Crevice-Nesting Auklets are Early-Successional Species Requiring Disturbance to Persist

Auklets (Aethia spp.) are small seabirds, endemic to the North Pacific Ocean, that nest in rock crevices on islands in Alaska and Russia. Nesting habitats for least (A. pusilla) and crested (A. cristatella) auklet colonies in the southern part of their range (Aleutian and Kuril Islands) are becoming...

Full description

Saved in:
Bibliographic Details
Published inArctic, antarctic, and alpine research Vol. 49; no. 4; pp. 585 - 599
Main Authors Renner, Heather M, R. Walker, Lawrence, Waythomas, Christopher F, Williams, Jeffrey C, Artukhin, Yuri B
Format Journal Article
LanguageEnglish
Published Boulder Institute of Arctic and Alpine Research (INSTAAR), University of Colorado 01.11.2017
Taylor & Francis
Institute of Arctic and Alpine Research
Taylor & Francis Ltd
Subjects
Aquatic birds
Biological activity
Breeding
Colonies
Colonization
Cracks
Demography
Earthquakes
Frost heaving
Habitats
Islands
Lava
Nesting
Rock falls
Rocks
Seabirds
Seismic activity
Slopes
Slumping
Tumbling
Vegetation
Volcanic activity
Volcanoes
Weathering
Online AccessGet full text

Cover

More Information
Summary:Auklets (Aethia spp.) are small seabirds, endemic to the North Pacific Ocean, that nest in rock crevices on islands in Alaska and Russia. Nesting habitats for least (A. pusilla) and crested (A. cristatella) auklet colonies in the southern part of their range (Aleutian and Kuril Islands) are becoming overgrown by vegetation, which is fertilized by the auklets, making rock crevices unavailable for breeding. Colonization of newly created volcanic habitats suggests that auklets are habitat-limited in the southern range. The largest colonies there of least and crested auklets exist on lava slopes <100 years old. We propose that in the south, volcanic activity is required to maintain auklet populations. In contrast, colonies in the northern Bering Sea and Sea of Okhotsk show no indication of habitat limitation. They occur in more persistent talus slope habitats maintained by weathering, slumping, frost heaving, and tumbling. Biological processes there are slower and vegetation communities not as developed. We propose a conceptual model describing the interaction of geological and biological processes that influence auklet demography. We conclude that least and crested auklets require episodic disturbance (provided by volcanoes, earthquakes, and rock fall deposits) to maintain access to nest crevices. Auklets thereby provide an example of disturbance-adapted, early successional species that self-inhibit if their habitat is not regularly disturbed.
ISSN:1523-0430
1938-4246
DOI:10.1657/AAAR0017-051