George Poinar Jr.

Last updated

George O. Poinar Jr.
George Poinar, Jr.jpg
Born (1936-04-25) April 25, 1936 (age 88)
Washington, United States
Alma mater Cornell University
Scientific career
Fields entomologist
Institutions University of California, Berkeley Oregon State University

George O. Poinar Jr. (born April 25, 1936) is an American entomologist and writer. He is known for popularizing the idea of extracting DNA from insects fossilized in amber, an idea which received widespread attention when adapted by Michael Crichton for the book and movie Jurassic Park .

Contents

Poinar earned a BS and MS at Cornell University, and remained there for his doctoral studies, receiving a PhD in biology in 1962. He spent many of his years of research at University of California, Berkeley in the Department of Entomology, Division of Insect Pathology. There, and during travels around the globe, he performed research on the axenic culture of nematodes, nematode parasites of insects and the fossil records of insects and nematodes in amber.

In 1992 a team consisting of Poinar, his wife entomologist Roberta Poinar, his son Hendrik, and Dr. Raúl J. Cano of California Polytechnic State University successfully extracted insect DNA from a Lebanese weevil in amber that was 125 million years old, collected by Raif Milki in Lebanon. More recent studies of ancient DNA cast doubt on the DNA results, but not on the authenticity of the amber samples. [1]

In 1995, George and Roberta Poinar, a fellow researcher from Berkeley, moved to Oregon, where they opened the Amber Institute. Upon his move to Oregon he received a courtesy appointment to the Department of Entomology of Oregon State University.

In 2016, Poinar announced the discovery of a new plant species that is a 45-million-year-old relative of coffee he found in amber. Named Strychnos electri , after the Greek word for amber (electron), the flowers represent the first-ever fossils of an asterid. [2]

In 2017, Poinar published a paper describing a fossilized flower and its tentative pollinator. [3] The paper describes a flower of an ancestral milkweed plant, which was named Discoflorus neotropicus , and a termite carrying a pollinium, all covered in Dominican amber.

Poinar's son, Hendrik Poinar, is a genetics researcher in the Department of Anthropology at McMaster University. [4]

Publications

See also

Related Research Articles

<span class="mw-page-title-main">Amber</span> Fossilized tree resin

Amber is fossilized tree resin. Examples of it have been appreciated for its color and natural beauty since Neolithic times, and worked as a gemstone since antiquity. Amber is used in jewelry and as a healing agent in folk medicine.

<i>Asclepias</i> Genus of flowering plants

Asclepias is a genus of herbaceous, perennial, flowering plants known as milkweeds, named for their latex, a milky substance containing cardiac glycosides termed cardenolides, exuded where cells are damaged. Most species are toxic to humans and many other species, primarily due to the presence of cardenolides. However, as with many such plants, some species feed upon them or from them. The most notable of them is the monarch butterfly, which uses and requires certain milkweeds as host plants for their larvae.

Hendrik Nicholas Poinar is an evolutionary biologist specializing in ancient DNA. Poinar first became known for extracting DNA sequences from ground sloth coprolites. He is currently director of the Ancient DNA Centre at McMaster University in Hamilton, Ontario.

<span class="mw-page-title-main">Dominican amber</span> Amber from the Dominican Republic

Dominican amber is amber from the Dominican Republic derived from resin of the extinct tree Hymenaea protera.

<span class="mw-page-title-main">Ancient DNA</span> Method of archaeological study

Ancient DNA (aDNA) is DNA isolated from ancient sources. Due to degradation processes ancient DNA is more degraded in comparison with contemporary genetic material. Genetic material has been recovered from paleo/archaeological and historical skeletal material, mummified tissues, archival collections of non-frozen medical specimens, preserved plant remains, ice and from permafrost cores, marine and lake sediments and excavation dirt.

<i>Melittosphex burmensis</i> Extinct species of bee

Melittosphex burmensis is an aculeate wasp that was formerly considered one of the two oldest-known species of bees. The species was described from an inclusion in Burmese amber in the year 2006 by George Poinar Jr., a zoologist at Oregon State University. The fossil was found in a mine in the Hukawng Valley of northern Myanmar and is believed to date from the Cretaceous Period, 100 million years ago.

<span class="mw-page-title-main">Paleoparasitology</span> Study of prehistoric parasites

Paleoparasitology is the study of parasites from the past, and their interactions with hosts and vectors; it is a subfield of paleontology, the study of living organisms from the past. Some authors define this term more narrowly, as "Paleoparasitology is the study of parasites in archaeological material." K.J. Reinhard suggests that the term "archaeoparasitology" be applied to "... all parasitological remains excavated from archaeological contexts ... derived from human activity" and that "the term 'paleoparasitology' be applied to studies of nonhuman, paleontological material." This article follows Reinhard's suggestion and discusses the protozoan and animal parasites of non-human animals and plants from the past, while those from humans and our hominid ancestors are covered in archaeoparasitology.

Roystonea palaea is an extinct species of palm known from fossil flowers found in the early Miocene Burdigalian stage Dominican amber deposits on the island of Hispaniola. The species is known from a single staminate flower and a single pistillate flower both preserved in the same piece of amber. The amber specimen bearing the holotype and paratype is currently deposited in the collections of the Oregon State University in Corvallis, Oregon, as number "Sd–9–101", where it was studied and described by George Poinar. Poinar published his 2002 type description for R. palaea in the Botanical Journal of the Linnean Society, Volume 139. The species' second name is taken from the Greek word palaios meaning "ancient". The amber specimen bearing the flowers was excavated from the La Toca mine northeast of Santiago de los Caballeros, Dominican Republic.

<span class="mw-page-title-main">Paleofeces</span> Ancient human feces found in archaeological surveys

Paleofeces are ancient human feces, often found as part of archaeological excavations or surveys. The term coprolite is often used interchangeably, although coprolite can also refer to fossilized animal feces. Intact feces of ancient people may be found in caves in arid climates and in other locations with suitable preservation conditions. They are studied to determine the diet and health of the people who produced them through the analysis of seeds, small bones, and parasite eggs found inside. The feces can contain information about the person excreting the material as well as information about the material itself. They can also be chemically analyzed for more in-depth information on the individual who excreted them, using lipid analysis and ancient DNA analysis. The success rate of usable DNA extraction is relatively high in paleofeces, making it more reliable than skeletal DNA retrieval.

<i>Vetufebrus</i> Extinct genus of single-celled organisms

Vetufebrus is an extinct genus of haemospororida in the family Plasmodiidae. At the time of its description the new genus comprised a single species Vetufebrus ovatus known from a single Miocene Dominican amber fossil found on Hispaniola. V. ovatus was vectored by Enischnomyia stegosoma, the first fossil streblid bat fly described from a fossil, and the only member of the subfamily Nycterophiliinae described from Hispaniola. V. ovatus is the first instance of a Streblidae bat fly as a host for a malarial parasite.

Termitaradus dominicanus is an extinct species of termite bug in the family Termitaphididae known from a Miocene fossil found on Hispaniola. T. dominicanus is the third species in the genus Termitaradus to have been described from fossils found in Dominican amber after Termitaradus avitinquilinus and Termitaradus mitnicki.

Termitaradus protera is an extinct species of termite bug in the family Termitaphididae known from several Late Oligocene to Early Miocene fossils found in Mexico. T. protera is the only species in the extant genus Termitaradus to have been described from fossils found in Mexican amber and is one of four species from new world amber; the others are Termitaradus avitinquilinus, Termitaradus dominicanus and Termitaradus mitnicki. T. protera was also the first termite bug described from the fossil record.

Hymenaea mexicana is an extinct legume species in the family Fabaceae described from a series of isolated fossil petals, leaflets, and amber. The species is known from a group of Late Oligocene to Early Miocene locations in southern Mexico. It is one of two extinct Hymenaea species placed close to the living species Hymenaea verrucosa and along with Hymenaea allendis, is one of the two extinct species which have been found in Mexican amber.

The La Toca Formation is a geologic formation in the northern and eastern part of the Dominican Republic. The formation, predominantly an alternating sequence of marls and turbiditic sandstones, breccias and conglomerates, is renowned for the preservation of insects and other arthropods in amber, known as Dominican amber. The formation is dated to the Burdigalian to Langhian stages of the Miocene period.

<i>Formicodiplogaster</i> Extinct genus of roundworms

Formicodiplogaster is an extinct form genus of nematodes in the family Diplogasteridae which currently includes a single described species Formicodiplogaster myrmenema. The species is known from early Miocene fossils found on Hispaniola. F. myrmenema has been preserved in association with Azteca alpha, one of only two known fossil species in the ant genus Azteca.

<i>Azteca alpha</i> Species of ant

Azteca alpha is an extinct species of ant in the subfamily Dolichoderinae known from possibly Miocene fossils found on Hispaniola. A. alpha is one of only two species in the genus Azteca to have been described from fossils, both found in Dominican amber. It is the host for a fossil nematode, and has been preserved with scale insects.

<span class="mw-page-title-main">Mexican amber</span> Miocene amber from Mexico

Mexican amber, also known as Chiapas Amber is amber found in Mexico, created during the Early Miocene and middle Miocene epochs of the Cenozoic Era in southwestern North America. As with other ambers, a wide variety of taxa have been found as inclusions including insects and other arthropods, as well as plant fragments and epiphyllous fungi.

<i>Aptenoperissus</i> Extinct genus of wasps

Aptenoperissus is a genus of extinct wasp with eight described species, placed into the monotypic family Aptenoperissidae. The type species Aptenoperissus burmanicus resembles a mix between a grasshopper, an ant, and a wasp. It was described by a group of researchers from Oregon State University in a paper released online in October 2016. The piece of 100 million year old Burmese amber that it was preserved in was found in the Hukawng Valley of Myanmar in Southern Asia. A new family, Aptenoperissidae, was described to accommodate this insect. Species of Aptenoperissus were wingless, with a strong stinger. The creature had long legs making it capable of jumping higher than most insects. Subsequently additional species were described from the Myanmar amber: A. amabilis, A. delicatus, A. formosus, A. etius, A. magnifemoris, A. pusillus and A. zonalis. Initially placed in Ceraphronoidea, later studies placed it in Stephanoidea.

<i>Aethiocarenus</i> Extinct genus of insects

Aethiocarenus is an extinct genus of insects which has a single species Aethiocarenus burmanicus described from a 98.79 ±0.62 million year old fossil found in Burmese amber from the Hukawng Valley of Myanmar. The insect is unusual due to the vertex of the triangular head being attached to the pronotum as opposed to the hypotenuse. When first described Aethiocarenus was placed as the sole member of the family Aethiocarenidae and order Aethiocarenodea. However, Aethiocarenus was later considered to be a nymph of Alienopterus. Vršanský et al. (2018) considered Aethiocarenus to be an alienopterid nymph, but considered it distinct from other members of this group and deserving a separate genus rank.

<span class="mw-page-title-main">Lebanese amber</span>

Lebanese amber is fossilized resin found in Lebanon and its surroundings. It dates back approximately 130-125 million years to the Barremian of the Early Cretaceous. It formed on what was then the northern coast of Gondwana, believed to be a tropical or subtropical zone in a temperate or hot climate. It is the oldest source of amber with a significant number of inclusions. Up to 300 sources of Lebanese amber have been recovered and 17 of them are important sources of organic inclusions, which are the oldest of their kind. The inclusions help to document Cretaceous fauna and flora.

References

  1. Hebsgaard, Martin B.; Phillips, Matthew J.; Willerslev, Eske (2005). "Geologically ancient DNA: fact or artefact?". Trends in Microbiology. 13 (5): 212–220. doi:10.1016/j.tim.2005.03.010. PMID   15866038.
  2. "Prehistoric Coffee Ancestor Found in Amber". discovery.com. February 16, 2016.
  3. Poinar, George O. (2017). "Ancient Termite Pollinator of Milkweed Flowers in Dominican Amber". American Entomologist. 63 (1): 52–56. doi: 10.1093/ae/tmx011 .
  4. Poinar, Jr (and Poinar), George (and Roberta) (2008). What Bugged the Dinosaurs?: Insects, disease, and death in the Cretaceous. Princeton University Press.