Thierry M Work
Dr. Thierry M Work is currently the project leader for the National Wildlife Health Center Honolulu Field Station where he leads a team that provides support to safeguard wildlife and ecosystem health through research and technical assistance to federal, state, and international partners.
Professional Experience
1992-Present: Project leader, USGS National Wildlife Health Center Honolulu Field Station
1987-1992: Wildlife veterinarian, California Department of Fish & Game
Education and Certifications
1989 Masters in Preventive Veterinary Medicine, UC Davis
1988 Doctor of Veterinary Medicine, UC Davis
1985 Master Science, Entomology, UC Davis
1983 Bachelor Science, Entomology, Texas A&M
Affiliations and Memberships*
Wildlife Disease Association
Sigma Xi
Science and Products
The first cyanobacterial infection of crustose coralline algae discovered on the reefs of Pohnpei, Micronesia
To understand coral disease, look at coral cells
Microbial aggregates within tissues infect a diversity of corals throughout the Indo-Pacific
Lectins stain cells differentially in the coral, Montipora capitata
Ocean warming and acidification have complex interactive effects on the dynamics of a marine fungal disease
Unique characteristics of the trachea of the juvenile leatherback turtle facilitate feeding, diving and endothermy
Immunological evaluation of captive green sea turtle (Chelonia mydas) with ulcerative dermatitis
Tumors in sea turtles: The insidious menace of fibropapillomatosis
Parasitic infection by larval helminths in Antarctic fishes: pathological changes and impact on the host body condition index
Skin pathology in Hawaiian goldring surgeonfish, Ctenochaetus strigosus (Bennett)
A simple humane method to euthanize a sea turtle
Histological observations in the Hawaiian reef coral, Porites compressa, affected by Porites bleaching with tissue loss
Non-USGS Publications**
**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.
Science and Products
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Filter Total Items: 167
The first cyanobacterial infection of crustose coralline algae discovered on the reefs of Pohnpei, Micronesia
Crustose coralline algae (CCA) can cover substantial areas on living reef benthos (Adey et al. 1982, Keats et al. 1997), are important to reef integrity by acting to cement reefs together (Littler and Littler 1984), and serve as recruitment sites for coral larvae (Lasker and Kim 1996, Harrington et al. 2004, Price 2010).AuthorsGreta S. Aeby, Thierry M. Work, Konrad A. HughenTo understand coral disease, look at coral cells
Diseases threaten corals globally, but 40 years on their causes remain mostly unknown. We hypothesize that inconsistent application of a complete diagnostic approach to coral disease has contributed to this slow progress. We quantified methods used to investigate coral disease in 492 papers published between 1965 and 2013. Field surveys were used in 65% of the papers, followed by biodetection (43%AuthorsThierry M. Work, Carol U. MeteyerMicrobial aggregates within tissues infect a diversity of corals throughout the Indo-Pacific
Coral reefs are highly diverse ecosystems where symbioses play a pivotal role. Corals contain cell-associated microbial aggregates (CAMA), yet little is known about how widespread they are among coral species or the nature of the symbiotic relationship. Using histology, we found CAMA within 24 species of corals from 6 genera from Hawaii, American Samoa, Palmyra, Johnston Atoll, Guam, and AustraliaAuthorsThierry M. Work, Greta S. AebyLectins stain cells differentially in the coral, Montipora capitata
A limitation in our understanding of coral disease pathology and cellular pathogenesis is a lack of reagents to characterize coral cells. We evaluated the utility of plant lectins to stain tissues of a dominant coral, Montipora capitata, from Hawaii. Of 22 lectins evaluated, nine of these stained structures in the upper or basal body wall of corals. Specific structures revealed by lectins that werAuthorsThierry M. Work, Yael FarahOcean warming and acidification have complex interactive effects on the dynamics of a marine fungal disease
Diseases threaten the structure and function of marine ecosystems and are contributing to the global decline of coral reefs. We currently lack an understanding of how climate change stressors, such as ocean acidification (OA) and warming, may simultaneously affect coral reef disease dynamics, particularly diseases threatening key reef-building organisms, for example crustose coralline algae (CCA).AuthorsGareth J. Williams, Nichole N. Price, Blake Ushijima, Greta S. Aeby, Sean M. Callahan, Simon K. Davy, Jamison M. Gove, Maggie D. Johnson, Ingrid S. Knapp, Amanda Shore-Maggio, Jennifer E. Smith, Patrick Videau, Thierry M. WorkUnique characteristics of the trachea of the juvenile leatherback turtle facilitate feeding, diving and endothermy
The adult leatherback turtle Dermochelys coriacea overlaps in body size (300–500 kg) with many marine mammals, yet develops from a 50 g hatchling. Adults can dive deeper than 1200 m and have core body temperatures of 25 °C; hatchlings are near-surface dwellers. Juvenile leatherbacks have rarely been studied; here we present anatomical information for the upper respiratory tract of 3 turtles (66.7–AuthorsJohn Davenport, T. Todd Jones, Thierry M. Work, George H. BalazsImmunological evaluation of captive green sea turtle (Chelonia mydas) with ulcerative dermatitis
Ulcerative dermatitis (UD) is common in captive sea turtles and manifests as skin erosions and ulcers associated with gram-negative bacteria. This study compared clinically healthy and UD-affected captive turtles by evaluating hematology, histopathology, immunoglobulin levels, and delayed-type hypersensitivity assay. Turtles with UD had significantly lower weight, reduced delayed-type hypersensitiAuthorsFernando Alberto Muñoz, Sergio Estrada-Parra, Andrés Romero-Rojas, Erik Gonzalez-Ballesteros, Thierry M. Work, Hector Villaseñor-Gaona, Iris Estrada-GarciaTumors in sea turtles: The insidious menace of fibropapillomatosis
Early in July 2013, a colleague in New Caledonia reported the stranding of a green sea turtle on the far northwest of the island. The animal had washed up dead on a rocky beach with multiple large tumors on its neck and hind flippers. To all appearances, the turtle had fibropapillomatosis (FP), a tumor disease affecting marine turtles globally. This was the first known case of FP on the island—anAuthorsThierry M. Work, George H. BalazsParasitic infection by larval helminths in Antarctic fishes: pathological changes and impact on the host body condition index
We examined pathological changes and relationship between body condition index (BCI) and parasitic infection in 5 species of fish, including 42 icefish Chionodraco hamatus (Channichtyidae), 2 dragonfish Cygnodraco mawsoni (Bathydraconidae), 30 emerald rock cod Trematomus bernacchii, 46 striped rock cod T. hansoni and 9 dusty rock cod T. newnesi (Nototheniidae) from the Ross Sea, Antarctica. All paAuthorsMario Santoro, Simonetta Mattiucci, Thierry M. Work, Roberta Cimmaruta, Valentina Nardi, Paolo Cipriani, Bruno Bellisario, Giuseppe NascettiSkin pathology in Hawaiian goldring surgeonfish, Ctenochaetus strigosus (Bennett)
Twenty-eight goldring surgeonfish, Ctenochaetus strigosus (Bennett), manifesting skin lesions and originating from the north-western and main Hawaiian Islands were examined. Skin lesions were amorphous and ranged from simple dark or light discolouration to multicoloured tan to white sessile masses with an undulant surface. Skin lesions covered 2–66% of the fish surface, and there was no predilectiAuthorsThierry M. Work, Greta S. AebyA simple humane method to euthanize a sea turtle
Increased interconnectedness, communication, and demands of society require that wildlife professionals make every effort to consider animal welfare when handling animals. The challenge can be daunting, particularly when a wild animal needs to be euthanized. In some cases, biologists are in remote areas under conditions that may be less than ideal to properly and swiftly dispatch an animal, eitherAuthorsThierry M. Work, George H. BalazsHistological observations in the Hawaiian reef coral, Porites compressa, affected by Porites bleaching with tissue loss
The scleractinian finger coral Porites compressa is affected by the coral disease Porites bleaching with tissue loss (PBTL). This disease initially manifests as bleaching of the coenenchyme (tissue between polyps) while the polyps remain brown with eventual tissue loss and subsequent algal overgrowth of the bare skeleton. Histopathological investigation showed a loss of symbiont and melanin-contaiAuthorsM. Sudek, Thierry M. Work, G.S. Aeby, S.K. DavyNon-USGS Publications**
Beale, A.M., Higgins, R.J., Work, T.M., Bailey, C.S., Smith, M.O., Shinka, T., and Hammock, B.D. (1989). MPTP-induced parkinson-like disease in sheep: Clinical and pathologic findings. Journal of Environmental Pathology and Toxicology 9, 417-428.
Hammock, B.D., Beale, A.M., Work, T.M., Gee, S.J., Gunther, R., Higgins, R.J., Shinka, T., and Castagnoli, N. (1989). A sheep model for MPTP induced parkinson-like symptoms. Life Sciences 45, 1601-1608.
Jessup, D.A., Work, T.M., Bushnell, R., Sawyer, M.M., and Osburn, B.I. (1990). An outbreak of bluetongue in captive deer and adjacent livestock in Kern county, California. California Fish and Game 76, 83-90.
Work, T.M., and Jessup, D.A. (1990). Epidemiology and pathology of hemorrhagic disease in free-ranging black-tailed deer in California: 1986-1987. Transactions of the Western Section of the Wildlife Society 26, 72-76.
Work, T.M., Sawyer, M.M., Jessup, D.A., Washino, R.K., and Osburn, B.I. (1990). Effects of anaesthetization and storage temperature on bluetongue virus recovery from Culicoides variipennis (Diptera: Ceratopogonidae) and sheep blood. Journal of medical entomology 27, 331-333.
Work, T.M., Washino, R.K., and Van RIper, I.I.I., C (1990). Comparative susceptibility of Culex tarsalis, Anopheles franciscanus and Culiseta inornata (Diptera: Culicidae) to Plasmodium relictum (Haemosporidia: Plasmodiiae). Journal of medical entomology 27, 68-71.
Work, T.M., Mullens, B.A., and Jessup, D.A. (1991). Estimation of survival and gonotrophic cycle length of Culicoides variipennis (Diptera; Ceratopogonidae) in California. Journal of the American Mosquito Control Association 7, 242-249.
Fritz, L., Quilliam, M.A., Wright, J.L.C., Beale, A.M., and Work, T.M. (1992). An outbreak of domoic acid poisoning attributed to the pennate diatom Pseudonitzschia australis. J Phycol 28, 439-442.
Work, T.M., Jessup, D.A., and Sawyer, M.M. (1992). Experimental bluetongue and epizootic hemorrhagic disease virus infeciton in black-tailed deer. J Wildl Dis 28, 623-628.
Work, T.M., Barr, B., Beale, A., Fritz, L., Quilliam, M.A., and Wright, J.L.C. (1993). Epidemiology of domoic acid poisoning in brown pelicans (Pelecanus occidentalis) and Brandt's cormorants (Phalacrocorax penicillatus) in California. J Zoo Wildl Med 24, 54-62.
Work, T.M., Beale, A.M., Fritz, L., Quilliam, M.A., Silver, M., Buck, K., and Wright, J. (1993). Domoic acid intoxication of brown pelicans and cormorants in Santa Cruz, California. In Toxic phytoplankton blooms in the sea, T. Smayda, ed. (Copenhagen: Elsiever), pp. 643-649.
Work, T.M., DeLong, R.L., Spraker, T.R., and Melin, S.R. (1993). Halothane anesthesia as a method of immobilizing free-ranging California sea lions (Zalophus californianus). J Zoo Wildl Med 24, 482-487.
Chomel, B.B., Carniciu, M.L., Kasten, R.W., Castelli, P.M., Work, T.M., and Jessup, D.A. (1994). Antibody prevalence of eight ruminant infectious diseases in California mule and black-tailed deer (Odocoileus hemioneus). J Wildl Dis 30, 51-59.
Patton, J.F., Work, T.M., Jessup, D.A., Hietala, S.K., Oliver, M.N., and MacLachlan, N.J. (1994). Serologic detection of bluetongue virus infection of black-tailed deer:comparison of the serum neutralization, agar gel immunodiffusion, and competitive ELISA assays. J Wildl Dis 30, 99-102.
Paul-Murphy, J., Work, T., Hunter, D.B., McFie, E., and Fjelline, D. (1994). Serologic survey and serum biochemical reference ranges of the free-ranging mountain lion (Felis concolor) in California. J Wildl Dis 30, 205-215.**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.
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*Disclaimer: Listing outside positions with professional scientific organizations on this Staff Profile are for informational purposes only and do not constitute an endorsement of those professional scientific organizations or their activities by the USGS, Department of the Interior, or U.S. Government