Lazzaro Spallanzani

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Lazzaro Spallanzani
Spallanzani.jpg
Lazzaro Spallanzani
Born (1729-01-12)12 January 1729[1]
Scandiano
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Pavia
Nationality Italian
Fields Biology
Institutions University of Modena and Reggio Emilia
University of Pavia
University of Padua
Alma mater University of Bologna
Known for Digestion
Animal fertilisation
Discrediting spontaneous generation
Animal echolocation

Lazzaro Spallanzani (Italian pronunciation: [ˈladdzaro spallanˈtsani]; 12 January 1729 – 11 February 1799) was an Italian Catholic priest (for which he was nicknamed Abbé Spallanzani), biologist and physiologist who made important contributions to the experimental study of bodily functions, animal reproduction, and animal echolocation.[2] His research on biogenesis paved the way for the downfall of the theory of spontaneous generation, a prevailing idea at the time that organisms develop from inanimate matters, though the final death blow to the idea was dealt by French scientist Louis Pasteur a century later.

His most important works were summed up in his book Experiencias Para Servir a La Historia de La Generación De Animales y Plantas (Experiences to Serve to the History of the Generation of Animals and Plants), published in 1786. Among his contributions were experimental demonstrations of fertilisation between ova and spermatozoa, and in vitro fertilisation.

Biography

File:Monumento a Lazzaro Spallanzani.jpg
The statue of Spallanzani in Scandiano has him examining a frog through a magnifying glass.
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Plaque dedicated to Spallanzani in Portovenere, Italy

Spallanzani was born in Scandiano in the modern province of Reggio Emilia to Gianniccolo Spallanzani and Lucia Zigliani. His father, a lawyer by profession, was not impressed with young Spallanzani who spent more time with small animals than studies. With financial support from Vallisnieri Foundation, his father enrolled him to the Jesuit Seminary at age 15. When he was asked to join the order, he refused. Persuaded by his father and with the help of Monsignor Castelvetro, the Bishop of Reggio, he studied law at the University of Bologna, which he gave up soon and turned to science. Here, his famous kinswoman, Laura Bassi, was professor of physics and it is to her influence that his scientific impulse has been usually attributed. With her he studied natural philosophy and mathematics, and gave also great attention to languages, both ancient and modern, but soon abandoned them. It took him a good friend Antonio Vallisnieri jr. to convince his father to drop law as a career and took up academics instead.[3]

In 1754, at the age of 25, soon after he was ordained he became professor of logic, metaphysics and Greek in the University of Reggio.[4] In 1763, he was moved to the University of Modena,[5] where he continued to teach with great assiduity and success, but devoted his whole leisure to natural science. There he also served as a priest of the Congregation Beata Vergine and S. Carlo.[3] He declined many offers from other Italian universities and from St Petersburg until 1768, when he accepted the invitation of Maria Theresa to the chair of natural history in the University of Pavia, which was then being reorganized.[4] He also became director of the museum, which he greatly enriched by the collections of his many journeys along the shores of the Mediterranean Sea.[6] In June 1768 Spallanzani was elected a Fellow of the Royal Society and in 1775 was elected a foreign member of the Royal Swedish Academy of Sciences.[citation needed]

In 1785 he was invited to University of Padua, but to retain his services his sovereign doubled his salary and allowed him leave of absence for a visit to Turkey where he remained nearly a year and made many observations, among which may be noted those of a copper mine in Chalki and of an iron mine at Principi. His return home was almost a triumphal progress: at Vienna he was cordially received by Joseph II and on reaching Pavia he was met with acclamations outside the city gates by the students of the university. During the following year his students exceeded five hundred. While he was travelling in the Balkans and to Constantinople, his integrity in the management of the museum was called in question (he was accused of the theft of specimens from the University's collection to add to his own cabinet of curiosities), with letters written across Europe to damage Spallanzani's reputation. A judicial investigation speedily cleared his honour to the satisfaction of some of his accusers.[6] But Spallanzani got his revenge on his principal accuser, a jealous colleague, by planting a fake specimen of a composite "species". When his colleague published the remarkable specimen Spallanzani revealed the joke, resulting in wide ridicule and humiliation.

In 1796, Spallanzani received an offer for professor at the National Museum of Natural History, France in Paris, but declined due to his age. He died from bladder cancer on 12 February 1799, in Pavia. After his death, his bladder was removed for study by his colleagues, after which it was placed on public display in a museum in Pavia, where it remains to this day.

His indefatigable exertions as a traveller, his skill and good fortune as a collector, his brilliance as a teacher and expositor, and his keenness as a controversialist no doubt aid largely in accounting for Spallanzani's exceptional fame among his contemporaries; his letters account for his close relationships with many famed scholars and philosophers, like Georges-Louis Leclerc, Comte de Buffon, Lavoisier, and Voltaire. Yet greater qualities were by no means lacking. His life was one of incessant eager questioning of nature on all sides, and his many and varied works all bear the stamp of a fresh and original genius, capable of stating and solving problems in all departments of science—at one time finding the true explanation of stone skipping (formerly attributed to the elasticity of water) and at another helping to lay the foundations of our modern volcanology and meteorology.[6]

Scientific contributions

Spontaneous generation

Spallanzani's first scientific work was in 1765 Saggio di osservazioni microscopiche concernenti il sistema della generazione de' signori di Needham, e Buffon (Essay on microscopic observations regarding the generation system of Messrs. Needham and Buffon) which was the first systematic rebuttal of the theory of the spontaneous generation.[3] At the time, the microscope was already available to researchers, and using it, the proponents of the theory, Pierre Louis Moreau de Maupertuis, Buffon and John Needham, came to the conclusion that there is a life-generating force inherent to certain kinds of inorganic matter that causes living microbes to create themselves if given sufficient time.[7] Spallanzani's experiment showed that it is not an inherent feature of matter, and that it can be destroyed by an hour of boiling. As the microbes did not re-appear as long as the material was hermetically sealed, he proposed that microbes move through the air and that they could be killed through boiling. Needham argued that experiments destroyed the "vegetative force" that was required for spontaneous generation to occur. Spallanzani paved the way for research by Louis Pasteur, who defeated the theory of spontaneous generation almost a century later.[8]

Digestion

In his work Dissertationi di fisica animale e vegetale (Dissertation on the physiology of animals and vegetables, in 2 volumes, 1780), Spallanzani was the first to explain the process of digestion in animals. Here he first interpreted the process of digestion, which he proved to be no mere mechanical process of trituration – that is, of grinding up the food – but one of actual chemical solution, taking place primarily in the stomach, by the action of the gastric juice.[6]

Reproduction

Spallanzani described animal (mammal) reproduction in his Experiencias Para Servir a La Historia de La Generación De Animales y Plantas (1786). He was the first to show that fertilisation requires both spermatozoa and an ovum. He was the first to perform in vitro fertilization, with frogs, and an artificial insemination, using a dog.[9] Spallanzani showed that some animals, especially newts, can regenerate some parts of their body if injured or surgically removed.[3]

In spite of his scientific background, Spallanzani endorsed preformationism, an idea that organisms develop from their own miniature selves; e.g. animals from minute animals, animalcules. In 1784, he performed filtration experiment in which he successfully separated seminal fluid of frogs – a liquid portion and a gelatinous animalcule (spermatozoa) portion. But then he assumed that it was the liquid part which could induce fertilisation. A staunch ovist, he believed that animal form was already developed in the eggs and fertilisation by semen was only an activation for growth.[10]

Echolocation

Spallanzani is also famous for extensive experiments in 1793 on how bats could fly at night to detect objects (including prey) and avoid obstacles, where he concluded that bats do not use their eyes for navigation, but some other sense.[11][12] He was originally inspired by his observation that tamed barn owl flew properly at night under a dim-lit candle, but struck against the wall when the candle was put out. He managed to capture three wild bats in Scandiono, and performed similar experiment, on which he wrote (on 20 August 1793):

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Having seen this, the candle was taken away, and for my eyes like for those of my brother and cousins we were in complete darkness. Yet the animals continued to fly around as before and never struck against obstacles, nor did they fall down, as would have happened with a night-bird. Thus a place which we believe to be completely dark is not at all so, because bats certainly could not see without light.

A few days later he took two bats and covered their eyes with opaque disc made of birdlime. To his astonishment, both bats flew completely normally. He went further by surgically removing the eyeballs of one bat, which he observed as:

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[The bat] flew quickly, following the different subterranean pathways from one end to the other with the speed and sureness of an uninjured bat. More than once the animal landed on the walls and at the roof of the sotterranei and finally it landed in a hole in the ceiling two inches wide, hiding itself there immediately. My astonishment at this bat which absolutely could see although deprived of its eyes is inexpressible.[13]

He concluded that bats do not need vision for navigation; although he failed to find the reason. At the time other scientists were sceptical and ridiculed his findings.[9] A contemporary of Spallanzani, the Swiss physician and naturalist Louis Jurine, learned of Spallanzani's experiments, investigated the possible mechanism of bat navigation. He discovered that bat flight was disoriented when their ears were plugged.[14] But Spallanzani did not believe that it was about hearing since bats flew very silently. He repeated his experiments by using improved ear plugs using turpentine, wax, pomatum or tinder mixed with water, to find that blinded bats could not navigate without hearing.[15] He was still suspicious that deafness alone was the cause of disoriented flight and that hearing was vital that he conducted some rather painful experiments such as burning and removing the external ear, and piercing through the inner ear. After these operations, he became convinced that hearing was fundamental to normal bat flight, upon which he noted:

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This experiment, which is so decisively in favor of hearing ... has been repeated by me with equal results both in blinded bats and in seeing one.[13]

By then he was too convinced that he suggested the ear was an organ of navigation, writing:

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The experiments of M. Professor Jurine, confirming by many examples those which I have done, and varied in many ways, establish without doubt the influence of the ear in the flight of blinded bats. Can it then still be said that ... [for bats] their ears rather than their eyes serve to direct them in flight?[15]

The exact scientific principle was discovered only in 1938 by two American biologists Donald Griffin and Robert Galambos.[16][17]

Fossils

Spallanzani studied the formation and origin of marine fossils found in distant regions of the sea and over the ridge mountains in some regions of Europe, which resulted in the publication in 1755 of a small dissertation, "Dissertazione sopra i corpi marino-montani then presented at the meeting the Accademia degli Ipocondriaci di Reggio Emilia". Although aligned to one of the trends of his time, which attributed the occurrence of marine fossils on mountains to the natural movement of the sea, not the universal flood, Spallanzani developed his own hypothesis, based on the dynamics of the forces that changed the state of the Earth after God's creation.[18]

A few years later, Spallanzani published reports about trips he made to Portovenere, Cerigo Island, and Two Sicilies, addressing important issues such as the discovery of fossil shells within volcanic rocks, human fossils, and the existence of fossils of extinct species. His concern with fossils witnesses how, in the style of the eighteenth century, Spallanzani integrated studies of the three kingdoms of nature.[19]

Other works

Spallanzani studied and made important descriptions on blood circulation and respiration.[9] In 1777, he gave the name Tardigrada (from Latin meaning "slow-moving") for the phylum of animal group comprising one of the most durable extremophiles still to this day.[citation needed]

In 1788 he visited Vesuvius and the volcanoes of the Lipari Islands and Sicily, and embodied the results of his researches in a large work (Viaggi alle due Sicilie ed in alcune parti dell'Appennino), published four years later.

Honours

Spallanzani was elected Fellow of the Royal Society of London. He was member of Prussian Academy of Sciences, Royal Swedish Academy of Sciences, and Göttingen Academy of Sciences and Humanities.[9]

References

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  11. Spallanzani concluded that in order to hunt at night, bats didn't rely on their eyes, but on some other sense; however, due to the experimental methods and the species of bat that he used, he didn't conclude that that other sense was hearing. See:
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  14. Peschier (1798) "Extraits des expériences de Jurine sur les chauve-souris qu'on a privé de la vue" (Extracts of Jurine's experiments on bats that have been deprived of sight), Journal de physique, de chimie, d'histoire naturelle … , 46 : 145–148. [in French]
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  18. SPALLANZANI, Lazzaro. Regno lapideo. In: Spallanzani, Lazzaro. Edizione nazionale delle opere di Lazzaro Spallanzani. Parte seconda: Lezione. Ed., Pericle di Pietro. Modena: Mucchi. v.1, pp. 233–318. 1788–1789 (1994)
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Bibliography

General

  • Paul de Kruif, Microbe Hunters (2002 reprint) ISBN 978-0-15-602777-9; Lua error in package.lua at line 80: module 'strict' not found.
  • Nordenskiöld, E. P. 1935 [Spallanzani, L.] Hist. of Biol. 247–248
  • Rostand, J. 1997, Lazzaro Spallanzani e le origini della biologia sperimentale, Torino, Einaudi.
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Work on insects

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  • Gibelli, V. 1971 L. Spallanzani. Pavia.
  • Lhoste, J. 1987 Les entomologistes français. 1750–1950. INRA (Institut National de la Recherche Agronomique), Paris.
  • Osborn, H. 1946 Fragments of Entomological History Including Some Personal Recollections of Men and Events. Columbus, Ohio, Published by the Author.
  • Osborn, H. 1952 A Brief History of Entomology Including Time of Demosthenes and Aristotle to Modern Times with over Five Hundred Portraits.Columbus, Ohio, The Spahr & Glenn Company.

See also

External links