John Stoffolano

Last updated
John G. Stoffolano
John Stoffolano.jpg
Born (1939-12-31) December 31, 1939 (age 83)
Gloversville, N. Y.
OccupationEntomologist
Medical career
Research Entomology

John G. Stoffolano, Jr. (born December 31, 1939) is an American entomologist specializing in non-biting fly behavior, physiology, and veterinary issues of flies as vectors of pathogens.

Contents

Stoffolano was the first to discover the eye worm parasite (Thelazia) found in dairy cattle in the United States and published the paper with the nematologist MayBelle Chitwood. He was also the first to discover a new species of nematode (Heterotylenchus autumnalis, in the face fly, Musca autumnalis , now Perionychium autumnale), which was initially described by William Nickle of the USDA. He joined the faculty of the Department of Entomology at the University of Massachusetts in 1969 and was one of the first N.S.F. postdoctoral fellows, which he took with the insect sensory physiologist, Vincent Dethier. After Princeton for one year (1970–1971), he returned to the University of Massachusetts, where he has been since. [1] [2] [3] [4]

Early life and education

John Stoffolano was born on December 31, 1939, in Gloversville, New York, the son of John Stoffolano, Sr. and Elvenus Smith, originally of Nelliston, New York. Following graduation from Oneonta College, Stoffolano taught 8th grade English and Math for one half a year at Oppenheim-Ephratah-St. Johnsville Consolidated School. From 1962 to 1964, he became one of three high school biology teachers at Oneonta High School. Stoffolano entered a master's degree program in entomology in the Department of Entomology, which was housed in Comstock Hall at Cornell University with George Matthysse, the world authority on ticks, and graduated in 1962. His thesis research was on the major introduced pest, the face fly, Musca autumnalis, an eye pest of cattle and horses in the U.S. He was the first to study the overwintering habit, or diapause, of these flies, during which time he discovered the Thelazia eye worm nematodes. Upon completing his M.S. degree, he entered a Ph.D. program in the Entomology Department at the University of Connecticut and graduated in 1970 under the supervision of Fred Streams. During his studies, he was mentored by neuroanatomist Norman Davis. Stoffolano joined the faculty at the University of Massachusetts in 1969 and took a sabbatical with Dethier at Princeton from 1970 to 1971. [5] [6]

Career

Stoffolano spent several sabbatical leaves in research laboratories in different countries and spent a sabbatical in London at the Pest Oversea Research Locust Laboratory, researching the feeding behavior of locusts with Reginald Chapman. During his studies of the fly crop, he became the first to show that the crop was more than just a storage organ for flies but was involved in many more important functions, such as serving as a vehicle for important pathogens of both humans and domestic animals and regulating blood sugar levels in flies. While at the University of Massachusetts, Stoffolano extended his research to understanding more about the behavior and blood feeding of the greenhead horsefly, Tabanus nigrovittatus , which is a constant nuisance along the Atlantic Coast. His extensive studies on this fly earned him the title Lord of the Flies, and he was featured in an article in Yankee Magazine (2013). With one of his students, they were the first to demonstrate that what was originally thought of as one species of greenhead was really two, which was based on egg-laying behavioral differences. In 1995, with a group of colleagues, they discovered a new hormone in flies, which was JHIII. His interest in fly anatomy resulted in the important discovery that the cuticular abdominal placques on certain adult Diptera were key to the evolution of specific dipterous groups. [7] [8]

Stoffolano was involved in organizing the first workshop on education for the Entomological Society of America, following which the society created a new section on education. In 1978, he received the distinguished teaching award from the Entomological Society of America. During his time at the University of Massachusetts, he taught Insect Biology, Using Insects in the Classroom, Insect Physiology, Insect Behavior, and an honors course (The Impact of Insects on Human Culture). [9] [10] [11] Stoffolano was the first faculty member of the University of Massachusetts system to offer a course via distance learning, with 200 elementary school teachers from numerous states taking the course online via PicTel and the Massachusetts Corporation for Educational Telecommunications.[ citation needed ] He continued to extend his research interest by taking sabbaticals at various international laboratories and establishing collaborative research. During his career, he was responsible for research demonstrating that adult houseflies could vector-store pathogens in their diverticulated crop for diseases such as cholera, trachoma, the ORF virus, and Escherichia coli . In his book Tonino, Stoffolano became the first to produce the lineage of Grillo parlante, or the talking cricket in Carlo Collodi's most famous book, The Adventures of Pinocchio. [12] During his 2010 sabbatical, Stoffolano and his wife Susan traveled around the world, visiting various countries and doing research in South Africa with the specialist on adipokinetic hormones in insects, Gerd Gade. As a result of this experience, he published the first paper showing the positive response the adipokinetic hormone had on crop contractions in a fly. [13] [14] [15] [16] [17]

Awards and honors

Academic publications

Stoffolano wrote or co-authored over 162 scholarly papers and authored or co-authored several academic books. [21] [22] [23] [24]

Books

Papers

Notes

Related Research Articles

<span class="mw-page-title-main">Fly</span> Order of insects

Flies are insects of the order Diptera, the name being derived from the Greek δι- di- "two", and πτερόν pteron "wing". Insects of this order use only a single pair of wings to fly, the hindwings having evolved into advanced mechanosensory organs known as halteres, which act as high-speed sensors of rotational movement and allow dipterans to perform advanced aerobatics. Diptera is a large order containing an estimated 1,000,000 species including horse-flies, crane flies, hoverflies, mosquitoes and others, although only about 125,000 species have been described.

<span class="mw-page-title-main">Tachinidae</span> Family of insects

The Tachinidae are a large and variable family of true flies within the insect order Diptera, with more than 8,200 known species and many more to be discovered. Over 1,300 species have been described in North America alone. Insects in this family commonly are called tachinid flies or simply tachinids. As far as is known, they all are protelean parasitoids, or occasionally parasites, of arthropods, usually other insects. The family is known from many habitats in all zoogeographical regions and is especially diverse in South America.

<span class="mw-page-title-main">Maggot</span> Larva of a fly

A maggot is the larva of a fly ; it is applied in particular to the larvae of Brachycera flies, such as houseflies, cheese flies, and blowflies, rather than larvae of the Nematocera, such as mosquitoes and crane flies.

<span class="mw-page-title-main">Calliphoridae</span> Family of insects in the Diptera order

The Calliphoridae are a family of insects in the order Diptera, with almost 1,900 known species. The maggot larvae, often used as fishing bait, are known as gentles. The family is known to be polyphyletic, but much remains disputed regarding proper treatment of the constituent taxa, some of which are occasionally accorded family status.

<span class="mw-page-title-main">Flesh fly</span> Family of insects

Sarcophagidae are a family of flies commonly known as flesh flies. They differ from most flies in that they are ovoviviparous, opportunistically depositing hatched or hatching maggots instead of eggs on carrion, dung, decaying material, or open wounds of mammals, hence their common name. Some flesh fly larvae are internal parasites of other insects such as Orthoptera, and some, in particular the Miltogramminae, are kleptoparasites of solitary Hymenoptera. The adults mostly feed on fluids from animal bodies, nectar, sweet foods, fluids from animal waste and other organic substances. Juveniles need protein to develop and may be laid on carrion, dung or sweet plant foods.

<span class="mw-page-title-main">Tephritidae</span> Family of fruit flies

The Tephritidae are one of two fly families referred to as fruit flies, the other family being the Drosophilidae. The family Tephritidae does not include the biological model organisms of the genus Drosophila, which is often called the "common fruit fly". Nearly 5,000 described species of tephritid fruit fly are categorized in almost 500 genera of the Tephritidae. Description, recategorization, and genetic analyses are constantly changing the taxonomy of this family. To distinguish them from the Drosophilidae, the Tephritidae are sometimes called peacock flies, in reference to their elaborate and colorful markings. The name comes from the Greek τεφρος, tephros, meaning "ash grey". They are found in all the biogeographic realms.

<span class="mw-page-title-main">Carrot fly</span> Species of fly

The carrot fly is a pest of gardens and farms, and mainly affects the crop of carrots, but can also attack parsnips, parsley and celery. It is a member of the family Psilidae.

<span class="mw-page-title-main">Rhagionidae</span> Family of flies

Rhagionidae or snipe flies are a small family of flies. They get their name from the similarity of their often prominent proboscis that looks like the beak of a snipe.

<i>Haematobia irritans</i> Species of fly

Haematobia irritans, the horn fly, is a small fly. It was first described by Carl Linnaeus in his 1758 10th edition of Systema Naturae. It is of the genus Haematobia which is the European genus of bloodsucking flies. Haematobia irritans is a native of Europe but has been introduced to North America and is considered a potentially dangerous livestock pest.

<i>Musca autumnalis</i> Species of fly

Musca autumnalis, the face fly or autumn housefly, is a pest of cattle and horses.

<i>Phormia regina</i> Species of fly

Phormia regina, the black blow fly, belongs to the blow fly family Calliphoridae and was first described by Johann Wilhelm Meigen.

<i>Tabanus nigrovittatus</i> Species of insect

Tabanus nigrovittatus, also known as the greenhead horse fly, salt marsh greenhead, or simply the greenhead fly, greenhead or greenfly, is a species of biting horse-fly commonly found around the coastal marshes and wetlands of the Eastern United States. They are smaller than most horsefly species, instead being close in size to a common housefly. The biting females are a considerable pest to both humans and animals while they seek a source of blood protein to produce additional eggs: greenhead larvae develop in the mud of salt marshes, and adult flies mate and lay their first group of eggs in the marsh, but to lay more eggs a female fly needs to drink an animal's blood, and so female greenheads which have laid eggs fly inland to look for prey in the area bordering the marsh; they can stay on land looking for animals to bite for up to four weeks. Their bites are more painful than those of mosquitoes, since greenheads feed by cutting a wound in the skin with scissor-like mouth parts and sucking the blood released through it. Females live for three to four weeks and may lay about 100 to 200 eggs per blood meal. The eggs are laid on the grass in a salt marsh; the larvae live in the intertidal mud of the salt marsh for one or two years, preying on other invertebrates, before pupating in early spring. The adult flies emerge in late spring and are most common from late June to August.

<i>Pollenia rudis</i> Species of fly

Pollenia rudis, the common cluster fly, is a species of fly in the family Polleniidae. Pollenia rudis is also known as the attic fly, the loft fly, pollenie du lombric [French], and the buckwheat fly. During the autumn and winter months, Pollenia rudis can be found overwintering inside attics or lofts. This sluggish species can be found “clustering” near the interior windows of a warm structure.

<span class="mw-page-title-main">Housefly</span> Species of insect

The housefly is a fly of the suborder Cyclorrhapha. It possibly originated in the Middle East, and spread around the world as a commensal of humans. It is the most common fly species found in houses. Adults are gray to black, with four dark, longitudinal lines on the thorax, slightly hairy bodies, and a single pair of membranous wings. They have red eyes, set farther apart in the slightly larger female.

<i>Thelazia</i> Genus of roundworms

Thelazia is a genus of nematode worms which parasitize the eyes and associated tissues of various bird and mammal hosts, including humans. They are often called "eyeworms", and infestation with Thelazia species is referred to as "thelaziasis". Adults are usually found in the eyelids, tear glands, tear ducts, or the so-called "third eyelid". Occasionally, they are found in the eyeball itself, either under the conjunctiva or in the vitreous cavity of the eyeball. All species of Thelazia for which the life cycle has been studied are transmitted by species of Diptera (flies) which do not bite, but which feed on tears.

<i>Entomophthora muscae</i> Type of pathogenic fungus

Entomophthora muscae is a species of pathogenic fungus in the order Entomophthorales which causes a fatal disease in flies. It can cause epizootic outbreaks of disease in houseflies and has been investigated as a potential biological control agent.

<i>Chrysomya megacephala</i> Species of fly

Chrysomya megacephala, more commonly known as the oriental latrine fly or oriental blue fly, is a member of the family Calliphoridae (blowflies). It is a warm-weather fly with a greenish-blue metallic box-like body. The fly infests corpses soon after death, making it important to forensic science. This fly is implicated in some public health issues; it can be the cause of myiasis, and also infects fish and livestock.

<i>Lucilia coeruleiviridis</i> Species of fly

Lucilia coeruleiviridis, formerly Phaenecia coeruleiviridis, is commonly known as a green bottle fly, because of its metallic blue-green thorax and abdomen. L. coeruleiviridis was first discovered by French entomologist Pierre-Justin-Marie Macquart in 1855. It belongs to the family Calliphoridae and is one of many forensically important Diptera, as it is often found on decaying substances. L. coeruleiviridis is one of the most ubiquitous blow fly species in the southeastern United States, particularly in the spring and fall months.

Hytrosaviridae is a family of double-stranded DNA viruses that infect insects. The name is derived from Hytrosa, sigla from the Greek Hypertrophia for 'hypertrophy' and 'sialoadenitis' for 'salivary gland inflammation.'

Ronald John Prokopy was an American entomologist who was a specialist on the behavior and biology of Rhagoletis flies and approaches to their management in apple orchards.

References

  1. "John Stoffolano | Stockbridge School of Agriculture". stockbridge.cns.umass.edu. Retrieved 2021-05-20.
  2. "John Stoffolano | Organismic and Evolutionary Biology Graduate Program at UMass Amherst". gpls.cns.umass.edu. Retrieved 2021-05-20.
  3. Stoffolano, John G.; Schauber, Eric; Yin, Chih-Ming; Tillman, Julie A.; Blomquist, Gary J. (1997-10-01). "Cuticular hydrocarbons and their role in copulatory behavior in Phormia regina (Meigen)". Journal of Insect Physiology. 43 (11): 1065–1076. doi:10.1016/S0022-1910(97)00050-4. ISSN   0022-1910. PMID   12770478.
  4. "John Stoffolano". scholar.google.com. Retrieved 2021-05-20.
  5. "john stoffolano - Academia.edu". independent.academia.edu. Retrieved 2021-05-20.
  6. "Amherst, MA - Commonwealth Honors College: Past, Present Attendee List". www.umassalumni.com. Retrieved 2021-05-20.
  7. "News & Events . UMass Amherst". www.umass.edu. Retrieved 2021-06-06.
  8. "News Headline: Stoffolano discusses greenhead fly research with Yankee Magazine | College of Natural Sciences | UMass Amherst". www.cns.umass.edu. 2016-08-11. Retrieved 2021-06-06.
  9. "The science of entomology / William S. Romoser, John G. Stoffolano, Jr". search.lib.utexas.edu. Retrieved 2021-05-20.
  10. Stoffolano, John G.; Haselton, Aaron T. (2013). "The adult Dipteran crop: a unique and overlooked organ". Annual Review of Entomology. 58: 205–225. doi:10.1146/annurev-ento-120811-153653. ISSN   1545-4487. PMID   23317042.
  11. Stoffolano, John G. Jr. (2011-02-14). "Influence of diapause and diet on the development of the gonads and accessory reproductive glands of the black blowfly, Phormia regina (Meigen)". Canadian Journal of Zoology. 52 (8): 981–988. doi:10.1139/z74-130. PMID   4425055.
  12. "J. Stoffolano | Semantic Scholar". www.semanticscholar.org. Retrieved 2021-07-18.
  13. Stoffolano, John G.; Haselton, Aaron T. (2013-01-07). "The Adult Dipteran Crop: A Unique and Overlooked Organ". Annual Review of Entomology. 58 (1): 205–225. doi:10.1146/annurev-ento-120811-153653. ISSN   0066-4170. PMID   23317042.
  14. Stoffolano, John G.; Li, Mei-Fang; Sutton, James A.; Yin, Chih-Ming (1995). "Faeces feeding by adult Phormia regina (Diptera: Calliphoridae): impact on reproduction". Medical and Veterinary Entomology. 9 (4): 388–392. doi:10.1111/j.1365-2915.1995.tb00010.x. ISSN   1365-2915. PMID   8541589. S2CID   46576978.
  15. Stoffolano, Jr., John G.; Woodley, Norman; Borkent, Art; Yin, Lucy R. S. (1988-01-01). "Ultrastructural Studies of the Abdominal Plaques of Some Diptera". Entomology Papers from Other Sources.
  16. Stoffolano, John G. Jr. (1970-11-16). "The Anal Organ of Larvae of Musca autumnalis, M. domestica, and Orthellia caesarion (Diptera: Muscidae)1". Annals of the Entomological Society of America. 63 (6): 1647–1654. doi:10.1093/aesa/63.6.1647. ISSN   0013-8746.
  17. Evans, Brian P.; Stoffolano, John G.; Yin, Chih-Ming; Meyer, Jerrold S. (1997-07-01). "A pharmacological and endocrinological study of female insemination inPhormia regina (Diptera: Calliphoridae)". Journal of Insect Behavior. 10 (4): 493–508. doi:10.1007/BF02765373. ISSN   1572-8889. S2CID   22420088.
  18. "Arianna Ramirez | Commonwealth Honors College". Commonwealth Honors College : UMass Amherst. Retrieved 2021-05-20.
  19. "john stoffolano - Academia.edu". independent.academia.edu. Retrieved 2021-05-20.
  20. Star, Staff ReportThe Daily. "SUCO alumni set for 2013 reunion". The Daily Star. Retrieved 2021-06-06.
  21. "john stoffolano - Academia.edu". independent.academia.edu. Retrieved 2021-05-20.
  22. "Ultrastructural Studies of the Abdominal Plaques of Some Diptera, John G. Stoffolano, Jr.,, Norman E. Woodley, Art Borkent, Lucy R. S. Yin". lib.ugent.be. 1988. Retrieved 2021-05-20.
  23. "John Stoffolano | Stockbridge School of Agriculture". stockbridge.cns.umass.edu. Retrieved 2021-05-20.
  24. Strangways-Dixon, J. (1959). "Hormonal Control of Selective Feeding in Female Calliphora erythrocephala Meig". Nature. 184 (4704): 2040–2041. Bibcode:1959Natur.184.2040S. doi:10.1038/1842040b0. ISSN   1476-4687. S2CID   4148521.
  25. ThriftBooks. "John G. Stoffolano Jr. Books | List of books by author John G. Stoffolano Jr". ThriftBooks. Retrieved 2021-05-20.
  26. Stoffolano, John G. (2019-04-08). "Blow Fly Feeding Behavior". Insect Behavior. CRC Press. pp. 93–100. doi:10.1201/9780429049262-14. ISBN   978-0-429-04926-2. S2CID   199298962.
  27. "The science of entomology / William S. Romoser, John G. Stoffolano, Jr". แนะนำหนังสือมาใหม่ (in Thai). Retrieved 2021-05-20.
  28. Romoser, William S; Stoffolano, John G (1998). The science of entomology. Boston, Mass.: WCB McGraw-Hill. ISBN   978-0-697-22848-2. OCLC   449933967.
  29. Stoffolano, John G.; Gonzalez, Elizabeth Y.; Sanchez, Marilyn; Kane, Joann; Velázquez, Kenneth; Oquendo, Aida L.; Sakolsky, Gabrielle; Schafer, Peter; Yin, Chih-Ming (2000). "Relationship Between Size and Mating Success in the Blow Fly Phormia regina (Diptera: Calliphoridae)". Annals of the Entomological Society of America. 93 (3): 673–677. doi: 10.1603/0013-8746(2000)093[0673:RBSAMS]2.0.CO;2 . ISSN   0013-8746.
  30. "Item | Brooklyn Public Library". www.bklynlibrary.org. Retrieved 2021-05-20.
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