CURRICULUM VITÆ
RUSSELL BRUCE CAMPBELL
Education Sc.B./Sc.M. (Appl. Math.) Brown University 1974 M.S. (Math.) Stanford University 1976 Ph.D. (Math.) Stanford University 1979 Professional Experience Assistant Professor Purdue University 1979-1983 Assistant Professor University of Northern Iowa 1983-1988 Associate Professor University of Northern Iowa 1988- Professional Societies and Honors American Mathematical Society American Society of Naturalists Genetics Society of America Mathematical Association of America Sigma Xi Vice-President/President/Past President UNI Sigma Xi Club/Chapter 1988-1991 (prepared successful petition for chapter status) Society for the Study of Evolution Research Interests Mathematical Genetics Evolution Theory Reviewer/Referee Theoretical Population Biology, Evolution, American Naturalist, Genetics, Biometrics, Pakistan Journal of Statistics, American Journal of Human Genetics, Journal of Heredity, Journal of Cost Analysis and Management, Mathematical Reviews, Journal of Theoretical Biology, National Science Foundation, New Phytologist, Bulletin for Mathematical Biology, Journal of Mathematical Biology, McGraw Hill, Benjamin Cummings, Saunders, Duxbury, Wiley, Macmillan Associate Editor: Theoretical Population Biology (1991- ) Presentations (since 1983) Numerous contributed papers have been presented at the Annual Meetings of The American Society of Naturalists, Genetics Society of America, and Society for the Study of Evolution; as well as a paper at the summer meeting of the AMS. Invited Seminars have been given at Iowa State University (01 April 1986) and University of Georgia (11 January 1988).
1. (with S. Karlin) Analysis of Central Equilibrium Configurations for
Certain Multilocus Systems in Subdivided Populations. Genetical
Research (Cambridge) 32 (1978), 151-169.
2. Polymorphic Equilibria with Assortative Mating and Selection in
Subdivided Populations. Theoretical Populations Biology 18 (1980),
94-111.
3. (with S. Karlin) Polymorphism in Subdivided Populations Characterized
by a Major and Subordinate Demes. Heredity 44 (1980), 151-168.
4. The Effect of Migration and Recombination on the Equilibrium Structure
of Populations Subject to a Common Symmetric Selection Regime.
Genetical Research (Cambridge) 36 (1980), 29-40.
5. (with S. Karlin) Selection-Migration Regimes Characterized by a
Globally Stable Equilibrium. Genetics 94 (1980), 1065-1084.
6. (with S. Karlin) The Existence of a Protected Polymorphism Under
Conditions of Soft as Against Hard Selection in a Multideme
Population System. American Naturalist 117 (1981), 262-275.
7. Some Circumstances Assuring Monomorphism is Sub-divided Populations.
Theoretical Population Biology 20 (1981), 118-125.
8. The Effect of Variable Environments on Polymorphism at Loci with Several
Alleles I. A Symmetric Model. Journal of Mathematical Biology 13
(1981), 199-208.
9. Hard Selection in Haploid Species. Theoretical Population Biology 21
(1982), 1-10.
10. Note on Migration Modification. American Naturalist 120 (1982),
119-120.
11. (with D. Hartl) Allele Multiplicity in Simple Mendelian Disorders.
American Journal of Human Genetics 34 (1982), 866-873.
12. The Effect of Variable Environments on Polymorphism at Loci with Several
Alleles II. Submultiplicative Viablilties. Journal of Mathematical
Biology 15 (1982), 293-303.
13. Repeatability of Experiments. Bulletin of Mathematical Biology 44 (1982),
593-595.
14. Uniqueness of Polymorphic Equilibria under Soft Selection. Theoretical
Population Biology 24 (1983), 295-301.
15. The Manifestation of Phenotypic Selection at Constituent Loci. I.
Stabilizing Selection. Evolution 38 (1984), 1033-1038.
16. Hercules' Height. UMAP Journal 5 (1984), 265-269.
17. Dimension Reduction Projection and our Perception of Evolution. Journal
of Mathematical Biology 21 (1985), 299-306.
18. The Interdependence of Mating Structure and Inbreeding Depression.
Theoretical Population Biology 30 (1986), 232-244.
19. The Effects of Genetic Screening and Assortative Mating on Lethal
Recessive-Allele Frequencies and Homozygote Incidence. American
Journal of Human Genetics 41 (1987), 671-677.
20. Mating Structure and the Cost of Deleterious Mutations. I. The Effect
of Postponing Inbreeding. Journal of Heredity 79 (1988), 179-183.
21. Regular Systems of Inbreeding with Mutation. Theoretical Population
Biology 34 (1988), 24-37.
22. The Cumulation of Negligible Effects. American Journal of Human
Genetics 43 (1988),.
23. Letter to the Editor. Consortium 30 (1989), 2.
24. On the Robustness of Regular Systems of Inbreeding. Mathematical
Biosciences 104 (1991), 1-19.
25. Rational Election Procedures. in J. G. Michaels and K. H. Rosen, eds.,
Applications of Discrete Mathematics. McGraw Hill. (1991), 40-56.
26. The Apportionment Problem. in J. G. Michaels and K. H. Rosen, eds.,
Applications of Discrete Mathematics. McGraw Hill. (1991), 2-18.
27. Half-Sib Mating Structures. Journal of Mathematical Biology 31 (1993),
241-252.
28. The Importance of Mating Structure versus Progeny Distribution for
Genetic Identity under Mutation. Theoretical Population Biology 43
(1993), 129-140.
29. The effect of mating structure and progeny distribution on heterozygosity
versus number of alleles as measures of variation. Journal of
Theoretical Biology 175 (1995), 503-509.
30. The coalescent in the presence of background fertility selection.
Theoretical Population Biology 55 (1999), 260-269.
31. Arbuthnot and the human sex ratio. In: Evolution 2000, (ed. M. J. Wade),
Indiana University Conferences. Bloomington, Indiana (2000).
32. Fertility selection, genetic selection, and evolution. Journal of
Evolutionary Biology 13 (2000), 786-791.
33. John Graunt, John Arbuthnott, and the human Sex ratio. Human Biology
73 (2001), 605-610.
34. A constant regularity observ'd. Math Horizons 11(1) (2003), 23-26.
35. A logistic branching process for population genetics. Journal of
Theoretical Biology 225(2) (2003), 195-203.
36. Motivating mathematical concepts with politics. in J. L. Perry and S. G.
Jones, ed., Quick Hits for Educating Citizens. Indiana University Press.
(2006), 39-40.
37. Coalescent size versus coalescent time with strong selection. Bulletin of
Mathematical Biology 69 (2007), 2249-2259.
e-mail:campbell@math.uni.edu
home page http://www.math.uni.edu/~campbell/