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Antonie van LeeuwenhoekFRS
Portrait by Jan Verkolje, after 1680
Born	(1632-10-24)24 October 1632 Delft, Dutch Republic
Died	26 August 1723(1723-08-26) (aged 90) Delft, Dutch Republic
Known for	First acknowledged microscopist and microbiologist in history Microscopic discovery of microorganisms (animalcule)
Scientific career
Fields	Microscopy Microbiology
Signature

Antonie Philips van Leeuwenhoek FRS (/ˈɑːntəni vɑːn ˈleɪvənhuːk, -hʊk/ AHN-tə-nee vahn LAY-vən-hook, -⁠huuk; Dutch: [ˈɑntoːni vɑn ˈleːu.ə(n)ˌɦuk] ; 24 October 1632 – 26 August 1723) was a Dutch microbiologist and microscopist in the Golden Age of Dutch science and technology. A largely self-taught man in science, he is commonly known as "the Father of Microbiology", and one of the first microscopists and microbiologists. Van Leeuwenhoek is best known for his pioneering work in microscopy and for his contributions toward the establishment of microbiology as a scientific discipline.

Raised in Delft, Dutch Republic, Van Leeuwenhoek worked as a draper in his youth and founded his own shop in 1654. He became well-recognized in municipal politics and developed an interest in lensmaking. In the 1670s, he started to explore microbial life with his microscope.

Using single-lensed microscopes of his own design and make, Van Leeuwenhoek was the first to observe and to experiment with microbes, which he originally referred to as dierkens, diertgens or diertjes. He was the first to relatively determine their size. Most of the "animalcules" are now referred to as unicellular organisms, although he observed multicellular organisms in pond water. He was also the first to document microscopic observations of muscle fibers, bacteria, spermatozoa, red blood cells, crystals in gouty tophi, and among the first to see blood flow in capillaries. Although Van Leeuwenhoek did not write any books, he described his discoveries in chaotic letters to the Royal Society, which published many of his letters in their Philosophical Transactions.

Early life and career

Antonie van Leeuwenhoek was born in Delft, Dutch Republic, on 24 October 1632. On 4 November, he was baptized as Thonis. His father, Philips Antonisz van Leeuwenhoek, was a basket maker who died when Antonie was only five years old. His mother, Margaretha (Bel van den Berch), came from a well-to-do brewer's family. She remarried Jacob Jansz Molijn, a painter and the family moved to Warmond around 1640. Antonie had four older sisters: Margriet, Geertruyt, Neeltje, and Catharina. When he was around ten years old his step-father died. He was sent to live in Benthuizen with his uncle, an attorney. At the age of 16 he became a bookkeeper's apprentice (casher) at a linen-draper's shop at Warmoesstraat in Amsterdam, which was owned by William Davidson. Van Leeuwenhoek left there after six years.

In July 1654, Van Leeuwenhoek married Barbara de Mey in Delft, with whom he fathered one surviving daughter, Maria (four other children died in infancy). He would live and study for the rest of his life at Hypolytusbuurt in a house he bought in 1655. He opened a draper's shop, selling linen, yarn and ribbon to seamstresses and tailors. His status in Delft grew throughout the years. In 1660 he received a lucrative job as chamberlain for the sheriffs in the city hall, a position which he would hold for almost 40 years. His duties included maintaining the premises, heating, cleaning, opening for meetings, performing duties for those assembled, and maintaining silence on all matters discussed there.

In 1669 he was appointed as a land surveyor by the court of Holland; at some time he combined it with another municipal job, being the official "wine-gauger" of Delft and in charge of the city wine imports and taxation. His wife had died in 1666, and in 1671, Van Leeuwenhoek remarried to Cornelia Swalmius with whom he had no children.

Van Leeuwenhoek was a contemporary of another famous Delft citizen, the painter Johannes Vermeer, who was baptized just four days earlier. It has been suggested that he is the man portrayed in two Vermeer paintings of the late 1660s, The Astronomer and The Geographer, but others argue that there appears to be little physical similarity. Because they were both relatively important men in a city with only 24,000 inhabitants, living both close to the main market, it is likely they knew each other. Van Leeuwenhoek acted as the executor of Vermeer's will when the painter died in 1675.

Van Leeuwenhoek's religion was "Dutch Reformed" and Calvinist. Like Jan Swammerdam he often referred with reverence to the wonders God designed in making creatures great and small, and believed that his discoveries were merely further proof of the wonder of creation.

Microscopic study

While running his draper shop, Van Leeuwenhoek wanted to see the quality of the thread better than what was possible using the magnifying lenses of the time. He developed an interest in lensmaking, although few records exist of his early activity. By placing the middle of a small rod of soda lime glass in a hot flame, one can pull the hot section apart to create two long whiskers of glass. Then, by reinserting the end of one whisker into the flame, a very small, high-quality glass lens is created. Significantly, a May 2021 neutron tomography study of a high-magnification Leeuwenhoek microscope captured images of the short glass stem characteristic of this lens creation method. For lower magnifications he also made ground lenses. To help keep his methods confidential he apparently intentionally encouraged others to think grinding was his primary or only lens construction method.

Recognition by the Royal Society

After developing his method for creating powerful lenses and applying them to the study of the microscopic world, Van Leeuwenhoek introduced his work to his friend, the prominent Dutch physician Reinier de Graaf. When the Royal Society in London published the groundbreaking work of an Italian lensmaker in their journal Philosophical Transactions of the Royal Society, de Graaf wrote to the editor of the journal, Henry Oldenburg, with a ringing endorsement of Van Leeuwenhoek's microscopes which, he claimed, "far surpass those which we have hitherto seen". In response, in 1673 the society published a letter from Van Leeuwenhoek that included his microscopic observations on mold, bees, and lice. Then, in 1674, Van Leeuwenhoek made his most significant discovery. Starting from the assumption that life and motility are similar, he determined that the moving objects observed under his microscope were little animals. He later recorded his observations in his diary.

Van Leeuwenhoek's work fully captured the attention of the Royal Society, and he began corresponding regularly with the society regarding his observations. At first he had been reluctant to publicize his findings, regarding himself as a businessman with little scientific, artistic, or writing background, but de Graaf urged him to be more confident in his work. By the time Van Leeuwenhoek died in 1723, he had written some 190 letters to the Royal Society, detailing his findings in a wide variety of fields, centered on his work in microscopy. He only wrote letters in his own colloquial Dutch; he never published a proper scientific paper in Latin. He strongly preferred to work alone, distrusting the sincerity of those who offered their assistance. The letters were translated into Latin or English by Henry Oldenburg, who had learned Dutch for this very purpose. He was also the first to use the word animalcules to translate the Dutch words that Leeuwenhoek used to describe microorganisms. Despite the initial success of Van Leeuwenhoek's relationship with the Royal Society, soon relations became severely strained. His credibility was questioned when he sent the Royal Society a copy of his first observations of microscopic single-celled organisms dated 9 October 1676. Previously, the existence of single-celled organisms was entirely unknown. Thus, even with his established reputation with the Royal Society as a reliable observer, his observations of microscopic life were initially met with some skepticism.

Eventually, in the face of Van Leeuwenhoek's insistence, the Royal Society arranged for Alexander Petrie, minister to the English Reformed Church in Delft; Benedict Haan, at that time Lutheran minister at Delft; and Henrik Cordes, then Lutheran minister at the Hague, accompanied by Sir Robert Gordon and four others, to determine whether it was in fact Van Leeuwenhoek's ability to observe and reason clearly, or perhaps, the Royal Society's theories of life that might require reform. Finally in 1677, Van Leeuwenhoek's observations were fully acknowledged by the Royal Society.

Antonie van Leeuwenhoek was elected to the Royal Society in February 1680 on the nomination of William Croone, a then-prominent physician. Van Leeuwenhoek was "taken aback" by the nomination, which he considered a high honour, although he did not attend the induction ceremony in London, nor did he ever attend a Royal Society meeting. He had his portrait painted by Jan Verkolje with the certificate signed by James II of England on the table beside him.

Scientific fame

By the end of the seventeenth century, Van Leeuwenhoek had a virtual monopoly on microscopic study and discovery. His contemporary Robert Hooke, an early microscope pioneer, bemoaned that the field had come to rest entirely on one man's shoulders. In 1673, his first letter was published in the journal of the Royal Society of London. He was visited over the years by many notable individuals who gazed at the tiny creatures. One of the first was Jan Swammerdam. Around 1675, it was Johan Huydecoper, who was very interested in collecting and growing plants for his estate Goudestein, becoming in 1682 manager of the Hortus Botanicus Amsterdam. Christiaan Huygens, Leibniz (1676), John Locke (1678, 1685), James II of England (1679), William III of Orange, Mary II of England and Thomas Molyneux (in 1685) visited. In October 1697, Van Leeuwenhoek visited the Tsar Peter the Great on his boat, moored in the Schie or the Arsenaal. On this occasion, he presented the Tsar with an "eel-viewer", so Peter could study blood circulation whenever he wanted. In 1706, it was Govert Bidloo; in 1714, Richard Bradley (botanist); and, in 1716, Herman Boerhaave and Frederik Ruysch. To the disappointment of his guests, Van Leeuwenhoek refused to reveal the cutting-edge microscopes he relied on for his discoveries, instead showing visitors a collection of average-quality lenses.

Techniques

Antonie van Leeuwenhoek made more than 500 optical lenses. He also created at least 25 single-lens microscopes, of differing types, of which only nine have survived. These microscopes were made of silver or copper frames, holding hand-made lenses. Those that have survived are capable of magnification up to 275 times. It is suspected that Van Leeuwenhoek possessed some microscopes that could magnify up to 500 times. Although he has been widely regarded as a dilettante or amateur, his scientific research was of remarkably high quality.

The single-lens microscopes of Van Leeuwenhoek were relatively small devices, the largest being about 5 cm long. They are used by placing the lens very close in front of the eye. The other side of the microscope had a pin, where the sample was attached in order to stay close to the lens. There were also three screws to move the pin and the sample along three axes: one axis to change the focus, and the two other axes to navigate through the sample.

Van Leeuwenhoek maintained throughout his life that there are aspects of microscope construction "which I only keep for myself", in particular his most critical secret of how he made the lenses. For many years no one was able to reconstruct Van Leeuwenhoek's design techniques, but, in 1957, C.L. Stong used thin glass thread fusing instead of polishing, and successfully created some working samples of a Van Leeuwenhoek design microscope. Such a method was also discovered independently by A. Mosolov and A. Belkin at the Russian Novosibirsk State Medical Institute. In May 2021, researchers in the Netherlands published a non-destructive neutron tomography study of a Leeuwenhoek microscope. One image in particular shows a Stong/Mosolov-type spherical lens with a single short glass stem attached (Fig. 4). Such lenses are created by pulling an extremely thin glass filament, breaking the filament, and briefly fusing the filament end. The nuclear tomography article notes this lens creation method was first devised by Robert Hooke rather than Leeuwenhoek, which is ironic given Hooke's subsequent surprise at Leeuwenhoek's findings.

Van Leeuwenhoek used samples and measurements to estimate numbers of microorganisms in units of water. He also made good use of the huge advantage provided by his method. He studied a broad range of microscopic phenomena, and shared the resulting observations freely with groups such as the British Royal Society. Such work firmly established his place in history as one of the first and most important explorers of the microscopic world. Van Leeuwenhoek was one of the first people to observe cells, much like Robert Hooke. He also corresponded with Antonio Magliabechi.

Discoveries

• Leeuwenhoek was one of the first to conduct experiments on himself. It was from his finger that blood was drawn for examination, and he placed pieces of his skin under a microscope, examining its structure in various parts of the body, and counting the number of vessels that permeate it.
• Both Marcello Malpighi and Jan Swammerdam saw these structures before Leeuwenhoek, but Leeuwenhoek was the first to recognize what they are: red blood cells.
• Infusoria (protists in modern zoological classification), in 1674
• In 1675, he was studying a variety of minerals, especially salts, and parts of plants and animals.
• The vacuole of the cell in 1676
• Spermatozoa, in 1677
• The banded pattern of muscular fibers, in 1682
• Bacteria, (e.g., large Selenomonads from the human mouth), in 1683
• It seems he used horseradish to find out what causes irritation on the tongue. He used the effect of vinegar.
• Leeuwenhoek diligently began to search for his animalcules. He found them everywhere: in rotten water, in ditches, on his own teeth. "Although I am now fifty years old," he wrote to the Royal Society, "my teeth are well preserved, because I am in the habit of rubbing them with salt every morning." He described paradontitis.
• In 1684 he published his research on the ovary.
• In 1687, Van Leeuwenhoek reported his research on the coffee bean. He roasted the bean, cut it into slices and saw a spongy interior. The bean was pressed, and an oil appeared. He boiled the coffee with rain water twice and set it aside.
• Leeuwenhoek corresponded regularly with Anthonie Heinsius, the Delft pensionary in the States of Holland and in 1687 member of the board of the Delft chamber of the VOC.
• In 1696 Nicolaas Witsen sent him a map of Tartary and ore found near the Amur in Siberia.

• Van Leeuwenhoek has been recognized as the first person to use a histological stain to color specimens observed under the microscope using saffron. He used this technique only once.

• In 1702 he requested a book on Peruvian silver mines in Potosí.

Like Robert Boyle and Nicolaas Hartsoeker, Van Leeuwenhoek was interested in dried cochineal, trying to find out if the dye came from a berry or an insect.

He studied rainwater, the seeds of oranges, worms in sheep's liver, the eye of a whale, the blood of fishes, mites, coccinellidae, the skin of elephants, Celandine, and Cinchona.

• Van Leeuwenhoek's microscopes by Henry Baker
• Leeuwenhoek Boerhaave museum
• A replica of a microscope by Van Leeuwenhoek

Legacy and recognition

By the end of his life, Van Leeuwenhoek had written approximately 560 letters to the Royal Society and other scientific institutions concerning his observations and discoveries. Even during the last weeks of his life, Van Leeuwenhoek continued to send letters full of observations to London. The last few contained a precise description of his own illness. He suffered from a rare disease, an uncontrolled movement of the midriff, which now is named Van Leeuwenhoek's disease. He died at the age of 90, on 26 August 1723, and was buried four days later in the Oude Kerk in Delft.

In 1981, the British microscopist Brian J. Ford found that Van Leeuwenhoek's original specimens had survived in the collections of the Royal Society of London. They were found to be of high quality, and all were well preserved. Ford carried out observations with a range of single-lens microscopes, adding to our knowledge of Van Leeuwenhoek's work. In Ford's opinion, Leeuwenhoek remained imperfectly understood, the popular view that his work was crude and undisciplined at odds with the evidence of conscientious and painstaking observation. He constructed rational and repeatable experimental procedures and was willing to oppose received opinion, such as spontaneous generation, and he changed his mind in the light of evidence.

On his importance in the history of microbiology and science in general, the British biochemist Nick Lane wrote that he was "the first even to think of looking—certainly, the first with the power to see." His experiments were ingenious, and he was "a scientist of the highest calibre", attacked by people who envied him or "scorned his unschooled origins", not helped by his secrecy about his methods.

The Antoni van Leeuwenhoek Hospital in Amsterdam, named after Van Leeuwenhoek, is specialized in oncology. In 2004, a public poll in the Netherlands to determine the greatest Dutchman ("De Grootste Nederlander") named Van Leeuwenhoek the 4th-greatest Dutchman of all time.

On 24 October 2016, Google commemorated the 384th anniversary of Van Leeuwenhoek's birth with a Doodle that depicted his discovery of "little animals" or animalcules, now known as unicellular organisms.

The Leeuwenhoek Medal, Leeuwenhoek Lecture, Leeuwenhoek crater, Leeuwenhoeckia, Levenhookia (a genus in the family Stylidiaceae), Leeuwenhoekiella (an aerobic bacterial genus), and the scientific publication Antonie van Leeuwenhoek: International Journal of General and Molecular Microbiology are named after him.

• Memorial of Antonie van Leeuwenhoek in the Oude Kerk in Delft
• Antonie van Leeuwenhoek is buried in the Oude Kerk.
• Het Gouden Hoofd (Hippolytusbuurt 1–3, Delft).

See also

• Animalcule
• Regnier de Graaf
• Dutch Golden Age
• History of microbiology
• Microscopy
• Microscope
• Robert Hooke
• Microscopic discovery of microorganisms
• Microscopic scale
• Science and technology in the Dutch Republic
• Scientific Revolution
• Nicolas Steno
• Jan Swammerdam
• Timeline of microscope technology
• Johannes Vermeer

Notes

1. Van Leeuwenhoek is universally acknowledged as the father of microbiology because he was the first to undisputedly discover/observe, describe, study, conduct scientific experiments with microscopic organisms (microbes), and relatively determine their size, using single-lensed microscopes of his own design. Leeuwenhoek is also considered to be the father of bacteriology and protozoology (recently known as protistology).
2. The spelling of Van Leeuwenhoek's name is exceptionally varied. He was christened as Thonis, but always went by Antonj (corresponding with the English Antony). The final j of his given name is the Dutch tense i. Until 1683 he consistently used the spelling Antonj Leeuwenhoeck (ending in –oeck) when signing his letters. Throughout the mid-1680s he experimented with the spelling of his surname, and after 1685 settled on the most recognized spelling, Van Leeuwenhoek.
3. Dutch for 'small animals' (translated into English as animalcules, from animalculum Latin for 'tiny animal')
4. In A Short History of Nearly Everything (p. 236) Bill Bryson alludes to rumors that Vermeer's mastery of light and perspective came from use of a camera obscura produced by Van Leeuwenhoek. This is one of the examples of the controversial Hockney–Falco thesis, which claims that some of the Old Masters used optical aids to produce their masterpieces.
5. He was also nominated as a "corresponding member" of the French Academy of Sciences in 1699, but there is no evidence that the nomination was accepted, nor that he was ever aware of it.
6. The "Lens on Leeuwenhoek" site, which is exhaustively researched and annotated, prints this letter in the original Dutch and in English translation, with the date 17 September 1683. Assuming that the date of 1676 is accurately reported from Pommerville (2014), that book seems more likely to be in error than the intensely detailed, scholarly researched website focused entirely on Van Leeuwenhoek.
7. Sixty-two years later, in 1745, a physician correctly attributed a diarrhea epidemic to Van Leeuwenhoek's "bloodless animals" (Valk 1745, cited by Moll 2003).

References

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74. Antoni van Leeuwenhoek (in Dutch). www.avl.nl accessed 25 October 2016.
75. "Fortuyn voted greatest Dutchman". news.bbc.com. 16 November 2004. Retrieved 26 March 2020.
76. New Google Doodle Celebrates Antoni van Leeuwenhoek, Inventor of Microbiology time.com accessed 24 October 2016.
77. Leeuwenhoek Medal and Lecture royalsociety.org accessed 24 October 2020
78. "Hippolytusbuurt 3, Leeuwenhoek's Home and Laboratory | Lens on Leeuwenhoek". lensonleeuwenhoek.net.

Sources

• Cobb, Matthew: Generation: The Seventeenth-Century Scientists Who Unraveled the Secrets of Sex, Life, and Growth. (US: Bloomsbury, 2006) ISBN 9781596910362
• Cobb, Matthew: The Egg and Sperm Race: The Seventeenth-Century Scientists Who Unlocked the Secrets of Sex and Growth. (London: Simon & Schuster, 2006)
• Davids, Karel: The Rise and Decline of Dutch Technological Leadership: Technology, Economy and Culture in the Netherlands, 1350–1800 . (Brill, 2008, ISBN 978-9004168657)
• Dobell, Clifford (1960) . Antony van Leeuwenhoek and His "Little Animals": being some account of the father of protozoology and bacteriology and his multifarious discoveries in these disciplines (Dover Publications ed.). New York: Harcourt, Brace and Company.
• Ford, Brian J. (1991). The Leeuwenhoek Legacy. Bristol and London: Biopress and Farrand Press.
• Ford, Brian J.: Single Lens: The Story of the Simple Microscope. (London: William Heinemann, 1985, 182 pp)
• Ford, Brian J.: The Revealing Lens: Mankind and the Microscope. (London: George Harrap, 1973, 208 pp)
• Fournier, Marian: The Fabric of Life: The Rise and Decline of Seventeenth-Century Microscopy (Johns Hopkins University Press, 1996, ISBN 978-0801851384)
• Huerta, Robert (2003). Giants of Delft: Johannes Vermeer and the Natural Philosophers: The Parallel Search for Knowledge during the Age of Discovery. Pennsylvania: Bucknell University Press.
• Moll, Warnar (2003). "Antonie van Leeuwenhoek". Onderzoeksportal . University of Amsterdam. Archived from the original on 18 February 2004. Retrieved 3 March 2016. Indeed, in this publication "Geneeskundig Verhaal van de Algemeene Loop-ziekte..." the author uses the work of Leeuwenhoek in describing the disease, draws some (preliminary) conclusions about the cause of the disease, he warns "non-believers of Van Leeuwenhoek to use a magnifying glass" and gives commentaries on the work of Anthonie van Leeuwenhoek and his findings.
• Payne, Alma Smith (1970). The Cleere Observer: A biography of Antoni van Leeuwenhoek. London: Macmillan.
• Ratcliff, Marc J.: The Quest for the Invisible: Microscopy in the Enlightenment. (Ashgate, 2009, 332 pp)
• Robertson, Lesley; Backer, Jantien et al.: Antoni van Leeuwenhoek: Master of the Minuscule. (Brill, 2016, ISBN 978-9004304284)
• Ruestow, Edward G (1996). The Microscope in the Dutch Republic: The Shaping of Discovery. New York: Cambridge University Press.
• Snyder, Laura J. (2015). Eye of the Beholder: Johannes Vermeer, Antoni van Leeuwenhoek, and the Reinvention of Seeing. New York: W. W. Norton & Company.
• Struik, Dirk J.: The Land of Stevin and Huygens: A Sketch of Science and Technology in the Dutch Republic during the Golden Century (Studies in the History of Modern Science). (Springer, 1981, 208 pp)
• Valk, Evert (1745). Een geneeskundig verhaal van de algemeene loop-ziekte, die te Kampen en in de om-geleegene streeken heeft gewoed in 't jaar 1736 neevens een werktuigkunstige, en natuurkundige beschryvinge van de oorzaak, uitwerking en genezinge waar in word aan-getoond, dat dezelve, waarschynlyk, door bloed-loose diertjes, beschreven in de werken van Anthony van Leeuwenhoek, het werd te weeg gebragt, en door kwik voor-naamentlyk, uit-geroeid [A work on a disease in the city of Kampen in 1736 caused by "little animals". These bloodless animals are most likely the little animals described in the work of Leeuwenhoek and they can be killed by treatment of mercury] (in Dutch). Haarlem: Van der Vinne. p. 97. Retrieved 3 March 2016.
• Wilson, Catherine: The Invisible World: Early Modern Philosophy and the Invention of the Microscope. (Princeton University Press, 1997, ISBN 978-0691017099)
• de Kruif, Paul (1926). "I Leeuwenhoek: First of the Microbe Hunters". Microbe Hunters. Blue Ribbon Books. New York: Harcourt Brace & Company Inc. pp. 3–24. Retrieved 14 October 2020.

External links

• Leeuwenhoek's letters to the Royal Society (archived)
• The Correspondence of Anthonie van Leeuwenhoek in EMLO
• Lens on Leeuwenhoek (site on Leeuwenhoek's life and observations; archived)
• Vermeer connection website
• University of California, Berkeley article on van Leeuwenhoek
• Works by Antoni van Leeuwenhoek at Project Gutenberg
• Works by or about Antonie van Leeuwenhoek at the Internet Archive
• Retrospective paper on the Leeuwenhoek research by Brian J. Ford.
• Images seen through a van Leeuwenhoek microscope by Brian J. Ford.
• Instructions on making a van Leeuwenhoek Microscope Replica by Alan Shinn (archived)

v t e Antonie van Leeuwenhoek
General topics	Van Leeuwenhoek's microscopes Van Leeuwenhoek's microscopic experiments and discoveries Van Leeuwenhoek's microscopic discovery of microbial life Van Leeuwenhoek's letters to the Royal Society
Recognitions	Antoni van Leeuwenhoek Ziekenhuis Leeuwenhoek (crater) Leeuwenhoek Lecture Leeuwenhoek Medal Antonie van Leeuwenhoek (journal) Leeuwenhoeckia Levenhookia Leeuwenhoekiella
Category

v t e Optical microscopy
Microscope Optical microscopy
Illumination and contrast methods	Bright-field microscopy Köhler illumination Dark-field microscopy Phase contrast Quantitative phase-contrast microscopy Differential interference contrast (DIC) Dispersion staining Second harmonic imaging (SHIM) 4Pi microscope Structured illumination Sarfus Interference reflection microscopy (IRM/RICM) Raman
Fluorescence methods	Fluorescence microscopy Confocal microscopy Multiphoton microscopy (Two-photon, Three-photon) Image deconvolution Total internal reflection fluorescence microscopy (TIRF) Lightsheet microscopy (LSFM/SPIM) Lattice light-sheet microscopy
Sub-diffraction limit techniques	Diffraction limit Stimulated emission depletion (STED) Photo-activated localization microscopy (PALM/STORM) Near-field (NSOM/SNOM)
Category Commons

v t e Natural history
Pioneering naturalists	Classical antiquity Aristotle (History of Animals) Theophrastus (Historia Plantarum) Aelian (De Natura Animalium) Pliny the Elder (Natural History) Dioscorides (De Materia Medica) Renaissance Ulisse Aldrovandi Gaspard Bauhin (Pinax theatri botanici) Otto Brunfels Hieronymus Bock Andrea Cesalpino Valerius Cordus Leonhart Fuchs Conrad Gessner (Historia animalium) Frederik Ruysch William Turner (Avium Praecipuarum, New Herball) John Gerard (Herball, or Generall Historie of Plantes) Enlightenment Robert Hooke (Micrographia) Marcello Malpighi Antonie van Leeuwenhoek William Derham Hans Sloane Jan Swammerdam Regnier de Graaf Carl Linnaeus (Systema Naturae) Georg Steller Joseph Banks Johan Christian Fabricius James Hutton John Ray (Historia Plantarum) Comte de Buffon (Histoire Naturelle) Bernard Germain de Lacépède Gilbert White (The Natural History of Selborne) Thomas Bewick (A History of British Birds) Jean-Baptiste Lamarck (Philosophie zoologique) 19th century George Montagu (Ornithological Dictionary) Georges Cuvier (Le Règne Animal) William Smith Charles Darwin (On the Origin of Species) Alfred Russel Wallace (The Malay Archipelago) Henry Walter Bates (The Naturalist on the River Amazons) Alexander von Humboldt John James Audubon (The Birds of America) William Buckland Charles Lyell Mary Anning Jean-Henri Fabre Louis Agassiz Philip Henry Gosse Asa Gray William Jackson Hooker Joseph Dalton Hooker William Jardine (The Naturalist's Library) Ernst Haeckel (Kunstformen der Natur) Richard Lydekker (The Royal Natural History) 20th century Martinus Beijerinck Abbott Thayer (Concealing-Coloration in the Animal Kingdom) Hugh B. Cott (Adaptive Coloration in Animals) Niko Tinbergen (The Study of Instinct) Konrad Lorenz (On Aggression) Karl von Frisch (The Dancing Bees) Ronald Lockley (Shearwaters)
Topics	Natural history museums (List) Parson-naturalists (List) Natural History Societies List of natural history dealers

v t e Microorganisms
Groups	Archaea Bacteria Cyanobacteria Fungi Nanobacterium Prokaryote Protist Protozoa Virus
Microbiology	Microbial biogeography Microbial genetics Microbial intelligence Microbial metabolism Microbial phylogenetics Microbial population biology Mycology Virology
Motion	Bacterial motility run-and-tumble twitching gliding Protist locomotion amoeboids Bacteria collective motion
Ecology	Biofilm Biological pump Kill the Winner hypothesis Microbial consortium Microbial cooperation Microbial biodegradation Microbial ecology Microbial cyst Microbial food web microbial loop viral shunt Microbial mat Microbial synergy Microbiome microbiota holobiont Quorum sensing Host microbe interactions in Caenorhabditis elegans
Plants	Plant microbiome Root microbiome Seagrass microbiome Soil microbiology Spermosphere
Marine	Marine microorganisms Marine viruses Marine prokaryotes Marine protists Microalgae Antarctic microorganism Coral microbiome Hydrothermal vent microbial communities Marine microbial symbiosis Microbial oxidation of sulfur Phycosphere Picoeukaryote International Census of Marine Microbes
Human related	Microbes in human culture Microbiomes of the built environment Food microbiology Microbial oil Microbial symbiosis and immunity Nylon-eating Human microbiome asthma dysbiosis fecal gut lung mouth skin vagina in pregnancy placenta uterus Human Microbiome Project Protein production Synthetic microbial consortia
Techniques	Dark-field microscopy DNA sequencing Impedance microbiology Microbial cytology Microbial DNA barcoding Microbiological culture Staining
Other	Bioremediation Deep biosphere Microbial dark matter Microswimmer biohybrid Lines on the Antiquity of Microbes Microbially induced sedimentary structure Omics Physical factors affecting microbial life Siderophore
Category

• Antonie van Leeuwenhoek
• 1632 births
• 1723 deaths
• 17th-century Dutch businesspeople
• 17th-century Dutch inventors
• 17th-century Dutch naturalists
• 17th-century Dutch biologists
• 18th-century Dutch biologists
• Burials at the Oude Kerk, Delft
• Dutch Calvinist and Reformed Christians
• Dutch microbiologists
• Fellows of the Royal Society
• Microscopists
• People from Delft
• Protistologists
• Dutch scientific instrument makers