Your search keyword '"Trivelpiece WZ"' showing total 5 results

1. Contrasting specialist and generalist patterns facilitate foraging niche partitioning in sympatric populations of Pygoscelis penguins

Author

Polito, MJ, primary, Trivelpiece, WZ, additional, Patterson, WP, additional, Karnovsky, NJ, additional, Reiss, CS, additional, and Emslie, SD, additional

Published

2015

2. Rethinking "normal": The role of stochasticity in the phenology of a synchronously breeding seabird.

Author

Youngflesh C, Jenouvrier S, Hinke JT, DuBois L, St Leger J, Trivelpiece WZ, Trivelpiece SG, and Lynch HJ

Subjects

Age Factors, Animals, Animals, Wild physiology, Animals, Zoo physiology, Antarctic Regions, California, Stochastic Processes, Time Factors, Climate Change, Nesting Behavior, Spheniscidae physiology

Abstract

Phenological changes have been observed in a variety of systems over the past century. There is concern that, as a consequence, ecological interactions are becoming increasingly mismatched in time, with negative consequences for ecological function. Significant spatial heterogeneity (inter-site) and temporal variability (inter-annual) can make it difficult to separate intrinsic, extrinsic and stochastic drivers of phenological variability. The goal of this study was to understand the timing and variability in breeding phenology of Adélie penguins under fixed environmental conditions and to use those data to identify a "null model" appropriate for disentangling the sources of variation in wild populations. Data on clutch initiation were collected from both wild and captive populations of Adélie penguins. Clutch initiation in the captive population was modelled as a function of year, individual and age to better understand phenological patterns observed in the wild population. Captive populations displayed as much inter-annual variability in breeding phenology as wild populations, suggesting that variability in breeding phenology is the norm and thus may be an unreliable indicator of environmental forcing. The distribution of clutch initiation dates was found to be moderately asymmetric (right skewed) both in the wild and in captivity, consistent with the pattern expected under social facilitation. The role of stochasticity in phenological processes has heretofore been largely ignored. However, these results suggest that inter-annual variability in breeding phenology can arise independent of any environmental or demographic drivers and that synchronous breeding can enhance inherent stochasticity. This complicates efforts to relate phenological variation to environmental variability in the wild. Accordingly, we must be careful to consider random forcing in phenological processes, lest we fit models to data dominated by random noise. This is particularly true for colonial species where breeding synchrony may outweigh each individual's effort to time breeding with optimal environmental conditions. Our study highlights the importance of identifying appropriate null models for studying phenology., (© 2017 The Authors. Journal of Animal Ecology © 2017 British Ecological Society.)

Published

2018

3. Circumpolar analysis of the Adélie Penguin reveals the importance of environmental variability in phenological mismatch.

Author

Youngflesh C, Jenouvrier S, Li Y, Ji R, Ainley DG, Ballard G, Barbraud C, Delord K, Dugger KM, Emmerson LM, Fraser WR, Hinke JT, Lyver PO, Olmastroni S, Southwell CJ, Trivelpiece SG, Trivelpiece WZ, and Lynch HJ

Subjects

Animals, Antarctic Regions, Ecology, Phenotype, Reproduction, Seasons, Climate Change, Spheniscidae physiology

Abstract

Evidence of climate-change-driven shifts in plant and animal phenology have raised concerns that certain trophic interactions may be increasingly mismatched in time, resulting in declines in reproductive success. Given the constraints imposed by extreme seasonality at high latitudes and the rapid shifts in phenology seen in the Arctic, we would also expect Antarctic species to be highly vulnerable to climate-change-driven phenological mismatches with their environment. However, few studies have assessed the impacts of phenological change in Antarctica. Using the largest database of phytoplankton phenology, sea-ice phenology, and Adélie Penguin breeding phenology and breeding success assembled to date, we find that, while a temporal match between Penguin breeding phenology and optimal environmental conditions sets an upper limit on breeding success, only a weak relationship to the mean exists. Despite previous work suggesting that divergent trends in Adélie Penguin breeding phenology are apparent across the Antarctic continent, we find no such trends. Furthermore, we find no trend in the magnitude of phenological mismatch, suggesting that mismatch is driven by interannual variability in environmental conditions rather than climate-change-driven trends, as observed in other systems. We propose several criteria necessary for a species to experience a strong climate-change-driven phenological mismatch, of which several may be violated by this system., (© 2017 by the Ecological Society of America.)

Published

2017

4. Identifying Risk: Concurrent Overlap of the Antarctic Krill Fishery with Krill-Dependent Predators in the Scotia Sea.

Author

Hinke JT, Cossio AM, Goebel ME, Reiss CS, Trivelpiece WZ, and Watters GM

Subjects

Animals, Antarctic Regions, Fur Seals physiology, Oceans and Seas, Population Density, Population Dynamics, Predatory Behavior, Risk, Spheniscidae physiology, Conservation of Natural Resources, Euphausiacea physiology, Fisheries, Food Chain

Abstract

Mitigating direct and indirect interactions between marine predators and fisheries is a motivating factor for ecosystem-based fisheries management (EBFM), especially where predators and fisheries compete for a shared resource. One difficulty in advancing EBFM is parameterizing clear functional responses of predators to indices of prey availability. Alternative characterizations of fishery-predator interactions may therefore benefit the implementation of EBFM. Telemetry data identify foraging areas used by predators and, therefore, represent critical information to mitigate potential competition between predators and fisheries. We analyzed six years (2009-2014) of telemetry data collected at Cape Shirreff, Livingston Island and Admiralty Bay, King George Island, Antarctica, on three species of Pygoscelid penguins and female Antarctic fur seals. In this region, all four species are primarily dependent on Antarctic krill. The tracking data demonstrate local movements near breeding colonies during the austral summer and dispersal from breeding colonies during the winter. We then assessed overlap between predators and the Antarctic krill fishery on a suite of spatiotemporal scales to examine how different data aggregations affect the extent and location of overlap. Concurrent overlap was observed on all spatiotemporal scales considered throughout the Antarctic Peninsula and South Orkney Islands region, including near tagging locations and in distant areas where recent fishing activity has concentrated. Overlap occurred at depths where mean krill densities were relatively high. Our results demonstrate that direct overlap of krill-dependent predators with the krill fishery on small spatiotemporal scales is relatively common throughout the Antarctic Peninsula region. As the krill fishery continues to develop and efforts to implement ecosystem-based management mature, indices of overlap may provide a useful metric for indicating where the risks of fishing are highest. A precautionary approach to allocating krill catches in space would be to avoid large increases in catch where overlap on small spatiotemporal scales is common., Competing Interests: The authors have declared that no competing interests exist.

Published

2017

5. Differing foraging strategies influence mercury (Hg) exposure in an Antarctic penguin community.

Author

Polito MJ, Brasso RL, Trivelpiece WZ, Karnovsky N, Patterson WP, and Emslie SD

Subjects

Age Factors, Animals, Antarctic Regions, Euphausiacea metabolism, Feathers chemistry, Female, Fishes metabolism, Male, Mercury blood, Spheniscidae blood, Appetitive Behavior, Environmental Monitoring, Food Chain, Gastrointestinal Contents chemistry, Mercury analysis, Spheniscidae metabolism

Abstract

Seabirds are ideal model organisms to track mercury (Hg) through marine food webs as they are long-lived, broadly distributed, and are susceptible to biomagnification due to foraging at relatively high trophic levels. However, using these species as biomonitors requires a solid understanding of the degree of species, sexual and age-specific variation in foraging behaviors which act to mediate their dietary exposure to Hg. We combined stomach content analysis along with Hg and stable isotope analyses of blood, feathers and common prey items to help explain inter and intra-specific patterns of dietary Hg exposure across three sympatric Pygoscelis penguin species commonly used as biomonitors of Hg availability in the Antarctic marine ecosystem. We found that penguin tissue Hg concentrations differed across species, between adults and juveniles, but not between sexes. While all three penguins species diets were dominated by Antarctic krill (Euphausia superba) and to a lesser extent fish, stable isotope based proxies of relative trophic level and krill consumption could not by itself sufficiently explain the observed patterns of inter and intra-specific variation in Hg. However, integrating isotopic approaches with stomach content analysis allowed us to identify the relatively higher risk of Hg exposure for penguins foraging on mesopelagic prey relative to congeners targeting epipelagic or benthic prey species. When possible, future seabird biomonitoring studies should seek to combine isotopic approaches with other, independent measures of foraging behavior to better account for the confounding effects of inter and intra-specific variation on dietary Hg exposure., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016