PIT tagging does not measurably reduce reproductive success in sensitive burrow-nesting seabirds

IF 2.1 3区 生物学 Q2 MARINE & FRESHWATER BIOLOGY Marine Biology Pub Date : 2024-02-22 DOI:10.1007/s00227-023-04387-x
Leo Marcouillier, Eliane Miranda, Shannon Whelan, Dave Fifield, Scott Hatch, Akiko Shoji, Chinatsu Nakajima, Kyle H. Elliott
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Abstract

Investigator disturbance while monitoring seabirds can result in lower survival rates and breeding success, leaving lasting negative impacts on the population and biasing observations. For example, monitoring rhinoceros auklets (Cerorhinca monocerata) and other burrowing alcids can reduce breeding success or even survival through handling stress and damage to nesting habitat. For this reason, researchers must seek to decrease colony disturbance. Automated radio-frequency identification (RFID) via passive integrated transponder (PIT) tags is an inexpensive and reliable way to identify individual presence and record attendance behaviour, avoiding the need to recapture seabirds or visit the colony frequently. PIT tags either can be implanted subcutaneously or attached externally to leg bands, but it is unclear which method causes lower disturbance. To examine the impact of PIT tagging on rhinoceros auklets nesting in artificial burrows on Middleton Island, Alaska, we monitored burrow entrances with automated recording RFID readers to collect presence and nest attendance data. PIT-tagged (either band attachment or subcutaneous implant) and control birds had similar breeding success and chick growth rates. Breeding success was similar between nests with one or two parents marked. Birds tagged externally were detected less often than birds marked with a subcutaneous implant. We conclude that PIT tagging of rhinoceros auklets is a relatively non-invasive method for seabird monitoring, and that subcutaneous implants do not cause more disturbance than external attachment.

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PIT 标记不会显著降低敏感的穴巢海鸟的繁殖成功率
在监测海鸟时,调查人员的干扰可能会降低海鸟的存活率和繁殖成功率,对海鸟种群造成持久的负面影响,并使观测结果产生偏差。例如,在监测犀鸟(Cerorhinca monocerata)和其他穴居杓鹬时,由于操作压力和对筑巢栖息地的破坏,会降低繁殖成功率甚至存活率。因此,研究人员必须设法减少对鸟群的干扰。通过无源集成转发器(PIT)标签进行自动射频识别(RFID)是识别个体存在和记录出勤行为的一种廉价而可靠的方法,可避免重新捕捉海鸟或频繁访问鸟群。PIT 标签既可以植入皮下,也可以外挂在腿带上,但目前还不清楚哪种方法造成的干扰较小。为了研究 PIT 标签对在阿拉斯加米德尔顿岛人工洞穴中筑巢的小犀鸟的影响,我们使用自动记录 RFID 阅读器监测洞穴入口,收集存在和筑巢情况数据。贴有 PIT 标签的鸟类(带子固定或皮下植入)与对照组鸟类的繁殖成功率和雏鸟生长率相似。单亲或双亲标记鸟巢的繁殖成功率相似。外部标记的鸟类比皮下植入标记的鸟类更少被发现。我们的结论是,对小犀鸟进行 PIT 标记是一种相对非侵入性的海鸟监测方法,而且皮下植入标记不会比外部植入标记造成更多干扰。
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来源期刊
Marine Biology
Marine Biology 生物-海洋与淡水生物学
CiteScore
4.20
自引率
8.30%
发文量
133
审稿时长
3-6 weeks
期刊介绍: Marine Biology publishes original and internationally significant contributions from all fields of marine biology. Special emphasis is given to articles which promote the understanding of life in the sea, organism-environment interactions, interactions between organisms, and the functioning of the marine biosphere.
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