Note: This is a broad but finite set of triples, not literally everything.

Core definitions and scope
(Evolution, is, change in heritable traits across generations)
(Evolution, is_formalized_as, change in allele frequencies in populations over time)
(The theory of evolution, explains, diversity and adaptation of life)
(Evolution, operates_on, populations)
(Evolution, requires, heritable variation)
(Heritable variation, arises_from, genetic and epigenetic differences)
(Evolution, does_not_imply, progress toward a goal)
(Natural selection, is, a mechanism of evolution)
(Genetic drift, is, a mechanism of evolution)
(Gene flow, is, a mechanism of evolution)
(Mutation, is, a mechanism of evolution)
(Recombination, is, a mechanism that reshuffles genetic variation)
(Adaptation, is, a fitted trait shaped by natural selection)
(Fitness, is, expected reproductive success of a genotype or phenotype)
(Phenotype, is, the expressed traits of an organism)
(Genotype, is, the genetic constitution of an organism)
(Heritability, is, proportion of phenotypic variance due to genetic variance)
(Evolutionary change, can_be, microevolutionary or macroevolutionary)
(Microevolution, concerns, allele frequency changes within populations)
(Macroevolution, concerns, patterns above the species level)

History and synthesis
(Charles Darwin, proposed, natural selection as a mechanism of evolution)
(Alfred Russel Wallace, independently_formulated, natural selection)
(Darwin, introduced, common descent)
(Gregor Mendel, discovered, particulate inheritance)
(The Modern Synthesis, integrated, Mendelian genetics with Darwinian evolution)
(Ronald Fisher, founded, population genetics)
(J.B.S. Haldane, founded, population genetics)
(Sewall Wright, founded, population genetics)
(Motoo Kimura, proposed, neutral theory of molecular evolution)
(W.D. Hamilton, formulated, inclusive fitness theory)
(George C. Williams, emphasized, adaptation by selection on genes and individuals)
(Stephen Jay Gould, co_proposed, punctuated equilibrium)
(Niles Eldredge, co_proposed, punctuated equilibrium)

Mechanisms: mutation and variation
(Mutation, is, a change in DNA sequence)
(Mutations, arise_from, replication errors)
(Mutations, arise_from, DNA damage)
(Mutations, arise_from, mobile genetic elements)
(Mutations, can_be, point mutations)
(Mutations, can_be, insertions)
(Mutations, can_be, deletions)
(Mutations, can_be, inversions)
(Mutations, can_be, duplications)
(Mutations, can_be, transpositions)
(Mutations, can_be, chromosomal rearrangements)
(Mutations, can_be, whole_genome_duplications)
(Mutations, effects, beneficial neutral or deleterious)
(Mutation rate, varies_across, taxa and genomic regions)
(Mutation bias, influences, spectra of substitutions)
(Gene duplication, enables, neofunctionalization)
(Gene duplication, enables, subfunctionalization)
(Transposable elements, contribute_to, genome evolution)
(GC-biased gene conversion, biases, fixation toward G/C alleles)

Mechanisms: selection and fitness
(Natural selection, requires, heritable variation and differential reproductive success)
(Selection, changes, allele frequencies)
(Selection, acts_on, phenotypes)
(Selection, results_in, adaptation)
(Selection, can_be, directional)
(Selection, can_be, stabilizing)
(Selection, can_be, disruptive)
(Selection, can_be, balancing)
(Balancing selection, maintains, polymorphism)
(Heterozygote advantage, is, a form of balancing selection)
(Frequency-dependent selection, occurs_when, fitness depends on trait frequency)
(Sexual selection, is, selection via mating success differences)
(Sexual selection, includes, intersexual choice)
(Sexual selection, includes, intrasexual competition)
(Handicap principle, posits, costly signals indicate quality)
(Fisherian runaway, describes, feedback between preference and trait)
(Good genes hypothesis, links, ornaments to genetic quality)
(Inclusive fitness, includes, direct and indirect fitness)
(Hamilton’s rule, states, rb > c for altruism to evolve)
(Kin selection, favors, helping relatives)
(Reciprocal altruism, evolves_via, repeated interactions and conditional cooperation)
(Multilevel selection, considers, selection at multiple hierarchical levels)
(Effective population size, modulates, efficacy of selection)
(Selection coefficient, quantifies, fitness difference among genotypes)

Mechanisms: drift, gene flow, recombination
(Genetic drift, is, random sampling of alleles)
(Genetic drift, is_stronger_in, small populations)
(Genetic drift, can_fix, neutral or deleterious alleles)
(Gene flow, is, movement of alleles between populations)
(Gene flow, reduces, genetic differentiation)
(Gene flow, can_counteract, local adaptation)
(Gene flow, can_introduce, adaptive alleles)
(Recombination, breaks, linkage disequilibrium)
(Recombination, creates, new allele combinations)
(Linkage, influences, correlated responses to selection)
(Hill–Robertson interference, reduces, selection efficacy in linked regions)
(Selective sweeps, reduce, genetic diversity around beneficial mutations)
(Soft sweeps, involve, multiple beneficial origins or standing variation)
(Background selection, removes, variation via purging deleterious alleles)

Population genetics and quantitative genetics
(Hardy–Weinberg equilibrium, describes, genotype frequencies under no evolution)
(Hardy–Weinberg equilibrium, assumes, random mating large population no selection no mutation no migration)
(Deviation from Hardy–Weinberg, indicates, evolutionary forces or nonrandom mating)
(Allele frequency change, equals, p’ = p + spq under simple selection approximations)
(Drift variance,
