Seabird nestling diets reflect latitudinal temperature-dependent variation in availability of key zooplankton prey populations

We report on historical (1978 to 1982) and more recent (1996 to 2000) variation in the nestling diet of Cassin’s aukletPtychoramphus aleuticusbreeding at Triangle Island (southern) and Frederick Island (northern), British Columbia, Canada; these islands are influenced by the California and the Alask...

Full description

Saved in:
Bibliographic Details
Published in:Marine ecology. Progress series (Halstenbek) 2009-10, Vol.393, p.199-210
Main Authors: Bertram, Douglas F., Harfenist, Anne, Hedd, April
Format: Article
Language:English
Subjects:
Biomass
Climate change
Copepoda
Diet
Marine
Marine fishes
Neocalanus cristatus
Oceanic climates
Oceans
Phenology
Ptychoramphus aleuticus
Sea birds
THEME SECTION: Marine ecosystems, climate and phenology: impacts on top predators
Young animals
Zooplankton
Citations: Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:We report on historical (1978 to 1982) and more recent (1996 to 2000) variation in the nestling diet of Cassin’s aukletPtychoramphus aleuticusbreeding at Triangle Island (southern) and Frederick Island (northern), British Columbia, Canada; these islands are influenced by the California and the Alaska Current ecosystems, respectively. Ocean climate conditions off the British Columbia coast varied tremendously between 1978 and 2000. At both colonies, the nestling diet was composed largely of copepods and euphausiids, with fish contributing substantially in some of the warmer years at Triangle Island. The copepodNeocalanus cristatuswas the single most important prey item at both colonies, and Stage V copepodites dominated in all sampling periods. We used a recently published temperature-dependent phenology equation to estimate the timing of peak biomass ofNeocalanusnear Triangle and Frederick Islands. During warm water years (such as 1996 and the El Niño of 1998), the timing and duration ofN. cristatusavailability in surface waters near Triangle Island was early and limited (mismatched) in contrast to cooler years (such as 1999 and 2000), when this prey was available to birds throughout the breeding season (matched). We argue that Cassin’s auklet nestling diet data reflect the temperature-related timing ofNeocalanusprey availability to seabirds in surface waters. Our results support the argument that inadequate overlap of prey availability and predator breeding (i.e. temporal trophic mismatch) is more likely on Triangle Island, where zooplankton peaks often occur earlier and are narrower, than on Frederick Island, where prey peaks are later and more protracted. Poor reproductive performance is the biological consequence of such trophic mismatch for Cassin’s auklet. If the frequency of El Niño-like events increases and if ocean temperatures rise in the future, we predict an increase in the frequency of trophic mismatch events in the northeast Pacific Ocean.
ISSN:0171-8630
1616-1599
DOI:10.3354/meps08223