The auditory attributes of Golden Eagles: Do Golden (Aquila chrysaetos) and Bald Eagles (Haliaeetus leucocephalus) share the same auditory space?

Raptors, including eagles, are geographically widespread and sit atop the food chain, thereby serving an important role in maintaining ecosystem balance. After facing population declines associated with exposure to organochlorine insecticides such as dichlorodiphenyltrichloroethane (DDT), bald eagles (Haliaeetus leucocephalus) have recovered from the brink of extinction. However, both bald and golden eagles (Aquila chrysaetos) are exposed to a variety of other toxic compounds in the environment that could have population impacts. Few studies have focused on anticoagulant rodenticide (AR) exposure in eagles. Therefore, the purpose of this study was to determine the types of ARs that eagles are exposed to in the USA and better define the extent of toxicosis (i.e., fatal illness due to compound exposure). Diagnostic case records from bald and golden eagles submitted to the Southeastern Cooperative Wildlife Disease Study (University of Georgia) 2014 through 2018 were reviewed. Overall, 303 eagles were examined, and the livers from 116 bald eagles and 17 golden eagles were tested for ARs. The percentage of AR exposure (i.e., detectable levels but not associated with mortality) in eagles was high; ARs were detected in 109 (82%) eagles, including 96 (83%) bald eagles and 13 (77%) golden eagles. Anticoagulant rodenticide toxicosis was determined to be the cause of mortality in 12 (4%) of the 303 eagles examined, including 11 bald eagles and 1 golden eagle. Six different AR compounds were detected in these eagles, with brodifacoum and bromadiolone most frequently detected (81% and 25% of eagles tested, respectively). These results suggest that some ARs, most notably brodifacoum, are widespread in the environment and are commonly consumed by eagles. This highlights the need for research to understand the pathways of AR exposure in eagles, which may help inform policy and regulatory actions to mitigate AR exposure risk.

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Identifying Bald Versus Golden Eagle Bones: A Primer for Wildlife Biologists and Law Enforcement Officers

Journal of Fish and Wildlife Management ◽

10.3996/042017-jfwm-035 ◽

2017 ◽

Vol 8 (2) ◽

pp. 596-610 ◽

Cited By ~ 1

Author(s):

Pepper W. Trail

Keyword(s):

Law Enforcement ◽

Law Enforcement Officers ◽

High Accuracy ◽

Skeletal Remains ◽

Power Lines ◽

Haliaeetus Leucocephalus ◽

Wildlife Crime ◽

Bald Eagles ◽

Golden Eagles ◽

Osteological Characters

Abstract Remains of bald eagles Haliaeetus leucocephalus and golden eagles Aquila chrysaetos are regularly encountered in avian mortality surveys and wildlife crime investigations. These species exhibit well-documented plumage differences, allowing identification in most instances when feathers are present. However, skeletal remains are much more difficult to identify and may be the only material available after mortality events (e.g., decomposed remains associated with power lines or wind turbines). Eagle bones are also sometimes incorporated into crafted items without other associated remains. I describe and illustrate shape-based osteological characters that have been determined to be reliable for distinguishing most major bones of bald versus golden eagles. Using the annotated photographs provided as a guide, nonspecialists will be able to identify eagle skeletal remains with high accuracy. This information will be of interest to wildlife law enforcement officers; state, federal, and tribal wildlife biologists documenting avian mortality; and anthropologists and archaeologists.

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Natality and calf mortality of the Northern Alaska Peninsula and Southern Alaska Peninsula caribou herds

Rangifer ◽

10.7557/2.23.5.1697 ◽

2003 ◽

Vol 23 (5) ◽

pp. 161 ◽

Cited By ~ 1

Author(s):

Richard A. Sellers ◽

Patrick Valkenburg ◽

Ronald C. Squibb ◽

Bruce W. Dale ◽

Randall L. Zarnke

Keyword(s):

Rangifer Tarandus ◽

Ursus Arctos ◽

Haliaeetus Leucocephalus ◽

Bald Eagles ◽

Alaska Peninsula ◽

Golden Eagles ◽

Calf Mortality ◽

Northern Alaska ◽

Old Females ◽

Annual Mortality

We studied natality in the Northern Alaska Peninsula (NAP) and Southern Alaska Peninsula (SAP) caribou (Rangifer tarandus granti) herds during 1996-1999, and mortality and weights of calves during 1998 and 1999- Natality was lower in the NAP than the SAP primarily because most 3-year-old females did not produce calves in the NAP Patterns of calf mortality in the NAP and SAP differed from those in Interior Alaska primarily because neonatal (i.e., during the first 2 weeks of life) mortality was relatively low, but mortality continued to be significant through August in both herds, and aggregate annual mortality was extreme (86%) in the NAP Predators probably killed more neonatal calves in the SAP, primarily because a wolf den (Canis lupus) was located on the calving area. Despite the relatively high density of brown bears (Ursus arctos) and bald eagles (Haliaeetus leucocephalus), these predators killed surprisingly few calves. Golden eagles (Aquila chrysaetos) were uncommon on the Alaska Peninsula. At least 2 calves apparently died from pneu¬monia in the range of the NAP but none were suspected to have died from disease in the range of the SAP. Heavy scav¬enging by bald eagles complicated determining cause of death of calves in both the NAP and SAP.

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Ecological interactions and habitat modification in nesting Common Murres, Uria aalge

Bird Conservation International ◽

10.1017/s0959270900003154 ◽

1996 ◽

Vol 6 (3) ◽

pp. 261-269 ◽

Cited By ~ 8

Author(s):

Julia K. Parrish ◽

Robert T. Paine

Keyword(s):

Reproductive Output ◽

Habitat Modification ◽

Haliaeetus Leucocephalus ◽

Uria Aalge ◽

Ecological Interactions ◽

Bald Eagles ◽

Predator Removal ◽

Common Murre ◽

Corvus Caurinus ◽

Common Murres

SummarySeabird populations suffer from a variety of natural and human-induced sources of mortality and loss of lifetime reproductive output. On the outer coast of Washington State, Common Murre Uria aalge populations have been in decline for approximately the last decade and are currently reproductively active only at Tatoosh Island. These murres nest in two basic habitat types: crevices (25% of the population) and larger cliff-top subcolonies (75%). Murres in cliff-top subcolonies have suffered dramatic reductions in reproductive success in recent years relative to conspecifics nesting in the crevices, primarily due to egg predation by Glaucous-winged Gulls Larus glaucescens and Northwestern Crows Corvus caurinus, facilitated by the presence of Bald Eagles Haliaeetus leucocephalus. Because predator removal is not feasible and creation of additional crevice habitat is difficult, expensive and potentially ineffective, we have designed a temporary habitat modification (the “silk forest”) which replaces the natural vegetation cover and modifies the interaction between murres and eagles. Within the test subcolony, murres nesting under and immediately adjacent to the silk forest produced nearly twice as many eggs per square metre as their conspecifics nesting in adjacent exposed-ground areas.

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Regional conservation priorities for a large predator: golden eagles (Aquila chrysaetos) in the Alpine range

Biological Conservation ◽

10.1016/s0006-3207(01)00116-1 ◽

2002 ◽

Vol 103 (2) ◽

pp. 163-172 ◽

Cited By ~ 36

Author(s):

Paolo Pedrini ◽

Fabrizio Sergio

Keyword(s):

Conservation Priorities ◽

Aquila Chrysaetos ◽

Golden Eagles ◽

Large Predator ◽

Regional Conservation

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Distribution and abundance of Aquila chrysaetos (golden eagles) in East Contra Costa County Habitat Conservation Plan/Natural Community Conservation Plan area, California

Open-File Report ◽

10.3133/ofr20201107 ◽

2020 ◽

Author(s):

J. David Wiens ◽

Patrick S. Kolar ◽

Douglas A. Bell

Keyword(s):

Habitat Conservation ◽

Community Conservation ◽

Natural Community ◽

Aquila Chrysaetos ◽

Habitat Conservation Plan ◽

Golden Eagles ◽

Conservation Plan

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Reproductive success of bald eagles (Haliaeetus leucocephalus) and its association with habitat or landscape features and weather in southeast Alaska

Canadian Journal of Zoology ◽

10.1139/z97-786 ◽

1997 ◽

Vol 75 (10) ◽

pp. 1595-1604 ◽

Cited By ~ 16

Author(s):

Scott M. Gende ◽

Mary F. Wilson ◽

Mike Jacobsen

Keyword(s):

Early Spring ◽

Average Density ◽

Nesting Success ◽

Egg Laying ◽

Haliaeetus Leucocephalus ◽

Bald Eagles ◽

Active Nest ◽

Southeast Alaska ◽

Landscape Features

Long-term data have been collected on nesting bald eagles (Haliaeetus leucocephalus) in three areas of southeast Alaska. The average density of active nests was among the highest recorded, but nest productivity (average number of young fledged per active nest) and success (percentage of active nests that fledged at least one young) were similar to values in other areas. Using logistic regression, nest productivity was associated with several habitat or landscape features (productivity was highest in proximity to spawning herring and at a particular location), each of which could be related to the availability of prey (fish) in the early spring (April, May) during egg laying and incubation. Consistency of nesting success was associated with the presence of tidal flats at one study site. Nest use, but not nesting success, was related to nesting success the previous year. Multiple regression showed that fewer nests per kilometre were successful in years with a high frequency of spring rains.

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Pharmacokinetics of a Single Intramuscular Injection of Ceftiofur Crystalline Free Acid in Bald Eagles (Haliaeetus leucocephalus)

Journal of Avian Medicine and Surgery ◽

10.1647/20-00038 ◽

2021 ◽

Vol 35 (3) ◽

Author(s):

Miranda J. Sadar ◽

Sherry K. Cox ◽

Abigail Duvall ◽

Michael P. Jones

Keyword(s):

Intramuscular Injection ◽

Free Acid ◽

Haliaeetus Leucocephalus ◽

Bald Eagles ◽

Single Intramuscular Injection

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Bald Eagle Lead Exposure in the Upper Midwest

Journal of Fish and Wildlife Management ◽

10.3996/032013-jfwm-029 ◽

2014 ◽

Vol 5 (2) ◽

pp. 208-216 ◽

Cited By ~ 19

Author(s):

Sarah E. Warner ◽

Edward E. Britton ◽

Drew N. Becker ◽

Michael J. Coffey

Keyword(s):

Lead Poisoning ◽

Lead Exposure ◽

Clinical Signs ◽

Local Environment ◽

Bald Eagle ◽

Haliaeetus Leucocephalus ◽

Upper Midwest ◽

Bald Eagles ◽

Potential Source ◽

Liver Lead Concentration

Abstract In 2012, we examined lead exposure in 58 bald eagles Haliaeetus leucocephalus found dead in Iowa, Minnesota, and Wisconsin. We determined lead concentrations in livers, examined differences in exposure among ages and between sexes, and recorded clinical signs consistent with lead poisoning. Most (60%) of the bald eagles had detectable lead concentrations, and 38% of the 58 had concentrations within the lethal range for lead poisoning. We found no differences in exposure based on sex or age, but we did find an inverse relationship between body and liver mass and liver lead concentration. The high percentage of lead-exposed bald eagles encouraged us to further examine potential sources of lead in our local environment. We initiated a study on the Fish and Wildlife Service's Upper Mississippi River National Wildlife and Fish Refuge to investigate if discarded offal piles from hunter-killed deer were a potential source of lead exposure to scavenging wildlife such as the bald eagle. Radiographs showed that 36% of offal piles in our sample area contained lead fragments ranging from 1 to 107 particles per pile. Our study indicated that 1) lead exposure rates for bald eagles found dead in our Upper Midwest study area were high, 2) more than one-third of the bald eagles found dead in Iowa, Minnesota, and Wisconsin had liver lead concentrations consistent with lead poisoning, and 3) discarded offal piles from deer shot with lead ammunition can be a potential source of lead exposure for bald eagles.

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