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Ecology Lecture 11

Ecology Lecture 11. Life History Patterns 2. Overview. A mating system includes how members of a particular species (or population) choose and bond with mates how many mates per individual how parental care (if it occurs) takes place. Types of mating systems

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Ecology Lecture 11

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  1. Ecology Lecture 11 Life History Patterns 2

  2. Overview • A mating system includes • how members of a particular species (or population) choose and bond with mates • how many mates per individual • how parental care (if it occurs) takes place. • Types of mating systems • Monogamy: One male mates with one female • Polygyny: One male mates with several females • Polyandry: One female mates with several males • “Social” vs. “genetic” monogamy

  3. Key principles • The system that evolves depends upon the individual interests of each gender • Male and female interests are often in conflict. Why? • Differences in gamete investment and/or total parental investment • Male “default” = ____________. Why? • Is there a female default? • Interests/behavior of one gender serve to constrain options available to the other gender.

  4. Polygyny • Resource defense polygyny • Example: African cichlid fish, Lamprologus callipterus • Defended resource = shells in which females lay eggs

  5. Polygyny • Female defense polygyny • Example: Elephant seals (females aggregate) Photo: www.driftersister.com

  6. Polygyny • Female defense polygyny • Example: Elephant seals (males compete for beachmaster status) Photo: www.wetasschronicles.com

  7. Male-male competition and sexual dimorphism (seals)NOTE: Each point represents a species

  8. Polygyny • Lek polygyny • Males clump, but not due to another resource • Males become the clumped resource! • Example 1: satin bowerbirds

  9. Satin Bowerbirds: multiple signals of health and fitness (and good genes?)

  10. Polygyny • Lek polygyny • Example 2: bullfrogs • Females choose males with longest, loudest and deepest calls • But don’t forget the sneaky f--kers www.tc.umn.edu

  11. Polygyny: benefits/costs • Male • number of offspring likely to correlate with number of mates (+) • Female: • gets a high-quality male (+) • gets less of the male’s time and attention for • raising young • being defended against predators

  12. Monogamy • Common or rare? • In which group of animals is it most common? www.magicmud.com

  13. Monogamy: alternate hypotheses • Mate assistance: it takes two parents to raise the offspring • Example: Adelie penguins • Both parents needed for chick survival

  14. Monogamy: alternate hypotheses • Mate guarding: guarding assures paternity; not guarding jeopardizes it • Especially critical if females are rare or receptive for a limited time • Example: many crab species (see sexual selection lecture)

  15. Monogamy: alternate hypotheses • Female-enforced monogamy • Similar to mate-guarding, but done by female. • Example: Burying beetles • A female would lose resources, and possibly her offspring if she allows her male to mate again. www.royalbertmuseum.ca

  16. Monogamy: alternate hypotheses • Danger “theory” • Leaving  increases chance of dying if predation rates are high. • Example: The mantis shrimp Lysiosquilla sulcata Lysiosquilla sp. Opencage.info

  17. Mantis shrimp (another type)

  18. Monogamy: alternate hypotheses • Pop ‘em out “theory” • Highly fertile mate • Not worth time/energy to seek another. • Example: Djungarian hamsters bbs.petsky.com.cn

  19. Social Monogamy and extra-pair copulations • Extra-pair copulations can increase fitness of participants • Males: More mates  more offspring possible. • Females: • Historical (not current) ideas: no advantage for females • Observational/experimental evidence: clear fitness benefits documented for some species • Example: Yellow-toothed cavy

  20. Yellow-toothed cavy: Offspring survival as a function of multiple mates for females

  21. Social Monogamy and extra-pair copulations • Direct fitness benefits: genetically based • Good genes • What does this mean? • Genetic compatibility • What does this mean? • Genetic variability among offspring • Why important?

  22. Social Monogamy and extra-pair copulations • Other benefits that may improve fitness for females • More resources hypothesis • Example: Orange-rumped honeyguides swap food for sex. • Better protection/care hypothesis • Example: Dunnocks (European song bird) • Mate with two males  both care for young • Infanticide reduction hypothesis • Example: chimpanzees (who’s dad?)

  23. Polyandry (w/o polygyny) • Spotted sandpipers: near-complete sex-role reversal • Females arrive on breeding grounds; compete with other females for territories. • Initial male arrives, mates, cares for her first clutch. • Second male arrives later, mates, and cares for her second clutch.

  24. What circumstances promote polyandry? • Female: only lays 4 eggs at once • Add eggs (experimentally)  decrease the total young successfully raised • Related to incubation effort and protection • Female can  reproductive success by laying a second brood • Needs second mate • Reproductive success limited by mates rather than gametes in this case

  25. What circumstances promote polyandry? • Why would males “comply?” • Operational sex ratio biased toward males (related to absolute ratio for this species) • She abandons  • He stays  offspring survive • He leaves  offspring die • Male 1: Certain of paternity for clutch 1; possibility of paternity for clutch 2 • How is this possible? • Male 2: Later arrivals less dominant, but still have a chance of paternity if they stay.

  26. What circumstances promote polyandry? • Food fluctuation hypothesis • In food-poor years, females put all energy into eggs and have no energy left for care of eggs/young. • Mate assistance (by male) essential  monogamy • In food-rich years (i.e. many mayflies), the female “recovers” her body mass and can lay another batch • Monogamy  Polyandry

  27. What circumstances promote polyandry? • Heavy predation pressure on nests • Multiple nests assure that at least some young will survive. • Male is needed to prevent predation • Young will all be lost if he doesn’t stay.

  28. Patterns of reproductive effortVariations • Numbers of young produced at a time • More young = less parental investment/individual high mortality among young • Care of eggs/larvae • Variability in parental investment • Type of young produced • Precocial vs. altricial offspring (What is the difference?)

  29. Patterns of reproductive effortVariations (cont.) • Number of reproductive events in a lifetime • Semelparous: one big reproductive event in lifetime/many offspring • Many are relatively short-lived (squid, annual plants) • But some are long-lived (periodical cicadas) • Itoparous: many reproductive events in lifetime/ fewer offspring per event. • Common especially birds and mammals • Timing is an issue: • begin early  materials/energy into reproduction, • Begin later  materials/energy into survival and growth

  30. “r” vs. “K” strategists

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