

A Notable Expedition

A few years after their original meeting, Banks chose Brown to serve as a naturalist for an expedition by sea (beginning in 1801). The chief purpose of the expedition was to study the flora and fauna of the north and south coasts of Australia. Banks used his influence with the Admiralty (who sponsored the voyage) to secure the position for Brown. In typical fashion, Brown spent much of his time preparing for the expedition by studying what was known about the plants of Australia. Captain Matthew Flinders led the expedition. The team of naturalists made several stops including King George Sound (which proved to host a wealth of previously undiscovered plant species), and Port Jackson. Brown spent ten months in Port Jackson, while the ship returned to Timor for provisions. By the time Brown returned to London in 1805, he had collected over 4,000 samples of plants, supplemental drawings, and specimens for zoological research. Banks convinced the Admiralty to give him a salary for classifying and describing the plant samples that had been collected. The task took Brown an additional five years. Brown's collection included 2,200 species of plants, at least 1,700 new species, and 140 new plant genera.

Publication Proved Disappointing

While Brown catalogued his collection from the expedition, he also served as librarian for the Linnean Society, beginning in 1806. He also served as Banks' librarian, beginning in 1810. During that year, Brown published Prodromus Florae Novae Holandiae et Insulae Van Diemen, a study of Australian flora. The study modified one of the prevailing systems of plant classification (the Jussiaean system) by adding new families and genera and including observations about plants worldwide. Even though the study was well received by peers and botanists, Brown had to pay the costs of publication and was only able to sell 24 of 250 printed copies. This effort appeared to have discouraged him and Brown never completed a companion volume that would have covered other plant families from the expedition. Fortunately, Brown's botanical observations were also recorded in his memoirs, such as his "General Remarks, Geographical and Systematical, on the Botany of Terra Australis"; a piece that was published in Flinders' A Voyage to Terra Australis in 1814. Brown's disappointing experience while publishing his study of Australian flora affected the style of his future work. He attempted no further broad syntheses, but instead published his discoveries or thoughts as appendages to other works or as pieces of his memoirs.

A Parting Gift

Banks, who had already provided the botanist with opportunities and resources for advancement, gave Brown one final gift. When he died in 1820, Banks' entire library and all collections were left to Brown. According to the terms of the Banks will, these library collections were to be transferred to the British Museum after Brown's death. However, Brown did not wait until his own death to share the wealth of information that Banks had left. With typical pragmatism, Brown took it upon himself, in 1827, to convince staff at the British Museum to establish a new botanical department, comprised of the Banks collection. They agreed, and Brown ran the botanical department until his death. The collection was notable for being the first nationally owned collection of such material in Britain that was available to the public as a resource.

An Important Discovery

During microscopic research performed in 1827, Brown made his biggest discovery. While observing the sexual organs of plants under the microscope, the scientist found that pollen grains seemed to be darting around in a random manner. Curious, Brown studied other substances under the microscope in search of the same movement. He discovered that if particles were of a certain size (or smaller), that the movement continued to occur. Brown observed the same movement in glass and rock particles, and theorized that the movement was not limited to living matter. The botanist concluded that the movement was caused by some phenomenon of physics and named the phenomenon "Brownian motion." In 1905, Albert Einstein suggested that Brownian motion was the result of the particles colliding with molecules. Nobel Prize winner, Jean Perrin, proved that Einstein's thesis of Brownian motion was correct. Brown's discovery provided the first evidence that proved the existence of atoms. The phenomenon of Brownian motion also led scientists to quantify Avagadro's number - a physical constant for describing random motion.

Brown continued his work in botanical research, focusing especially on work with a microscope. He led the field on research that studied fossils under the microscope, and was particularly interested in studying pollination among the higher plant species. His microscopic research led him to discover the nucleus of the cell (1831), which he observed in plant tissue and which he named. The presentation of this discovery was typical of much of Brown's work-he imbedded this discovery in a pamphlet which focused on the sexual organs of orchids.

A Dedicated Botanist

In his personal life, Brown was known as a witty, yet quiet man who associated mainly with his peers. He never married and lived a home bequeathed to him by Banks until his death. Because of Brown's broad range of knowledge that would have been difficult to synthesize, his published work often suggested questions and possibilities for further research. Darwin, a peer of Brown's remarked on the "minuteness of [Brown's] observations and their perfect accuracy". Darwin claimed that when Brown died, much of his knowledge "died with him, owing to his excessive fear of never making a mistake." Brown appeared to have been untroubled by financial worries during his lifetime, and turned down three professorships. He continued his lifelong passion for botany and hiked to the top of a Scottish mountain (where he had studied plants 60 years earlier) five years before his death. Brown died in London on June 10, 1858.

Biography

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Brown's roots go back to production work with gothic rock maestro Alice Cooper and his road shows of the 70's, considered to be completely extravagent by the standards of that era. Did Brown advise Alice Cooper to cancel the Welcome to my Nightmare tour when the star stumbled off the front of the stage in Vancouver, cracking three ribs? No! The show must go on! Brown hailed from the midwest, where one of the earliest and perhaps heaviest of his production assignments was two albums by the Milwaukee hard rock outfit the Bad Boys. ~ Eugene Chadbourne, All Music Guide

Wikipedia: Robert Brown (botanist)

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This article is about Robert Brown (botanist). For Robert Brown (Botanist R.Br.ter) of Caithness, see Robert Brown (explorer).

Robert Brown
Robert Brown (1773–1858)
Born	21 December 1773 (1773-12-21) Montrose, Scotland
Died	10 June 1858 (1858-06-11) London
Nationality	Scottish
Fields	Botany
Known for	Brownian motion
Author abbreviation (botany)	R.Br.

Robert Brown FRS (21 December 1773 – 10 June 1858) was a Scottish botanist who made important contributions to botany largely through his pioneering use of the microscope. His contributions include the discovery of the cell nucleus and cytoplasmic streaming; the first observation of Brownian motion; early work on plant pollination and fertilisation, including being the first to recognise the fundamental difference between gymnosperms and angiosperms; and some of the earliest studies in palynology. He also made numerous contributions to plant taxonomy, including the erection of a number of plant families that are still accepted today; and numerous Australian plant genera and species, the fruit of his exploration of that continent with Matthew Flinders.

1 Early life
2 Career
3 Brownian motion
4 Publications
5 See also
6 Notes and references
7 Further reading
8 External links

Early life

Brown was born in Montrose, Scotland on 21 December 1773. He was the son of James Brown, a minister in the Scottish Episcopal Church with Jacobite convictions so strong that in 1788 he defied his church's decision to give allegiance to George III. His mother was Helen née Taylor, the daughter of a Presbyterian minister. As a child Brown attended the local Grammar School (now Montrose Academy), then Marischal College at Aberdeen, but withdrew in his fourth year when the family moved to Edinburgh in 1790. His father died late the following year.^[1]

Brown enrolled to study medicine at the University of Edinburgh, but developed an interest in botany, and ended up spending more of his time on the latter than the former. He attended the lectures of John Walker; made botanical expeditions into the Scottish Highlands, alone or with nurserymen such as George Don; and wrote out meticulous botanical descriptions of the plants he collected. He also began corresponding with and collecting for William Withering, one of the foremost British botanists of his day. Highlights for Brown during this period include his discovery of a new species of grass, Alopecurus alpinus; and his first botanical paper, "The botanical history of Angus", read to the Edinburgh Natural History Society in January 1792, but not published in print in Brown's lifetime.^[2]

Brown dropped out of his medical course in 1793. Late in 1794, he enlisted in the Fifeshire Fencibles, and his regiment was posted to Ireland shortly after. In June 1795 he was appointed Surgeon's Mate. His regiment saw very little action, however, he had a good deal of leisure time, almost all of which he spent on botany. However he was frustrated by his itinerant lifestyle, which prevented him from building his personal library and specimen collection as he would have liked, and cut him off from the most important herbaria and libraries.^[3]

During this period Brown was especially interested in cryptogams, and these would be the subject of Brown's first, albeit unattributed, publication. Brown began a correspondence with William Dickson, and by 1796 was sending him specimens and descriptions of mosses. Dickson incorporated Brown's descriptions into his Fasciculi plantarum cryptogamicarum britanniae, with Brown's permission but without any attribution.^[3]

By 1800, Brown was firmly established amongst Irish botanists, and was corresponding with a number of British and foreign botanists, including Withering, Dickson, James Edward Smith and José Correia da Serra. He had been nominated to the Linnean Society of London; had contributed to Dickson's Fasciculi; was acknowledged in a number of other works; and had had a species of algae, Conferva brownii (now Aegagropila linnaei) named after him by Lewis Weston Dillwyn. He had also begun experimenting with microscopy. However as an army surgeon stationed in Ireland there seemed little prospect of him attracting the notice of those who could offer him a career in botany.^[3]

Career

In 1798, Brown heard that Mungo Park had withdrawn from a proposed expedition into the interior of New Holland (now Australia), leaving a vacancy for a naturalist. At Brown's request, Correia wrote to Sir Joseph Banks, suggesting Brown as a suitable replacement:

"Science is the gainer in this change of man; Mr Brown being a professed naturalist. He is a Scotchman, fit to pursue an object with constance and cold mind."

He was not selected, and the expedition did not end up going ahead as originally proposed, though George Caley was sent to New South Wales as a botanical collector for Banks. In 1800, however, Matthew Flinders put to Banks a proposal for an expedition that would answer the question whether New Holland was one island or several. Banks approved Flinders' proposal, and in December 1801 wrote to Brown offering him the position of naturalist to the expedition. Brown accepted immediately.^[4]

The Investigator arrived in King George Sound in what is now Western Australia in December 1801. For three and a half years Brown did intensive botanic research in Australia, collecting about 3400 species, of which about 2000 were previously unknown. A large part of this collection was lost, however, when the Porpoise was wrecked en route to England.

Brown remained in Australia until May 1805. He then returned to Britain where he spent the next five years working on the material he had gathered. He published numerous species descriptions; in Western Australia alone he is the author of nearly 1200 species.

In early 1809 he read his paper called On the natural order of plants called Proteaceae to the Linnean Society of London. This was subsequently published in March 1810 as On the Proteaceae of Jussieu. It is significant for its contribution to the systematics of Proteaceae, and to the floristics of Australia, and also for its application of palynology to systematics. This work was extensively plagiarised by Richard Anthony Salisbury, who had memorised much of the Linnean reading and then inserted it in Joseph Knight's 1809 publication On the cultivation of the plants belonging to the natural order of Proteeae.

In 1810, he published the results of his collecting in his famous Prodromus Florae Novae Hollandiae et Insulae Van Diemen, the first systematic account of the Australian flora. That year, he succeeded Jonas C. Dryander as Sir Joseph Banks' librarian, and on Banks' death in 1820 Brown inherited his library and herbarium. This was transferred to the British Museum in 1827, and Brown was appointed Keeper of the Banksian Botanical Collection.

In 1822, he was elected a foreign member of the Royal Swedish Academy of Sciences.

In a paper read to the Linnean society in 1831 and published in 1833, Brown named the cell nucleus. The nucleus had been observed before, perhaps as early as 1682 by the Dutch microscopist Leeuwenhoek, and Franz Bauer had noted and drawn it as a regular feature of plant cells in 1802, but it was Brown who gave it the name it bears to this day (while giving credit to Bauer's drawings). Neither Bauer nor Brown thought the nucleus to be universal, and Brown thought it to be primarily confined to Monocotyledons.^[5]

After the division of the Natural History Department of the British Museum into three sections in 1837, Robert Brown became the first Keeper of the Botanical Department, remaining so until his death at Soho Square in London on June 10, 1858. He was succeeded by John Joseph Bennett.

Brown is buried in Kensal Green Cemetery in London.

Brown's name is commemorated in the Australia herb genus Brunonia as well as numerous Australian species such as Eucalyptus brownii, Banksia brownii and the moss Brown's Tetrodontium Moss (Tetrodontium brownianum), a species which he discovered growing at Roslin near Edinburgh whilst still a student. The plant can still be found at the site of its discovery.^[6] Passing through the suburb of Kingston, south of Hobart, Tasmania, formerly Van Diemen's Land, is Brown's River, named in his honor, upon the banks of which, he collected botanical samples. Mount Brown ^[7] in British Columbia, Canada is named for him as well.

The standard author abbreviation R.Br. is used to indicate this individual as the author when citing a botanical name.^[8]

Brownian motion

Robert Brown, painted by Henry William Pickersgill

In 1827, while examining pollen grains and the spores of mosses and Equisetum suspended in water under a microscope, Brown observed minute particles within vacuoles in the pollen grains executing a continuous jittery motion. He then observed the same motion in particles of dust, enabling him to rule out the hypothesis that the effect was due to pollen being alive. Although Brown did not provide a theory to explain the motion, and Jan Ingenhousz already had reported a similar effect using charcoal particles, in German and French publications of 1784 and 1785,^[9] the phenomenon is now known as Brownian motion.

In recent years it was generally held that Brown's microscopes were insufficient to reveal phenomena of this order. Brown's re-discoveries were denied in a brief paper in 1991.^[10] Shortly thereafter, in a hastily-compiled illustrated presentation, British microscopist Brian J. Ford presented to Inter Micro 1991 in Chicago a reprise of the demonstration. His video sequences substantiated Brown's observations.^[11]

Publications

Observations on the Structure and Affinities of the More Remarkable Plants Collected by the Late Walter Oudney, M.D.; and Major Denham, and Captain Clapperton, in the years 1822, 1823, and 1824 During the Expedition to Explore Central Africa. London: Thomas Davison, Whitefriars. 1826. http://www.google.com/books?id=nVYYAAAAYAAJ.

Prodromus florae Novae Hollandiae et Insulae Van-Diemen :exhibens characteres plantarum /quas annis 1802-1805 per oras utriusque insulae collegit et descripsit Robertus Brown; insertis passim aliis speciebus, auctori hucusque cognitis, seu evulgatis, seu ineditis, praesertim Banksianis, in primo itinere navarchi Cook detectis. Norimbergae: Sumtibus L. Schrag. 1827. http://www.botanicus.org/title/b11778490.

Notes and references

^ Mabberley, David (1985). Jupiter botanicus: Robert Brown of the British Museum. British Museum (Natural History). pp. 15–18. ISBN 3-7682-1408-7.
^ Mabberley (1985) pp. 18–28.
^ ^a ^b ^c Mabberley (1985) p. 28–60.
^ Mabberley (1985), pp. 59–63.
^ Harris, Henry (1999). The Birth of the Cell. Yale University Press. pp. 76 – 81.
^ "Bryology (mosses, liverworts and hornworts)" Royal Botanic Garden Edinburgh. Retrieved 15 May 2008.
^ Mount Brown in the BC Geographical Names Information System
^ "Author Query". International Plant Names Index. http://www.ipni.org/ipni/authorsearchpage.do.
^ van der Pas, Peter W. (1971). "The Discovery of Brownian motion". Scientiarum Historia 13: 17. http://www.physik.uni-augsburg.de/theo1/hanggi/History/BM-History.html.
^ Deutsch, D. H. (1991). "Did Robert Brown Observe Brownian Motion: Probably Not". Scientific American 265: 20. - See also Bulletin of the American Physical Society, 36 (4): 1374, April 1991.
^ Ford, Brian J. (1991). "Robert Brown, Brownian Movement, and Teethmarks on the Hatbrim". The Microscope 39: 161 – 171. - See also this site.

External links

Wikimedia Commons has media related to: Robert Brown (botanist)

Wikisource has the text of the 1911 Encyclopædia Britannica article Brown, Robert.

Classic papers by Robert Brown PDFs of several original papers by Robert Brown are available from this webpage.
Robert Brown’s Australian Botanical Specimens, 1801–1805 at the British Museum (BM) A comprehensive database.
Robert Brown's work on orchids.
Robert Brown on Ask.com
Serle, Percival (1949). "Brown, Robert". Dictionary of Australian Biography. Sydney: Angus and Robertson. http://gutenberg.net.au/dictbiog/0-dict-biogBr-By.html#brown3. Retrieved 2006-08-05.

Awards and achievements
Preceded by Carl Friedrich Gauss and Michael Faraday	Copley Medal 1839	Succeeded by Justus von Liebig and Jacques Charles François Sturm

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