Animal Behavior/Brood Parasitism

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Brood Parasitism[edit]

Interspecific Brood Parasitism[edit]

Common cuckoos (Cuculus canorus) in Europe, and brown-headed cowbirds (Molothrus ater) in North America lay their eggs in the nests of other species and leave them to the care of their respective host. A Cuckoo female searches for an unguarded nest of another species and then replaces an egg in it with one of her own. The mother then abandons her egg leaving it to be raised by the nest's natural owners. Clearly, lacking a distinct ability to identify and remove foreign eggs from among its clutch appears maladaptive.

As an example of an evolutionary arms race, cukoos have adapted their kleptoparasitic strategies to the host behavior. Upon return, hosts may reject the foreign egg if it is a poor match, added at the wrong time of day, or the cukoo's presence has been witnessed. Different cuckoo strains exhibit distinct preferences for a specific host species which provide a close visual match to their own eggs. Likewise, hosts have adapted to selection from cuckoos where species suffering high amounts of parasitism are much better at identifying and removing cuckoo eggs than those who suffer little. When parents remove an egg from their nest they do risk removing one of their own or breaking some of the others in the process. Whether taking such risks will be worth it depends on the overall rate of parasitism and the ability to discriminate foreign from own eggs.

In contrast to cuckoos, brownheaded cowbirds exhibit little preference for nests of a specific song bird species. Moreover, their eggs fail to show close mimicry to those of their hosts. Removal of parasitic eggs is much more variable, high in some species and rare in others. Although cowbird fledglings do not evict their nest mates, up to 50% of the nests may be parasitized in some areas.

The lack of co-evolution in brood parasitism of cowbirds compared to that of cuckoos is puzzling. Do these two cases represent different stages of the arms race? Are cowbirds in the early parts of the game while cuckoos have had a chance to adapt for a much longer time? Has the recent change in North America landscape from forest to agricultural lands brought cowbirds into contact with a much greater number of new hosts? Alternatively, both species may be at an evolutionary equilibrium with stabilizing selection. Differing degrees of rejection may well depend on their respective costs of rejecting vs. accepting any given egg.

A basic problem for all brood parasites resides in the fact that young birds raised by parents of another species will be unsuitable as tutors for its own songs. Cowbirds, which may parasitize the nests of over 200 different species, are nevertheless able to learn the right species-specific song.

Intraspecific Brood Parasitism[edit]

Brood Parasitism conventionally involves the laying of one’s own eggs into the nest of another species, most commonly seen in species such as the cuckoo and brown headed cowbird. Most often fatal to the offspring of the host and detrimental to the host parents that must satisfy the begging behavior of chicks far greater in size than often themselves. Intraspecific brood parasitism however is a common occurrence in ducks and allies, though not unheard of in other families of birds.

Several hypotheses have been put forth as to why IBP occurs, including limitation of suitable nesting sites, or intrinsic individual limitations such as lack of experience rearing offspring or poor physical condition [1]. Still more hypothesize that the parasites maintain their own clutch but lay eggs in host nests because they have lost eggs of their own, to spread the risk of predation, or that her physical health is well enough that she can increase her fitness by laying more eggs[2]. And still more hypothesize that if IBP is linked to kin selection; since colony formation and female philopatry is common in ducks then the host female could gain indirect fitness through the rearing of kin offspring. It is argued, however, that the loss in direct fitness of the host is not compensated enough by the increase in indirect fitness of the host.

A recent study by Tiedemann aimed to investigate if age linked with relatedness would prove a reasonable hypothesis for IBP in the Common Eider Somateria mollissima. It is already well known that clutch size in ducks decreases with higher age [3]. This study looked at several microsatellites within two separate eider colonies. What they found was that genetic relatedness between the parasite and host were indeed greater than when compared to the relatedness of the entire microsatellite area. Important to note though is that there is no direct correlation between nest vicinity and genetic relatedness. Two important conclusions were drawn, “The average age of parasitized females is higher than the age of nonparasitized females, (and) the percentage of nests with alien (parasite) eggs increases with the age of nesting females” [4]. From this study Tiedemann predicts that elderly eiders that cannot produce as many eggs as they may be able to incubate gain a significant indirect fitness through IBP by close genetically related individuals. This idea of increased fitness in both parties was postulated early but this is the first study of its kind to demonstrate experimental evidence that IBP in ducks at least could be age-dependent and that cooperation between generations of females may increase the total fitness in both individuals.

References[edit]

  1. Sorensen M.D. 1991. The functional significance of parasitic egg laying and typical nesting in redhead ducks: an analysis of individual behaviour. Animal Behaviour, 42: 771–796
  2. Lyon B.E, Eadie J.M. 2008. Conspecific brood parasitism in birds: a life history perspective. Annual Review of Ecology, Evolution, and Systematics, 39: 343–363
  3. Dow H., Fredga S. 1984. Factors affecting reproductive output of the Goldeneye duck Bucephala clangula. Journal of Animal Ecology, 53: 679–692
  4. Tiedemann, R. et al. 2011. Alien eggs in duck nests: brood parasitism or a help from Grandma? Molecular Ecology, 20: 3237-3250