Mark Miller
Mark Miller is a Staff Scientist with the USGS Office of Science Quality and Integrity (OSQI).
Mark Miller is a broadly trained biologist with a strong background in ecology, genetics, and statistics. He also possesses exceptional computational skills backed by the ability to communicate with both general and technical audiences. Prior to joining OSQI, his research primarily focused on analyses of wildlife and endangered species that are relevant to USGS and other DOI bureaus. Mark has been located in Lakewood, Colorado since 2020.
Education and Certifications
B.S. Auburn University (Zoology)
M.S. Virginia Tech (Biology)
Ph.D. Northern Arizona University (Biology)
Science and Products
Genetic structure, diversity, and interisland dispersal in the endangered Mariana Common Moorhen (Gallinula chloropus guami)
Molecular tracing of confiscated pangolin scales for conservation and illegal trade monitoring in Southeast Asia
Intercontinental genetic structure and gene flow in Dunlin (Calidris alpina), a potential vector of avian influenza
Comparisons of genetic diversity in captive versus wild populations of the federally endangered Quino checkerspot butterfly (Euphydryas editha quino Behr; Lepidoptera: Nymphalidae)
Genetic structure, diversity and subspecies status of Gull-billed Terns (Gelochelidon nilotica) from the United States
SSR_pipeline: a bioinformatic infrastructure for identifying microsatellites from paired-end Illumina high-throughput DNA sequencing data
Population genetics and evaluation of genetic evidence for subspecies in the Semipalmated Sandpiper (Calidris pusilla)
SSR_pipeline--computer software for the identification of microsatellite sequences from paired-end Illumina high-throughput DNA sequence data
Variation in migratory behavior influences regional genetic diversity and structure among American kestrel populations (Falco sparverius) in North America
Evidence for population bottlenecks and subtle genetic structure in the yellow rail
Associations between forest fragmentation patterns and geneticstructure in Pfrimer’s Parakeet (Pyrrhura pfrimeri), an endangered endemic to central Brazil’s dry forests
Genetic applications in avian conservation
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
- Science
- Data
- Publications
Filter Total Items: 46
Genetic structure, diversity, and interisland dispersal in the endangered Mariana Common Moorhen (Gallinula chloropus guami)
The Mariana Common Moorhen (Gallinula chloropus guami) is a highly endangered taxon, with fewer than 300 individuals estimated to occur in the wild. The subspecies is believed to have undergone population declines attributable to loss of wetland habitats on its native islands in the Mariana Islands. We analyzed mitochondrial DNA (mtDNA) sequences (control region and ND2 genes) and nuclear microsatAuthorsMark P. Miller, Thomas D. Mullins, Susan M. Haig, Leilani L. Takano, Karla GarciaMolecular tracing of confiscated pangolin scales for conservation and illegal trade monitoring in Southeast Asia
Despite being protected by both international and national regulations, pangolins are threatened by illegal trade. Here we report mitochondrial DNA identification and haplotype richness estimation, using 239 pangolin scale samples from two confiscations in Hong Kong. We found a total of 13 genetically distinct cytochrome c oxidase I (COI) haplotypes in two confiscations (13 and ten haplotypes respAuthorsHuarong Zhang, Mark P. Miller, Feng Yang, Hon Ki Chan, Philippe Gaubert, Gary Ades, Gunter A. FischerIntercontinental genetic structure and gene flow in Dunlin (Calidris alpina), a potential vector of avian influenza
Waterfowl (Anseriformes) and shorebirds (Charadriiformes) are the most common wild vectors of influenza A viruses. Due to their migratory behavior, some may transmit disease over long distances. Migratory connectivity studies can link breeding and nonbreeding grounds while illustrating potential interactions among populations that may spread diseases. We investigated Dunlin (Calidris alpina), a shAuthorsMark P. Miller, Susan M. Haig, Thomas D. Mullins, Luzhang Ruan, Bruce Casler, Alexei Dondua, H. River Gates, J. Matthew Johnson, Steven J. Kendall, Pavel S. Tomkovich, Diane Tracy, Olga P. Valchuk, Richard B. LanctotComparisons of genetic diversity in captive versus wild populations of the federally endangered Quino checkerspot butterfly (Euphydryas editha quino Behr; Lepidoptera: Nymphalidae)
Captive populations can play a significant role in threatened and endangered species management. An important consideration when developing and managing captive populations, however, is the maintenance of genetic diversity to ensure that adequate variation exists to avoid the negative consequences of inbreeding. In this investigation, we compared genetic diversity patterns within captive and wildAuthorsMark P. Miller, Gordon F. Pratt, Thomas D. Mullins, Susan M. HaigGenetic structure, diversity and subspecies status of Gull-billed Terns (Gelochelidon nilotica) from the United States
Gull-billed Terns (Gelochelidon nilotica) are among the most widespread, yet scarce, Charadriiformes in the world. Two subspecies are recognized in the United States: G. n. aranea breeds along the U.S. Atlantic and Gulf coasts and G. n. vanrossemi breeds in the Salton Sea and San Diego Bay of California. Conservation concerns exist for the species due to its low abundance in the United States andAuthorsMark P. Miller, Thomas D. Mullins, Susan M. HaigSSR_pipeline: a bioinformatic infrastructure for identifying microsatellites from paired-end Illumina high-throughput DNA sequencing data
SSR_pipeline is a flexible set of programs designed to efficiently identify simple sequence repeats (e.g., microsatellites) from paired-end high-throughput Illumina DNA sequencing data. The program suite contains 3 analysis modules along with a fourth control module that can automate analyses of large volumes of data. The modules are used to 1) identify the subset of paired-end sequences that passAuthorsMark P. Miller, Brian J. Knaus, Thomas D. Mullins, Susan M. HaigPopulation genetics and evaluation of genetic evidence for subspecies in the Semipalmated Sandpiper (Calidris pusilla)
Semipalmated Sandpipers (Calidris pusilla) are among the most common North American shorebirds. Breeding in Arctic North America, this species displays regional differences in migratory pathways and possesses longitudinal bill length variation. Previous investigations suggested that genetic structure may occur within Semipalmated Sandpipers and that three subspecies corresponding to western, centrAuthorsMark P. Miller, Cheri Gratto-Trevor, Susan M. Haig, David S. Mizrahi, Melanie M. Mitchell, Thomas D. MullinsSSR_pipeline--computer software for the identification of microsatellite sequences from paired-end Illumina high-throughput DNA sequence data
SSR_pipeline is a flexible set of programs designed to efficiently identify simple sequence repeats (SSRs; for example, microsatellites) from paired-end high-throughput Illumina DNA sequencing data. The program suite contains three analysis modules along with a fourth control module that can be used to automate analyses of large volumes of data. The modules are used to (1) identify the subset of pAuthorsMark P. Miller, Brian J. Knaus, Thomas D. Mullins, Susan M. HaigVariation in migratory behavior influences regional genetic diversity and structure among American kestrel populations (Falco sparverius) in North America
Birds employ numerous strategies to cope with seasonal fluctuations in high-quality habitat availability. Long distance migration is a common tactic; however, partial migration is especially common among broadly distributed species. Under partial migration systems, a portion of a species migrates, whereas the remainder inhabits breeding grounds year round. In this study, we identified effects of mAuthorsMark P. Miller, Thomas D. Mullins, John G. Parrish, Jeffrey R. Walters, Susan M. HaigEvidence for population bottlenecks and subtle genetic structure in the yellow rail
The Yellow Rail (Coturnicops noveboracencis) is among the most enigmatic and least studied North American birds. Nesting exclusively in marshes and wetlands, it breeds largely east of the Rocky Mountains in the northern United States and Canada, but there is an isolated population in southern Oregon once believed extirpated. The degree of connectivity of the Oregon population with the main populatAuthorsKenneth J. Popper, Leonard F. Miller, Michael Green, Susan M. Haig, Thomas D. MullinsAssociations between forest fragmentation patterns and geneticstructure in Pfrimer’s Parakeet (Pyrrhura pfrimeri), an endangered endemic to central Brazil’s dry forests
When habitat becomes fragmented, populations of species may become increasingly isolated. In the absence of habitat corridors, genetic structure may develop and populations risk reductions in genetic diversity from increased genetic drift and inbreeding. Deforestation of the Cerrado biome of Brazil, particularly of the dry forests within the Parana˜ River Basin, has incrementally occurred since thAuthorsSusan M. Haig, Leonard F. Miller, Carlos Bianchi, Thomas D. MullinsGenetic applications in avian conservation
A fundamental need in conserving species and their habitats is defining distinct entities that range from individuals to species to ecosystems and beyond (Table 1; Ryder 1986, Moritz 1994, Mayden and Wood 1995, Haig and Avise 1996, Hazevoet 1996, Palumbi and Cipriano 1998, Hebert et al. 2004, Mace 2004, Wheeler et al. 2004, Armstrong and Ball 2005, Baker 2008, Ellis et al. 2010, Winker and Haig 20AuthorsSusan M. Haig, Whitcomb M. Bronaugh, Rachel S. Crowhurst, Jesse D'Elia, Collin A. Eagles-Smith, Clinton W. Epps, Brian Knaus, Mark P. Miller, Michael L. Moses, Sara Oyler-McCance, W. Douglas Robinson, Brian SidlauskasNon-USGS Publications**
Safner, T., Miller, M.P., McRae, B.H., Fortin, M., Manel, S., 2011, Comparison of Bayesian clustering andedge detection methods for inferring boundaries in landscape genetics: International Journal of Molecular Sciences, v. 12, p. 865-889.Fernandes, E., Keyser, C.A., Chong, J.P., Rangel, D., Miller, M.P., Roberts, D.W., 2010, Characterization of Metarhiziumspecies and varieties based on molecular analysis, heat tolerance and cold activity: Journal of Applied Microbiology, v. 108, p. 115-128.Fernandes, E., Moraes, A.L., Pacheco, R.S., Rangel, D., Miller, M.P., Bittencourt, V., Roberts, D.W., 2009, Genetic diversity among Brazilian isolates of Beauveria bassiana - comparisons with non-Brazilian isolates and other Beauveria species: Journal of Applied Microbiology, v. 107, p. 760-774.Schultheis, A.S., Booth, J.Y., Vinson, M.R., Miller, M.P., 2008, Genetic evidence for cohort splitting in the merovoltine stonefly Pteronarcys californica (Newport) in Blacksmith Fork, Utah: Aquatic Insects, v. 30, no. 3, p. 187-195.Miller, M.P., Vincent, R., 2008, Rapid natural selection for resistance to an introduced parasite of rainbow trout: Evolutionary Applications, v. 1, p. 336-341.Barni, F., Berti, A., Pianese, A., Boccellino, A., Miller, M.P., Caperna, A., Lago, G., 2007, Allele frequencies of 15 autosomal STR loci in the Iraq population with comparisons to other populations from the middle-eastern region: Forensic Science International, v. 167, p. 87-92.Wagner, E.J., Wilson, C., Arndt, R., Goddard, P., Miller, M.P., Hodgson, A., Vincent, R., Mock, K., 2006, Evaluation of disease resistance of the Fish Lake–DeSmet, Wounded Man, and Harrison Lake strains of rainbow trout exposed to Myxobolus cerebralis: Journal of Aquatic Animal Health, v. 18, p. 128-135.Miller, M.P., Weigel, D.E., Mock, K., Roth, B., 2006, Evidence for an outcrossing reproductive strategy in the hermaphroditic heterobranch gastropod Valvata utahensis (Valvatidae), with notes on the genetic differentiation of V. utahensis and V. humeralis: Journal of Molluscan Studies, v. 72, p. 397-403.Miller, M.P., Weigel, D.E., Mock, K., 2006, Patterns of genetic structure in the endangered aquatic gastropod Valvata utahensis (Mollusca - Valvatidae) at small and large spatial scales: Freshwater Biology, v. 51, p. 2362-2375.Miller, M.P., 2005, Alleles In Space (AIS) - Computer software for the joint analysis of interindividual spatial and genetic information: Journal of Heredity, v. 96, no. 6, p. 722-724.Mock, K., Miller, M.P., 2005, Patterns of molecular diversity in naturally occurring and refugial populations of the least chub: Transactions of the American Fisheries Society, v. 134, p. 267-278.Shuster, S.M., Miller, M.P., Lang, B.K., Zorich, N., Huynh, L., Keim, P., 2005, The effects of controlled propagation on an endangered species - genetic differentiation and divergence in body size among native and captive populations of the Socorro Isopod (Crustacea- Flabellifera): Conservation Genetics, v. 6, p. 355-368.Mock, K., Brim-Box, J.C., Miller, M.P., Downing, M.E., Hoeh, W.R., 2004, Genetic diversity and divergence among freshwater mussel (Anodonta) populations in the Bonneville Basin of Utah: Molecular Ecology, v. 13, p. 1085-1098.Miller, M.P., Parker, J.D., Kumar, S., 2003, Quantifying the intragenic distribution of human disease mutations: Annals of Human Genetics, v. 67, p. 567-579.Miller, M.P., Blinn, D.W., Keim, P., 2002, Correlations between observed dispersal capabilities and patterns of genetic differentiation in populations of four aquatic insect species from the Arizona White Mountains, USA: Freshwater Biology, v. 47, p. 1660-1673.Miller, M.P., Kumar, S., 2001, Understanding human disease mutations through the use of interspecific genetic variation: Human Molecular Genetics, v. 10, no. 21, p. 2319-2328.Miller, M.P., Stevens, L.E., Busch, J., Sorensen, J.A., Keim, P., 2000, Amplified fragment length polymorphism and mitochondrial sequence data detect genetic differentiation and relationships in endangered southwestern USA ambersnails (Oxyloma spp.): Canadian Journal of Zoology, v. 78, p. 1845-1854.Busch, J., Miller, M.P., Paxton, E.H., Sogge, M.K., Keim, P., 2000, Genetic variation in the endangered southwestern willow flycatcher: Auk, v. 117, no. 3, p. 586-595.Miller, M.P., 1999, MANTEL-STRUCT- A program for the detection of population structure via mantel tests: Journal of Heredity, v. 90, no. 1, p. 258-259.Miller, M.P., Kimberling, D.N., Keim, P., 1999, Re-analysis of genetic structure among populations of Rana pipiens in Arizona and Utah: The Southwest Naturalist, v. 44, no. 4, p. 527-530.Miller, M.P., Hendricks, A.C., 1996, Zinc resistance in Chironomus riparius - Evidence for physiological and genetic components: Journal of the North American Benthological Society, v. 15, no. 1, p. 106-116.**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.
- Software
- News