S. Rohwer, Vanya G. Rohwer, M. Sethi, J. HilleRisLambers
{"title":"Life-history implications of migratory Lesser Sandhill Cranes replacing adjacent blocks of primaries synchronously","authors":"S. Rohwer, Vanya G. Rohwer, M. Sethi, J. HilleRisLambers","doi":"10.1093/auk/ukaa058","DOIUrl":null,"url":null,"abstract":"ABSTRACT Using the patterns of fault bars in their primaries, we studied the mode of primary replacement in non-molting Lesser Sandhill Cranes (Antigone c. canadensis) salvaged from hunters in southwestern Saskatchewan. About 80% of their primaries are used for 2 yr and 20% for 3 yr. Primaries are replaced during the breeding season and are lost in synchronous blocks representing about half the primaries, suggesting that most adults probably can fly weakly during flight feather replacement. Cranes are large, aggressive birds, and this interesting, and undescribed mode of flight feather replacement seems adapted to the ability of adult cranes to defend their precocial chicks from predators. Strikingly, juvenile Sandhill Cranes showed no fault marks in their primaries, suggesting that their parents' ability to protect them shields them from the fright of predator attacks, which, in most birds, causes fault bars to be more prevalent and strongly expressed in juveniles than adults. Adults show interesting variation in the number of primaries replaced annually, which seems likely related to whether or not they are caring for chicks. Further, single primaries may or may not be replaced preferentially, suggesting sensitivity to feather function. Evaluating these observations must await field studies of molting adults. LAY SUMMARY Lesser Sandhill Cranes that breed in the far north replace about half of their primaries annually in a synchronous molt This resolves 2 time period conflicts: the exponential increase with body size in the time required to molt, and the need to overlap primary molt with parental care. Using fault marks, feather growth rates, and feather wear, we deciphered this previously unknown mode of primary replacement from a sample of non-molting birds. Within adjacent blocks of same-age primaries, distance differences from feather tip to marker faults showed that feather pairs were usually lost within 24 hr of each other. Cranes are big, tough birds, and synchronous loss of about half of the primaries helps parents defend young from formidable predators. Synchronous replacement also reduces molt duration to the time required to grow the longest renewed primary, squeezing primary renewal of this far-northern breeder into the brief time window before their long southward migration.","PeriodicalId":382448,"journal":{"name":"The Auk","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2020-09-04","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"2","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"The Auk","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1093/auk/ukaa058","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 2
Abstract
ABSTRACT Using the patterns of fault bars in their primaries, we studied the mode of primary replacement in non-molting Lesser Sandhill Cranes (Antigone c. canadensis) salvaged from hunters in southwestern Saskatchewan. About 80% of their primaries are used for 2 yr and 20% for 3 yr. Primaries are replaced during the breeding season and are lost in synchronous blocks representing about half the primaries, suggesting that most adults probably can fly weakly during flight feather replacement. Cranes are large, aggressive birds, and this interesting, and undescribed mode of flight feather replacement seems adapted to the ability of adult cranes to defend their precocial chicks from predators. Strikingly, juvenile Sandhill Cranes showed no fault marks in their primaries, suggesting that their parents' ability to protect them shields them from the fright of predator attacks, which, in most birds, causes fault bars to be more prevalent and strongly expressed in juveniles than adults. Adults show interesting variation in the number of primaries replaced annually, which seems likely related to whether or not they are caring for chicks. Further, single primaries may or may not be replaced preferentially, suggesting sensitivity to feather function. Evaluating these observations must await field studies of molting adults. LAY SUMMARY Lesser Sandhill Cranes that breed in the far north replace about half of their primaries annually in a synchronous molt This resolves 2 time period conflicts: the exponential increase with body size in the time required to molt, and the need to overlap primary molt with parental care. Using fault marks, feather growth rates, and feather wear, we deciphered this previously unknown mode of primary replacement from a sample of non-molting birds. Within adjacent blocks of same-age primaries, distance differences from feather tip to marker faults showed that feather pairs were usually lost within 24 hr of each other. Cranes are big, tough birds, and synchronous loss of about half of the primaries helps parents defend young from formidable predators. Synchronous replacement also reduces molt duration to the time required to grow the longest renewed primary, squeezing primary renewal of this far-northern breeder into the brief time window before their long southward migration.
摘要/ ABSTRACT摘要:利用初级断层的模式,研究了在萨斯喀彻温省西南部从猎人手中打捞到的未脱毛的小沙丘鹤(Antigone c. canadensis)的初级替换模式。大约80%的原毛用于2年,20%用于3年。在繁殖季节,原毛会被替换,并在大约一半的原毛中同步丢失,这表明大多数成年鸟可能在更换飞羽期间飞行能力较弱。鹤是一种大型的、具有攻击性的鸟类,这种有趣的、未被描述过的飞行羽毛替换模式似乎适应了成年鹤保护早熟雏鸟免受捕食者伤害的能力。引人注目的是,幼年沙丘鹤在它们的初级阶段没有显示出错误标记,这表明它们的父母有能力保护它们免受捕食者的攻击,这在大多数鸟类中导致错误标记在幼年中比成年鸟类更普遍和强烈地表达出来。成年鸟在每年更换初级鸟的数量上表现出有趣的变化,这似乎与它们是否照顾雏鸟有关。此外,单一的原色可能会被优先替换,也可能不会,这表明对羽毛功能的敏感性。评估这些观察结果必须等待对蜕皮成虫的实地研究。在遥远的北方繁殖的小沙丘鹤每年在一次同步蜕皮中更换大约一半的初级蜕皮,这解决了两个时间冲突:蜕皮所需的时间随着身体尺寸的指数增长,以及需要将初级蜕皮与父母照顾重叠。利用缺陷标记、羽毛生长速率和羽毛磨损,我们从非换羽鸟类的样本中破译了这种以前未知的初级替换模式。在邻近的同年龄初级岩块中,从羽毛尖端到标记断层的距离差异表明,羽毛对通常在24小时内丢失。鹤是一种体型庞大、身体强壮的鸟类,同时失去大约一半的初级能力有助于父母保护孩子免受可怕的捕食者的伤害。同步替换也减少了蜕皮持续时间,使长出最长的更新初级所需的时间,将这个遥远的北方繁殖者的初级更新压缩到它们向南迁徙之前的短暂时间窗口。