Transcript Lecture 7
Lecture 7 Mating Systems & Social Behavior Sept. 22, 2010 1 Today’s topics • 1. Parental care – Investment – Conflict • 2. Mating systems (Monogamy, Polygyny, Polyandry) • 3. Social behavior – Cooperation – Group living – Selection theories Sept. 22, 2010 2 Parental Investment • Any behavior that increases the offspring’s chances of survival at the cost of the parent’s ability to rear future offspring. • A tradeoff to maximize fitness • http://www.alaskaphotographyblog.com/2010/06/wolf-pack-kills-moose-calf/ Sept. 22, 2010 3 Uniqueness of Mammals • While most animals provide no care for their offspring, one or both parents provide at least some care in ALL Mammalia species. Sept. 22, 2010 4 Sexual differences • Females often invest more in each individual offspring (gestation, lactation) – Because of limitations in number of offspring, females are more “choosy” in mates (quality over quantity) • Males often invest little. Many males only contribute sperm. – Investment not as trivial as you many think • Limits to ejaculation rate • Remember sperm competition – In most cases, quantity over quality Sept. 22, 2010 5 Internal fertilization • Males of species that internally fertilize can not confirm that their sperm actually fertilized the egg. • The female knows the offspring is hers. • Trivers (1972) hypothesis of why males may be less willing to invest. Sept. 22, 2010 7 63% of litters multiple paternity with 4 males siring offspring from 1 litter Precocial vs. Altricial • Males contribute less in precocial systems. Sept. 22, 2010 9 Common exceptions limited parental investment– Carnivora, Primates, Rodentia Sept. 22, 2010 10 Hardwiring? • Changes in hormone levels in some males lead to parental care. • Pregnant females urine enhances paternal behavior Sept. 22, 2010 11 “K” vs. “R” selection • K = stable environmental conditions, larger body size, develop more slowly, longer lifespan, lower mortality rates. – “K” is a reference to carrying capacity. • R = fluctuating environments, high reproductive rates, rapid development, small body size, little parental care – “r” is reference to reproductive rate. Sept. 22, 2010 12 Parent-Offspring Conflict • Why do offspring resist the weaning process? • Natural selection may operate differently on the 2 generations (Trivers 1974). – Mother wants to invest to a point, then move on to the next offspring – Offspring wants the mother to continue to invest twice the benefit Sept. 22, 2010 14 Offspring-Offspring conflict • Born with fully erupt canines and incisors • If litter mates are same sex, on is often killed by the other. Sept. 22, 2010 15 Mating systems • Polygyny – Males mate with multiple females • Polyandry – Females mate with multiple males • Monogamy – One male and one female • Promiscuity – Absence of prolonged association and multiple mating by at least one sex. Sept. 22, 2010 16 Monogamy • Relatively rare in mammals (<5% mammals) • The bulk of instances is found in Primates, Carnivora, and Rodentia. Sept. 22, 2010 17 Polygyny • Most common in mammals • Resource defense polgyny – males defend good habitat important to females • Female defense polygyny – females herd for protection from predators and males exclude other males from their harem • Male dominance polygyny – males congregate and advertise their fitness using courtship signals Sept. 22, 2010 18 Resource defense polygyny Female Defense Polygyny Male Dominance Polygyny • Male display sites • Leks – more common in birds • http://www.youtube.com/watch?v=aTr0KimaN70&p=49CD6F80A4148072&playnext=1&index=6 Polyandry • Rare in mammals • Although genetics is changing theories • Multiple paternity? Sept. 22, 2010 22 Neuroendocrine control • Higher levels of hormones implicate monogamy – Oxytocin – Vasopressin Sept. 22, 2010 23 Social behavior • Society – a group of individuals of the same species that is organized in a cooperative manner. • Complex social behavior has evolved in almost all orders, but especially among carnivores, cetaceans, and primates Sept. 22, 2010 24 Cooperative rearing (although not common) • Individuals other than the young’s mother provide care – Lionesses share nursing – Subordinate wolves regurgitate food – Meerkats young may be raised by up to 30 helpers Sept. 22, 2010 25 Why do some mammals live in groups? • Benefits – Protection from physical factors (huddling from cold) – Protection against predators – Finding and obtaining food – Group defense of resources – Assembling members to locate mates – Division of labor among specialists (rare in mammals – mole rats) – Richer learning environment (dolphins and Sept. 22, primates) 2010 26 Huddling from cold specialists Why do some mammals live in groups? • Costs – Increased intraspecific competition (more strain on local resources) – Increase chance of spread of disease and parasites (lice, CWD) – Interference with reproduction (new male takes over, infants are killed – common in lion prides) Sept. 22, 2010 28 Social behavior theories • • • • The selfish herd Kin selection Reciprocal altruism Parent manipulation Sept. 22, 2010 29 The Selfish Herd theory • Aggregating reduces an individual’s chance of being caught by a predator – An individually “selfishly” moves to the center of the group to avoid being picked off. • Musk ox? Sept. 22, 2010 30 Kin selection theory • An altruistic gene’s success depends not on how the individual benefits, but on the gene’s benefit to itself. – Hamilton’s rule (b/c > 1/r) • b = benefit to recipient • c = cost to altruist • r = coefficient of relationship Sept. 22, 2010 31 Inclusive fitness • Reproductive success of an individuals own offspring + reproductive success of relatives. For kin selection to work, individuals need to be able to determine relatedness • 1. Familiarity • 2. Phenotypic matching • 3. Recognition of genes – Example = MHC Reciprocal Altruism • Individuals may cooperate and behave altruistically if there is a chance that they will be recipients of such acts later – “you scratch my back, I’ll scratch yours.” – Carma? Parent Manipulation • Parents manipulate the offspring the the parents advantage – Giving parental care so offspring have equal chance of surviving and reproducing – Restricting parental care when resources are scarce – Killing some offspring – Temporary or permanently sterilizing offspring and enslaving them as helpers.