Bottom‐up forcing and the decline of Steller sea lions (<i>Eumetopias jubatus</i>) in Alaska: assessing the ocean climate hypothesis

Trites, Andrew W.; Miller, Arthur J.; Maschner, Herbert D. G.; Bograd, Steven J.; Capotondi, Antonietta; Coyle, Kenneth O.; Finney, Bruce P.; Grosch, C. E.; Steven, R.R.; Hunt, George L.; Kachel, Nancy B.; Ladd, Carol; Mendelssohn, Roy; Neilson, Douglas J.; Overland, James E.; Reedy-Maschner, K; Royer, Thomas C.; Wang, Julian X. L.; Winship, Arliss J.

doi:10.1111/j.1365-2419.2006.00408.x

Cited by 129 publications

(113 citation statements)

References 102 publications

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“…The role of prey dynamics in population change is a central issue to large mammal population dynamics, and a focus of Steller sea lion research (National Research Council 2003). The population decline coincided with the 1976/77 oceanic regime shift in the North Pacific and with population declines in several other top predator species, suggesting a link between population dynamics and prey conditions (reviewed by Trites et al 2007). Notes: All models fit are shown.…”

Section: Spatial Variation In Demographic Parametersmentioning

confidence: 99%

Cohort effects and spatial variation in age-specific survival of Steller sea lions from southeastern Alaska

et al. 2011

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Pitcher. 2011. Cohort effects and spatial variation in age-specific survival of Steller sea lions from southeastern Alaska.Ecosphere 2(10):111. doi:10.1890/ES11-00215.1Abstract. Information concerning mechanistic processes underlying changes in vital rates and ultimately population growth rate is required to monitor impacts of environmental change on wildlife. We estimated age-specific survival and examined factors influencing survival for a threatened population of Steller sea lions (Eumetopias jubatus) in southeastern Alaska. We used mark-recapture models and data from 1,995 individuals marked at approximately one month of age at four of five rookeries in southeastern Alaska, and resighted from Oregon to the Bering Sea. Average annual survival probability for females was 0.64 for pups and 0.77 for yearlings, and increased from 0.91 to 0.96 from age 3-7 yrs. Annual survival probability of males averaged 0.60 for pups and 0.88 by 7 yrs, resulting in probability of survival to age 7, 33% lower for males compared to females. Pups from northern southeastern Alaska (including an area of low summer population size but rapid growth) were twice as likely to survive to age 7 compared to pups from southern rookeries (including a large, historical, stable rookery). Effects of early conditions on future fitness were observed as (1) environmental conditions in the birth year equally affected first-and secondyear survival, and (2) effects of body mass at approximately one month of age were still apparent at 7 yrs. Survival from 0-2 yrs varied among five cohorts by a maximum absolute difference of 0.12. We observed survival costs for long-distance dispersal for males, particularly as juveniles. However, survival was higher for non-pups that dispersed to northern southeastern Alaska, suggesting that moving to an area with greater productivity, greater safety, or lower population size may alleviate a poor start and provide a mechanism for spatial structure for sea lion populations.

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Section: Spatial Variation In Demographic Parametersmentioning

confidence: 99%

Cohort effects and spatial variation in age-specific survival of Steller sea lions from southeastern Alaska

et al. 2011

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“…In particular, climate regime shifts over the past few decades have caused high variability in abundance of forage fish and many marine mammals and sea birds that depend on them (e.g. Trites et al 2007, Overland et al 2008, Estes et al 2009). The relative importance of natural variability only increases over time, as natural variability remains unabated while the signal of the effects from the oil spill continuously diminishes.…”

Section: Attributable Risksmentioning

confidence: 99%

Quantifying long-term risks to sea otters from the 1989 ‘Exxon Valdez’ oil spill: Comment on Bodkin et al. (2012)

Harwell¹,

Gentile²

2013

Mar. Ecol. Prog. Ser.

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Bodkin et al. (2012; Mar Ecol Prog Ser 447:273−287) assessed the frequency at which sea otters Enhydra lutris might encounter subsurface oil residues from the 'Exxon Valdez' oil spill. They concluded that a pathway exists for exposures of sea otters to residual oil in the intertidal zone, and imply that this pathway has delayed recovery of sea otters. We agree that the potential exposure pathway exists, and the Bodkin et al. (2012) estimates of the frequency of encountering subsurface oil residues (4 to 10 times per year) comport with our previously published studies (2 to 7 times per year). However, we disagree that this pathway constitutes a significant risk to sea otters. We discuss results from our quantitative ecological risk assessment using an individualbased model that specifically simulated this pathway of exposures to a population of 500 000 sea otters. This conservative model predicted that assimilated doses of polycyclic aromatic hydrocarbons in subsurface oil residues to the 1-in-1000 th most-exposed sea otters would be 1 to 2 orders of magnitude below the chronic effects thresholds that we established using USEPA data and methodology. When we artificially increased the rate of encountering subsurface oil residues, it required 4 to 10 encounters per day to reach effects levels. We conclude that the subsurface oil residues from the oil spill could not plausibly be responsible for any individual-or populationlevel effect on the sea otters at northern Knight Island.

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“…Over recent decades there has been growing concern over the status of sea lion species. In the North Pacific Ocean, the Steller sea lion Eumetopias jubatus has been declared Endangered in parts of its range and is considered threatened with extinction in other parts (Trites et al 2007). Although the total population of California sea lions Zalophus californianus in California (USA) and Mexico is increasing (Carretta et al 2004), the Mexican stock is declining (Szteren et al 2006).…”

Section: Introductionmentioning

confidence: 99%

Australian sea lions Neophoca cinerea at colonies in South Australia: distribution and abundance, 2004 to 2008

Shaughnessy¹,

Goldsworthy

Hamer

et al. 2011

Endang. Species. Res.

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The Australian sea lion Neophoca cinerea is an endemic species listed as vulnerable under the Commonwealth 'Environment Protection and Biodiversity Conservation Act' and as Endangered by IUCN. Assessing its abundance is difficult because of its supra-annual (17 to 18 mo) breeding cycle, and pupping seasons that are extended (about 6 mo but varying between colonies) and asynchronous in their timing between colonies. Based mainly on surveys at most sites in South Australia (SA) between 2004 and 2008, and information from the literature, estimates of abundance are provided for 39 breeding colonies and 9 haulout sites where pups are recorded occasionally. From this study it is estimated that in SA, 3119 Australian sea lion pups are born per breeding cycle, an increase on former estimates by at least 16% resulting from recognition of new breeding colonies, targeting surveys to coincide with maximum pup numbers and using mark-recapture procedures at some colonies. With the addition of 503 pups in Western Australia, the overall estimate of pup abundance for the species is 3622. This leads to an estimate of 14 780 animals using the multiplier 4.08. Trend data for the Seal Bay colony on Kangaroo Island indicated that pup numbers decreased at 0.54% yr -1 in the 22 yr (16 pupping seasons) from 1985 to 2007. A cause of the decrease is believed to be bycatch in the demersal shark gillnet fishery, which overlaps with sea lion foraging areas nearby. Area closures declared during 2010 within several km of all Australian sea lion breeding sites in SA should reduce the incidence of bycatch mortality.

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Bottom‐up forcing and the decline of Steller sea lions (Eumetopias jubatus) in Alaska: assessing the ocean climate hypothesis

Cited by 129 publications

References 102 publications

Cohort effects and spatial variation in age-specific survival of Steller sea lions from southeastern Alaska

Cohort effects and spatial variation in age-specific survival of Steller sea lions from southeastern Alaska

Quantifying long-term risks to sea otters from the 1989 ‘Exxon Valdez’ oil spill: Comment on Bodkin et al. (2012)

Australian sea lions Neophoca cinerea at colonies in South Australia: distribution and abundance, 2004 to 2008

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