MBARI - Robert Vrijenhoek

Robert C. Vrijenhoek
Senior Scientist

Monterey Bay Aquarium Research Institute
7700 Sandholdt Road
Moss Landing, CA 95039
Phone: (831) 775-1799
Fax: (831) 775-1620
email: vrijen@mbari.org

Interests

Marine Biology, Genetics and Evolution, Conservation

Education

B.S. University of Massachusetts—Amherst
Ph.D. University of Connecticut—Storrs

Research

Studies focus on the ecological and evolutionary consequences of genetic diversity in animals and associated microbes.

Bone-Eating worms

Osedax worms were discovered living on the bones of a whale found at 2891 m depth in Monterey Bay. Osedax females grow complex roots that contain symbiotic bacteria and invade the bone marrow, on which these mouthless and gutless worms subsist. Osedax males are microscopic, and they live inside the gelatinous tubes produced by the females. Sex ratios are highly skewed with more than 25 males living in an average female's tube. MBARI press release.

Some recent papers on this topic include:

Rouse GW, Goffredi SK, Vrijenhoek RC (2004) Osedax: Bone-Eating Marine Worms with Dwarf Males. Science 305: 668-671. Link to PDF.

Goffredi SK, Paull CK, Fulton-Bennett K, Hurtado LA, Vrijenhoek RC (2004) Unusual benthic fauna associated with a whale fall in Monterey Canyon, California. Deep Sea Research I 51: 1295-1306 Link to PDF

Goffredi SK, Orphan VJ, Rouse GW, Jahnke L, Embaye T, Turk K, Lee R, Vrijenhoek RC (2005) Evolutionary innovation: a bone-eating marine symbiosis. Environmental Microbiology 7: 1369-1378 Link to PDF

Gene flow and dispersal

Since 1989, research has focused on gene flow and evolutionary relationships of organisms endemic to deep-sea hydrothermal vents and cold water seeps. Most vent-endemic invertebrates have effective modes of dispersal that maintain genetic continuity among populations distributed thousands of kilometers along mid-ocean ridge systems. For some organisms, however, structural aspects of the ridge system (large transform faults and other discontinuities such as the Easter Microplate) result in restricted gene flow or isolation among populations.

Young CR, Fujio S, Vrijenhoek RC (2008) Directional dispersal between mid-ocean ridges: deep-ocean circulation and gene flow in Ridgeia piscesae. Mol Ecol: in press Link to PDF

Johnson SB, Young CR, Jones WJ, Warén A, Vrijenhoek RC (2006) Migration, isolation, and speciation of hydrothermal vent limpets (Gastropoda; Lepetodrilidae) across the Blanco Transform Fault. Biological Bulletin (Woods Hole) 210: 140-157 Link to PDF

Hurtado LA, Lutz RA, Vrijenhoek RC (2004) Distinct patterns of genetic differentiation among annelids of eastern pacific hydrothermal vents. Molecular Ecology: 13: 2603-2615 Link to PDF

Won Y, Young CR, Lutz RA, Vrijenhoek RC (2003) Dispersal barriers and isolation among deep-sea mussel populations (Mytilidae: Bathymodiolus) from eastern Pacific hydrothermal vents. Molecular Ecology 12: 169-184 Link to PDF

Molecular Systematics

Research has focused on the the evolutionary histories of vent and seep invertebrates. Phylogenies have been generated for many of the dominant vent taxa including clams, mussels, shrimp, and tubeworms. Present evidence suggests that taxa have had relatively recent origins during the last 100 million years.

Jones WJ, Won YJ, Maas PAY, Smith PJ, Lutz RA, Vrijenhoek RC (2006) Evolution of habitat use by deep-sea mussels. Marine Biology 148: 841-851 Link to PDF

Little CTS, Vrijenhoek RC (2003) Are hydrothermal vent animals living fossils? Trends in Ecology and Evolution 18: 582-588 Link to PDF

Marine Symbiosis

Vertical transmission of symbiotic bacteria ensures widely dispersing hosts with suitable bacteria when colonizing chemosynthetic habitats. Deep-sea vesicomyid clams transmit their symbionts through eggs; consequently, variation in the symbiont genome is genetically coupled with variation in the host's cytoplasmically transmitted mitochondrial genome. Cytoplasmic co-transmission results in a phylogenetic pattern of co-speciation be-tween the clam host and symbiont genomes. In contrast, vestimentiferan tubeworms (fam. Siboglinidae) acquire their sulfide-oxidizing endosymbionts from the local environment, and they show no evidence for co-speciation. These transmission modes have significant demographic consequences for microbial population structure and evolution.

Won Y-J, Hallam SJ, O'Mullan GD, Pan IL, Buck KR, Vrijenhoek RC (2003) Environmental acquisition of thiotrophic endosymbionts by deep-sea mussels of the genus Bathymodiolus. Applied and Environmental Microbiology 69: 6785-6792 Link to PDF

Hurtado LA, Mateos M, Lutz RA, Vrijenhoek RC (2003) Coupling of bacterial endosymbiont and host mitochondrial genomes in the hydrothermal vent clam Calyptogena magnifica. Applied and Environmental Microbiology 69: 2058-2064 Link to PDF

Unisexual Fish

Long-term research efforts during the past 30 years have focused on the evolutionary and ecological consequences of sexual and asexual reproduction in Mexican poeciliid fish (genus Poeciliopsis). We use a variety of molecular approaches to contrast gene and genomic evolution under the recombinant and non-recombinant breeding systems found in these fish.

Mateos M, Vrijenhoek RC (2002) Ancient versus reticulate origin of a hemiclonal lineage. Evolution 56: 985-992 link to PDF

Vrijenhoek, R. C., 1998 Animal clones and diversity. Bioscience 48: 617-628. Link to PDF

Conservation Genetics

These fish also serve as a model system for conservation studies. Several of the sexual species are either endangered or seriously threatened. Field and experimental studies have shown that the competitive ability, disease resistance, developmental stability, growth rate, and fecundity of these fish may be compromised by losses of genetic diversity that accompany population bottlenecks, founder events, and inbreeding.

Vrijenhoek, R. C., 1998 Conservation genetics of freshwater fish. Journal of Fish Biology 53 (Supplement A): 394-412. Link to PDF

Expeditions

Southern East Pacific Rise (Dec. 16, 1998 - Jan. 21, 1999)
Guaymas Hot Vents/21 N (April 4 - 17, 2003)
Whale Fall (August 2003)
Easter Microplate (March 12 - April 6, 2005)
Fiji/Lau Expedition (May 15 - June 3, 2005)

Publications

Last updated: Jan. 03, 2006

Home News & Information Ocean Observatories Research & Development Data & Images Marine Operations Press room About MBARI Employment Education Seminars Calendar Publications Related Links


Robert C. Vrijenhoek Senior Scientist Monterey Bay Aquarium Research Institute 7700 Sandholdt Road Moss Landing, CA 95039 Phone: (831) 775-1799 Fax: (831) 775-1620 email: vrijen@mbari.org Interests Marine Biology, Genetics and Evolution, Conservation Education B.S. University of Massachusetts—Amherst Ph.D. University of Connecticut—Storrs Research Studies focus on the ecological and evolutionary consequences of genetic diversity in animals and associated microbes. Bone-Eating worms Osedax worms were discovered living on the bones of a whale found at 2891 m depth in Monterey Bay. Osedax females grow complex roots that contain symbiotic bacteria and invade the bone marrow, on which these mouthless and gutless worms subsist. Osedax males are microscopic, and they live inside the gelatinous tubes produced by the females. Sex ratios are highly skewed with more than 25 males living in an average female's tube. MBARI press release. Some recent papers on this topic include: Rouse GW, Goffredi SK, Vrijenhoek RC (2004) Osedax: Bone-Eating Marine Worms with Dwarf Males. Science 305: 668-671. Link to PDF. Goffredi SK, Paull CK, Fulton-Bennett K, Hurtado LA, Vrijenhoek RC (2004) Unusual benthic fauna associated with a whale fall in Monterey Canyon, California. Deep Sea Research I 51: 1295-1306 Link to PDF Goffredi SK, Orphan VJ, Rouse GW, Jahnke L, Embaye T, Turk K, Lee R, Vrijenhoek RC (2005) Evolutionary innovation: a bone-eating marine symbiosis. Environmental Microbiology 7: 1369-1378 Link to PDF Gene flow and dispersal Since 1989, research has focused on gene flow and evolutionary relationships of organisms endemic to deep-sea hydrothermal vents and cold water seeps. Most vent-endemic invertebrates have effective modes of dispersal that maintain genetic continuity among populations distributed thousands of kilometers along mid-ocean ridge systems. For some organisms, however, structural aspects of the ridge system (large transform faults and other discontinuities such as the Easter Microplate) result in restricted gene flow or isolation among populations. Young CR, Fujio S, Vrijenhoek RC (2008) Directional dispersal between mid-ocean ridges: deep-ocean circulation and gene flow in Ridgeia piscesae. Mol Ecol: in press Link to PDF Johnson SB, Young CR, Jones WJ, Warén A, Vrijenhoek RC (2006) Migration, isolation, and speciation of hydrothermal vent limpets (Gastropoda; Lepetodrilidae) across the Blanco Transform Fault. Biological Bulletin (Woods Hole) 210: 140-157 Link to PDF Hurtado LA, Lutz RA, Vrijenhoek RC (2004) Distinct patterns of genetic differentiation among annelids of eastern pacific hydrothermal vents. Molecular Ecology: 13: 2603-2615 Link to PDF Won Y, Young CR, Lutz RA, Vrijenhoek RC (2003) Dispersal barriers and isolation among deep-sea mussel populations (Mytilidae: Bathymodiolus) from eastern Pacific hydrothermal vents. Molecular Ecology 12: 169-184 Link to PDF Molecular Systematics Research has focused on the the evolutionary histories of vent and seep invertebrates. Phylogenies have been generated for many of the dominant vent taxa including clams, mussels, shrimp, and tubeworms. Present evidence suggests that taxa have had relatively recent origins during the last 100 million years. Jones WJ, Won YJ, Maas PAY, Smith PJ, Lutz RA, Vrijenhoek RC (2006) Evolution of habitat use by deep-sea mussels. Marine Biology 148: 841-851 Link to PDF Little CTS, Vrijenhoek RC (2003) Are hydrothermal vent animals living fossils? Trends in Ecology and Evolution 18: 582-588 Link to PDF Marine Symbiosis Vertical transmission of symbiotic bacteria ensures widely dispersing hosts with suitable bacteria when colonizing chemosynthetic habitats. Deep-sea vesicomyid clams transmit their symbionts through eggs; consequently, variation in the symbiont genome is genetically coupled with variation in the host's cytoplasmically transmitted mitochondrial genome. Cytoplasmic co-transmission results in a phylogenetic pattern of co-speciation be-tween the clam host and symbiont genomes. In contrast, vestimentiferan tubeworms (fam. Siboglinidae) acquire their sulfide-oxidizing endosymbionts from the local environment, and they show no evidence for co-speciation. These transmission modes have significant demographic consequences for microbial population structure and evolution. Won Y-J, Hallam SJ, O'Mullan GD, Pan IL, Buck KR, Vrijenhoek RC (2003) Environmental acquisition of thiotrophic endosymbionts by deep-sea mussels of the genus Bathymodiolus. Applied and Environmental Microbiology 69: 6785-6792 Link to PDF Hurtado LA, Mateos M, Lutz RA, Vrijenhoek RC (2003) Coupling of bacterial endosymbiont and host mitochondrial genomes in the hydrothermal vent clam Calyptogena magnifica. Applied and Environmental Microbiology 69: 2058-2064 Link to PDF Unisexual Fish Long-term research efforts during the past 30 years have focused on the evolutionary and ecological consequences of sexual and asexual reproduction in Mexican poeciliid fish (genus Poeciliopsis). We use a variety of molecular approaches to contrast gene and genomic evolution under the recombinant and non-recombinant breeding systems found in these fish. Mateos M, Vrijenhoek RC (2002) Ancient versus reticulate origin of a hemiclonal lineage. Evolution 56: 985-992 link to PDF Vrijenhoek, R. C., 1998 Animal clones and diversity. Bioscience 48: 617-628. Link to PDF Conservation Genetics These fish also serve as a model system for conservation studies. Several of the sexual species are either endangered or seriously threatened. Field and experimental studies have shown that the competitive ability, disease resistance, developmental stability, growth rate, and fecundity of these fish may be compromised by losses of genetic diversity that accompany population bottlenecks, founder events, and inbreeding. Vrijenhoek, R. C., 1998 Conservation genetics of freshwater fish. Journal of Fish Biology 53 (Supplement A): 394-412. Link to PDF Expeditions Southern East Pacific Rise (Dec. 16, 1998 - Jan. 21, 1999) Guaymas Hot Vents/21 N (April 4 - 17, 2003) Whale Fall (August 2003) Easter Microplate (March 12 - April 6, 2005) Fiji/Lau Expedition (May 15 - June 3, 2005) Publications Deep-Sea Biology Symbiont Studies Unisexual Fish Conservation Complete List Last updated: Jan. 03, 2006
Home News & Information Ocean Observatories Research & Development Data & Images Marine Operations