| scholarly article | Q13442814 |
| P2093 | author name string | G A Parker | |
| M G Bulmer | |||
| P2860 | cites work | Sperm competition games: a comparison of loaded raffle models and their biological implications | Q34050291 |
| The evolution of sexes | Q39484222 | ||
| The evolution of anisogamy | Q44097856 | ||
| Optimal Egg Size in Marine Invertebrates: Theory and Phylogenetic Analysis of the Critical Relationship between Egg Size and Development Time in Echinoids | Q47236740 | ||
| Sperm competition games: external fertilization and "adaptive"' infertility. | Q52304955 | ||
| A note on the evolution of gamete dimorphism. | Q52902133 | ||
| Why are there so many tiny sperm? Sperm competition and the maintenance of two sexes | Q55895450 | ||
| Selection on non-random fusion of gametes during the evolution of anisogamy | Q56029155 | ||
| The population genetics of anisogamy | Q67369995 | ||
| A comparative test of a theory for the evolution of anisogamy | Q73856040 | ||
| P433 | issue | 1507 | |
| P921 | main subject | anisogamy | Q770370 |
| P1104 | number of pages | 8 | |
| P304 | page(s) | 2381-2388 | |
| P577 | publication date | 2002-11-01 | |
| P1433 | published in | Proceedings of the Royal Society B | Q2625424 |
| P1476 | title | The evolution of anisogamy: a game-theoretic approach. | |
| P478 | volume | 269 |
| Q52330070 | Accelerated diversification is related to life history and locomotion in a hyperdiverse lineage of microbial eukaryotes (Diatoms, Bacillariophyta). |
| Q57898638 | An Organismal Perspective on the Evolution of Insect Societies |
| Q51365322 | Anisogamy, chance and the evolution of sex roles. |
| Q28650703 | Darwin and human reproduction: a long way to gynaecology |
| Q21283979 | Evolution of sexual asymmetry |
| Q36187361 | Evolutionary trajectories explain the diversified evolution of isogamy and anisogamy in marine green algae |
| Q38260959 | Gamete competition, gamete limitation, and the evolution of the two sexes. |
| Q37864724 | Having sex, yes, but with whom? Inferences from fungi on the evolution of anisogamy and mating types |
| Q58602095 | Isogamy in large and complex volvocine algae is consistent with the gamete competition theory of the evolution of anisogamy |
| Q57669807 | It takes two to tango |
| Q30500403 | Lonely hearts or sex in the city? Density-dependent effects in mating systems |
| Q51703871 | Maternal inheritance, epigenetics and the evolution of polyandry. |
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| Q34547716 | Selection for Mitochondrial Quality Drives Evolution of the Germline. |
| Q21092698 | Sex determination: why so many ways of doing it? |
| Q89689149 | Sex differences in spiders: from phenotype to genomics |
| Q39886184 | Sex ratio and gamete size across eastern North America in Dictyostelium discoideum, a social amoeba with three sexes |
| Q51370910 | Sexual conflict over parental care promotes the evolution of sex differences in care and the ability to care. |
| Q47432056 | The evolution of sexes: A specific test of the disruptive selection theory. |
| Q37948449 | The many costs of sex. |
| Q34248127 | The sexual cascade and the rise of pre-ejaculatory (Darwinian) sexual selection, sex roles, and sexual conflict |
| Q56029158 | Two roads to two sexes: unifying gamete competition and gamete limitation in a single model of anisogamy evolution |
| Q38952350 | What do isogamous organisms teach us about sex and the two sexes? |
| Q38001053 | What uses are mating types? The "developmental switch" model |
| Q28079923 | Why Darwin would have loved evolutionary game theory |
| Q47547128 | Within-clutch variability in gamete size arises from the size variation in gametangia in the marine green alga Monostroma angicava |
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