Posts Tagged: Robert E. Page Jr.
Well, ICE is red hot.
The International Congress of Entomology (ICE) is gearing up for its 2016 conference, "Entomology without Borders," to take place Sept. 25-30, 2016 in Orlando, Fla., and the line-up of speakers should make all entomologists--and others interested in insect science--mark their calendars.
With a red-hot pen.
The ICE meeting will be co-located with the annual meetings of the Entomological Society of America (ESA) and the Entomological Society of Canada, along with events hosted by the entomological societies of China, Brazil, Australia, and others.
First of all, the ICE co-chairs, chemical ecologist Walter Leal of UC Davis and vegetable research entomologist Alvin Simmons of USDA/ARS, managed to book not one, but two Nobel Laureautes: Peter Agre (2003 Nobel Prize in Chemistry) and Jules Hoffmann (2011 Nobel Prize in Physiology or Medicine).
Then the next announcement. Last weekend at the ESA meeting in Portland, Ore., Leal revealed the list of ICE plenary speakers, selected from 77 nominated worldwide.
Carey, a distinguished professor of entomology with the UC Davis Department of Entomology and Nematology, is considered the world's foremost authority on arthropod demography. Page, provost of Arizona State University and emeritus professor and former chair of the UC Davis Department of Entomology, is considered the most influential honey bee biologist of the past 30 years.
“We are delighted to have the first Hispanic woman (Latina) to give a plenary lecture at ICE; likewise, the first kiwi (New Zealander), as well as the first native African to have the opportunity to highlight their work in this venue,” said Leal, professor in the UC Davis Department of Molecular and Cellular Biology.
The list of plenary speakers:
- Carolina Barilla-Mury, National Institute of Allergy and Infectious Diseases, National Institutes of Health, Guatemala & USA, who will speak on medical entomology immunity
- Jacqueline Beggs, University of Auckland, New Zealand. Topic: biodiversity and biosecurity
- James R. Carey, University of California, Davis. Topic: insect biodemography
- Fred Gould, North Carolina State University. Topic: GMOs: crop and health protection
- Robert E. Page, Arizona State University. Topic: bee biology: Spirit of the Hive” (title of his latest book)
- José Roberto Postali Parra, ESALQ, University of Sao Paulo, Brazil. Topic: biological control.
- John A. Pickett, Rothamsted Research, UK. Topic: insect-plant interactions
- Baldwyn Torto, Centre of Insect Physiology & Ecology, based in Nairobi, Kenya. Topic: colony collapse disorder and pollination.
Capsule information on the UC Davis-affiliated entomologists:
James R. Carey has authored more than 250 scientific articles, including landmark papers in Science that shaped the way scientists think about lifespan limits and actuarial aging, and two articles in the Annual Review series that provide new syntheses on insect biodemography (2003, Annual Review of Entomology) and aging in the wild (2014, Annual Review of Ecology, Evolution, and Systematics). He directed a $10 million multi-university grant for more than a decade (2003-2013).
Carey is the author of three books, including Applied Demography for Biologists with Special Emphasis on Insects (Oxford University Press), the go-to source for all entomologists studying demography. Highly honored for his work, Carey received the 2014 C. W. Woodworth Award, the highest honor bestowed by the Pacific Branch of the Entomological Society of America (ESA), and the 2014 UC Davis Academic Senate Distinguished Teaching Award for innovative and creative teaching.
Carey chaired the University of California Systemwide Committee on Research Policy—one of the most important and prestigious committees in the UC system and served on the systemwide UC Academic Council. In addition, he serves as the associate editor of three journals: Genus, Aging Cell, and Demographic Research. In addition, he is the first entomologist to have a mathematical discovery named after him by demographers—The Carey Equality—which set the theoretical and analytical foundation for a new approach to understanding wild populations.
He is a fellow of four professional organizations: ESA, the Gerontological Society of America, the California Academy of Sciences and the American Association for the Advancement of Science.
Carey has presented more than 250 seminars in venues all over the world, from Stanford, Harvard, Moscow, Beijing to Athens, London, Adelaide and Okinawa. In addition, Carey is considered a worldwide authority on the demography and invasion biology of tephritid fruit flies, particularly the Mediterranean fruit fly; and a preeminent authority on biodemographics of human aging and lifespan. He is also a pioneering force advocating the educational use of digital video technology, work that he is sharing throughout much of the state, nation and the world.
Carey received his bachelor's degree (animal ecology, 1973) and master's degree (entomology, 1975) from Iowa State University, and his doctorate in entomology from UC Berkeley in 1980.
Robert E. Page Jr.
Page has published more than 200 reviewed publications, three edited books and two authored books. His latest book is "Spirit of the Hive." His lab pioneered the use of modern techniques to study the genetic bases to the evolution of social behavior in honey bees and other social insects.
Page was the first to employ molecular markers to study polyandry and patterns of sperm use in honey bees. He provided the first quantitative demonstration of low genetic relatedness in a highly eusocial species.
Among his other achievements involving honey bee research:
- Page and his students and colleagues isolated, characterized and validated the complementary sex determination gene of the honey bee; perhaps the most important paper yet published about the genetics of Hymenoptera.
- He and his students constructed the first genetic map of any social insect, demonstrating that the honey bee has the highest recombination rate of any eukaryotic organism mapped to date.
In addition, Page was personally involved in genome mappings of bumble bees, parasitic wasps and two species of ants. His most recent work focuses on the genetic bases to individuality in honey bees.
Page also built two modern apicultural labs (in Ohio and Arizona), major legacies that are centers of honey bee research and training. He has trained many hundreds of beekeepers, and continues to teach beekeeping even as provost of the largest public university in the United States. He is also the Foundation Chair of Life Sciences.
An internationally recognized scholar, Page is an elected foreign member of the Brazilian Academy of Science, a fellow of the American Association for the Advancement of Science, and an elected member of the American Academy of Arts and Sciences and the oldest scientific academy of science, the Germany Academy of Sciences Leopoldina. He was elected to Leopoldina, founded in 1652, for his pioneering research in behavioral genetics of honey bees.
It promises to be an informative, educational and entertaining meeting in Orlando!
Worker bes cleaning out queen cells. Honey bee presentations will be part of the ICE program. (Photo by Kathy Keatley Garvey)
The highly acclaimed research published in Current Biology that cracked the 200-year secret of complementary sex determination in honey bees is rooted right here, right here at UC Davis.
Arizona State University Provost Robert E. Page, Jr., emeritus professor and former chair of the UC Davis Department of Entomology, and two other UC Davis-affiliated scientists are among the key members of the scientific team from the United States, Germany and France who published their work, “Gradual Molecular Evolution of a Sex Determination Switch in Honeybees through Incomplete Penetrance of Femaleness" in the prestigious journal.
The ground-breaking research shows that five amino acid differences separate males from females.
Lead author is Martin Beye, who was a Fyodor Lynen Fellow in Page's UC Davis lab from 1999 to 2000. He's now an evolutionary geneticist at the University of Duesseldorf, Germany. Another co-author is Michael "Kim" Fondrk, bee breeder-geneticist, who tends Page's research bees at the Harry H. Laidlaw Jr. Honey Bee Research Facility, UC Davis. Fondrk provided the genetic material from crosses from Page's bees.
Page traces the bee puzzle "back to Johann Dzierson in the mid-1800s through Mendel, through Harry Laidlaw to me and to my former postdoc at Davis, Martin Beye."
“Much of the work was done at UC Davis beginning in 1990,” said Page. While at UC Davis, "Martin began the sequencing and characterization of the csd gene; the paper was eventually published as a cover article in Cell."
Said Fondrk: “This project was a long time in making; it began soon after our Cell paper was published in 2003. First we needed to assemble variation for alleles at the sex locus, by collecting drones from many different, presumably unrelated queens, and mating one drone each through an independently reared set of queens using instrumental insemination (which was Fondrk's task). "Then a second set of crosses was made to identify and isolate individual sex alleles. The progeny that resulted from this cross were taken to Germany where Martin Beye’s team began the monumental task of sequencing the sex determination region in the collected samples.”
Silesian monk Johann Dzierson began studying the first genetic mechanism for sex determination in the mid-1800s. Dzierson knew that royal jelly determines whether the females will be queen bees or honey bee colonies, but he wondered about the males.
Dzierson believed that the males or drones were haploid--possessing one set of chromosomes, a belief confirmed in the 1900s with the advent of the microscope. In other words, the males, unlike the females, came from unfertilized eggs.
“However, how this system of haplodiploid sex determination ultimately evolved at a molecular level has remained one of the most important questions in developmental genetics,” Coulombe pointed out.
Coulombe quoted Page: “There has to be some segment of that gene that is responsible in this allelic series, where if you have two different coding sequences in that part of the gene you end up producing a female. So we asked how different do two alleles have to be? Can you be off one or two base pairs or does it always have to be the same set of sequences? We came up with a strategy to go in and look at these 18-20 alleles and find out what regions of these genes are responsible among these variants.”
“What the authors found,” wrote Coulombe, “was that at least five amino acid differences can control allelic differences to create femaleness through the complementary sex determiner (csd) gene – the control switch.”
Page explained: “We discovered that different amounts of arginine, serine and proline affect protein binding sites on the csd gene, which in turn lead to different conformational states, which then lead to functional changes in the bees – the switch that determines the shift from female to not female.”
In addition to Beye, Page and Fondrk, other co-authors are Christine Seelmann and Tanja Gempe of the University of Duesseldorf; Martin Hasslemann, Institute of Genetics at the University of Cologne, Germany; and Xavier Bekmans with Université Lille, France
Page, recognized as one of the world’s foremost honey bee geneticists, is a highly cited entomologist who has authored more than 230 research papers and articles centered on Africanized bees, genetics and evolution of social organization, sex determination and division of labor in insect societies. His work on the self-organizing regulatory networks of honey bees is featured in his new book, The Spirit of the Hive: The Mechanisms of Social Evolution, published in June 2013 by Harvard University Press.
Page received his doctorate in entomology from UC Davis in 1980. He left his faculty position at Ohio State University in 1989 to join the UC Davis Department of Entomology faculty. Page chaired the UC Davis department from 1999 to 2004 when ASU recruited him as the founding director and dean of the School of Life Sciences, an academic unit within College of Liberal Arts and Science (CLAS). Page was selected the university provost in December. He had earlier served as the vice provost.
The news story is gathering lots of interest, and rightfully so. It's a piece of a puzzle that went missing for 200 years.
Said Extension apiculturist Eric Mussen of the UC Davis Department of Entomology and Nematology, who was not involved in the research but knows many of the scientists and their work: "Once again, the studies by Dr. Rob Page and his colleagues have unraveled another mystery of honey bee development. It would be interesting if someone investigated the same type of sexual dimorphism in other hymenopterans to determine if they all use the same, ancient-based mechanism.”
Bee breeder-geneticist Michael "Kim" Fondrk works the Page bees in a Dixon almond orchard. (Photo by Kathy Keatley Garvey)
That's the title of a newly published book written by Robert E. Page Jr., one of the world's foremost honey bee geneticists.
In his 224-page book, published by Harvard University Press, Page sheds light on how 40,000 bees, "working in the dark, seemingly by instinct alone, could organize themselves to contstruct something as perfect a a honey comb."
Page, former professor and chair of the UC Davis Department of Entomology, marvels at how bees can accomplish these incredible tasks. In synthesizing the findings of decades of experiments, he presents "a comprehensive picture of the genetic and physiological mechanisms underlying the division of labor in honey bee colonies and explains how bees' complex social behavior has evolved over millions of years," according to the Harvard University flier.
Page, now vice provost and dean of the Arizona State University's College of Liberal Arts and Sciences and Foundation Professor of Life Sciences, still keeps his specialized stock of honey bees at the Harry H. Laidlaw Jr. Honey Bee Research Facility at UC Davis. Bee breeder-geneticist Michael “Kim” Fondrk, who worked with Page at Ohio State University, UC Davis and ASU, manages the stock.
In his book, Page talks about the coordinated activity of the bees and how worker bees respond to stimuli in their environment. The actions they take in turn alter the environment, Page says, and "so change the stimuli for their nestmates. For example, a bee detecting ample stores of pollen in the hive is inhibited from foraging for more, whereas detecting the presence of hungry young larvae will stimulate pollen gathering."
Division of labor, Page says, is an inevitable product of group living because "individual bees vary genetically and physiologically in their sensitivities to stimuli and have different probabilities of encountering and responding to them."
Page, who received his doctorate in entomology at UC Davis in 1980, served as an assistant professor at Ohio State University before joining the UC Davis Department of Entomology in 1989. He chaired the department for five years, from 1999 to 2004.
In 2004--the year Page retired from UC Davis--ASU recruited him as the founding director and dean of the School of Life Sciences. At the time, his duties included organizing three departments—biology, microbiology and botany, totaling more than 600 faculty, graduate students, postdoctoral fellows and staff--into one unified school.
As its founding director, Page established the school as a platform for discovery in the biomedical, genomic and evolutionary and environmental sciences. He also established ASU’s Honey Bee Research Facility.
Page is a highly cited author on such topics as Africanized bees, genetics and evolution of social organization, sex determination, and division of labor in insect societies.
Add this one to the list: The Spirit of the Hive.
The queen and her court. (Photo by Kathy Keatley Garvey)
Queen cells. (Photo by Kathy Keatley Garvey)
The "honey bee reproductive ground plan" hypothesis that originated two dec
Page, emeritus professor of entomology at UC Davis and now founding director of the School of Life Sciences at Arizona State University, and his collaborator Gro Amdam, are featured in the Oct. 23rd edition of Science, a publication of the American Association for the Advancement of Science.
Writing in the behavior ecology section in an article headlined, "Sex and Social Structure," journalist Elizabeth Pennisi related that the scientists' research "has shown that reproductive traits help shape a honey bee worker's role in life and that ovaries are active players in the process-even if they play little role in reproduction in worker bees."
The specialized tasks "have their basis in what Amdam and Page call a reproductive ground plan," she wrote. Their work has provided a framework and tools to study division of labor, which now "converges on two genes that may explain both ovary size and behavior."
Page and Amdam, an associate professor in the School of Life Sciences and Norwegian University of Life Sciences, believe that genes and hormones likely control social roles as well as longevity.
Their research centers on the role of the ovary in honey bee colonies, and how the worker bees partition the labor of the colony with duties that include rearing young bees, constructing the nest, foraging for pollen and nectar, and processing the food.
Page, a pioneer in the field of evolutionary genetics and social behavior of bees, has long marveled at how highly social bees are. Worker bees, or infertile females, instinctively divide up their roles to run the hive, freeing the queen to lay eggs.
The worker bees serve as nurse maids, nannies, royal attendants, architects, builders, foragers, guards and undertakers.
But why are some colonies high-pollen collectors and hoarders, while others aren't?
His research on high and low pollen hoarding strains that began two decades led to the "reproductive ground plan" hypothesis. Page continues to keep his specialized bee stock, managed by bee breeder-geneticist M. Kim Fondrk, at UC Davis.
This is exciting research.
As Page told us: "The reproductive ground plan research is integrating developmental biology into insect sociobiology. It is completing the synthesis by looking for the signatures of levels of selection above the organism, at the level of the genes, physiology, and embryogenesis. It is substantiating the superorganism."
UC Davis is the hub for the development and maintenance of the high and low pollen hoarding strains of bees "that have been fundamental in testing the reproductive ground plan hypothesis and understanding how selection on colonies affects different levels of biological organization from genes to societies," he said.
Page, who received his doctorate in entomology from UC Davis, retired from UC Davis in 2004 to develop the School of Life Sciences in the College of Liberal Arts and Sciences at Arizona State University.
Page and Amdam are the co-principal investigators on a federally funded project directed by UC Davis entomology professor James R. Carey. Carey directs the Biodemographic Determinants of Lifespan, a National Institutes of Health/National Institute of Aging-funded program involving scientists from UC Davis, UC Santa Barbara, UC Berkeley, Stanford and seven other academic institutions in the United States, the United Kingdom, and Greece.See more information on the UC Davis Entomology Web site.
Hives of International Interest
Honey bee geneticist Robert E. Page Jr. is in good company.
Good company, indeed.
Think scientists Marie Curie, Albert Einstein and Charles Darwin.
Page, who received his doctorate in entomology from UC Davis in 1980 and then became a noted geneticist at the Harry H. Laidlaw Jr. Honey Bee Research Facility, UC Davis, has just been elected to the oldest scientific academy of science, the Germany Academy of Sciences Leopoldina, which dates back to 1652.
Besides Darwin, Curie and Einstein, the academy membership has included explorer Alexander von Humboldt and author Johann Wolfgang von Goethe.
Overall, some of the most brilliant and innovative minds in physics, chemistry, biology, philosophy and mathematics.
“Alexander von Humboldt and Charles Darwin are my heroes,” said Page. “I am truly honored to belong to an academy that lists them as former members.”
Page is known for his pioneering research in the behavioral genetics of honey. His expertise includes Africanized bees, genetics and evolution of social organization, sex determination and division of labor in insect societies. His work has graced the covers of such respected journals as Naturwissenschaften, Nature, Genome Research, Cell and BioEssays.
Page, former chair of the UC Davis Department of Entomology, "officially" retired from UC Davis in 2004, but he didn't stay retired. Arizona State University recruited him that same year to organize three departments (biology, microbiology and botany) into ASU’s
“Rob Page is one of the most gifted scientists, administrators, and teachers I have had the privilege to know in 30 years in academia,” said James Carey, UC Davis professor of entomology and program director of the Biodemographic Determinants of Life Span project, who collaborates with Page. “Those of us who have worked with him congratulate him and are proud to call him our colleague and friend.”
UC Davis chemical ecologist Walter Leal, professor and former chair of the Department of Entomology, described Page as “one-of-a-kind: a premier scholar and an exemplary administrator.”
Rob Page's specialized stock of honey bees is legendary, too. It's back at UC Davis.
We first saw these special honey bees when bee breeder-geneticist Michael "Kim" Fondrk, who manages the Page stock, trucked the bees to Dixon to pollinate an almond orchard. The San Francisco Chronicle covered the story. Fondrk opened a hive to point out the queen bee, the worker bees and the drones.
And just as beautiful is the well-deserved honor that honey bee geneticist Robert E. Page Jr. just received./st1:place>/st1:placename>/st1:place>/st1:placename>/st1:placetype>/o:p>/o:p>/o:smarttagtype>/o:smarttagtype>/o:smarttagtype>/o:smarttagtype>
Frame of Bees