在兄弟姐妹竞争、驱逐和收养的背景下,加拿大鸦雀第一年在整个年周期中的存活率

Matthew Fuirst, Dan Strickland, Nikole E Freeman, Alex O Sutton, Brendan A Graham, Theresa Burg, D Ryan Norris
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摘要

对于大多数表现出延迟散居(留在产地而不是散居去寻找繁殖机会)的鸟类来说,兄弟姐妹似乎可以自由地留在或离开产地。然而,在极少数情况下,兄弟姐妹之间的冲突决定了迁徙的延迟,占优势的个体会留在产地。我们在加拿大安大略省阿尔冈昆省立公园利用无线电跟踪研究了第一年加拿大松鸦(Perisoreus canadensis)的育雏减少情况以及随后的幼鸟存活情况。在幼鸟营养独立后不久,雏鸟内部的争斗导致一只 "占优势的幼鸟 "在永久性地驱逐了从属的兄弟姐妹("被驱逐者")后留在了出生地。雄性雏鸟在雏鸟时期的体质高于平均水平,最有可能成为占优势的幼鸟,而雌性雏鸟只有在被驱逐时全部是雌性的情况下才成为占优势的幼鸟。与被驱逐者相比,占优势的幼鸟更有可能在第一个夏天存活下来(存活概率分别为0.84和0.45),这表明被驱逐者在被驱逐出出生地和在新领地定居之间的关键时期特别容易面临死亡风险。然而,如果被驱逐者活到秋季,它们的初冬存活概率(0.73)仅略低于占优势的幼鸟(0.85)。这些结果表明,优势幼体在孵化后的第一个夏季获得的存活率优势最大,而被弹出的幼体在非出生地定居后的第一个冬季获得的存活率差异要小得多。我们的研究为研究野生鸟类社会优势等级的潜在进化和生态机制提供了新的视角。
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Survival throughout the annual cycle of first year Canada Jays in the context of sibling competition, expulsion, and adoption
For most birds that exhibit delayed dispersal (remaining on the natal territory rather than dispersing to seek a breeding opportunity), siblings appear free to stay or leave the natal area. However, in rare cases, delaying dispersal is determined via conflict among siblings, with the dominant individual remaining on the natal territory. We used radio-tracking to examine brood reduction, and subsequent juvenile survival, of first-year Canada Jays (Perisoreus canadensis) in Algonquin Provincial Park, Ontario, Canada. Soon after juveniles become nutritionally independent, intra-brood struggles lead to one “dominant juvenile” remaining on the natal territory after permanently expelling the subordinate siblings (“ejectees”). Males in above-average condition when nestlings were the most likely to become the dominant juveniles and females did so only when broods were all-female at the time of the expulsion. dominant juveniles were much more likely to survive their first summer compared to ejectees (survival probabilities = 0.84 and 0.45, respectively), suggesting that ejectees are especially vulnerable to mortality risk in the critical interval between their expulsion from the natal territory and their settlement on a new territory. However, if ejectees lived to autumn, they had only a slightly lower probability of first-winter survival (0.73) than dominant juveniles (0.85). These results suggest that the survival advantage gained by dominant juveniles is greatest during the first summer after hatching, with a much smaller difference over the first winter after ejectees have settled on non-natal territories. Our work provides insight into potential evolutionary and ecological mechanisms driving social dominance hierarchies in wild birds.
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