Diffusion modeling reveals effects of multiple release sites and human activity on a recolonizing apex predator

Abstract Background Reintroducing predators is a promising conservation tool to help remedy human-caused ecosystem changes. However, the growth and spread of a reintroduced population is a spatiotemporal process that is driven by a suite of factors, such as habitat change, human activity, and prey availability. Sea otters (Enhydra lutris) are apex predators of nearshore marine ecosystems that had declined nearly to extinction across much of their range by the early 20th century. In Southeast Alaska, which is comprised of a diverse matrix of nearshore habitat and managed areas, reintroduction of 413 individuals in the late 1960s initiated the growth and spread of a population that now exceeds 25,000. Methods Periodic aerial surveys in the region provide a time series of spatially-explicit data to investigate factors influencing this successful and ongoing recovery. We integrated an ecological diffusion model that accounted for spatially-variable motility and density-dependent population growth, as well as multiple population epicenters, into a Bayesian hierarchical framework to help understand the factors influencing the success of this recovery. Results Our results indicated that sea otters exhibited higher residence time as well as greater equilibrium abundance in Glacier Bay, a protected area, and in areas where there is limited or no commercial fishing. Asymptotic spread rates suggested sea otters colonized Southeast Alaska at rates of 1–8 km/yr with lower rates occurring in areas correlated with higher residence time, which primarily included areas near shore and closed to commercial fishing. Further, we found that the intrinsic growth rate of sea otters may be higher than previous estimates suggested. Conclusions This study shows how predator recolonization can occur from multiple population epicenters. Additionally, our results suggest spatial heterogeneity in the physical environment as well as human activity and management can influence recolonization processes, both in terms of movement (or motility) and density dependence.

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Diffusion modeling reveals effects of multiple release sites and human activity on a recolonizing apex predator

10.21203/rs.3.rs-341528/v1 ◽

2021 ◽

Author(s):

Joseph Eisaguirre ◽

Perry Williams ◽

Xinyi Lu ◽

Michelle Kissling ◽

William Beatty ◽

...

Keyword(s):

Human Activity ◽

Residence Time ◽

Prey Availability ◽

Commercial Fishing ◽

Apex Predators ◽

Sea Otters ◽

Southeast Alaska ◽

Bayesian Hierarchical ◽

Factors Influencing ◽

Multiple Population

Abstract Background: Reintroducing predators is a promising conservation tool to help remedy human-caused ecosystem changes. However, the growth and spread of a reintroduced population is a spatiotemporal process that is driven by a suite of factors, such as habitat change, human activity, and prey availability. Sea otters (Enhydra lutris) are apex predators of nearshore marine ecosystems that had declined nearly to extinction across much of their range by the early 20th century. In Southeast Alaska, which is comprised of a diverse matrix of nearshore habitat and managed areas, reintroduction of 413 individuals in the late 1960s initiated the growth and spread of a population that now exceeds 25,000. Methods: Periodic aerial surveys in the region provide a time series of spatially-explicit data to investigate factors influencing this successful and ongoing recovery. We integrated an ecological diffusion model that accounted for spatially-variable motility and density-dependent population growth, as well as multiple population epicenters, into a Bayesian hierarchical framework to help understand the factors influencing the success of this recovery. Results: Our results indicated that sea otters exhibited higher residence time as well as greater equilibrium abundance in Glacier Bay, a protected area, and in areas where there is limited or no commercial fishing. Asymptotic spread rates suggested sea otters colonized Southeast Alaska at rates of 1-8 km/yr with lower rates occurring in areas correlated with higher residence time, which primarily included areas near shore and closed to commercial fishing. Further, we found that the intrinsic growth rate of sea otters may be higher than previous estimates suggested. Conclusions: This study shows how predator recolonization can occur from multiple population epicenters. Additionally, our results suggest spatial heterogeneity in the physical environment as well as human activity and management can influence recolonization processes, both in terms of movement (or motility) and density dependence.

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Shifts in plankton size spectra modulate growth and coexistence of anchovy and sardine in upwelling systems

Canadian Journal of Fisheries and Aquatic Sciences ◽

10.1139/cjfas-2015-0181 ◽

2016 ◽

Vol 73 (4) ◽

pp. 611-621 ◽

Cited By ~ 5

Author(s):

T. Mariella Canales ◽

Richard Law ◽

Julia L. Blanchard

Keyword(s):

Size Structure ◽

Prey Availability ◽

Empirical Work ◽

Size Composition ◽

Size Spectrum ◽

Small Particles ◽

Size Spectra ◽

Factors Influencing ◽

Spectrum Model ◽

Model Scenarios

Fluctuations in the abundance of anchovy (Engraulis spp.) and sardine (Sardinops sagax) are widespread in marine ecosystems, but the causes still remain uncertain. Differences between the planktonic prey availability, selectivity, and predation between anchovy and sardine have been suggested as factors influencing their dynamics. Using a dynamical multispecies size-spectrum model, we explore the consequences of changes in plankton size composition, together with intraguild predation and cannibalism, on the coexistence of these species. The shift towards smaller plankton has led to a reduction in the growth rate of both species. The effect was more deleterious on anchovy growth because it is unable to filter small particles. In model scenarios that included the effects of cannibalism and predation, anchovy typically collapsed under conditions favouring smaller sized plankton. The two species coexisted under conditions of larger sized plankton, although strong predation in conjunction with weak cannibalism led to the loss of sardine. The model provides new testable predictions for the consequences of plankton size structure on anchovy and sardine fluctuations. Further empirical work is needed to test these predictions in the context of climate change.

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Feeding habits and trophic level of the smooth hammerhead shark, Sphyrna zygaena (Carcharhiniformes: Sphyrnidae), off Ecuador

Journal of the Marine Biological Association of the United Kingdom ◽

10.1017/s0025315418000474 ◽

2018 ◽

Vol 99 (3) ◽

pp. 673-680 ◽

Cited By ~ 2

Author(s):

Colombo Estupiñán-Montaño ◽

Luis Cedeño-Figueroa ◽

José F. Estupiñán-Ortiz ◽

Felipe Galván-Magaña ◽

Alejandro Sandoval-Londoño ◽

...

Keyword(s):

Trophic Level ◽

Feeding Habits ◽

Trophic Niche ◽

Commercial Fishing ◽

Dosidicus Gigas ◽

Apex Predators ◽

Marine Food Webs ◽

Fishing Vessels ◽

Marine Food ◽

Index Of Relative Importance

As apex predators, sharks are known to play an important role in marine food webs. Detailed information on their diet and trophic level is however needed to make clear inferences about their role in the ecosystem. A total of 335 stomachs of smooth hammerhead sharks, Sphyrna zygaena, were obtained from commercial fishing vessels operating in the Ecuadorian Pacific between January and December 2004. A total of 53 prey items were found in the stomachs. According to the Index of Relative Importance (%IRI), cephalopods were the main prey (Dosidicus gigas, Sthenoteuthis oualaniensis, Ancistrocheirus lesueurii and Lolliguncula [Loliolopsis] diomedeae). Sphyrna zygaena was thus confirmed to be a teutophagous species. The estimated trophic level of S. zygaena was between 4.6 and 5.1 (mean ± SD: 4.7 ± 0.16; males: 4.7; females: 4.8). Levin's index (BA) was low (overall: 0.07; males: 0.08; females: 0.09), indicating a narrow trophic niche. We found that sharks <150 cm in total length consumed prey of coastal origin, whereas sharks ≥150 cm foraged in oceanic waters and near the continental shelf. The analyses indicate that S. zygaena is a specialized predator consuming mainly squids.

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Individual Variation in Predatory Behavior, Scavenging and Seasonal Prey Availability as Potential Drivers of Coexistence between Wolves and Bears

Diversity ◽

10.3390/d12090356 ◽

2020 ◽

Vol 12 (9) ◽

pp. 356

Author(s):

Andrés Ordiz ◽

Cyril Milleret ◽

Antonio Uzal ◽

Barbara Zimmermann ◽

Petter Wabakken ◽

...

Keyword(s):

Prey Availability ◽

Interspecific Interactions ◽

Brown Bear ◽

Predatory Behavior ◽

Early Summer ◽

Gray Wolf ◽

Apex Predators ◽

Main Prey ◽

Large Carnivore ◽

Age Class

Several large carnivore populations are recovering former ranges, and it is important to understand interspecific interactions between overlapping species. In Scandinavia, recent research has reported that brown bear presence influences gray wolf habitat selection and kill rates. Here, we characterized the temporal use of a common prey resource by sympatric wolves and bears and described individual and seasonal variation in their direct and/or indirect interactions. Most bear–wolf interactions were indirect, via bear scavenging of wolf kills. Bears used >50% of wolf kills, whereas we did not record any wolf visit at bear kills. Adult and subadult bears visited wolf kills, but female bears with cubs of the year, the most vulnerable age class to conspecifics and other predators, did not. Wolf and bear kill rates peaked in early summer, when both targeted neonate moose calves, which coincided with a reduction in bear scavenging rate. Some bears were highly predatory and some did not kill any calf. Individual and age-class variation (in bear predation and scavenging patterns) and seasonality (in bear scavenging patterns and main prey availability of both wolves and bears) could mediate coexistence of these apex predators. Similar processes likely occur in other ecosystems with varying carnivore assemblages.

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Trends and Carrying Capacity of Sea Otters in Southeast Alaska

Journal of Wildlife Management ◽

10.1002/jwmg.21685 ◽

2019 ◽

Vol 83 (5) ◽

pp. 1073-1089 ◽

Cited By ~ 7

Author(s):

M. Tim Tinker ◽

Verena A. Gill ◽

George G. Esslinger ◽

James Bodkin ◽

Melissa Monk ◽

...

Keyword(s):

Carrying Capacity ◽

Sea Otters ◽

Southeast Alaska

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DIET AND FORAGING BEHAVIOR OF SEA OTTERS IN SOUTHEAST ALASKA

Marine Mammal Science ◽

10.1111/j.1748-7692.1993.tb00441.x ◽

1993 ◽

Vol 9 (2) ◽

pp. 168-181 ◽

Cited By ~ 28

Author(s):

Rikk G. Kvitek ◽

C. Edward Bowlby ◽

Michelle Staedler

Keyword(s):

Foraging Behavior ◽

Sea Otters ◽

Southeast Alaska

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Feeding habits of cockfish, Callorhinchus callorhynchus (Holocephali: Callorhynchidae), in Patagonian waters (Argentina)

Marine and Freshwater Research ◽

10.1071/mf9960801 ◽

1996 ◽

Vol 47 (6) ◽

pp. 801 ◽

Cited By ~ 14

Author(s):

EE Di Giacomo ◽

MR Perier

Keyword(s):

Prey Size ◽

Prey Availability ◽

Feeding Habits ◽

Food Composition ◽

Commercial Fishing ◽

Bivalve Molluscs ◽

Invertebrate Prey ◽

Selective Foraging ◽

Predator Size ◽

Two Factors

Morphology of the main digestive features of cockfish, Callorhinchus callorhynchus, is described and linked to feeding habits. Composition of the diet and size-selective foraging of this species on scallops was studied in northern Patagonian waters and analysed in relation to depth, sex and size. Three species of bivalve molluscs (Pitar rostratus, Aequipecten tehuelchus and Ennucula puelcha) and flabelligerid polychaetes were predominant in the diet of males. The scallop Zygochlamys patagonica dominated the diet of females. The diet of juveniles consisted of small gastropods (Olivella sp.), bivalves with fragile shells (e.g. Pandora cistula), amphipods and polychaetes. Differences in food composition between sexes and between juveniles and adults are attributed to two factors: extrinsic (concerning prey availability) and intrinsic (concerning the morphology and behaviour of the predator). Size-selective foraging on two species of scallops, Aequipecten tehuelchus (subject to commercial fishing) and Zygochlamys patagonica, was found in adults; it is argued that maximum scallop prey size is constrained by the strength of the crushing apparatus of the cockfish. The diet of the cockfish is compared with that of other holocephalans. It is concluded that species of Callorhinchus can be generally characterized as benthic foragers that specialize in crushing shelled invertebrate prey.

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Patch use and departure rules by gull-billed tern Gelochelidon nilotica

Behaviour ◽

10.1163/1568539x-bja10105 ◽

2021 ◽

pp. 1-22

Author(s):

Pablo D. Ribeiro ◽

Diego D. Navarro ◽

Oscar O. Iribarne

Keyword(s):

Residence Time ◽

Fiddler Crab ◽

Prey Availability ◽

Field Observations ◽

Marginal Value Theorem ◽

Patch Use ◽

Marginal Value ◽

Crab Density ◽

Temporary Decrease ◽

The Times

Abstract The gull-billed tern Gelochelidon nilotica feeds on the fiddler crab Leptuca uruguayensis, which settles forming patches in south-eastern temperate mudflats of Argentina. Through field observations, we evaluated whether gull-billed terns used patches following the marginal value theorem (MVT). Gull-billed tern residence time in a patch was not related to crab density or travel times. The number of captures was also unrelated to crab density. Most of the times (44.6%) terns captured only one crab from each patch, and 35% of the times they left without a capture. However, crab density was lower when terns left the patches than when they arrived. This suggests that following several capture attempts by terns, crabs hide, producing a temporary decrease in their availability, forcing tern departure from the patches, which are no longer profitable. Thus, when prey availability is affected more by predator activity than by consumption, the MVT may not necessarily apply.

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