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FEMALE. Care Abandon. F: wP 2 WP 1 M: wP 2 WP 1. Care Abandon. MALE. F: wP 1 WP 0 M: wP 1 (1+p M ) WP 0 (1+p M ). Cost/benefit approach . P 0,1,2 = probability eggs survive given 0, 1, or 2 parents W, w = eggs laid by deserting or caring female, respectively
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FEMALE CareAbandon F: wP2 WP1 M: wP2 WP1 Care Abandon MALE F: wP1 WP0 M: wP1 (1+pM) WP0 (1+pM) Cost/benefit approach P0,1,2 = probability eggs survive given 0, 1, or 2 parents W, w = eggs laid by deserting or caring female, respectively PM = probability deserting male mates again If female cares then male should abandon if: wP2 < wP1(1+p)
FEMALE Birds CareAbandon F: wP2 WP1 M: wP2 WP1 Care Abandon MALE F: wP1 WP0 M: wP1 (1+pM) WP0 (1+pM) • caring/abandonment by parents is a game between 2 players: M & F • the best decision by one player depends on the decision of the other…. • we can understand caring/abandonmentin terms of the probability of remating (M), • eggs laid (F) or loss of offspring when raised by a single parent (M and F) • Environmental conditions that abruptly alter these costs and benefits may also • abruptly alter parental care and mating strategy – e.g., facultative polygamy
Social Monogamy - 90% of all birds - primitive/original mating system - monogamy and biparental care go hand-in-hand (not w/o exceptions) Why? What factors that promote monogamy and biparental care in birds? Facultative Monogamy: individuals fail to acquire additional mates b/c of shortage of members of the opposite sex (e.g., synchronous breeding and unbalanced sex ratio) Obligate Monogamy: Selection for monogamy per se – both sexes gain e.g., males are less successful with 2 mates than 1 e.g., in females, pairing with an unmated male better than with a mated male
Pair bonds may last for life (e.g., parrots, albatrosses, eagles, geese, pigeons), but separation is quite common, and usually after failed breeding attempts. In Adelie Penguins: 16% of old pairs and 44% of young pairs stay together more than 1 breeding season. Mute Swans: 5% of breeding pairs and 10% of non-breeding pairs separate each year Lastly, if one considers passerines have 60-70% survivorship rates, there is a only a 36-49% chance both members survive til the next year – so why delay breeding waiting for a mate to show up – or not.
Nest construction by males is the prevailing mode among non-passerines E.g., Male Hairy Woodpeckers conduct 95% cavity construction (Lawrence 1967) What do males do? Courtship feeding – Rifleman First and 2nd clutches of are 84% and 72%, respectively, of the females body mass. Males contributes 42% of the food they gather to females before first clutch and care entirely for the young as 2nd is laid
Are males necessary? (1)Shared incubation - 67% of Families of Neognathous birds Western sandpipers – removal of either parent led to 100% failure (2) Female provisioning – common in raptors, hornbills, and other groups 7 of 8 male kestrel removals resulted in nest abandonment (the exception was a female who lost her mate on day 24 of a 27 day incubation period)
...conclude that in monogamy, both mates are necessary for raising young, and/or it is the strategy that yields the greatest # offspring for both male and females Are males necessary? (3) Post-hatching care - Effects of male-removal on nesting productivity… Song sparrows – decrease by 51% Seaside sparrows – decrease by 66% Dark-eyed juncos – decrease by 38% Also in kestrels, rock doves, tree swallows and other passerines. (4) Post-fledging care – 3 passerine studies show loss of male leads to 37-66% reduction of young to independence # Nests # chicks fledged
Avian Reproduction Finding/attracting Mates Nest construction Egg laying (1)Shared incubation incubation (2) Female provisioning Caring for young Precocial young leave the nest after hatching • Altricial young • Nestlings • Fledglings (2) Female provisioning (3) Post-hatching care (4) Post-fledging care
EPCs – Extra-pair copulations – copulations outside the pair-bond - Once thought to be very rare … until DNA-fingerprinting become common, now it appears everyone is doing it. EPCs broods with extra- offspring fathered observed pair paternity by extra-pair matings Black Vulture0 Common Loon 0 Ea. Screech Owl 0 Willow Warbler 0 0 0 Fulmar 2 0 0 Wood Warbler 13 0 0 Eu. Bee-eater 4 5 1 Zebra Finch 5 8 2 Pied Flycatcher -- 15 4 Blue Tit 5 36 18 Shag 14 20 18 Red-winged Blackbird -- 47 28 Purple Martin -- 54 35 Indigo Bunting 2 48 35 Superb fairy-wren76
Benefits to EPCs Males – sire more offspring so long as it doesn’t comprise the benefit from its social mate in value of paternal care # opportunities (density of females) in the ability to guard mate (from the female’s perspective of soliciting EPCs)
Benefits to EPCs Males – sire more offspring so long as it doesn’t comprise the benefit from its social mate in value of paternal care # opportunities (density of females) in the ability to guard mate (from the female’s perspective of soliciting EPCs) } Will the prevalence of EPCs Females – No gain in the # offspring, so why engage in EPCs? (1) It is forced – Mallards (2) Insurance against infertile males (3) Sperm competition – may the best sperm win or….
# males = EPCs 0 -4 -2 +2 +4 +6 Down-grading Improvement Difference in rank between social mate and EPC-mate (4) Good Genes Most females cannot mate with the best male (constraint) so they seek out EPCs to increase their overall fitness Predicts: Females will seek EPCs with better males: Test: Zebra finch (Houtman 1992) Zebra finch
This begs the question of why not have more EPCs with the best/better males? …Probably risk of mate-abandonment if confidence of paternity is compromise
This begs the question of why not have more EPCs with the best/better males? …Probably risk of mate-abandonment if confidence of paternity is compromise
FEMALE CareDesert F: wP2 WP1 (1+pF) M: wP2 WP1 Care Desert MALE F: wP1 WP0 (1+pF) M: wP1 (1+pM) WP0 (1+pM) P0,1,2 = probability eggs survive given 0, 1, or 2 parents W, w = eggs laid by deserting or caring female, respectively PM, pF = probability deserting mal/female mates again If female cares then male should desert if: wP2 < wP1(1+pM)
Polygyny – polygymous mating system in which males have multiple mates - 2% of all birds Neognathous spp – Paleognathous spp – multiple females lay in the male’s nest who then gives almost exclusive paternal care New world – wrens and blackbirds (marsh-nesters) Old world – Cavity nesters, e.g., some owls, pied flycatcher
Two models – (1) Polygyny threshold model (Orians 1969) (2) Deception model (von Haartman 1969) (3) no other choice – best of a bad situation In Picman’s (1987) study of the marsh wren females settle with mated males only after all bachelor males had paired
Polygyny threshold model posits that there is an uneven distribution of important resources that males control access to through territoriality
Thus, females must decide whether to (i) mate with an already mated male on a high quality territory or (ii) an unmated males on a poor territory. The threshold is the point at which a female will do as good or better with option i #1 Female Reproductive success 1 ♀ 2 ♀ c e d b a Territory Quality
#2 c e d b a
#2 ? #3 c c e d b a e d b a
#2 #3 c c e d b a e d b a #6 #4 #5 c e d b a
Deception model posits that the female pays a cost of polygyny b/c the male conceals its bigamous relationship from the females Male and female Pied Flycatchers Once males attract one female they fly off to another nest site some distance away (200m, on average, but up to 3.5 km) to attract a second female. B/c of the distance, secondary females cannot assess whether they male as another mate 10-15% of males are successful at having 2 mates
Female #2 Male Female #1 Some distance away No male assistance
In conclusion, there are 3 scenarios that may lead to Polygyny: (1) Females have no other choice but to mate with a mated male (2) Females may be deceived (3) Females may actively assess the consequences of their decision and make an adaptive choice
FEMALE CareDesert F: wP2 WP1 (1+pF) M: wP2 WP1 Care Desert MALE F: wP1 WP0 (1+pF) M: wP1 (1+pM) WP0 (1+pM) What if pF >> pM ?
Polyandry – polygynous mating system in which females have multiple mates - 1% of all birds - involves sex role-reversal, such that females defend territories, compete for mates, take the lead in courtship Occurs largely in shorebirds: - Painted snipes - Jacanas - Phalaropes - Plains wanderers These birds often have abundant resources, require only a single parent to care for their precocial young, thus enabling the female to desert after laying eggs to find another mate.
♀ = 6.7 ♀ = 5.0 ♂ = 3.7 ♂ = 5.0 ♂β = 3.0 ♀ = 3.8 ♀β = 3.8 ♂ = 7.6 Dunnock Prunella modularis
Leks – Promiscuous mating system - 1% of birds - males provide no parental care - males congregate at sites not used for other purposes - no resources (territory) are on display for females - females chose among males a selected sperm donor Manakins: Exploded Leks - solitary individuals that may interact vocally Cock-of-the-Rock: Classical Leks – conspicuously clumped communal mating/display grounds often with extreme fidelity from year to year ...also hummingbirds, scolopacids, birds-of-paradise, grouse, and a parrot http://www.youtube.com/watch?v=T2Bsu4z9Y3k