Here is a comprehensive set of (subject, predicate, object) triples about the theory of evolution:

## Core Concepts
- (Evolution, is, a scientific theory)
- (Evolution, describes, change in heritable traits over generations)
- (Evolution, operates on, populations)
- (Evolution, requires, heritable variation)
- (Evolution, produces, biodiversity)
- (Evolution, explains, common descent)

## Key Figures
- (Charles Darwin, proposed, natural selection)
- (Charles Darwin, published, On the Origin of Species)
- (On the Origin of Species, was published in, 1859)
- (Alfred Russel Wallace, co-discovered, natural selection)
- (Gregor Mendel, founded, genetics)
- (Gregor Mendel, studied, pea plants)
- (Jean-Baptiste Lamarck, proposed, inheritance of acquired characteristics)
- (Lamarckism, was largely, discredited)
- (Thomas Henry Huxley, defended, Darwin's theory)
- (Ernst Mayr, contributed to, modern synthesis)
- (Theodosius Dobzhansky, helped develop, modern synthesis)
- (Ronald Fisher, founded, population genetics)
- (J.B.S. Haldane, contributed to, population genetics)
- (Sewall Wright, contributed to, population genetics)
- (Motoo Kimura, proposed, neutral theory)

## Mechanisms of Evolution
- (Natural selection, is, a mechanism of evolution)
- (Natural selection, favors, advantageous traits)
- (Natural selection, requires, differential reproductive success)
- (Genetic drift, is, a mechanism of evolution)
- (Genetic drift, causes, random allele frequency changes)
- (Genetic drift, has greater effect on, small populations)
- (Mutation, introduces, genetic variation)
- (Gene flow, transfers alleles between, populations)
- (Sexual selection, favors, mating success traits)
- (Recombination, shuffles, alleles)

## Types of Selection
- (Directional selection, favors, one extreme phenotype)
- (Stabilizing selection, favors, intermediate phenotypes)
- (Disruptive selection, favors, both extreme phenotypes)
- (Frequency-dependent selection, depends on, trait frequency)
- (Kin selection, favors, helping relatives)
- (Group selection, operates on, groups)

## Speciation
- (Speciation, produces, new species)
- (Allopatric speciation, requires, geographic isolation)
- (Sympatric speciation, occurs without, geographic isolation)
- (Reproductive isolation, defines, biological species)
- (Hybridization, can produce, new species)
- (Polyploidy, can cause, instant speciation)
- (Adaptive radiation, produces, many species from one)

## Evidence for Evolution
- (Fossil record, provides evidence for, evolution)
- (Comparative anatomy, provides evidence for, evolution)
- (Homologous structures, indicate, common ancestry)
- (Vestigial structures, suggest, evolutionary history)
- (Embryology, provides evidence for, evolution)
- (Biogeography, provides evidence for, evolution)
- (DNA sequences, reveal, evolutionary relationships)
- (Direct observation, confirms, evolution)
- (Antibiotic resistance, demonstrates, evolution in action)
- (Transitional fossils, document, evolutionary change)
- (Tiktaalik, is, a transitional fossil)
- (Archaeopteryx, links, dinosaurs and birds)

## Modern Synthesis
- (Modern synthesis, combined, Darwinism and Mendelian genetics)
- (Modern synthesis, emerged in, the 1930s-1940s)
- (Population genetics, mathematically describes, evolution)
- (Hardy-Weinberg principle, describes, equilibrium allele frequencies)

## Extended Concepts
- (Evo-devo, studies, evolution of development)
- (Epigenetics, may influence, evolution)
- (Horizontal gene transfer, occurs in, bacteria)
- (Endosymbiotic theory, explains, origin of mitochondria)
- (Endosymbiotic theory, explains, origin of chloroplasts)
- (Lynn Margulis, proposed, endosymbiotic theory)
- (Punctuated equilibrium, was proposed by, Gould and Eldredge)
- (Punctuated equilibrium, suggests, rapid bursts of change)
- (Phyletic gradualism, suggests, slow continuous change)
- (Coevolution, occurs between, interacting species)
- (Convergent evolution, produces, similar traits independently)
- (Divergent evolution, produces, different traits from common ancestor)
- (Parallel evolution, occurs in, related lineages)

## Tree of Life
- (Last Universal Common Ancestor, abbreviated as, LUCA)
- (LUCA, lived approximately, 3.5-4 billion years ago)
- (All life, shares, common ancestry)
- (Phylogenetic trees, depict, evolutionary relationships)
- (Cladistics, classifies organisms by, shared derived characters)

## Human Evolution
- (Humans, evolved from, earlier primates)
- (Humans and chimpanzees, share, common ancestor)
- (Homo sapiens, emerged approximately, 300,000 years ago)
- (Australopithecus, was, a human ancestor genus)
- (Homo erectus, preceded, Homo sapiens)
- (Neanderthals, interbred with, modern humans)

## Timescales
- (Life on Earth, originated approximately, 3.8 billion years ago)
- (Cambrian explosion, occurred approximately, 540 million years ago)
- (Mass extinctions, have shaped, evolutionary history)
- (Cretaceous-Paleogene extinction, killed, non-avian dinosaurs)

## Scientific Status
- (Evolution, is supported by, overwhelming evidence)
- (Evolution, is accepted by, scientific consensus)
- (Evolution, is both, fact and theory)
- (Creationism, is not, science)
- (Intelligent design, is not, science)

Would you like me to expand on any particular area or provide triples on a more specific aspect?
