All Stories

  1. Wolbachiado not live by reproductive manipulation alone: infection polymorphism inDrosophila suzukiiandD. subpulchrella
  2. Comment on "The hologenomic basis of speciation: Gut bacteria cause hybrid lethality in the genus Nasonia"
  3. Explaining Darwin's Corollary to Haldane's Rule: The Role of Mitonuclear Interactions in Asymmetric Postzygotic Isolation Among Toads
  4. ON THE COYNE AND ORR-IGIN OF SPECIES: EFFECTS OF INTRINSIC POSTZYGOTIC ISOLATION, ECOLOGICAL DIFFERENTIATION, X CHROMOSOME SIZE, AND SYMPATRY ONDROSOPHILASPECIATION
  5. Rapid Sequential Spread of Two Wolbachia Variants in Drosophila simulans
  6. Wolbachia versus dengue: Evolutionary forecasts
  7. Facilitating Wolbachia introductions into mosquito populations through insecticide-resistance selection
  8. Honoring Our Colleague James F. Crow, an Outstanding Gentleman, Citizen, and Scientist
  9. Spatial Waves of Advance with Bistable Dynamics: Cytoplasmic and Genetic Analogues of Allee Effects
  10. Successful establishment of Wolbachia in Aedes populations to suppress dengue transmission
  11. A Re-Examination of Wolbachia-Induced Cytoplasmic Incompatibility in California Drosophila simulans
  12. ENMTools: a toolbox for comparative studies of environmental niche models
  13. CYTOPLASMIC INCOMPATIBILITY IN POPULATIONS WITH OVERLAPPING GENERATIONS
  14. EVOLUTION OF INCOMPATIBILITY-INDUCING MICROBES IN SUBDIVIDED HOST POPULATIONS
  15. Stochastic spread of Wolbachia
  16. ENVIRONMENTAL NICHE EQUIVALENCY VERSUS CONSERVATISM: QUANTITATIVE APPROACHES TO NICHE EVOLUTION
  17. Accelerated Mitochondrial Evolution and "Darwin's Corollary": Asymmetric Viability of Reciprocal F1 Hybrids in Centrarchid Fishes
  18. From Parasite to Mutualist: Rapid Evolution of Wolbachia in Natural Populations of Drosophila
  19. Evolution and the latitudinal diversity gradient: speciation, extinction and biogeography
  20. Asymmetric Postmating Isolation: Darwin's Corollary to Haldane's Rule
  21. WILL POPULATION BOTTLENECKS AND MULTILOCUS EPISTASIS INCREASE ADDITIVE GENETIC VARIANCE?
  22. Prediction of effects of genetic drift on variance components under a general model of epistasis
  23. THE GEOGRAPHY OF MAMMALIAN SPECIATION: MIXED SIGNALS FROM PHYLOGENIES AND RANGE MAPS
  24. THE GEOGRAPHY OF MAMMALIAN SPECIATION: MIXED SIGNALS FROM PHYLOGENIES AND RANGE MAPS
  25. 2005 Sewall Wright Award
  26. WILL POPULATION BOTTLENECKS AND MULTILOCUS EPISTASIS INCREASE ADDITIVE GENETIC VARIANCE?
  27. EFFECTS OF GENETIC DRIFT ON VARIANCE COMPONENTS UNDER A GENERAL MODEL OF EPISTASIS
  28. Polygenic Variation Maintained by Balancing Selection: Pleiotropy, Sex-Dependent Allelic Effects and G x E Interactions
  29. EFFECTS OF GENETIC DRIFT ON VARIANCE COMPONENTS UNDER A GENERAL MODEL OF EPISTASIS
  30. STOCHASTICITY OVERRULES THE "THREE-TIMES RULE": GENETIC DRIFT, GENETIC DRAFT, AND COALESCENCE TIMES FOR NUCLEAR LOCI VERSUS MITOCHONDRIAL DNA
  31. STOCHASTICITY OVERRULES THE “THREE-TIMES RULE”: GENETIC DRIFT, GENETIC DRAFT, AND COALESCENCE TIMES FOR NUCLEAR LOCI VERSUS MITOCHONDRIAL DNA
  32. Theory and speciation
  33. THE EVOLUTION OF POSTZYGOTIC ISOLATION: ACCUMULATING DOBZHANSKY-MULLER INCOMPATIBILITIES
  34. THE EVOLUTION OF POSTZYGOTIC ISOLATION: ACCUMULATING DOBZHANSKY-MULLER INCOMPATIBILITIES
  35. STABLE TWO-ALLELE POLYMORPHISMS MAINTAINED BY FLUCTUATING FITNESSES AND SEED BANKS: PROTECTING THE BLUES IN LINANTHUS PARRYAE
  36. Dispersal Patterns of Pest Earth Mites (Acari: Penthaleidae) in Pastures and Crops
  37. IS WRIGHT'S SHIFTING BALANCE PROCESS IMPORTANT IN EVOLUTION?
  38. IS WRIGHT'S SHIFTING BALANCE PROCESS IMPORTANT IN EVOLUTION?
  39. Microbe-induced cytoplasmic incompatibility as a mechanism for introducing transgenes into arthropod populations
  40. EVOLUTIONARY GENETICS:Enhanced: The Causes of Haldane's Rule
  41. Multilocus Evolutionarily Stable Strategy Models: Additive Effects
  42. Perspective: A Critique of Sewall Wright's Shifting Balance Theory of Evolution
  43. Changes in Genetic Variances and Covariances: G Whiz!
  44. The kinetics of quantal transmitter release from retinal amacrine cells.
  45. Evolution of Incompatibility-Inducing Microbes and Their Hosts
  46. Peak Shifts Produced by Correlated Response to Selection
  47. Rapid spread of an inherited incompatibility factor in California Drosophila
  48. Dynamics of polygenic characters under selection
  49. Evolutionary Quantitative Genetics: How Little Do We Know?
  50. Effects of starvation and experience on the response of Drosophila to alternative resources
  51. Phenotypic Evolution, Constant Covariances, and the Maintenance of Additive Variance
  52. Rate Tests for Selection on Quantitative Characters During Macroevolution and Microevolution
  53. Long-Distance Migration of Drosophila. 2. Presence in Desolate Sites and Dispersal Near a Desert Oasis
  54. Adaptive landscapes, genetic distance and the evolution of quantitative characters
  55. Unidirectional Incompatibility between Populations of Drosophila simulans
  56. Stable Underdominance and the Evolutionary Invasion of Empty Niches
  57. Stochastic Community Theory: A Partially Guided Tour
  58. GAUSSIAN VERSUS NON-GAUSSIAN GENETIC ANALYSES OF POLYGENIC MUTATION-SELECTION BALANCE11This work was supported by National Institutes of Health Grant GM22221 and National Science Foundation Grant BSR 84-15847.
  59. Distribution of Drosophila melanogaster on Alternative Resources: Effects of Experience and Starvation
  60. Resource choice in orchard populations of Drosophila
  61. Heritable genetic variation via mutation-selection balance: Lerch's zeta meets the abdominal bristle
  62. Linkage data supporting a mathematical explanation for some empirical CIS-Trans effects
  63. The Fallacy of the Fallacy of the Averages in Ecological Optimization Theory
  64. Temporally varying selection on multiple alleles: A diffusion analysis
  65. Niche overlap and invasion of competitors in random environments I. Models without demographic stochasticity
  66. Density-dependent selection in a random environment: An evolutionary process that can maintain stable population dynamics
  67. Conditions for the existence of stationary densities for some two-dimensional diffusion processes with applications in population biology
  68. Niche Overlap and Invasion of Competitors in Random Environments II. The Effects of Demographic Stochasticity
  69. Does environmental variability limit niche overlap?
  70. A reexamination of stability in randomly varying versus deterministic environments with comments on the stochastic theory of limiting similarity
  71. Random environments and stochastic calculus