91制片厂

Dr. Randall G. Terry

drterry 

 

 

 

Dr. Randall G. Terry

Associate Professor Emeritus 

Email: rgterry@lamar.edu

About:

Dr. Terry received his Ph.D. in Botany from the University of Wyoming in 1996. His dissertation research examined the phylogenetic relationships in Bromeliaceae (pineapple family). This was followed by postdoctoral research with Drs. Robert Nowak and Robin Tausch at the University of Nevada Reno, where he studied hybridization in Juniperus (Cupressaceae). Dr. Terry joined the Biology Department at 91制片厂 in 2000 following three years as a Visiting Assistant Professor at the University of Montana


Courses Taught: 

  • BIOL 1406 General Biology I
  • BIOL 3450 General Botany
  • BIOL 4344/5344 Development of Biological Thought
  • BIOL 4403/5403 Field Botany

Service:

University Level

  • Core Curriculum Governance Committee (University Core)
  • Faculty Senate
  • Faculty Issues Subcommittee (Faculty Senate)
  • Employee Assistance Committee
  • Unit Standards Committee (University of Montana)

College Level

  • Arts and Sciences Outstanding Researchers and Teachers Committee
  • Arts and Sciences Commencement Committee

Department Level

  • Strategic Planning Committee
  • Core Curriculum Revision Committee (Biology Core)
  • Undergraduate Curriculum Committee
  • Faculty Search Committees
  • Tenure Committee
  • Departmental Personnel Committee
  • Post-Tenure Review Committee
  • Computer Science Bioinformatics Degree Plan, Biology Subcommittee
  • Dujay Graduate Scholarship Committee
  • OBE Graduate Entrance Exam, Genetics Subcommittee (Univeristy of Montana)

Research Interests:

Research in my lab uses molecular data to examine phylogenetic relationships and hybridization in gymnosperms. Our focus since 2012 has been on relationships and species boundaries in cypresses (Cupressus/Hesperocyparis;Cupressaceae). We have also used phylogenics to examine the biogeographic history of the New World cypresses, and to assess taxonomic boundaries in the cypresses of California, a group of six species endemic to the state, some of which are threatened or endangered. Past studies have used nuclear and chloroplast DNA sequences combined with morphological features to assess hybridization in junipers. In addition to molecular phylogenetics, we sometimes conduct floristic surveys of lands of conservation concern, mostly in or adjoining the Big Thicket National Preserve.


Current Research Projects:

  1. We are studying hybridization between two species of juniper (Juniperus osteosperma and J. occidentalis) from the western United States. About 220 individuals were collected from 35 populations in Utah, Nevada, California, and Oregon during the summer of 2001. We are scoring this material for variation in growth habitat (e.g. branch number, branch angle, and plant height), reproductive (cone and seed), vegetative (leaf), and genetic (nuclear and cytoplasmic genes) characteristics. These data are being used to more clearly delimit the parental lineages and their putative hybrids from western Nevada and adjacent California.
  2. We are studying the phylogenetic relationships among the subfamilies of Bromeliaceae using DNA sequences. Sequence variation from both coding and noncoding regions of the chloroplast genome is being combined in an effort to build well-supported relationships. These data define four primary lineages in the family and provide insight into the origin of epiphytic forms of the group.

Laboratory Techniques Used in Our Research

  • Isolation and Purification of DNA
  • Amplification of Chloroplast and Nuclear Genes using Polymerase Chain Reaction
  • Restriction Endonuclease Digestion and Southern Blotting
  • DNA Sequencing
  • Phylogenetic and Statistical Analysis f Character Variation
  • Morphometrics

Research Support (Current and Past):

Department of Biology, 91制片厂

Terry, R.G. Genetic and morphological variation in Utah juniper (Juniperus osteosperma, Cupressaceae): Testing the hypothesis of hybridization in Juniperus from the western Great Basin. College of Arts and Sciences, 91制片厂. ($5000)

Terry, R.G. Examination of Phylogenetic Relationships in Subfamily Bromelioideae (Bromeliaceae) Using DNA Sequences: Implications for the Origin of Epiphytism. University Grants Program, University of Montana ($2100)

Terry, R.G. and G.K. Brown. Reassessment of Subfamily Relationships in Bromeliaceae Using DNA Sequences from Noncoding Regions of the Chloroplast Genome. The Bromeliad Society Inc. ($1100).

Nowak, R.S., R.J. Tausch, and R.G. Terry. Environmental, Genetic, and Ecophysiological Variation of Western and Utah Juniper and their Hybrids: A Model System for Vegetation Response to Climate Change. U.S. Department of Energy, Program for Ecosystem Research. ($147,255)

Terry, R.G., and G.K. Brown. Chloroplast DNA Variation in Vriesea and Tillandsia (Tillandsioideae: Bromeliaceae): A Preliminary Survey.  The Bromeliad Society Inc. ($1000)

Publications

Terry, R. G, J. M. Bartel, and R. P. Adams. (In Press) Phylogenetic relationships among the New World Cypresses (Hesperocyparis; Cupressaceae): Evidence from chloroplast DNA sequences. Plant Systematics and Evolution.

Terry, R. G. (2012) A Manual for the General Botany Laboratory. Fountainhead Press, Austin. (121 pp.).

Terry, R. G. 2010. Re-evaluation of Morphological and Chloroplast DNA Variation in Juniperus osteosperma Hook and Juniperus occidentalis Torr. Little (Cupressaceae) and their Putative Hybrids. Biochemical Systematics and Ecology 38:349-360.

Crayn, D. M., R. G. Terry, J. A. C. Smith, K. Winter. 2000. Molecular systematic investigations in Pitcairnioideae (Bromeliaceae) as a basis for understanding the evolution of crassulacean acid metabolism (CAM). In: K. L. Wilson and D. A. Morrison (eds) Monocots: systematics and evolution. CSIRO Publishing, Melbourne, 569-579.

Benzing, D.H., G.K. Brown, and R.G. Terry. 2000. History and evolution (pp. 463-541) in D.H. Benzing's Bromeliaceae: Profile of an Adaptive Radiation. New York, NY: Cambridge University Press.

Terry, R.G., R.J. Tausch, and R.S. Nowak. 2000. Genetic variation in chloroplast and nuclear ribosomal DNA in Utah juniper (Juniperus osteosperma, Cupressaceae):  evidence for interspecific gene flow. American Journal of Botany 87:250-258.

Terry, R.G., G.K. Brown, and R.G. Olmstead. 1997. Examination of the phylogentic relationships of the subfamily Tillandsioideae (Bromeliaceae) using nucleotide sequences of the plastid ndhF. Systematic Botany 22: 333-345.

Terry, R.G., G.K. Brown, and R.G. Olmstead. 1996. Examination of a subfamilial phylogeny in Bromeliaceae using comparative sequencing of the plastid locus ndhF. American Journal of Botany 84: 664-667.

Terry, R.G., and G.K. Brown. 1996. A study in the evolutionary relationships in Bromeliaceae based on comparison of DNA sequences from the chloroplast gene ndhF. Journal of the Bromeliad Society 46: 107-112.

Brown, G.K., and R.G. Terry. 1992. Petal appendages in Bromeliaceae. American Journal of Botany 79(9): 1051-1071.

Brown, G.K., and R.G. Terry. 1991. Chromosome numbers in Cryptanthus. The Cryptanthus Society Journal 6(4): 14-15.