Born Jan. 30, 1951 in Hong Kong and fondly known as “Amazing Grace,” she received her doctorate at UC Davis in 1983 with major professor Hammock, now a UC Davis distinguished professor who holds a joint appointment with the Department of Entomology and Nematology and the UC Davis Comprehensive Cancer Center.
Her husband, Davy Jones, a longtime professor in the UK Department of Toxicology and Cancer Biology, received his doctorate from UC Davis, studying with major professor Jeffrey Granett of the then Department of Entomology.
Hammock described Grace Jones as a hard-working scientist with “amazing skill and creative insight.”
“Following her research at Texas A&M University, Grace joined my lab in the 1970s at UC Riverside and then finished her PhD at Davis in 1983,” recalled Hammock, a member of the UC Riverside faculty from 1975 to 1980, when he accepted a joint-faculty appointment in toxicology and entomology at UC Davis.
“She asked how juvenile hormone regulated the development of moth larvae that are serious agricultural pests,” Hammock said. “She also found two parasites, one of which sped up host larval development and the other of which slowed host larval development. She found that both parasitoids were manipulating the host insect endocrine system to their benefit. Endocrine regulation of insect development was a theme of Grace's whole career which she pursued with amazing skill, hard work and creative insight.”
Longtime friend and colleague Lynn Riddiford, emerita professor of biology at the University of Washington, Seattle, who worked with Grace Jones on a National Science Foundation grant, praised her as “a creative and imaginative scientist.”
“Her research focused on the action of juvenile hormone (JH), a key hormone regulating metamorphosis in insects,” Riddiford said. “Early on Grace studied the molecular mechanisms involved in the regulation by JH of several proteins in the cabbage looper, Trichoplusia ni—the JH-inducible JH esterase that breaks down JH and several JH-suppressible hemolymph storage proteins. Her work was always careful and thorough and contributed significantly to the field.”
Riddiford said that “Grace became intrigued by the idea that Ultraspiracle (USP), the heterodimeric partner of the ecdysone receptor (EcR), might be the long-sought JH receptor. She pursued this line of research with rigor, and later found that USP bound methyl farnesoate, the immediate precursor of JH, with the high affinity typical for hormone receptors. Furthermore, she showed that the methyl farnesoate-USP complex was critical for the larval-pupal transformation in Drosophila. Even though her initial idea that USP was the JH receptor proved wrong, her work stimulated the field and resulted in a deeper understanding of the factors controlling metamorphosis in Drosophila.”
Riddiford added: “Grace will be especially remembered for her amazing drive and determination to forge ahead with her science and to continue to make significant contributions despite the disabilities engendered by her stroke.” (See research publications)
Keith Wing, Hammock's second doctoral student who went on to become a senior research associate at Rohm and Haas and DuPont, and is now a consultant, remembered her as “a cheerful, hard-working colleague and friend, and wife of Dr. Davy Jones, University of Kentucky. A few of us spent many a late night studying juvenile hormone esterase and binding proteins at UC Riverside and Davis in lepidopteran larvae, trying to help the lab piece together the story of how JH metabolism and transport helped to regulate insect metamorphosis.”
“We shared everything and always helped each other out,” Wing said. “Grace went on to focus on this in much greater detail, including exploration into insect hormone receptors and regulation. She was an incredibly dedicated researcher who contributed a lot to the field."
Grace Jones received her bachelor's degree in biology in 1973 from Belmont (N.C.) Abbey College, and her master's degree in biology in 1974 from Jacksonville (Ala.) State University. She did post graduate research at Texas A&M in insect physiology and endocrinology before joining the Hammock lab in UC Riverside (1979-80). After receiving her doctorate in 1983 from UC Davis, she headed to Harvard University's Medical School as a visiting scholar in the Department of Cell Biology and Department of Pathology, working there from 1989 to 2000. Her career then included visiting scientist at Massachusetts Institute of Technology's Department of Biology and a visiting professor at Baylor College of Medicine, where she specialized in stem cell research.
The UC Davis alumnus joined the UK Department of Entomology in 1984 as an assistant research professor, studying insect biochemistry and molecular biology. She was promoted to associate research professor in 1990, and then switched to UK's School of Biological Sciences, becoming an assistant professor of molecular and cellular biology in 1991; an associate professor in 1993; and a full professor in 1999.
"Dr. Jones was a superb, internationally recognized scientist, even as her health declined over the past 18 years, but she continued to work on teaching and research throughout," wrote UK Department of Biology chair Vincent Cassone on a web page memoralizing her. "Over the course of her research career, Dr. Jones had received millions of grant dollars for her important studies from the National Institutes of Health and National Science Foundation, and published more than 100 research articles in prestigious journals such as the Proceedings of the National Academy of Sciences, USA, Journal of Biological Chemistry, and Molecular and Cellular Endocrinology. She and Davy also received a patent in 2007 for a method to identify drugs that interact with insect nuclear receptors, which could be used for biological control of pest species."
"Over the years, students have expressed great admiration and love for Professor Jones in letters and emails, and eminent scientists have expressed their high regard for her work," Cassone wrote. "A Grace Jones Memorial Fund for Family Support has been set up. Donations can be sent to the UK College of Health Science c/o Loralyn Cecil, 900 South Limestone 124E, Lexington, KY 40508 or on-line at https://karrn.org/. Her infectious smile will be missed in the halls of Biology, as she had her daily walks, arm in arm, color-coordinated with her husband, Davy, a testament to devotion and love."
Davy Jones notified his wife's friends and colleagues, including Hammock, of her death with an email, “Butterfly has flown on.” He attached a photo of Grace and a blue morpho butterfly.
She died in his arms, as this song, “Amazing Grace,” played softly in the room, he wrote.
“UC Riverside, UC Davis and the field lost a wonderful colleague and we have all lost a dear friend,” Hammock told him.
Time's fun when you're studying flies!
Student fly researchers greeted guests and explained their work at the Bohart Museum of Entomology open house held last Saturday, Jan. 12.
The event, which took place from 1 to 4 p.m. in Room 1124 of the Academic Surge Building on Crocker Lane, drew more than 150 visitors, despite competition with the televised National Football League playoffs and other activities.
The theme, "Time's Fun When You're Studying Flies," was a take-off of "Time flies when you're having fun."
"Despite the lovely weather, visitors spent a long time at the museum talking with our department's up and coming researchers," said Tabatha Yang, the Bohart Museum education and outreach coordinator. "Visitors learned about various research on flies that occurs in our department from evolution to geography to circadian rhythms."
Five scientists from the Joanna Chiu lab discussed their fruit fly research. They were graduate students Christine Tabuloc, Yao Cai and Xianhui "Nitrol" Liu, and undergraduate students Cindy Truong and Christopher Ochoa.
The Joanna Chiu lab currently has 4 PhD students (3 from Entomology and 1 from Genomics and Genetics), 6 undergraduate students (3 from Underrepresented Minorities or URM) undergraduate research programs), 1 postdoc, and 1 visiting graduate student from China.
Others fly researchers participating:
- Graduate student Caroline Wright Larsen of the James R. Carey Lab; she studies non-tephrid flies, including the Mediterranean fruit fly
- Graduate students Socrates Letana and Charlotte Herbert Alberts of the Lynn Kimsey Lab; Letana studies botflies, and Alberts, assassin flies
- Graduate student Alex Dedmon of the Robert Kimsey lab and UC Davis graduate Danielle Wishon; they specialize in forensic entomology
"They all did an excellent job engaging the public with thoughtful slide shows, images, and specimens," Yang said. "They truly communicated their enthusiasm for science."
The next open house will be Saturday, Feb. 16, when the Bohart Museum will be open as part of campuswide Biodiversity Museum Day.
Upcoming open houses:
- "Eight-Legged Wonders" (spider theme, featuring the work of the Jason Bond lab) on Saturday, March 9 from 1 to 4 p.m.
- UC Davis Picnic Day on Saturday, April 13 from 10 to 3 p.m.
The Bohart Museum, directed by Lynn Kimsey, professor of entomology, houses nearly eight million insect specimens, plus a year-around gift shop and a live "petting zoo" that includes Madagascar hissing cockroaches, stick insects, tarantulas and praying mantids. The gift shop is stocked with newly published calendars, books, jewlery, t-shirts, insect-collecting equipment, insect-themed candy, and stuffed animals. UC Davis entomologist Richard “Doc” Bohart (1913-2007) founded the museum in 1946.
The Bohart is open to the general public Mondays through Thursdays, from 9 a.m. to noon and from 1 to 5 p.m., plus occasional, weekend open houses. Admission is free. Further information is available on the Bohart Museum website at http://bohart.ucdavis.edu/ or contact (530) 753-0493 or firstname.lastname@example.org.
Now, newly published research on ovarian cancer, involving an anti-inflammatory compound discovered and developed in the Bruce Hammock lab at the University of California, Davis, and tested at Harvard Medical School on mice models, indicates that the compound not only suppresses inflammation but reduces cancer growth, acting as a “surge protector.”
“We are excited about this research and its potential,” said Hammock, a UC Davis distinguished professor who holds a joint appointment with the Department of Entomology and Nematology and the UC Davis Comprehensive Cancer Center. “Chemotherapy and surgery, the mainstays of conventional cancer treatment, can act as double-edged swords. It is tragic that the very treatments used to cure cancer are helping it to survive and grow.”
The research is a “novel approach to suppressing therapy-induced tumor growth and recurrence,” said the 13-member team from Harvard Medical School/Beth Israel Deaconess Medical Center (BIDMC), UC Davis, Institute of Systems Biology of Seattle, and Emory University School of Medicine of Atlanta.
Their paper, “Suppression of Chemotherapy-induced Cytokine/Lipid Mediator Surge and Ovarian Cancer by a Dual Cox-2, sEH Inhibitor,” appears today in the Proceedings of the National Academy of Sciences (PNAS).
“To prevent tumor-recurrence after therapy, it will be critical to neutralize the inherent tumor-promoting activity of therapy-generated debris,” said lead author Allison Gartung of Harvard Medical School/BIDMC. “Our results indicate that a dual COX-2/sEH inhibitor may offer a novel alternative to protect the body from a debris-mediated inflammatory response.”
Gartung said that the study confirmed that chemotherapy-killed ovarian cancer cells “induce surrounding immune cells called macrophages to release a surge of cytokines and lipid mediators that create an optimal environment for tumors to survive and grow.”
The team treated the mice models with a dual lipid pathway inhibitor discovered several years ago in the Hammock lab. It integrates two anti-inflammatory drugs (COX-2 inhibitor and soluble expoxide hydrolase (sEH) inhibitor) into a single molecule with the aim of reducing tumor angiogenesis and metastasis.
Chemist Sung Hee Hwang of the Hammock lab developed the compound, known as PTUPB, for the study. “The dual inhibitor here follows earlier work we did with it, blocking breast and lung tumors in mice,” Hammock said. “PTUPB is already being clinically evaluated for its therapeutic properties in other diseases.” Chemist Jun Yang of the Hammock lab did the mass spectrometry, showing how stabilization of lipid mediators reduces cancer growth and metastasis.
Lead researcher Dipak Panigrahy, a former Harvard physician turned full-time researcher, described chemotherapy and surgery “as our best tools for front-line cancer therapy, but chemotherapy and surgery create cell debris that can stimulate inflammation, angiogenesis, and metastasis. Thus, the very treatment used by oncologists to try to cure cancer is also helping it survive and grow. Overcoming the dilemma of debris-induced tumor progression is critical if we are to prevent tumor recurrence of treatment-resistance tumors which lead to cancer therapy failure.”
The tumor cell debris generates a “cytokine surge” that can result in a perfect storm for cancer progression. “The dual inhibitor acts as a surge protector,” Panigrahy said.
Panigrahy, who led angiogenesis and cancer animal modeling in the laboratory of Judah Folkman, a leading cancer research laboratory, based the debris model on his mother's chemotherapy treatments, and dedicated the research to his mother and “all other women who lost their lives to ovarian cancer.” American Cancer Society statistics show that among women, ovarian cancer ranks fifth in cancer deaths. A woman's risk of ovarian cancer is about 1 in 78; every year more than 14,000 die from the disease.
“Traditional cancer therapy sets up a dilemma,” Panigrahy commented. “Yes, we need to kill cancer cells but the inevitable byproduct of successfully doing so also stimulates tumor regrowth and progression. The more tumor cells you kill, the more inflammation you create, which can inadvertently stimulate the growth of surviving tumor cells. Overcoming the dilemma of debris-induced tumor progression is paramount if we are to prevent tumor recurrence of treatment-resistant tumors – the major reason for failure of cancer therapy. Our studies potentially pave the path for a new strategy for the prevention and treatment of chemotherapy-induced resistance with potential to translate to the clinic. If successful, this approach may also allow us to reduce the toxic activity of current treatment regimens.”
“The collaborative work in this paper not only defines a common problem with current cancer therapy, but it actually offers a potential solution to reduce metastasis and tumor growth following therapy,” said Primo Lara Jr., director of the UC Davis Comprehensive Cancer Center and associate director of Translational Research. “I am pleased that our Center was involved in this exciting project and we hope we can be involved in translating this basic research to the clinic.”
Panigrahy said that non-steroidal anti-inflammatory drugs (NSAIDs), which include aspirin and ibuprofen, reduce pain, fever and inflammation “bit may have severe side effects including stomach and brain bleeding as well as severe cardiovascular and kidney toxicity. They also do not specifically enhance clearing of debris.”
“We are exploring all options to translate PTUPB to cancer patients especially in combination with current cancer therapies such as chemotherapy, radiation, immunotherapy, or surgery which either directly or indirectly may generate tumor cell debris,” Panigrahy said. “Our next step is to investigate whether our findings are consistent with clinical studies involving human cancer.”
The Hammock lab has been researching the sEH inhibitor for 50 years. As a graduate student at UC Berkeley, Hammock co-discovered the sEH inhibitor with fellow graduate student Sarjeet Gill, now a distinguished professor at UC Riverside.
"We have a series of papers largely in PNAS, with the Panigrahy group showing first our soluble epoxide hydrolase inhibitors block tumor growth and metastasis when used with omega3 fish oils or with COX inhibitors and the role for these compounds in regulating a number of mediators of cancer growth," Hammock said.
Multiple grants funded the research. Hammock, the 31-year director of the UC Davis Superfund Program, received funds the National Cancer Institute and the National Institute on Environmental Health Sciences. The Panigrahy laboratory is funded by the Credit Union Kids at Heart Team. Other grants came from the C. J. Buckley Pediatric Brain Tumor Fund, Molly's Magic Wand for Pediatric Brain Tumors, the Markoff Foundation Art-in-Giving Foundation, the Kamen Foundation, Jared Branfman Sunflowers for Life, and the Joe Andruzzi Foundation. An NIH T32-training grant funded Gartung's work.
Allison Gartung completed her doctorate at Wayne State University in 2016 and has since served as a postdoctoral research fellow at Harvard Medical School/BIDMC. Highly honored for her work, she won the highest award for a post-doctoral fellow (Santosh Nigam Award) at the 15th International Conference on Bioactive Lipids in Cancer, Inflammation and Related Diseases, held in 2017 in Puerta Vallarta, Mexico. She served as a guest editor of a special double-issue of 24 invited world-experts in Cancer and Metastasis Reviews on Bioactive Lipids.
Dipak Panigrahy was accepted into medical school at Boston University at age 17. He trained in surgery with Dr. Roger Jenkins, who performed the first liver transplant in New England. Over the past decade, Panigrahy led angiogenesis and cancer animal modeling in the Judah Folkman laboratory. He joined the Beth Israel Deaconess Medical Center in 2013, and in 2014 was appointed assistant professor of pathology, and currently has a laboratory in the Center for Vascular Biology Research. Panigrahy is the expert on the team for preclinical tumor models and examining novel concepts for cancer therapy at the preclinical stage –the diversity of models he has created and worked with is unmatched.
Bruce Hammock, UC Davis distinguished professor, is the world expert and discoverer of the dual COX2-sEH inhibitor. He received his doctorate in entomology/toxicology from UC Berkeley and joined the UC Davis faculty in 1980. Highly honored by his peers, Hammock is a fellow of the National Academy of Inventors, which honors academic invention and encourages translations of inventions to benefit society. He is a member of the U.S. National Academy of Sciences, and the recipient of scores of awards, including the Bernard B. Brodie Award in Drug Metabolism, sponsored by the America Society for Pharmacology and Experimental Therapeutics; and the first McGiff Memorial Awardee in Lipid Biochemistry,
Mark Kieran of Bristol-Myers Squibb and Professor Vikas Sukhatme (Dean of Emory School of Medicine), both senior co-authors, are leading world-experts on personalized medicine approaches to support the treatment of cancer patients. Kieran is a leading oncologist with expertise in translating novel therapeutic modalities (beyond chemotherapy/irradiation) into the clinic. Plans for clinical trials involving PTUPB are underway.
Professor Sui Huang, with the Institute for Systems Biology (ISB), is known as the world's leading expert on systems biology and debris-induced tumor growth.
No, time's fun when you're studying flies!
Nearly a dozen fly researchers from throughout the UC Davis campus will greet the public and explain their research at the Bohart Museum of Entomology open house from 1 to 4 p.m., Saturday, Jan. 12 in Room 1124 of the Academic Surge Building, Crocker Lane. The event, themed “Time's Fun When Studying Flies," is free, open to the public, and family friendly.
The open house will showcase botflies, fruit flies, assassin flies, mosquitoes and other members of the Diptera order. Ten scientists, including undergraduate students, graduate students and a visiting scholar, are scheduled to participate. They will display specimens, photos and field equipment and chat with the public.
"Besides checking out the flies, this is also a good time for visitors to inquire about graduate school, ask about starting research projects, and to meet people working in forensics, evolution, agriculture, animal behavior, genetics, geography, and home pests, among other topics," said Tabatha Yang, education and outreach coordinator.
Entomologist Jeff Smith, who curates the Bohart's butterfly and moth section, will be on hand to open the Diptera section. "He will dust off and put on his pest industry hat to talk about those relevant flies," Yang said.
A family craft activity is also planned.
Among the fly researchers participating will be fourth-year doctoral candidate Charlotte Herbert Alberts, who studies assassin fly (Asilidae) systematics with major professor Lynn Kimsey, director of the Bohart Museum of Entomology and UC Davis professor of entomology.
She lists other interesting facts about assassin flies:
- They are venomous! Their venom both immobilizes their prey and starts extra-oral digestion.
- They have very fancy facial hair (beards and mustaches) called a mystax, thought to protect their face while they catch and eat their prey.
- Some assassin flies are very selective in their prey choice and may have specialized venom to help them overcome their prey.
- There are more than 7,500 species found all over the world!
“I am currently working on a few projects: An Asiloidea Phylogeny, Predator-Prey Dynamics of Asilidae and their kin, and a few side projects including the revision of Ablautus, and Nearctic Saropogon,” Alberts says. She is also interested in assassin fly venom and how it may have evolved to target certain prey taxa. In addition, she teaches basic entomology and art in a UC Davis Art/Science Fusion Program course.
Graduate student Socrates Letana, who also studies with major professor Lynn Kimsey. researches the evolution and diversification of botflies (Oestridae) "in the global mammal host-space with special emphasis on the New World." Part of his research interests include Diptera systematics, biogeography and Southeast Asian biodiversity. He is a research associate with the California State Collection of Arthropods, California Department of Food and Agriculture.
The larvae of botflies are internal parasites of mammals; some species grow in the host's flesh and others within the gut. Dermatobia hominis is known as the only species of botfly known to parasitize humans routinely.
UC Davis undergraduate researcher Cindy Truong of the Joanna Chiu lab, will be showing flies in various life stages and provide coloring pages for kids. "We primarily study circadian rhythm, which is the sleep and wake cycle. More specifically we study the mechanisms in which 'clock proteins' go through in order to maintain this cycle." She will expand on "How flies tell time.”
Christine Tabuloc, graduate student researcher in the Chiu lab, will discuss her work on fruit flies. "My current focus is to investigate the effects of climatic change on gene expression of an invasive pest and determine whether there is a correlation to resistance and survival," she said. "In addition to pest management research, I am also studying a kinase of a core clock protein in Drosophila melanogaster and hoping to dissect its functional contribution to the molecular oscillator."
Others from the Chiu lab participating will be Yao Cai, a doctoral graduate student who studies genetic mechanisms underlying the regulation of organismal behavior, and undergraduate researcher Christopher Ochoa.
The presenters also will include fruit fly, forensics and mosquito experts:
- Kathlyne-Inez Soukhaseum of the Frank Zalom lab will talk about her research on the spotted-wing drosophila, Drosophila suzukii, a major agricultural pest that invaded California in 2008.
- Danielle Wishon, a forensic entomologist who holds a bachelor's degree in entomology from UC Davis, will discuss how flies are used in forensics. She hopes to enroll in graduate school at Purdue University.
- Nermeen Raffat, visiting scholar in the Sharon Lawler lab, will focus on mosquito larvae. He is working on "the effect of copper sulphate and other toxicants on the development and anti-predatory behavior of the mosquitoes larvae."
The Bohart Museum, founded in 1946 by UC Davis entomologist Richard “Doc” Bohart (1913-2007), is the home of nearly eight million insect specimens, plus a year-around gift shop and a live "petting zoo" that includes Madagascar hissing cockroaches, stick insects, tarantulas and praying mantids. The gift shop is stocked with newly published calendars, books, jewlery, t-shirts, insect-collecting equipment, insect-themed candy, and stuffed animals.
The Bohart Museum is open to the general public Mondays through Thursdays, from 9 a.m. to noon and from 1 to 5 p.m., plus occasional, weekend open houses. Admission is free. Further information is available on the Bohart Museum website at http://bohart.ucdavis.edu/ or contact (530) 753-0493 or email@example.com.
Nominator Steve Nadler, professor and chair of the UC Davis Department of Entomology and Nematology, praised Page as “a pioneer researcher in the field of behavioral genetics, an internationally recognized scholar, a highly respected author, a talented and innovative administrator, and a skilled teacher responsible for mentoring many of today's top bee scientists.”
“Robert Page is arguably the most influential honey bee biologist of the past 30 years,” Nadler wrote in his letter of nomination. The award, administered by the UC Davis Emeriti Association, honors outstanding scholarship work or service performed since retirement by a UC Davis emeritus.
Page will receive the award--a plaque and a cash prize of $1000--at a luncheon hosted by Chancellor Gary May on Monday, Jan. 28 in the UC Davis Conference Center. Two recipients of the Edward Dickson Emeriti Professorship Award—Caroline Chantry and Anthony Phillips (both pediatrics)--also will be honored.
Page, who received his doctorate in entomology from UC Davis in 1980, joined the UC Davis faculty in 1989 and served as the chair of the Department of Entomology from 1999 to 2004, the year he gained emeritus status and the year Arizona State University recruited him for what would be a series of top-level administrative roles. He continues his research, teaching and public service in both Arizona and California, but now resides in California, near Davis, with his family.
Page is known for his research on honey bee behavior and population genetics, particularly the evolution of complex social behavior. One of his most salient contributions to science was to construct the first genomic map of the honey bee, which sparked a variety of pioneering contributions not only to insect biology but to genetics at large.
At UC Davis, he maintained a honey bee-breeding program for 24 years, from 1989 to 2015, managed by bee breeder-geneticist Kim Fondrk at the Harry H. Laidlaw Jr. Honey Bee Research Facility. They discovered a link between social behavior and maternal traits in bees. Their work was featured in a cover story in the journal Nature. In all, Nature featured his work on four covers from work mostly done at UC Davis.
His work has garnered a significant impact in the scientific community through his research on the evolutionary genetics and social behavior of honey bees. He was the first to demonstrate that a significant amount of observed behavioral variation among honey bee workers is due to genotypic variation. In the 1990s he and his students and colleagues isolated, characterized and validated the complementary sex determination gene of the honey bee; considered the most important paper yet published about the genetics of Hymenoptera. The journal Cell featured their work on its cover. In subsequent studies, he and his team published further research into the regulation of honey bee foraging, defensive and alarm behavior.
In addition to his pioneering work on 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--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; demonstrating genetic links between pollen and nectar collection, tactile and olfactory learning characteristics, and neuroendocrine function. This work provides the most detailed understanding to date of the molecular and genetic bases to task variation in a social insect colony.
He has authored than 250 research papers, including five books: among them The Spirit of the Hive: The Mechanisms of Social Evolution, published by Harvard University Press in 2013. He is a highly cited author onsuch topics as Africanized bees, genetics and evolution of social organization, sex determination, and division of labor in insect societies. His resume shows more than 18,000 citations.
In 2004, Page was recruited by ASU as the director of the School of Life Sciences of Arizona State University (ASU). He organized three departments--biology, microbiology and plant sciences, comprising more than 600 faculty, graduate students, postdoctoral fellows and staff--into one unified school. As its founding director, he 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.
His ASU academic career advanced to a number of titles: dean of Life Sciences; vice provost and dean of the College of Liberal Arts and Sciences; and university provost. Today he holds the titles of provost emeritus of ASU and Regents professor emeritus, as well as UC Davis department chair emeritus, professor emeritus, and now distinguished emeritus professor.
Page's colleagues laud his strategic vision, his innovative leadership, and his stellar contributions to science.
James R. Carey, distinguished professor of entomology at UC Davis, who continues to work with Dr. Page on research projects, describes him as "one of the most gifted scientists, administrators, and teachers I have had the privilege to know in 30 years in academia.”
Colleague Bert Hoelldobler, an ASU professor of life sciences, said Page is “the leading honey bee geneticist in the world. A number of now well-known scientists in the U.S. and Europe learned the ropes of sociogenetics in Rob's laboratory.”
Bee breeder-geneticist Susan Cobey, former manager of the Laidlaw facility and now of Washington State University, praised Page's major contributions to the beekeeping industry, including the Page-Laidlaw Closed Population Breeding Theory. This has offered a practical system of stock improvement for honey bees, used worldwide, she said. “It's a challenge, as the queen mates in flight with numerous drones and selection is based upon complex behaviors at the colony level, influenced by the environmental.” She has applied this theory throughout her career, developing and maintaining a population of Carniolan bees, now in their 36th generation.
Among Page's many honors:
- Fellow of the American Association for the Advancement of Science
- Awardee of the Alexander von Humboldt Senior Scientist Award (the Humboldt Prize - the highest honor given by the German government to foreign scientists)
- Fellow of the American Academy of Arts and Sciences
- Elected to the Leopoldina - the German National Academy of Sciences (the longest continuing academy in the world)
- Fellow of the Wissenschaftskolleg zu Berlin
- Fellow of the Entomological Society of America
- Fellow of the California Academy of Sciences
- Elected to the Brazilian Academy of Science
- Recipient of the James W. Creasman Award of Excellence from the Arizona State University Alumni Association
- Fellow, Carl Friedrich von Siemens Foundation, Munich, Germany, September 2017-August 2018
- Thomas and Nina Leigh Distinguished Alumni Award from UC Davis Department of Entomology and Nematology
Native pollinator specialist Robbin Thorp of the UC Davis Department of Entomology and Nematology received the UC Davis Distinguished Emeritus Award in 2015. He served on the faculty from 1964 to 1994. He is the co-author of Bumble Bees of California: An Identification Guide (2014, Princeton University Press) and California Bees and Blooms: A Guide for Gardeners and Naturalists (2014, Heyday Books).