Your search keyword '"Todd E. Katzner"' showing total 53 results

1. Linking behavioral states to landscape features for improved conservation management

Author

Kathleen M. Longshore, Kenneth E. Nussear, James R. Belthoff, Maitreyi Sur, Melissa A. Braham, Todd C. Esque, Jeff A. Tracey, Robert N. Fisher, Todd E. Katzner, Brian Woodbridge, and Peter H. Bloom

Subjects

0106 biological sciences, 0303 health sciences, Ecology, Gps telemetry, Plant Ecology, Golden Eagle, Behavioral state, GPS telemetry, 010603 evolutionary biology, 01 natural sciences, animal movement, conservation management, 03 medical and health sciences, Above ground, Geography, Altitude, Habitat, Ecology, Evolution, Behavior and Systematics, QH540-549.5, 030304 developmental biology, Nature and Landscape Conservation, Original Research, behavioral change point analysis

Abstract

A central theme for conservation is understanding how animals differentially use, and are affected by change in, the landscapes they inhabit. However, it has been challenging to develop conservation schemes for habitat‐specific behaviors.Here we use behavioral change point analysis to identify behavioral states of golden eagles (Aquila chrysaetos) in the Sonoran and Mojave Deserts of the southwestern United States, and we identify, for each behavioral state, conservation‐relevant habitat associations.We modeled behavior using 186,859 GPS points from 48 eagles and identified 2,851 distinct segments comprising four behavioral states. Altitude above ground level (AGL) best differentiated behavioral states, with two clusters of short‐distance movement behaviors characterized by low AGL (state 1 AGL = 14 m (median); state 2 AGL = 11 m) and two associated with longer‐distance movement behaviors and characterized by higher AGL (state 3 AGL = 108 m; state 4 AGL = 450 m).Behaviors such as perching and low‐altitude hunting were associated with short‐distance movements in updraft‐poor environments, at higher elevations, and over steeper and more north‐facing terrain. In contrast, medium‐distance movements such as hunting and transiting were over gentle and south‐facing slopes. Long‐distance transiting occurred over the desert habitats that generate the best updraft.This information can guide management of this species, and our approach provides a template for behavior‐specific habitat associations for other species of management concern., Despite the importance of linking habitat use to specific behaviors, this is almost never done, in part because of the many challenges in understanding where and when individual behaviors occur. Here, we use long‐term, short‐interval, and highly precise GPS data as input to recently developed models to interpret animal behavior from telemetry data to identify where and when behavioral states occur. Subsequently, we link these behavioral states to habitat, as a mechanism to identify the environmental correlates of each behavior, and to infer potential threats to these animals based on those behavior‐specific habitat associations.

Published

2021

2. Predicted climate‐induced reductions in scavenging in eastern North America

Author

Courtney Marneweck, David S. Jachowski, and Todd E. Katzner

Subjects

0106 biological sciences, Food Chain, 010504 meteorology & atmospheric sciences, 010603 evolutionary biology, 01 natural sciences, Scavenger, Temperate climate, Animals, Humans, Environmental Chemistry, Carrion, Ecosystem, Precipitation, Scavenging, 0105 earth and related environmental sciences, General Environmental Science, Appalachian Region, Global and Planetary Change, Ecology, Global change, Biodiversity, North America, Vertebrates, Environmental science, Species richness

Abstract

Scavenging is an important function within ecosystems where scavengers remove organic matter, reduce disease, stabilize food webs, and generally make ecosystems more resilient to environmental changes. Global change (i.e., changing climate and increasing human impact) is currently influencing scavenger communities. Thus, understanding what promotes species richness in scavenger communities can help prioritize management actions. Using a long-term dataset from camera traps deployed with animal carcasses as bait along a 1881 km latitudinal gradient in the Appalachian Mountains of eastern USA, we investigated the relative impact of climate and humans on the species richness and diversity of vertebrate scavengers. Our most supported models for both mammalian and avian scavengers included climatic, but not human, variables. The richness of mammalian and avian scavengers detected was highest during relatively warm (5-10°C) and dry (100-150 mm precipitation) winters, when food was likely limited and both reliance on and detection of carrion was high. The diversity of mammalian and avian scavengers detected was highest under drier conditions. We then used these results to project the future species richness of scavengers that would be detected within our sampling area and under the climate scenario of 2070 (emissions level RCP8.5). Our predictions suggest up to 80% and 67% reductions, respectively, in the richness of avian and mammalian scavengers that would be detected at baited sites. Climate-induced shifts in behavior (i.e., reduction in scavenging, even if present) at this scale could have cascading implications for ecosystem function, resilience, and human health. Further, our study highlights the importance of conducting studies of scavenger community dynamics within ecosystems across wide spatial gradients within temperate environments. More broadly, these findings build upon our understanding of the impacts of climate-induced adjustments in behavior that can likely have negative impacts on systems at a large scale.

Published

2021

3. Relative abundance of coyotes (Canis latrans) influences gray fox (Urocyon cinereoargenteus) occupancy across the eastern United States

Author

Patrick A. Zollner, Casey C. Day, Todd E. Katzner, and Michael E. Egan

Subjects

0106 biological sciences, biology, Occupancy, Ecology, media_common.quotation_subject, Interspecific competition, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Competition (biology), 010601 ecology, Canis, Mesopredator release hypothesis, Animal Science and Zoology, Mesocarnivore, Urocyon, Relative species abundance, Ecology, Evolution, Behavior and Systematics, media_common

Abstract

Gray fox (Urocyon cinereoargenteus (Schreber, 1775)) populations in portions of the eastern United States have experienced declines whose trajectories differ from those of other mesocarnivore populations. One hypothesis is that gray fox declines may result from interspecific interactions, particularly competition with abundant coyotes (Canis latrans Say, 1823). Alternatively, gray foxes may respond negatively to increased urbanization and reduced forest cover. To evaluate these hypotheses, we used single-species occupancy models of camera trap data to test the effects of habitat covariates, such as the amount of urbanization and forest, on coyote and gray fox occupancy. Additionally, we test the effect of an index based on an N-mixture model of the number of coyotes at each camera trap site on gray fox occupancy. Results indicate that occupancy probabilities of coyote and gray fox relate positively to the amount of forest, but they provided no evidence urban cover impacts gray foxes. Additionally, gray fox occupancy was negatively related to the index of the number of coyotes at each site. Our models support the idea that interactions with coyotes impact gray fox occupancy across the eastern United States. These results illustrate how large-scale studies can relate mechanisms identified within specific landscapes to phenomena observed at larger scales.

Published

2021

4. High Frequency of Lead Exposure in the Population of an Endangered Australian Top Predator, the Tasmanian Wedge‐Tailed Eagle (Aquila audax fleayi)

Author

Amelia J. Koch, Nick J. Mooney, Jason M. Wiersma, William E. Brown, James M. Pay, Clare E. Hawkins, Elissa Z. Cameron, and Todd E. Katzner

Subjects

0106 biological sciences, Eagle, Glycerol, Range (biology), Health, Toxicology and Mutagenesis, Eagles, Population, Lead‐based ammunition, Wildlife toxicology, Endangered species, Zoology, 010501 environmental sciences, 010603 evolutionary biology, 01 natural sciences, Lead poisoning, Isotopes, biology.animal, medicine, Environmental Chemistry, Animals, education, Ecosystem, 0105 earth and related environmental sciences, Apex predator, Facultative, education.field_of_study, biology, Australia, Aquila audax, medicine.disease, biology.organism_classification, Environmental Toxicology, Salicylates, Drug Combinations, Lead, Avian toxicity

Abstract

Lead poisoning, mainly through incidental ingestion of lead ammunition in carcasses, is a threat to scavenging and predatory bird species worldwide. In Australia, shooting for animal control is widespread, and a range of native scavenging species are susceptible to lead exposure. However, the prevalence of lead exposure in Australia's scavenging and predatory birds is largely unknown. We evaluated the degree to which the Tasmanian wedge‐tailed eagle (Aquila audax fleayi), an endangered Australian raptor and facultative scavenger, showed evidence of lead exposure. We detected lead in 100% of femur and liver tissues of 109 eagle carcasses opportunistically collected throughout Tasmania between 1996 and 2018. Concentrations were elevated in 10% of 106 liver (>6 mg/kg dry wt) and 4% of 108 femur (>10 mg/kg dry wt) samples. We also detected lead in 96% of blood samples taken from 24 live nestlings, with 8% at elevated concentrations (>10 μg/dL). Of the liver samples with elevated lead, 73% had lead207/206 isotope ratios within the published range of lead‐based bullets available in Tasmania. These first comprehensive data on lead exposure of an Australian raptor are comparable to those for raptor studies elsewhere that identify lead‐based ammunition exposure as a conservation threat. Our findings highlight the importance of further research and efforts to address lead contamination throughout the Tasmanian ecosystem and in other Australian regions. Environ Toxicol Chem 2021;40:219–230. © 2020 The Authors. Environmental Toxicology and Chemistry published by Wiley Periodicals LLC on behalf of SETAC. This article has been contributed to by US Government employees and their work is in the public domain in the USA.

Published

2020

5. Feeding Ecology Drives Lead Exposure of Facultative and Obligate Avian Scavengers in the Eastern United States

Author

Patricia Ortiz, Bracken Brown, John P. Buchweitz, David McRuer, Todd E. Katzner, James T. Anderson, Ernesto Dominguez-Villegas, Shannon Behmke, Tricia A. Miller, Anna Wrona, Jeff Cooper, and Vincent A. Slabe

Subjects

0106 biological sciences, Eagle, Health, Toxicology and Mutagenesis, Zoology, Buteo, 010501 environmental sciences, 010603 evolutionary biology, 01 natural sciences, Scavenger, Lead poisoning, Species Specificity, biology.animal, medicine, Animals, Environmental Chemistry, 0105 earth and related environmental sciences, Vulture, Facultative, Ecology, biology, Obligate, Bird Diseases, Environmental Exposure, biology.organism_classification, medicine.disease, United States, Diet, Lead Poisoning, Lead, Liver, Environmental Pollutants, Female, Seasons, Cathartes

Abstract

Lead poisoning of scavenging birds is a global issue. However, the drivers of lead exposure of avian scavengers have been understood from the perspective of individual species, not cross-taxa assemblages. We analyzed blood (n = 285) and liver (n = 226) lead concentrations of 5 facultative (American crows [Corvus brachyrhynchos], bald eagles [Haliaeetus leucocephalus], golden eagles [Aquila chrysaetos], red-shouldered hawks [Buteo lineatus], and red-tailed hawks [Buteo jamaicensis]) and 2 obligate (black vultures [Coragyps atratus] and turkey vultures [Cathartes aura] avian scavenger species to identify lead exposure patterns. Species and age were significant (α < 0.05) predictors of blood lead exposure of facultative scavengers; species, but not age, was a significant predictor of their liver lead exposure. We detected temporal variations in lead concentrations of facultative scavengers (blood: median = 4.41 µg/dL in spring and summer vs 13.08 µg/dL in autumn and winter; p =

Published

2020

6. Spatial and temporal patterns in age structure of Golden Eagles wintering in eastern North America

Author

Tricia A. Miller, Todd E. Katzner, Macy Kenney, Matthew D. Carling, and James R. Belthoff

Subjects

0106 biological sciences, Geography, Age structure, Camera trap, Age cohorts, Physical geography, 010603 evolutionary biology, 01 natural sciences, Ecology, Evolution, Behavior and Systematics, 010605 ornithology

Published

2020

7. Relevance of individual and environmental drivers of movement of Golden Eagles

Author

Todd E. Katzner, Maitreyi Sur, Peter H. Bloom, Jeff A. Tracey, Douglas A. Bell, Robert N. Fisher, Adam E. Duerr, and Tricia A. Miller

Subjects

0106 biological sciences, Movement (music), Work (physics), Contrast (statistics), Affect (psychology), 010603 evolutionary biology, 01 natural sciences, Motion (physics), 010605 ornithology, Variable (computer science), Geography, Animal Science and Zoology, Association (psychology), Set (psychology), Ecology, Evolution, Behavior and Systematics, Cognitive psychology

Abstract

An animal's movement is expected to be governed by an interplay between goals determined by its internal state and energetic costs associated with navigating through the external environment. Understanding this ecological process is challenging when an animal moves in two dimensions and even more difficult for birds that move in a third dimension. To understand the dynamic interaction between the internal state of an animal and the variable external environment, we evaluated hypotheses explaining association of different covariates of movement and the trade‐offs birds face as they make behavioural decisions in a fluctuating landscape. We used ~870 000 GPS telemetry data points collected from 68 Golden Eagles Aquila chrysaetos to test demographic, diel, topographic and meteorological hypotheses to determine (1) the probability that these birds would be in motion and (2), once in motion, their flight speed. A complex and sometimes interacting set of potential internal and external factors determined movement behaviour. There was good evidence that reproductive state, manifested as age, sex and seasonal effects, had a significant influence on the probability of being in motion and, to a lesser extent, on speed of motion. Likewise, movement responses to the external environment were often unexpectedly strong. These responses, to northness of slope, strength of orographic updraft and intensity of solar radiation, were regionally and temporally variable. In contrast to previous work showing the role of a single environmental factor in determining movement decisions, our analyses support the hypothesis that multiple factors simultaneously interact to influence animal movement. In particular they highlighted how movement is influenced by the interaction between the individual's internal reproductive state and the external environment, and that, of the environmental factors, topographic influences are often more relevant than meteorological influences in determining patterns of flight behaviour. Further disentangling of how these internal and externals states jointly affect movement will provide additional insights into the energetic costs of movement and benefits associated with achieving process‐driven goals.

Published

2019

8. Application of isoscapes to determine geographic origin of terrestrial wildlife for conservation and management

Author

Todd E. Katzner, Hannah B. Vander Zanden, David M. Nelson, Michael B. Wunder, and Tara J. Conkling

Subjects

0106 biological sciences, business.industry, Process (engineering), Isoscapes, Ecology (disciplines), Scale (chemistry), Environmental resource management, Wildlife, Context (language use), 010603 evolutionary biology, 01 natural sciences, 010605 ornithology, Geography, Conservation biology, business, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, Wildlife conservation

Abstract

Accounting for migration and connectivity of mobile species across the annual cycle can present challenges for conservation and management efforts. The use of stable isotope approaches to examine the movements and ecology of wildlife has been widespread over the past two decades. Hydrogen stable isotope (δ2H) composition, in particular, has been frequently used to provide insight into the origin of migratory species, although isotopes of other elements are sometimes used. These intrinsic markers can yield valuable information about distributions of wildlife on a broad scale, with reduced labor and expense compared to tracking and telemetry. Many of the applications of isotopes to migratory species to date have addressed connectivity and origin, and studies in support of conservation biology are less common. In addition, there are few guides for how to best employ these methods for management. Therefore, we provide an overview for the wildlife conservation and management community on how stable isotope methods may be applied to conservation problems and a primer on the process for assigning geographic origins to terrestrial wildlife. We also discuss best practices for employing environmental isoscapes (isotopic distributions across landscapes), rescaling functions, and the assumptions required for assignment to origin while highlighting emerging issues in the modeling process. Finally, we provide example applications to illustrate these principles, and we explore strengths and limitations of this approach in a conservation context.

Published

2018

9. Evaluating Contributions of Recent Tracking-Based Animal Movement Ecology to Conservation Management

Author

Raphaël Arlettaz and Todd E. Katzner

Subjects

0106 biological sciences, 0301 basic medicine, conservation biology, Computer science, Ecology (disciplines), lcsh:Evolution, Variation (game tree), 010603 evolutionary biology, 01 natural sciences, Data type, 03 medical and health sciences, biologging, lcsh:QH540-549.5, lcsh:QH359-425, Relevance (information retrieval), Wildlife management, Ecology, Evolution, Behavior and Systematics, Ecology, Scale (chemistry), error compounding, animal movement, Field (geography), 030104 developmental biology, 570 Life sciences, biology, 590 Animals (Zoology), lcsh:Ecology, Conservation biology, data paucity, radio telemetry

Abstract

The use of animal-born sensors for location-based tracking and bio-logging in terrestrial systems has expanded dramatically in the past 10 years. This rapid expansion has generated new data on how animals interact with and respond to variation in their environment, resulting in important ecological, physiological, and evolutionary insights. Although understanding the finer details of animal locations has important management relevance, applied studies are not prominent in the movement ecology literature. This is despite the long history of applied studies of animal movement and the urgent and growing need for evidence-based conservation guidance, especially in the challenging field of human-wildlife interactions. The goal of this review is to evaluate the realized contribution of tracking-based animal movement ecology to solving specific conservation problems, and to identify barriers that may hinder expansion of that contribution. To do this, we (a) briefly review the history and technologies used in animal tracking and bio-logging, (b) use a series of literature searches to evaluate the frequency with which movement ecology studies are designed to solve specific conservation problems, and (c) use this information to identify challenges that may limit the applied relevance of the field of movement ecology, and to propose pathways to expand that applied relevance. Our literature review quantifies the limited extent to which research in the field of movement ecology is designed to solve specific conservation problems, but also the fact that such studies are slowly becoming more prevalent. We discuss how barriers that limit application of these principles are likely due to constraints imposed by the types of data used commonly in the field. Problems of scale mismatch, error compounding, and data paucity all create challenges that are relevant to the field of movement ecology but may be especially pertinent in applied situations. Finding solutions to these problems will create new opportunity for movement ecologists to contribute to conservation science.

Published

2020

10. Ecological insights from three decades of animal movement tracking across a changing Arctic

Author

T. Lee Tibbitts, Andrew L. Von Duyke, Jerrold L. Belant, Rob van Bemmelen, Diana V. Solovyeva, Tong Mu, Dale R. Seip, Rui Prieto, Kurt K. Burnham, Lee A. Vierling, Holly L. Hennin, Jesper Madsen, Judy A. Williams, James A. Johnson, Peter P. Marra, Michael L. Casazza, Elly C. Knight, Jean-François Therrien, Cory T. Overton, Arjan J. H. Meddens, Laura R. Prugh, Emily A. McKinnon, Scott D. LaPoint, Adam Shreading, Larry Griffin, Jeff Kidd, Helmut Kruckenberg, Andrew Berdahl, Kimberly Jones, Roland Kays, Erica H. Craig, Mikhail Markovets, Grigori Tertitski, Nicholas C. Larter, Dmitrijs Boiko, Ruth Y. Oliver, James R. Wright, Jyoti S. Jennewein, David J. Yurkowski, Hans Schekkerman, Martin Wikelski, Andrea Kölzsch, James P. Lawler, Travis L. Booms, David Cabot, Mark Maftei, Ophélie Couriot, Kane Brides, Stephen B. Lewis, Joseph R. Evenson, José A. Alves, James Hodson, Steven L. Van Wilgenburg, Petr Glazov, Joël Bêty, Joshua T. Ackerman, Victor N. Bulyuk, Steven H. Ferguson, Vasiliy Sokolov, Richard B. Lanctot, Katherine S. Christie, Philipp Schwemmer, Mark R. Fuller, Ingrid Tulp, Erin M. Bayne, Aaron T. Fisk, Christopher J. Latty, Jan U. H. Eitel, Emma Grier, Gilles Gauthier, Michael N. Kochert, Kelsey L M Russell, Stephen C. Brown, Jennie Rausch, Aevar Petersen, Jérôme Fort, Joel A. Schmutz, Andrew Dixon, Stefan Garthe, Klaus-Michael Exo, Carrie E. Gray, Gerhard J. D. M. Müskens, Wolfgang Fiedler, Mark Hebblewhite, Jean-François Lamarre, Dominic J. Demma, Dominique Berteaux, Gil Bohrer, Janet Ng, Bryan Bedrosian, F M Smith, Sarah T. Saalfeld, Tracy Davison, Stan Boutin, J. Mark Hipfner, Patricia A. Owen, Christopher R. DeSorbo, Brian W. Smith, Michael A. Yates, Natalie T. Boelman, Sarah C. Davidson, Allicia Kelly, Aleksandr Sokolov, Sander Moonen, Grant Gilchrist, Peter J. Mahoney, Ramūnas Žydelis, Jeff P. Smith, Mathew S. Sorum, Brian D. Uher-Koch, Carol L. McIntyre, Ingar Jostein Øien, Katherine R. S. Snell, Tomas Aarvak, David Grémillet, Allison Patterson, Bridget L. Borg, Autumn-Lynn Harrison, Shanti E. Davis, Götz Eichhorn, Mónica A. Silva, Michael T. Hallworth, Petra Quillfeldt, Alicia M. Berlin, Kerry L. Nicholson, Eliezer Gurarie, Ivan Pokrovsky, Kyle H. Elliott, Matthew T. Wilson, Oliver P. Love, Buck A. Mangipane, Hansoo Lee, Jesse L. Watson, Luke L. Powell, Kyle Joly, Don-Jean Léandri-Breton, Todd E. Katzner, Robert Domenech, A. David M. Latham, Alastair Franke, Benjamin J. Lagassé, Kasper Thorup, Bryan D. Watts, Sandra Lai, Tricia A. Miller, W. Sean Boyd, Mark L. Mallory, Rebecca L. McGuire, LIttoral ENvironnement et Sociétés - UMRi 7266 (LIENSs), Université de La Rochelle (ULR)-Centre National de la Recherche Scientifique (CNRS), Dutch Centre for Avian Migration & Demography, and Animal Ecology (AnE)

Subjects

0106 biological sciences, Ecology (disciplines), Acclimatization, [SDV]Life Sciences [q-bio], Population, Ecological Parameter Monitoring, Climate change, 010603 evolutionary biology, 01 natural sciences, 010605 ornithology, Onderz. Form. D, ddc:570, Life Science, Animals, 14. Life underwater, No theme, education, ComputingMilieux_MISCELLANEOUS, education.field_of_study, Multidisciplinary, Ecology, Phenology, Archives, Arctic Regions, Data discovery, Plan_S-Compliant_NO, 15. Life on land, Subarctic climate, Geography, Arctic, 13. Climate action, international, [SDE]Environmental Sciences, WIAS, Dierecologie, Animal Migration, Animal Ecology

Abstract

Ecological “big data” Human activities are rapidly altering the natural world. Nowhere is this more evident, perhaps, than in the Arctic, yet this region remains one of the most remote and difficult to study. Researchers have increasingly relied on animal tracking data in these regions to understand individual species' responses, but if we want to understand larger-scale change, we need to integrate our understanding across species. Davidson et al. introduce an open-source data archive that currently hosts more than 15 million location data points across 96 species and use it to show distinct climate change responses across species. Such ecological “big data” can lead to a wider understanding of change. Science , this issue p. 712

Published

2020

11. Diurnal timing of nonmigratory movement by birds: the importance of foraging spatial scales

Author

Marlee A. Tucker, Leeann Henry, John N. Brzorad, Bryan D. Watts, Scott A. Shaffer, Holger Schulz, Henrik Skov, Roi Harel, Steffen Oppel, Adam Shreading, Yotam Orchan, João P. Silva, Evan R. Buechley, Anna Gagliardo, Ramunas Zydelis, Kevin Warner, Peter Enggist, Martin Wikelski, Matthew J. Stuber, Todd E. Katzner, Mark Desholm, Keith L. Bildstein, José Antonio Gil Gallús, Carlos Carrapato, Wolfgang Fiedler, José Alfredo Castillo-Guerrero, Hayley Douglas, Javier Vidal-Mateo, Elizabeth K. Mojica, Julie M. Mallon, Autumn-Lynn Harrison, Scott H. Newman, Rubén Limiñana, Ugo Mellone, Christopher R. DeSorbo, Alan D. Maccarone, Morgan E. Gilmour, Orr Spiegel, John Y. Takekawa, Katrin Böhning-Gaese, William F. Fagan, Giuseppe Lucia, Roland Kays, Richard O. Bierregaard, Nina Farwig, Ran Nathan, Diann J. Prosser, Clara García-Ripollés, Erik Kleyheeg, Sascha Rösner, Javier Bustamante, Dana G. Schabo, Pascual López-López, Sam B. Weber, Elizabeth Clingham, Thomas Mueller, Vicente Urios, Olivier Duriez, Nicola Weber, Robert Domenech, Hannah Riley, Egidio Mallia, Annalea Beard, Jolene Sim, Universidad de Alicante. Departamento de Ciencias Ambientales y Recursos Naturales, Universidad de Alicante. Departamento de Didáctica General y Didácticas Específicas, Zoología de Vertebrados, and Didáctica de las Ciencias y la Tecnología

Subjects

0106 biological sciences, Daytime, flight mode, temporal, Foraging, Zoology, Biology, Sunset, Temporal, nonmigratory, 01 natural sciences, 010605 ornithology, foraging, Movement ecology, flight mode, foraging, movement ecology, multispecies, nonmigratory, temporal, ddc:570, Sunrise, Nonmigratory, Zoología, Daylight, Ecology, Evolution, Behavior and Systematics, Flight mode, Movement (music), Multispecies, Pelagic zone, Didáctica de las Ciencias Experimentales, multispecies, Habitat, movement ecology, Animal Science and Zoology, Environmental Sciences

Abstract

Timing of activity can reveal an organism's efforts to optimize foraging either by minimizing energy loss through passive movement or by maximizing energetic gain through foraging. Here, we assess whether signals of either of these strategies are detectable in the timing of activity of daily, local movements by birds. We compare the similarities of timing of movement activity among species using six temporal variables: start of activity relative to sunrise, end of activity relative to sunset, relative speed at midday, number of movement bouts, bout duration and proportion of active daytime hours. We test for the influence of flight mode and foraging habitat on the timing of movement activity across avian guilds. We used 64 570 days of GPS movement data collected between 2002 and 2019 for local (non‐migratory) movements of 991 birds from 49 species, representing 14 orders. Dissimilarity among daily activity patterns was best explained by flight mode. Terrestrial soaring birds began activity later and stopped activity earlier than pelagic soaring or flapping birds. Broad‐scale foraging habitat explained less of the clustering patterns because of divergent timing of active periods of pelagic surface and diving foragers. Among pelagic birds, surface foragers were active throughout all 24 hrs of the day while diving foragers matched their active hours more closely to daylight hours. Pelagic surface foragers also had the greatest daily foraging distances, which was consistent with their daytime activity patterns. This study demonstrates that flight mode and foraging habitat influence temporal patterns of daily movement activity of birds. We thank the Nature Conservancy, the Bailey Wildlife Foundation, the Bluestone Foundation, the Ocean View Foundation, Biodiversity Research Institute, the Maine Outdoor Heritage Fund, the Davis Conservation Foundation and The U.S. Department of Energy (DE‐EE0005362), and the Darwin Initiative (19-026), EDP S.A. ‘Fundação para a Biodiversidade’ and the Portuguese Foundation for Science and Technology (FCT) (DL57/2019/CP 1440/CT 0021), Enterprise St Helena (ESH), Friends of National Zoo Conservation Research Grant Program and Conservation Nation, ConocoPhillips Global Signature Program, Maryland Department of Natural Resources, Cellular Tracking Technologies and Hawk Mountain Sanctuary for providing funding and in-kind support for the GPS data used in our analyses.

Published

2020

12. Quantitative acoustic differentiation of cryptic species illustrated with King and Clapper rails

Author

Susan B. McRae, Lydia L. Stiffler, Todd E. Katzner, James T. Anderson, and Katie M. Schroeder

Subjects

0106 biological sciences, Species complex, Rallus crepitans, Computer science, Population, parametric, 010603 evolutionary biology, 01 natural sciences, 010605 ornithology, Rallus elegans, Discriminant function analysis, nonparametric, education, Clapper rail, Ecology, Evolution, Behavior and Systematics, Original Research, Nature and Landscape Conservation, education.field_of_study, Ecology, biology, business.industry, Nonparametric statistics, Pattern recognition, Rallidae, 15. Life on land, biology.organism_classification, acoustic differentiation, Random forest, Statistical classification, Rallus, Artificial intelligence, business

Abstract

Reliable species identification is vital for survey and monitoring programs. Recently, the development of digital technology for recording and analyzing vocalizations has assisted in acoustic surveying for cryptic, rare, or elusive species. However, the quantitative tools that exist for species differentiation are still being refined. Using vocalizations recorded in the course of ecological studies of a King Rail (Rallus elegans) and a Clapper Rail (Rallus crepitans) population, we assessed the accuracy and effectiveness of three parametric (logistic regression, discriminant function analysis, quadratic discriminant function analysis) and six nonparametric (support vector machine, CART, Random Forest, k‐nearest neighbor, weighted k‐nearest neighbor, and neural networks) statistical classification methods for differentiating these species by their kek mating call. We identified 480 kek notes of each species and quantitatively characterized them with five standardized acoustic parameters. Overall, nonparametric classification methods outperformed parametric classification methods for species differentiation (nonparametric tools were between 57% and 81% accurate, parametric tools were between 57% and 60% accurate). Of the nine classification methods, Random Forest was the most accurate and precise, resulting in 81.1% correct classification of kek notes to species. This suggests that the mating calls of these sister species are likely difficult for human observers to tell apart. However, it also implies that appropriate statistical tools may allow reasonable species‐level classification accuracy of recorded calls and provide an alternative to species classification where other capture‐ or genotype‐based survey techniques are not possible.

Published

2018

13. Genetic analyses reveal cryptic introgression in secretive marsh bird populations

Author

James T. Anderson, Amy B. Welsh, Sergio R. Harding, Susan B. McRae, Gary R. Costanzo, Todd E. Katzner, and Stephanie S. Coster

Subjects

king rail, 0106 biological sciences, 0301 basic medicine, Marsh, Rallus crepitans, Outbreeding depression, introgression, Introgression, clapper rail, 010603 evolutionary biology, 01 natural sciences, Rallus elegans, 03 medical and health sciences, 14. Life underwater, Clapper rail, Ecology, Evolution, Behavior and Systematics, Original Research, Nature and Landscape Conservation, Hybrid, geography, geography.geographical_feature_category, Ecology, biology, 15. Life on land, biology.organism_classification, 030104 developmental biology, Rallus, Sympatric speciation, Brackish marsh, admixture

Abstract

Hybridization is common in bird populations but can be challenging for management, especially if one of the two parent species is of greater conservation concern than the other. King rails (Rallus elegans) and clapper rails (R. crepitans) are two marsh bird species with similar morphologies, behaviors, and overlapping distributions. The two species are found along a salinity gradient with the king rail in freshwater marshes and the clapper in estuarine marshes. However, this separation is not absolute; they are occasionally sympatric, and there are reports of interbreeding. In Virginia, USA, both king and clapper rails are identified by the state as Species of Greater Conservation Need, although clappers are thought to be more abundant and king rails have a higher priority ranking. We used a mitochondrial DNA marker and 13 diagnostic nuclear single nucleotide polymorphisms (SNPs) to identify species, classify the degree of introgression, and explore the evolutionary history of introgression in two putative clapper rail focal populations along a salinity gradient in coastal Virginia. Genetic analyses revealed cryptic introgression with site‐specific rates of admixture. We identified a pattern of introgression where clapper rail alleles predominate in brackish marshes. These results suggest clapper rails may be displacing king rails in Virginia coastal waterways, most likely as a result of ecological selection. As introgression can result in various outcomes from outbreeding depression to local adaptation, continued monitoring of these populations would allow further exploration of hybrid fitness and inform conservation management.

Published

2018

14. Post-fledging movements and habitat associations of White-tailed Sea Eagles (Haliaeetus albicilla) in Central Asia

Author

Evgeny A. Bragin, Todd E. Katzner, Sharon A. Poessel, and Michael Lanzone

Subjects

0106 biological sciences, education.field_of_study, White (horse), Ecology, biology, Haliaeetus albicilla, Central asia, Population, Fledge, Vegetation, 010603 evolutionary biology, 01 natural sciences, Arid, 010605 ornithology, Fishery, Geography, Habitat, biology.animal, Animal Science and Zoology, education, Ecology, Evolution, Behavior and Systematics

Abstract

Behavior of young birds can have important consequences for population dynamics. We investigated the autumnal post-fledging movements of 3 White-tailed Sea Eagles (Haliaeetus albicilla) hatched in Kazakhstan. All 3 eagles traveled south, flying on average 25–108 km/d. Movement was nonrandom, with eagles generally traveling near mosaics of forest, open areas, and water, and rarely using areas with little vegetation. As the first study of movements of White-tailed Sea Eagles in arid Central Asia, this study provides insight into potential limiting factors and how these birds interact with their environment during long-distance movements.

Published

2018

15. State‐space modelling of the flight behaviour of a soaring bird provides new insights to migratory strategies

Author

Enrico Pirotta, Melissa A. Braham, Todd E. Katzner, Leslie New, Adam E. Duerr, and Tricia A. Miller

Subjects

0106 biological sciences, Meteorology, business.industry, GPS-GSM telemetry, 010604 marine biology & hydrobiology, Mode (statistics), Biology, 010603 evolutionary biology, 01 natural sciences, Raptor, Movement ecology, Markov chain Monte Carlo, 3D states, Hidden state model, Altitude, Habitat, Thermal, Global Positioning System, Subsidised flight, State space, Bird flight, business, Ecology, Evolution, Behavior and Systematics, Orographic lift

Abstract

Characterising the spatiotemporal variation of animal behaviour can elucidate the way individuals interact with their environment and allocate energy. Increasing sophistication of tracking technologies paired with novel analytical approaches allows the characterisation of movement dynamics even when an individual is not directly observable. In this study, high-resolution movement data collected via global positioning system (GPS) tracking in three dimensions were paired with topographical information and used in a Bayesian state-space model to describe the flight modes of migrating golden eagles (Aquila chrysaetos) in eastern North America. Our model identified five functional behavioural states, two of which were previously undescribed variations on thermal soaring. The other states comprised gliding, perching and orographic soaring. States were discriminated by movement features in the horizontal (step length and turning angle) and vertical (change in altitude) planes and by the association with ridgelines promoting wind deflection. Tracked eagles spent 2%, 31%, 38%, 9% and 20% of their daytime in directed thermal soaring, gliding, convoluted thermal soaring, perching and orographic soaring, respectively. The analysis of the relative occurrence of these flight modes highlighted yearly, seasonal, age, individual and sex differences in flight strategy and performance. Particularly, less energy-efficient orographic soaring was more frequent in autumn, when thermals were less available. Adult birds were also better at optimising energy efficiency than subadults. Our approach represents the first example of a state-space model for bird flight mode using altitude data in conjunction with horizontal locations and is applicable to other flying organisms where similar data are available. The ability to describe animal movements in a three-dimensional habitat is critical to advance our understanding of the functional processes driving animalsâ decisions. A plain language summary is available for this article.

Published

2018

16. The utility of point count surveys to predict wildlife interactions with wind energy facilities: An example focused on golden eagles

Author

James R. Belthoff, Maitreyi Sur, Brian A. Millsap, Emily Bjerre, and Todd E. Katzner

Subjects

0106 biological sciences, Eagle, Wind power, Ecology, biology, business.industry, Wildlife, General Decision Sciences, Sampling (statistics), Sample (statistics), 010603 evolutionary biology, 01 natural sciences, 010601 ecology, Footprint, biology.animal, Statistics, Environmental science, Metric (unit), business, Ecology, Evolution, Behavior and Systematics, Count data

Abstract

Wind energy development is rapidly expanding in North America, often accompanied by requirements to survey potential facility locations for existing wildlife. Within the USA, golden eagles (Aquila chrysaetos) are among the most high-profile species of birds that are at risk from wind turbines. To minimize golden eagle fatalities in areas proposed for wind development, modified point count surveys are usually conducted to estimate use by these birds. However, it is not always clear what drives variation in the relationship between on-site point count data and actual use by eagles of a wind energy project footprint. We used existing GPS-GSM telemetry data, collected at 15 min intervals from 13 golden eagles in 2012 and 2013, to explore the relationship between point count data and eagle use of an entire project footprint. To do this, we overlaid the telemetry data on hypothetical project footprints and simulated a variety of point count sampling strategies for those footprints. We compared the time an eagle was found in the sample plots with the time it was found in the project footprint using a metric we called “error due to sampling”. Error due to sampling for individual eagles appeared to be influenced by interactions between the size of the project footprint (20, 40, 90 or 180 km2) and the sampling type (random, systematic or stratified) and was greatest on 90 km2 plots. However, use of random sampling resulted in lowest error due to sampling within intermediate sized plots. In addition sampling intensity and sampling frequency both influenced the effectiveness of point count sampling. Although our work focuses on individual eagles (not the eagle populations typically surveyed in the field), our analysis shows both the utility of simulations to identify specific influences on error and also potential improvements to sampling that consider the context-specific manner that point counts are laid out on the landscape.

Published

2018

17. Flight response to spatial and temporal correlates informs risk from wind turbines to the California Condor

Author

Laura C. Mendenhall, Andrew J. McGann, Sharon A. Poessel, Melissa A. Braham, Joseph Brandt, Michael Lanzone, and Todd E. Katzner

Subjects

0106 biological sciences, Flight altitude, geography, Wind power, geography.geographical_feature_category, Meteorology, business.industry, Landform, Gps telemetry, Wildlife, Land cover, 010603 evolutionary biology, 01 natural sciences, Grassland, 010601 ecology, Critically endangered, Environmental science, Animal Science and Zoology, business, Ecology, Evolution, Behavior and Systematics

Abstract

Wind power is a fast-growing energy resource, but wind turbines can kill volant wildlife, and the flight behavior of obligate soaring birds can place them at risk of collision with these structures. We analyzed altitudinal data from GPS telemetry of critically endangered California Condors (Gymnogyps californianus) to assess the circumstances under which their flight behavior may place them at risk from collision with wind turbines. Condor flight behavior was strongly influenced by topography and land cover, and birds flew at lower altitudes and closer to the rotor-swept zone of wind turbines when over ridgelines and steep slopes and over forested and grassland cover types. Condor flight behavior was temporally predictable, and birds flew lower and closer to the rotor-swept zone during early morning and evening hours and during the winter months, when thermal updrafts were weakest. Although condors only occasionally flew at altitudes that placed them in the rotor-swept zone of turbines, they regu...

Published

2018

18. Gene flow connects coastal populations of a habitat specialist, the Clapper Rail Rallus crepitans

Author

Amy B. Welsh, Gary R. Costanzo, Todd E. Katzner, Stephanie S. Coster, Sergio R. Harding, and James T. Anderson

Subjects

0106 biological sciences, 0301 basic medicine, biology, Ecology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Gene flow, 03 medical and health sciences, 030104 developmental biology, Habitat, Genetic structure, Biological dispersal, Animal Science and Zoology, Clapper rail, Ecology, Evolution, Behavior and Systematics

Published

2018

19. Movements and landscape use of Eastern Imperial Eagles Aquila heliaca in Central Asia

Author

Sharon A. Poessel, David K. Garcelon, Evgeny A. Bragin, Peter B. Sharpe, Kordian Bartoszuk, and Todd E. Katzner

Subjects

0106 biological sciences, Eagle, aviation, Resource (biology), geography.geographical_feature_category, biology, Satellite telemetry, Central asia, Annual cycle, 010603 evolutionary biology, 01 natural sciences, 010605 ornithology, Fishery, aviation.aircraft_model, Geography, Habitat, Peninsula, biology.animal, Imperial eagle, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

Capsule: We describe ecological factors associated with movements of a globally declining raptor species, the Eastern Imperial Eagle Aquila heliaca. Aims: To describe the movements, habitat associations and resource selection of Eastern Imperial Eagles marked in Central Asia. Methods: We used global positioning system (GPS) data sent via satellite telemetry devices deployed on Eastern Imperial Eagles captured in Kazakhstan to calculate distances travelled and to associate habitat and weather variables with eagle locations collected throughout the annual cycle. We also used resource selection models to evaluate habitat use of tracked birds during autumn migration. Separately, we used wing-tagging recovery data to broaden our understanding of wintering locations of eagles. Results: Eagles tagged in Kazakhstan wintered in most countries on the Arabian Peninsula, as well as Iran and India. The adult eagle we tracked travelled more efficiently than did the four pre-adults. During autumn migration, telemetered eagles used a mixture of vegetation types, but during winter and summer, they primarily used bare and sparsely vegetated areas. Finally, telemetered birds used orographic updrafts to subsidize their autumn migration flight, but they relied on thermal updrafts during spring migration. Conclusion: Our study is the first to use GPS telemetry to describe year-round movements and habitat associations of Eastern Imperial Eagles in Central Asia. Our findings provide insight into the ecology of this vulnerable raptor species that can contribute to conservation efforts on its behalf.

Published

2018

20. Improving estimation of flight altitude in wildlife telemetry studies

Author

Sharon A. Poessel, Melissa A. Braham, Jonathan C. Hall, Todd E. Katzner, and Adam E. Duerr

Subjects

0106 biological sciences, Estimation, Flight altitude, Observational error, Ecology, business.industry, 010604 marine biology & hydrobiology, Wildlife, Flight behaviour, 010603 evolutionary biology, 01 natural sciences, Telemetry, Global Positioning System, Environmental science, business, Remote sensing

Published

2018

21. Evaluating autonomous acoustic surveying techniques for rails in tidal marshes

Author

James T. Anderson, Lydia L. Stiffler, and Todd E. Katzner

Subjects

010601 ecology, 0106 biological sciences, Hydrology, geography, Marsh, geography.geographical_feature_category, Detection rate, 010603 evolutionary biology, 01 natural sciences, Geology, Nature and Landscape Conservation

Published

2018

22. Non-anthropogenic Diet-based Oiling of Predatory Birds

Author

Teryl G. Grubb, J. Andrew DeWoody, Jacqueline M. Doyle, Ronald E. Jackman, Jeff Cooper, Stephen Living, Joseph E. Didonato, Todd E. Katzner, Peter H. Bloom, Scott E. Thomas, D E Driscoll, and Douglas A. Bell

Subjects

0106 biological sciences, Animal Science and Zoology, 010501 environmental sciences, 010603 evolutionary biology, 01 natural sciences, 0105 earth and related environmental sciences

Abstract

Resumen El empetrolado de las aves puede tener consecuencias importantes a nivel individual y poblacional. Aunque la mayoria de los ejemplos publicados sobre empetrolado se refieren a la exposicion a fuentes antropicas de hidrocarburos, el empetrolado puede ocurrir naturalmente. Describimos cuatro casos de empetrolado natural de siete pollos de Aquila chrysaetos asi como nuestra intervencion para mitigarlo. En todos los casos, el aceite en estas aves provino casi seguro de sus presas, en su mayoria ardillas terrestres (Otospermophilus beecheyi), aportadas por aguilas adultas en cantidades mayores de las que los polluelos podian consumir. Algunos pollos solo fueron empetrolados levemente. Otros fueron empetrolados tanto que la funcion de las plumas se vio comprometida a un nivel en el que, sin nuestra intervencion, la supervivencia de estos pollos de aguila seguramente hubiera sido afectada. Hasta donde sabemos, este es el primer informe publicado sobre empetrolado de rapaces como consecuencia de un sobre ...

Published

2018

23. Occupancy Modeling of Autonomously Recorded Vocalizations to Predict Distribution of Rallids in Tidal Wetlands

Author

James T. Anderson, Todd E. Katzner, and Lydia L. Stiffler

Subjects

0106 biological sciences, Hydrology, geography, Marsh, geography.geographical_feature_category, Ecology, Occupancy, Community, biology, Community structure, Wetland, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, 010605 ornithology, Habitat, Rallus, Salt marsh, Environmental Chemistry, Environmental science, General Environmental Science

Abstract

Conservation and management for a species requires reliable information on its status, distribution, and habitat use. We identified occupancy and distributions of king (Rallus elegans) and clapper (R. crepitans) rail populations in marsh complexes along the Pamunkey and Mattaponi Rivers in Virginia, USA by modeling data on vocalizations recorded from autonomous recording units (ARUs). Occupancy probability for both species combined was 0.64 (95% CI: 0.53, 0.75) in marshes along the Pamunkey and 0.59 (0.45, 0.72) in marshes along the Mattaponi. Occupancy probability along the Pamunkey was strongly influenced by salinity, increasing logistically by a factor of 1.62 (0.6, 2.65) per parts per thousand of salinity. In contrast, there was not a strong salinity gradient on the Mattaponi and therefore vegetative community structure determined occupancy probability on that river. Estimated detection probability across both marshes was 0.63 (0.62, 0.65), but detection rates decreased as the season progressed. Monitoring wildlife within wetlands presents unique challenges for conservation managers. Our findings provide insight not only into how rails responded to environmental variation but also into the general utility of ARUs for occupancy modeling of the distribution and habitat associations of rails within tidal marsh systems.

Published

2018

24. Origins of lead in populations of raptors

Author

Matthew J. Stuber, Todd E. Katzner, Vincent A. Slabe, James T. Anderson, L.L. Rhea, Jeff Cooper, and Brian A. Millsap

Subjects

0106 biological sciences, Ecology, Zoology, Buteo, 010501 environmental sciences, Biology, biology.organism_classification, 01 natural sciences, 010605 ornithology, Predation, Lead exposure, Cohort, Ingestion, Lead (electronics), 0105 earth and related environmental sciences, Nature and Landscape Conservation

Abstract

Although poisoning from anthropogenically derived lead threatens wildlife of many species, routes of lead exposure are unclear and rarely empirically tested. We used blood lead concentration and isotope ratio (207Pb/206Pb) data from populations of four species of raptors from across North America to test hypotheses associated with lead exposure via inhalation versus ingestion. Mean variation in blood lead concentration among cohort siblings was non-zero at nests of ferruginous hawks Buteo regalis and osprey Pandion haliaetus (P

Published

2017

25. Applying citizen-science data and mark–recapture models to estimate numbers of migrant Golden Eagles in an Important Bird Area in eastern North America

Author

Adam E. Duerr, Andrew J. Dennhardt, David Brandes, and Todd E. Katzner

Subjects

0106 biological sciences, Eagle, geography.geographical_feature_category, Important Bird Area, biology, Ecology, 010604 marine biology & hydrobiology, 010603 evolutionary biology, 01 natural sciences, Population abundance, Mark and recapture, Fishery, Geography, Ridge, Abundance (ecology), biology.animal, Citizen science, Animal Science and Zoology, Wildlife management, Ecology, Evolution, Behavior and Systematics

Abstract

Estimates of population abundance are important to wildlife management and conservation. However, it can be difficult to characterize the numbers of broadly distributed, low-density, and elusive bird species. Although Golden Eagles (Aquila chrysaetos) are rare, difficult to detect, and broadly distributed, they are concentrated during their autumn migration at monitoring sites in eastern North America. We used hawk-count data collected by citizen scientists in a virtual mark–recapture modeling analysis to estimate the numbers of Golden Eagles that migrate in autumn along Kittatinny Ridge, an Important Bird Area in Pennsylvania, USA. In order to evaluate the sensitivity of our abundance estimates to variation in eagle capture histories, we applied candidate models to 8 different sets of capture histories, constructed with or without age-class information and using known mean flight speeds ± 1, 2, 4, or 6 SE for eagles to travel between hawk-count sites. Although some abundance estimates were produ...

Published

2017

26. Summer and winter space use and home range characteristics of Golden Eagles (Aquila chrysaetos) in eastern North America

Author

Todd E. Katzner, Tricia A. Miller, Kieran O'Malley, Adam E. Duerr, Robert P. Brooks, Michael Lanzone, Jeff Cooper, and David Brandes

Subjects

0106 biological sciences, Eagle, education.field_of_study, geography.geographical_feature_category, biology, Range (biology), Ecology, Home range, Population, Space use, 010603 evolutionary biology, 01 natural sciences, 010605 ornithology, Geography, Habitat, Ridge, biology.animal, North american population, Animal Science and Zoology, education, Ecology, Evolution, Behavior and Systematics

Abstract

Movement behavior and its relationship to habitat provide critical information toward understanding the effects of changing environments on birds. The eastern North American population of Golden Eagles (Aquila chrysaetos) is a genetically distinct and small population of conservation concern. To evaluate the potential responses of this population to changing landscapes, we calculated the home range and core area sizes of 52 eagles of 6 age–sex classes during the summer and winter seasons. Variability in range size was related to variation in topography and open cover, and to age and sex. In summer, eagle ranges that were smaller had higher proportions of ridge tops and open cover and had greater topographic roughness than did larger ranges. In winter, smaller ranges had higher proportions of ridge tops, hillsides and cliffs, and open cover than did larger ranges. All age and sex classes responded similarly to topography and open cover in both seasons. Not surprisingly, adult eagles occupied the s...

Published

2017

27. Lack of observed movement response to lead exposure of California condors

Author

Molly T. Astell, Joseph Brandt, Linda Uyeda, Sharon A. Poessel, and Todd E. Katzner

Subjects

0106 biological sciences, Ecology, Movement (music), 010501 environmental sciences, 010603 evolutionary biology, 01 natural sciences, Geography, Environmental protection, Environmental health, Lead exposure, General Earth and Planetary Sciences, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, Nature and Landscape Conservation, General Environmental Science

Published

2017

28. Meteorological and environmental variables affect flight behaviour and decision-making of an obligate soaring bird, the California Condor Gymnogyps californianus

Author

Tricia A. Miller, Todd E. Katzner, Sharon A. Poessel, and Joseph Brandt

Subjects

0106 biological sciences, Flight altitude, Meteorology, Obligate, Ecology, Terrain, Flight behaviour, 010603 evolutionary biology, 01 natural sciences, 010605 ornithology, Critically endangered, Thermal, Atmospheric instability, Environmental science, Animal Science and Zoology, Ecology, Evolution, Behavior and Systematics, Orographic lift

Abstract

The movements of animals are limited by evolutionary constraints and ecological processes and are strongly influenced by the medium through which they travel. For flying animals, variation in atmospheric conditions are critically influential in movement. Obligate soaring birds depend on external sources of updraft more than do other flying species, since without that updraft they are unable to sustain flight for extended periods. These species are therefore good models for understanding how the environment can influence decisions about movement. We used meteorological and topographic variables to understand the environmental influences on the decision to engage in flight by obligate soaring and critically endangered California Condors Gymnogyps californianus. Condors were more likely to fly, soared at higher altitudes, and flew over smoother terrain when weather conditions promoted either thermal or orographic updrafts, for example when turbulence and solar radiation were higher and when winds from the east and north were stronger. However, increased atmospheric stability, which is inconsistent with thermal development but may be associated with orographic updrafts, was correlated with a somewhat higher probability of lower flight altitudes and flight over rougher terrain. The close and previously undescribed linkages between Condor flight and conditions that support development of thermal and orographic updrafts provide important insight into the behaviour of obligate soaring birds and into the environmental parameters that may define the currently expanding distribution of Condors within and outside of the state of California. This article is protected by copyright. All rights reserved.

Published

2017

29. Diel Variation in Detection and Vocalization Rates of King (Rallus elegans) and Clapper (Rallus crepitans) Rails in Intracoastal Waterways

Author

Gary R. Costanzo, James T. Anderson, Sergio R. Harding, Lydia L. Stiffler, Amy B. Welsh, and Todd E. Katzner

Subjects

0106 biological sciences, geography, Marsh, geography.geographical_feature_category, Occupancy, biology, Ecology, Zoology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, 010605 ornithology, Rallus, Animal Science and Zoology, Detection rate, Diel vertical migration, Clapper rail

Abstract

Surveys for secretive marsh birds could be improved with refinements to address regional and species-specific variation in detection probabilities and optimal times of day to survey. Diel variation in relation to naive occupancy, detection rates, and vocalization rates of King (Rallus elegans) and Clapper (R. crepitans) rails were studied in intracoastal waterways in Virginia, USA. Autonomous acoustic devices recorded vocalizations of King and Clapper rails at 75 locations for 48-hr periods within a marsh complex. Naive King and Clapper rail occupancy did not vary hourly at either the marsh or the study area level. Combined King and Clapper rail detections and vocalizations varied across marshes, decreased as the sampling season progressed, and, for detections, was greatest during low rising tides (P < 0.01). Hourly variation in vocalization and detection rates did not show a pattern but occurred between 7.8% of pairwise comparisons for detections and 10.5% of pairwise comparisons for vocalizati...

Published

2017

30. Patterns of Spatial Distribution of Golden Eagles Across North America: How Do They Fit into Existing Landscape-scale Mapping Systems?

Author

David W. LaPlante, Jessi L. Brown, Adam Shreading, Steven J. Slater, Melissa A. Braham, Brian W. Smith, Jeff Cooper, Joe DiDonato, Bryan Bedrosian, Adam E. Duerr, Todd E. Katzner, Ross H. Crandall, Brian Woodbridge, James W. Watson, Douglas A. Bell, Michael Lanzone, Tricia A. Miller, Jeff P. Smith, Robert Domenech, Carol L. McIntyre, and Robert K. Murphy

Subjects

0106 biological sciences, Space use, Range of movement, Landscape conservation, Spatial distribution, 010603 evolutionary biology, 01 natural sciences, 010605 ornithology, Fishery, Geography, Resource use, Animal Science and Zoology, Tracking data, Scale (map), Bird conservation

Abstract

Conserving wide-ranging animals requires knowledge about their year-round movements and resource use. Golden Eagles (Aquila chrysaetos) exhibit a wide range of movement patterns across North America. We combined tracking data from 571 Golden Eagles from multiple independent satellite-telemetry projects from North America to provide a comprehensive look at the magnitude and extent of these movements on a continental scale. We compared patterns of use relative to four alternative administrative and ecological mapping systems, namely Bird Conservation Regions (BCRs), U.S. administrative migratory bird flyways, Migratory Bird Joint Ventures, and Landscape Conservation Cooperatives. Our analyses suggested that eagles initially captured in eastern North America used space differently than those captured in western North America. Other groups of eagles that exhibited distinct patterns in space use included long-distance migrants from northern latitudes, and southwestern and Californian desert residents....

Published

2017

31. Counterintuitive roles of experience and weather on migratory performance

Author

Todd E. Katzner, James R. Belthoff, Adam E. Duerr, Tricia A. Miller, and Adrian I. Rus

Subjects

0106 biological sciences, Geography, Gps telemetry, Animal Science and Zoology, Physical geography, 010603 evolutionary biology, 01 natural sciences, Ecology, Evolution, Behavior and Systematics, 010605 ornithology

Abstract

Migration allows animals to live in resource-rich but seasonally variable environments. Because of the costs of migration, there is selective pressure to capitalize on variation in weather to optimize migratory performance. To test the degree to which migratory performance (defined as speed of migration) of Golden Eagles (Aquila chrysaetos) was determined by age- and season-specific responses to variation in weather, we analyzed 1,863 daily tracks (n = 83 migrant eagles) and 8,047 hourly tracks (n = 83) based on 15 min GPS telemetry data from Golden Eagles and 277 hourly tracks based on 30 s data (n = 37). Spring migrant eagles traveled 139.75 ± 82.19 km day−1 (mean ± SE; n = 57) and 25.59 ± 11.75 km hr−1 (n = 55). Autumn migrant eagles traveled 99.14 ± 59.98 km day−1 (n = 26) and 22.18 ± 9.18 km hr−1 (n = 28). Weather during migration varied by season and by age class. During spring, best-supported daily and hourly models of 15 min data suggested that migratory performance was influenced most st...

Published

2017

32. Demographic consequences of nestbox use for Red-footed Falcons Falco vespertinus in Central Asia

Author

Todd E. Katzner, Evgeny A. Bragin, and Alexander E. Bragin

Subjects

0106 biological sciences, biology, Offspring, Ecology, 010604 marine biology & hydrobiology, Central asia, Endangered species, Falco vespertinus, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Nest, Habitat, Animal Science and Zoology, Ecological trap, Nest box, Ecology, Evolution, Behavior and Systematics

Abstract

Nest box programs are frequently implemented for the conservation of cavity-nesting birds, but their effectiveness is rarely evaluated in comparison to birds not using nest boxes. In the European Palearctic, Red-footed Falcon Falco vespertinus populations are both of high conservation concern and are strongly associated with nest box programs in heavily managed landscapes. We used a 21-year monitoring dataset collected on 753 nesting attempts by Red-footed Falcons in unmanaged natural or semi-natural habitats to provide basic information on this poorly known species; to evaluate long-term demographic trends; and to evaluate response of demographic parameters of Red-footed Falcons to environmental factors including use of nest boxes. We observed significant differences among years in laying date, offspring loss, and numbers of fledglings produced, but not in egg production. Of these four parameters, offspring loss and, to a lesser extent, number of fledglings exhibited directional trends over time. Variation in laying date and in numbers of eggs were not well explained by any one model, but instead by combinations of models, each with informative terms for nest type. Nevertheless, laying in nest boxes occurred 2.10 ± 0.70 days earlier than in natural nests. In contrast, variation in both offspring loss and numbers of fledglings produced were fairly well explained by a single model including terms for nest type, nest location, and an interaction between the two parameters (65% and 81% model weights respectively), with highest offspring loss in nest boxes on forest edges. Because, for other species, earlier laying dates are associated with more fit individuals, this interaction highlighted a possible ecological trap, whereby birds using nest boxes on forest edges lay eggs earlier but suffer greater offspring loss and produce lower numbers of fledglings than do those in other nesting settings. If nest boxes increase offspring loss for Red-footed Falcons in heavily managed landscapes where populations are at greater risk, or for the many other species of rare or endangered birds supported by nest box programs, these processes could have important demographic and conservation consequences. This article is protected by copyright. All rights reserved.

Published

2017

33. Species Composition, Timing, and Weather Correlates of Autumn Open-Water Crossings By Raptors Migrating Along the East-Asian Oceanic Flyway

Author

Camille B. Concepcion, Keith L. Bildstein, Patricia Kaye T. Dumandan, Todd E. Katzner, and Medel R. Silvosa

Subjects

0106 biological sciences, biology, Ecology, Accipiter, Butastur indicus, biology.organism_classification, Chinese sparrowhawk, 010603 evolutionary biology, 01 natural sciences, 010605 ornithology, Buzzard, Fishery, Geography, Flyway, biology.animal, Cape, Period (geology), Animal Science and Zoology, East Asia

Abstract

Raptor migration rarely involves long-distance movements across open oceans. One exception occurs along the East-Asian Oceanic Flyway. We collected migration data at two terrestrial hawkwatch sites along this flyway to better understand open-ocean movements along this largely overwater corridor. At the northern end of the Philippines, at Basco on the island of Batan, we recorded 7587 migratory raptors in autumn 2014. Near the southern end of the Philippines, at Cape San Agustin on the island of Mindanao, we recorded 27,399 raptors migrating in autumn 2012. Chinese Sparrowhawks (Accipiter soloensis) were the most common raptors observed, making up approximately 89% and 92% of total records for Basco and Cape San Agustin, respectively. The Grey-faced Buzzard (Butastur indicus) was the second most common raptor migrant, accounting for 8% of the total counts at both watch sites. The migration period was about 1–2 wk earlier at Basco, the more northerly site, than at Cape San Agustin. Overwater flight...

Published

2017

34. Hanging out at the Airport: Unusual Upside-down Perching Behavior by Eurasian Jackdaws (Corvus monedula) in a Human-dominated Environment

Author

Todd E. Katzner

Subjects

0106 biological sciences, Geography, Ecology, Animal Science and Zoology, 010603 evolutionary biology, 01 natural sciences, Ecology, Evolution, Behavior and Systematics, 010605 ornithology

Abstract

Animals occupying human-dominated environments show the capacity for behavioral flexibility. Corvids are among the most intelligent synanthropic bird species. During a layover at Schipol Airport in Amsterdam, Netherlands, I photographically documented Eurasian Jackdaws (Corvus monedula) perching upside down from a building cornice. In contrast to other reports of hanging birds, these jackdaws did not forage or play while upside down and appeared to use the perching spot to observe their surroundings. Although Corvids and Psittacines are known to hang upside down, especially in captive situations, such behaviors are rarely documented in the wild, and never before in association with human-built structures.

Published

2016

35. Eastern Whip-Poor-Wills (Antrostomus vociferus) Are Positively Associated With Low Elevation Forest In the Central Appalachians

Author

Todd E. Katzner and Christina L. Slover

Subjects

0106 biological sciences, geography.geographical_feature_category, Ecology, Occupancy, Range (biology), 0211 other engineering and technologies, Wetland, 02 engineering and technology, Nocturnal, 010603 evolutionary biology, 01 natural sciences, Predation, Geography, Altitude, Habitat destruction, Habitat, Animal Science and Zoology, Ecology, Evolution, Behavior and Systematics, 021101 geological & geomatics engineering

Abstract

Populations of the Eastern Whip-poor-will (Antrostomus vociferus) are thought to be declining because of a range of potential factors including habitat loss, pesticide use, and predation. However, this species is nocturnal and, as a consequence, it is poorly studied, and its population status is not well assessed by traditional diurnal bird surveys. We used nocturnal road surveys to study habitat associations and distribution of Eastern Whip-poor-wills to better understand and contextualize their population status and to provide a framework for subsequent research and management. We used occupancy models to associate presence of Eastern Whip-poor-wills with habitat characteristics. Global models with habitat associations at a radius of 1600 m (1.0-ha area) were the best supported by the data, suggesting that this was the scale at which the species responded to the habitat parameters we measured. At this scale, Eastern Whip-poor-wills most frequently occupied areas lower in elevation and character...

Published

2016

36. Use of Noninvasive Genetics to Assess Nest and Space Use by White-tailed Eagles

Author

Zafer Bulut, Evgeny A. Bragin, Jacqueline M. Doyle, Todd E. Katzner, Melissa A. Braham, and J. Andrew DeWoody

Subjects

0106 biological sciences, Eagle, Perch, White (horse), biology, Haliaeetus albicilla, Space use, Zoology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, 010605 ornithology, Nest, Feather, visual_art, biology.animal, White-tailed eagle, visual_art.visual_art_medium, Animal Science and Zoology

Abstract

Movement and space use are important components of animal interactions with the environment. However, for hard-to-monitor raptor species, there are substantial gaps in our understanding of these key determinants. We used noninvasive genetic tools to evaluate the details of space use over a 3-yr period by White-tailed Eagles (Haliaeetus albicilla) at the Naurzum Zapovednik in northern Kazakhstan. We genotyped, at 10 microsatellite markers and one mitochondrial marker, 859 eagle feathers and assigned naturally shed feathers to individuals. We identified 124 White-tailed Eagles, including both members of 5–10 pairs per year, and were able to monitor birds across years. Distances between eagle nests and hunting perches were always greater than nearest neighbor distances, eagles never used the closest available hunting perch, and hunting perches were always shared with other eagles. When eagles switched nests between years, the nests they chose were almost always well outside the space that theory pre...

Published

2016

37. Limitations, lack of standardization, and recommended best practices in studies of renewable energy effects on birds and bats

Author

Adam E. Duerr, Todd E. Katzner, Scott R. Loss, Jay E. Diffendorfer, and Tara J. Conkling

Subjects

0106 biological sciences, Canada, Conservation of Natural Resources, Standardization, Best practice, Wildlife, Wind, 010603 evolutionary biology, 01 natural sciences, Birds, Chiroptera, Animals, Renewable Energy, Baseline (configuration management), Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, Estimation, Biological data, Ecology, business.industry, 010604 marine biology & hydrobiology, Environmental resource management, Reference Standards, Renewable energy, Survey data collection, Environmental science, business

Abstract

Increasing global energy demand is fostering the development of renewable energy as an alternative to fossil fuels. However, renewable energy facilities may adversely affect wildlife. Facility siting guidelines recommend or require project developers complete pre- and postconstruction wildlife surveys to predict risk and estimate effects of proposed projects. Despite this, there are no published studies that have quantified the types of surveys used or how survey types are standardized within and across facilities. We evaluated 628 peer-reviewed publications, unpublished reports, and citations, and we analyzed data from 525 of these sources (203 facilities: 193 wind and 10 solar) in the United States and Canada to determine the frequency of pre- and postconstruction surveys and whether that frequency changed over time; frequency of studies explicitly designed to allow before-after or impact-control analyses; and what types of survey data were collected during pre- and postconstruction periods and how those data types were standardized across periods and among facilities. Within our data set, postconstruction monitoring for wildlife fatalities and habitat use was a standard practice (n = 446 reports), but preconstruction estimation of baseline wildlife habitat use and mortality was less frequently reported (n = 84). Only 22% (n = 45) of the 203 facilities provided data from both pre- and postconstruction, and 29% (n = 59) had experimental study designs. Of 108 facilities at which habitat-use surveys were conducted, only 3% estimated of detection probability. Thus, the available data generally preclude comparison of biological data across construction periods and among facilities. Use of experimental study designs and following similar field protocols would improve the knowledge of how renewable energy affects wildlife. Article Impact Statement Many surveys at wind and solar facilities provide limited information on wildlife use and fatality rates.Limitaciones, Falta de Estandarización y las Mejores Prácticas Recomendadas en Estudios de los Efectos de las Energías Renovables sobre las Aves y los Murciélagos Resumen La creciente demanda global por energía está fomentando el desarrollo de energías renovables como una alternativa a los combustibles fósiles. Sin embargo, las instalaciones de energías renovables pueden afectar de manera adversa a la fauna. Las pautas para la ubicación de dichas instalaciones recomiendan o requieren que los desarrolladores de los proyectos realicen censos previa y posteriormente a la construcción de las instalaciones para pronosticar el riesgo y estimar los efectos de los proyectos propuestos. A pesar de esto, no existen estudios publicados que hayan cuantificado los tipos de censo usados o cómo los tipos de censo están estandarizados para las instalaciones en específico y en general. Evaluamos 628 publicaciones revisadas por pares, reportes sin publicar y referencias y analizamos los datos de 525 de estas fuentes (203 instalaciones: 193 de energía eólica y 10 de energía solar) en los Estados Unidos y Canadá para determinar la frecuencia de los censos previos y posteriores a la construcción y si dicha frecuencia cambió con el tiempo; para determinar la frecuencia de los estudios diseñados explícitamente para permitir los análisis antes-y-después o de control-impacto; y para determinar cuáles tipos de datos fueron recolectados previa y posteriormente a la construcción y cómo aquellos tipos de datos estuvieron estandarizados a través de los periodos y entre las instalaciones. Dentro de nuestro conjunto de datos, el monitoreo posterior a la construcción de las fatalidades faunísticas y el uso de hábitat fue una práctica común (n = 446 reportes), pero la estimación previa a la construcción de la línea base del uso de hábitat por la fauna y la mortalidad estuvo reportada con menor frecuencia (n = 84). Sólo el 22% (n = 45) de las 203 instalaciones proporcionaron datos de los censos previos y posteriores a la construcción y el 29% (n = 59) contó con diseño de estudios experimentales. De las 108 instalaciones en las que se realizaron censos de uso de hábitat, sólo el 3% incluyó la estimación de la probabilidad de detección. Por lo tanto, los datos disponibles generalmente impiden la comparación de los datos biológicos durante los periodos de construcción y entre las instalaciones. El uso del diseño de estudios experimentales y el seguimiento de protocolos de campo similares mejoraría el conocimiento sobre cómo las energías renovables afectan a la fauna.不断增长的全球能源需求正在促进可再生能源作为化石燃料的替代能源的发展。然而, 可再生能源设施可能对野生动物产生不利影响。设施选址指南通常建议或要求项目开发者对施工前后的野生动物进行调查, 以预测风险并估计拟建项目的影响。尽管如此, 目前还没有已发表研究对野生动物调查类型的选择和设施内部、设施之间如何确定标准化调查类型做过定量分析。本研究评估了 628 篇同行评审文献、未发表报告及引文, 并分析了其中美国和加拿大的 525 篇文献或报告的数据 (涉及 203 个设施, 包含 193 个风能和 10 个太阳能设施), 以确定施工前后调查的频率及其随时间的变化;明确设计进行施工前后或影响控制分析的研究的频率;施工前后收集的调查数据类型, 以及这些数据类型在不同时期和不同设施之间的标准化方法。在本研究的数据集中, 设施建设后的野生动物死亡率和栖息地利用的监测是常规标准做法 (446 份报告), 而在建设前对野生动物死亡率及栖息地利用的基线水平的评估较少 (84 份)。 203 个设施中只有 22% (45 个)同时提供了施工前和施工后的数据, 有 29% (59 个) 提供了实验研究设计。在进行了栖息地利用调查的 108 个设施中, 只有 3% 包含了动物发现概率的估计。因此, 现有数据普遍不能在不同建设时期和不同设施之间进行生物学数据的比较。我们建议使用实验研究设计并遵循类似的野外研究方法, 以提高对可再生能源影响野生动物的认识。 【翻译: 胡怡思; 审校: 聂永刚】.

Published

2019

38. Topographic drivers of flight altitude over large spatial and temporal scales

Author

Leah Dunn, Adam E. Duerr, Jeffrey A. Tracey, Todd E. Katzner, Robert N. Fisher, Douglas A. Bell, Tricia A. Miller, and Peter H. Bloom

Subjects

0106 biological sciences, Flight altitude, Eagle, biology, Elevation, 010603 evolutionary biology, 01 natural sciences, 010605 ornithology, Above ground, Climatology, biology.animal, Environmental science, Animal Science and Zoology, Spatial variability, Temporal scales, Ecology, Evolution, Behavior and Systematics, Orographic lift

Abstract

Bird movements vary spatially and temporally, but the primary drivers that explain such variation can be difficult to identify. For example, it is well known that the availability of updraft influences soaring flight and that topography interacts with weather to produce these updrafts. However, the influences of topography on flight are not well understood. We determined how topographic characteristics influenced flight altitude above ground level (AGL) of a large soaring bird, the Golden Eagle (Aquila chrysaetos), over several regions within the State of California, USA. Primary drivers of flight AGL, those to which eagles showed the same response at all spatial scales, were topographic roughness, ground elevation and the east-west component of aspect (eastness). Each of these is related to formation of thermal updrafts. Secondary drivers, those to which eagles showed region-specific patterns, included topographic position, percent slope, and the north-south component of aspect (northness). In contrast to primary drivers, these secondary drivers were related to formation of both thermal and orographic updrafts. Overall, drivers of flight altitudes that were related to thermal updrafts showed different levels of complexity due to spatial and temporal variation of those drivers than did flight altitudes related to orographic updrafts.

Published

2019

39. Elevated Heterozygosity in Adults Relative to Juveniles Provides Evidence of Viability Selection on Eagles and Falcons

Author

Kolbe Leonard, Nadia B. Fernandez, J. Andrew DeWoody, Jacqueline M. Doyle, Peter H. Bloom, Janna R. Willoughby, Todd E. Katzner, Douglas A. Bell, and Evgeny A. Bragin

Subjects

0106 biological sciences, 0301 basic medicine, Eagle, Heterozygote, Eagles, Quantitative Trait Loci, Zoology, Biology, Balancing selection, 010603 evolutionary biology, 01 natural sciences, Loss of heterozygosity, 03 medical and health sciences, Effective population size, Gene Frequency, biology.animal, Genetics, Juvenile, Animals, Genetic variability, Selection, Genetic, Molecular Biology, Genetics (clinical), Selection (genetic algorithm), Alleles, Whole Genome Sequencing, Age Factors, Computational Biology, Genetic Variation, Molecular Sequence Annotation, Genetic load, 030104 developmental biology, Biotechnology

Abstract

Viability selection yields adult populations that are more genetically variable than those of juveniles, producing a positive correlation between heterozygosity and survival. Viability selection could be the result of decreased heterozygosity across many loci in inbred individuals and a subsequent decrease in survivorship resulting from the expression of the deleterious alleles. Alternatively, locus-specific differences in genetic variability between adults and juveniles may be driven by forms of balancing selection, including heterozygote advantage, frequency-dependent selection, or selection across temporal and spatial scales. We use a pooled-sequencing approach to compare genome-wide and locus-specific genetic variability between 74 golden eagle (Aquila chrysaetos), 62 imperial eagle (Aquila heliaca), and 69 prairie falcon (Falco mexicanus) juveniles and adults. Although genome-wide genetic variability is comparable between juvenile and adult golden eagles and prairie falcons, imperial eagle adults are significantly more heterozygous than juveniles. This evidence of viability selection may stem from a relatively smaller imperial eagle effective population size and potentially greater genetic load. We additionally identify ~2000 single-nucleotide polymorphisms across the 3 species with extreme differences in heterozygosity between juveniles and adults. Many of these markers are associated with genes implicated in immune function or olfaction. These loci represent potential targets for studies of how heterozygote advantage, frequency-dependent selection, and selection over spatial and temporal scales influence survivorship in avian species. Overall, our genome-wide data extend previous studies that used allozyme or microsatellite markers and indicate that viability selection may be a more common evolutionary phenomenon than often appreciated.

Published

2019

40. Golden Eagle fatalities and the continental‐scale consequences of local wind‐energy generation

Author

Todd E. Katzner, Melissa A. Braham, Nadia B. Fernandez, J. Andrew DeWoody, Peter H. Bloom, Renee C. E. Culver, David M. Nelson, Tricia A. Miller, Loan Braswell, Adam E. Duerr, Matthew C. Fitzpatrick, and Jacqueline M. Doyle

Subjects

0106 biological sciences, 0301 basic medicine, Eagle, Conservation of Natural Resources, Eagles, media_common.quotation_subject, Population Dynamics, Immigration, Population, Wildlife, Wind, 010603 evolutionary biology, 01 natural sciences, California, 03 medical and health sciences, biology.animal, Animals, Renewable Energy, education, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, media_common, education.field_of_study, Wind power, Ecology, biology, business.industry, Feathers, Renewable energy, 030104 developmental biology, Geography, Habitat, Ecosystem management, business

Abstract

Renewable energy production is expanding rapidly despite mostly unknown environmental effects on wildlife and habitats. We used genetic and stable isotope data collected from Golden Eagles (Aquila chrysaetos) killed at the Altamont Pass Wind Resource Area (APWRA) in California in demographic models to test hypotheses about the geographic extent and demographic consequences of fatalities caused by renewable energy facilities. Geospatial analyses of δ2H values obtained from feathers showed that ≥25% of these APWRA-killed eagles were recent immigrants to the population, most from long distances away (>100 km). Data from nuclear genes indicated this subset of immigrant eagles was genetically similar to birds identified as locals from the δ2H data. Demographic models implied that in the face of this mortality, the apparent stability of the local Golden Eagle population was maintained by continental-scale immigration. These analyses demonstrate that ecosystem management decisions concerning the effects of local-scale renewable energy can have continental-scale consequences.

Published

2016

41. Genetic structure and viability selection in the golden eagle (Aquila chrysaetos), a vagile raptor with a Holarctic distribution

Author

Jacqueline M. Doyle, Zafer Bulut, Nadia B. Fernandez, James W. Cain, Brian A. Millsap, Sarah A. Sonsthagen, Carol L. McIntyre, Peter H. Bloom, J. Andrew DeWoody, Gary W. Roemer, Todd E. Katzner, and Maria Wheeler

Subjects

0106 biological sciences, 0301 basic medicine, Genetics, Eagle, education.field_of_study, biology, Population, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, 030104 developmental biology, Intergenic region, Holarctic, Effective population size, Evolutionary biology, biology.animal, Genetic structure, Gene pool, education, Genotyping, Ecology, Evolution, Behavior and Systematics

Abstract

Molecular markers can reveal interesting aspects of organismal ecology and evolution, especially when surveyed in rare or elusive species. Herein, we provide a preliminary assessment of golden eagle (Aquila chrysaetos) population structure in North America using novel single nucleotide polymorphisms (SNPs). These SNPs included one molecular sexing marker, two mitochondrial markers, 85 putatively neutral markers that were derived from noncoding regions within large intergenic intervals, and 74 putatively nonneutral markers found in or very near protein-coding genes. We genotyped 523 eagle samples at these 162 SNPs and quantified genotyping error rates and variability at each marker. Our samples corresponded to 344 individual golden eagles as assessed by unique multilocus genotypes. Observed heterozygosity of known adults was significantly higher than of chicks, as was the number of heterozygous loci, indicating that mean zygosity measured across all 159 autosomal markers was an indicator of fitness as it is associated with eagle survival to adulthood. Finally, we used chick samples of known provenance to test for population differentiation across portions of North America and found pronounced structure among geographic sampling sites. These data indicate that cryptic genetic population structure is likely widespread in the golden eagle gene pool, and that extensive field sampling and genotyping will be required to more clearly delineate management units within North America and elsewhere.

Published

2016

42. Unusual clockwise loop migration lengthens travel distances and increases potential risks for a central Asian, long distance, trans-equatorial migrant, the Red-footed Falcon Falco vespertinus

Author

Todd E. Katzner, Tricia A. Miller, Evgeny A. Bragin, Keith L. Bildstein, Alexander E. Bragin, and Michael J. McGrady

Subjects

0106 biological sciences, biology, Falco vespertinus, Ringing, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, 010605 ornithology, Fishery, Geography, Threatened species, Conservation status, Clockwise, Red-footed falcon, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

Capsule: Red-footed Falcons Falco vespertinus migrating from northern Kazakhstan proceed west before heading south to Africa; their northbound travel follows a different route with passage close to shooting hotspots in the Mediterranean.Aim: To use tracking and ringing data to document for the first time the migration of globally threatened Red-footed Falcons from northern Kazakhstan.Methods: Light-level geolocators were deployed on breeding adults in Kazakhstan and recovered one year later. Ringing and observational data from more than 100 years of Russian-language and other literature were summarized and mapped alongside the geolocator data.Results: Geolocator, ringing and observational data together demonstrate that Red-footed Falcons from northern Kazakhstan have a clockwise loop migration that begins with a long and unusual westward trek around eastern Europe’s large inland seas before continuing to extreme southern Africa. Return migration is farther west and requires crossing two major migr...

Published

2016

43. Age- and season-specific variation in local and long-distance movement behavior of golden eagles

Author

Todd E. Katzner, Peter H. Bloom, Sharon A. Poessel, and Melissa A. Braham

Subjects

0106 biological sciences, Eagle, geography, education.field_of_study, geography.geographical_feature_category, biology, Ecology, Population, Wildlife, Context (language use), Woodland, Management, Monitoring, Policy and Law, 010603 evolutionary biology, 01 natural sciences, 010605 ornithology, Shrubland, biology.animal, Biological dispersal, Foothills, Physical geography, education, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

Animal movements can determine the population dynamics of wildlife. We used telemetry data to provide insight into the causes and consequences of local and long-distance movements of multiple age classes of conservation-reliant golden eagles (Aquila chrysaetos) in the foothills and mountains near Tehachapi, California. We estimated size and habitat-related correlates of 324 monthly 95 % home ranges and 317 monthly 50 % core areas for 25 birds moving locally over 2.5 years. We also calculated daily, hourly, and total distances traveled for the five of these birds that engaged in long-distance movements. Mean (±SD) monthly home-range size was 253.6 ± 429.4 km2 and core-area size was 26.4 ± 49.7 km2. Consistent with expectations, space used by pre-adults increased with age and was season-dependent but, unexpectedly, was not sex-dependent. For all ages and sexes, home ranges and core areas were dominated by both forest & woodland and shrubland & grassland habitat types. When moving long distances, eagles traveled up to 1588.4 km (1-way) in a season at highly variable speeds (63.7 ± 69.0 km/day and 5.2 ± 10.4 km/h) that were dependent on time of day. Patterns of long-distance movements by eagles were determined by age, yet these movements had characteristics of more than one previously described movement category (migration, dispersal, etc.). Our results provide a context for differentiating among types of movement behaviors and their population-level consequences and, thus, have implications for management and conservation of golden eagle populations.

Published

2016

44. In-flight turbulence benefits soaring birds

Author

Julie M. Mallon, Keith L. Bildstein, and Todd E. Katzner

Subjects

0106 biological sciences, biology, Meteorology, Ecology, Turbulence, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, 010605 ornithology, Altitude, Thermal, Environmental science, Animal Science and Zoology, Air movement, Cathartes, Ecology, Evolution, Behavior and Systematics, Black vultures

Abstract

Birds use atmospheric updrafts to subsidize soaring flight. We observed highly variable soaring flight by Black Vultures (Coragyps atratus) and Turkey Vultures (Cathartes aura) in Virginia, USA, that was inconsistent with published descriptions of terrestrial avian flight. Birds engaging in this behavior regularly deviated vertically and horizontally from linear flight paths. We observed the soaring flight behavior of these 2 species to understand why they soar in this manner and when this behavior occurs. Vultures used this type of soaring mainly at low altitudes (

Published

2016

45. Limitations and mechanisms influencing the migratory performance of soaring birds

Author

Jay Wilhelm, Michael Lanzone, Todd E. Katzner, Jeff Cooper, Robert P. Brooks, Adam E. Duerr, David Brandes, Tricia A. Miller, and Junior A. Tremblay

Subjects

0106 biological sciences, Ecology, Gps telemetry, Seasonality, medicine.disease, 010603 evolutionary biology, 01 natural sciences, 010605 ornithology, Geography, medicine, Juvenile, Animal Science and Zoology, Ecology, Evolution, Behavior and Systematics, Wind drift

Abstract

Migration is costly in terms of time, energy and safety. Optimal migration theory suggests that individual migratory birds will choose between these three costs depending on their motivation and available resources. To test hypotheses about use of migratory strategies by large soaring birds, we used GPS telemetry to track 18 adult, 13 sub-adult and 15 juvenile Golden Eagles Aquila chrysaetos in eastern North America. Each age-class had potentially different motivations during migration. During spring, the migratory performance (defined here as the directness of migratory flight) of adults was higher than that of any other ageclasses. Adults also departed earlier and spent less time migrating. Together, these patterns suggest that adults were primarily time-limited and the other two age-classes were energylimited. However, adults that migrated the longest distances during spring also appeared to take advantage of energy-conservation strategies such as decreasing their compensation for wind drift. During autumn, birds of all age-classes were primarily energy-minimizers; they increased the length of stopovers, flew less direct routes and migrated at a slower pace than during spring. Nonetheless, birds that departed later in autumn flew more directly, indicating that time limitations may have affected their decision-making. During both seasons, juveniles had the lowest performance, sub-adults intermediate performance and adults the highest performance. Our results show age- and seasonal variation in time and energy-minimization strategies that are not necessarily exclusive of one another. Beyond time and energy, a complex suite of factors, including weather, experience and navigation ability, influences migratory performance and decision-making.

Published

2015

46. Movements and habitat use of loons for assessment of conservation buffer zones in the Arctic Coastal Plain of northern Alaska

Author

Sharon A. Poessel, David C. Douglas, Vanessa R. von Biela, Brian D. Uher-Koch, Todd E. Katzner, Autumn-Lynn Harrison, Joel A. Schmutz, and John M. Pearce

Subjects

0106 biological sciences, North Slope, Pacific loon, Coastal plain, Foraging, Wildlife, Context (language use), 010603 evolutionary biology, 01 natural sciences, Petroleum development, lcsh:QH540-549.5, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, Shore, geography, geography.geographical_feature_category, Ecology, 010604 marine biology & hydrobiology, Marine habitats, Diver, Red-throated loon, Fishery, Habitat, Disturbance (ecology), lcsh:Ecology, Yellow-billed loon

Abstract

Oil and gas development in the Arctic Coastal Plain, Alaska, may pose threats to wildlife. Management guidelines within the National Petroleum Reserve-Alaska dictate buffer zones for coastal wildlife habitat and for breeding and foraging sites of yellow-billed loons (YBLOs; Gavia adamsii), a species of conservation concern. However, few data exist to assess the value of these buffer zones for YBLOs or for sympatrically breeding red-throated loons (RTLOs; G. stellata) and Pacific loons (PALOs; G. pacifica). We evaluated movements of these loons on the Arctic Coastal Plain to understand: 1) seasonal timing; 2) marine habitat use; and 3) spatial characteristics of breeding home ranges. We then used those findings to evaluate current management strategies in the context of loon biology. Compared to RTLOs and PALOs, YBLOs nested on larger lakes, stayed on them longer, had larger home ranges, but less frequently used the marine environment in summer. During autumn, YBLOs and PALOs were located farther from shore than during spring or summer, whereas RTLOs used the marine environment similarly during all three seasons. Management buffers established for YBLO nesting areas corresponded well with nest site space use of all three species, suggesting cross-taxa applicability of current management guidelines for nesting habitat. However, the majority of loon locations on the Arctic Coastal Plain were outside of coastal buffer zones established to protect fish and wildlife habitat within the National Petroleum Reserve-Alaska. These findings can inform assessment of conservation buffer zones to mitigate anthropogenic disturbance to loons in Alaska.

Published

2020

47. Removal of cattle grazing correlates with increases in vegetation productivity and in abundance of imperiled breeding birds

Author

Joan C. Hagar, Todd E. Katzner, Sharon A. Poessel, and Patricia K. Haggerty

Subjects

0106 biological sciences, geography, education.field_of_study, geography.geographical_feature_category, Ecology, 010604 marine biology & hydrobiology, Population, Introduced species, Vegetation, Biology, 010603 evolutionary biology, 01 natural sciences, Habitat, Abundance (ecology), Grazing, Species richness, education, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, Riparian zone

Abstract

Livestock grazing is the most prevalent land use practice in the western United States and a widespread cause of degradation of riparian vegetation. Riparian areas provide high-quality habitat for many species of declining migratory breeding birds. We analyzed changes in vegetation and bird abundance at a wildlife refuge in southeastern Oregon over 24 years, following cessation of 120 years of livestock grazing. We quantified long-term changes in overall avian abundance and species richness and, specifically, in the abundances of 20 focal species. We then compared the local responses of the focal species to population-scale trends of the same species at three different large spatial scales. Overall avian abundance increased 23% during the 12 years after removal and remained consistent from then through year 24. Three times as many species colonized the survey sites as dropped out. Of the focal species, most riparian woodland-tree or shrub dependent, sagebrush obligate, and grassland or meadow taxa increased in abundance or remained stable locally. As these species were generally of conservation concern, the population increases contradicted regionally declining or stable trends. In contrast, most riparian woodland-cavity nester species decreased in abundance locally, reflecting disruption of aspen stand dynamics by decades of grazing. Avian nest parasites and competitors of native species declined in abundance locally, matching regional trends. Restoring riparian ecosystems by removing livestock appeared to be beneficial to the conservation of many of these declining populations of migratory birds.

Published

2020

48. Effect of heat and singeing on stable hydrogen isotope ratios of bird feathers and implications for their use in determining geographic origin

Author

Hannah B. Vander Zanden, Todd E. Katzner, David M. Nelson, and Abigail Reid

Subjects

0106 biological sciences, Hot Temperature, 010504 meteorology & atmospheric sciences, Zoology, 010603 evolutionary biology, 01 natural sciences, Mass Spectrometry, Analytical Chemistry, Songbirds, Animals, Controlled experiment, Spectroscopy, 0105 earth and related environmental sciences, biology, Chemistry, Hydrogen isotope, Organic Chemistry, Feathers, biology.organism_classification, Deuterium, Songbird, Feather, visual_art, Geographic origin, visual_art.visual_art_medium, Animal Migration, Charring

Abstract

Rationale Stable hydrogen isotope (δ2 H) ratios of animal tissues are useful for assessing movement and geographic origin of mobile organisms. However, it is uncertain whether heat and singeing affects feather δ2 H values and thus subsequent geographic assignments. This is relevant for birds of conservation interest that are burned and killed at concentrating solar-energy facilities that reflect sunlight to a receiving tower and generate a solar flux field. Methods We used a controlled experiment to test the effect of known heat loads (exposure to 200, 250 or 300°C for 1 min) on the morphology and δ2 H values of feathers from two songbird species. Subsequently, we examined the effects of singeing on δ2 H values of feathers from three other songbird species that were found dead in the field at a concentrating solar-energy facility. Results Relative to control samples, heating caused visual morphological changes to feathers, including shriveling at 250°C and charring at 300°C. The δ2 H values significantly declined by a mean of 27.8‰ in experimental samples exposed to 300°C. There was no statistically detectable difference between δ2 H values of the singed and unsinged portions of field-collected feathers from the same bird. Conclusions Limited singeing that did not dramatically alter the feather morphology did not substantially affect δ2 H values of feathers from these songbirds. However, higher temperatures induced charring and reduced δ2 H values. Therefore, severely charred feathers should be avoided when selecting feathers for δ2 H-based assessment of geographic origin.

Published

2018

49. New insights into the phylogenetics and population structure of the prairie falcon (Falco mexicanus)

Author

Jacqueline M. Doyle, Peter H. Bloom, Larry LaPre, Douglas A. Bell, Phillip SanMiguel, Amy Fesnock, Rick Westerman, J. Andrew DeWoody, Kolbe Leonard, Gavin Emmons, and Todd E. Katzner

Subjects

0106 biological sciences, 0301 basic medicine, lcsh:QH426-470, Hierofalcons, Range (biology), Idaho, Molecular sexing, lcsh:Biotechnology, Population, Population genetics, Polymorphism, Single Nucleotide, 010603 evolutionary biology, 01 natural sciences, California, Gene flow, Avian Proteins, 03 medical and health sciences, Panmixia, lcsh:TP248.13-248.65, Phylogenomics, Genetics, Animals, Repeatability, Genetic variability, education, Prairie falcon, Selection, Falconiformes, Phylogeny, education.field_of_study, Whole Genome Sequencing, biology, biology.organism_classification, Mitochondria, Phylogeography, lcsh:Genetics, Genetics, Population, 030104 developmental biology, Evolutionary biology, Biological dispersal, Female, SNP genotyping, Research Article, Avian genome assembly, Biotechnology

Abstract

Background Management requires a robust understanding of between- and within-species genetic variability, however such data are still lacking in many species. For example, although multiple population genetics studies of the peregrine falcon (Falco peregrinus) have been conducted, no similar studies have been done of the closely-related prairie falcon (F. mexicanus) and it is unclear how much genetic variation and population structure exists across the species’ range. Furthermore, the phylogenetic relationship of F. mexicanus relative to other falcon species is contested. We utilized a genomics approach (i.e., genome sequencing and assembly followed by single nucleotide polymorphism genotyping) to rapidly address these gaps in knowledge. Results We sequenced the genome of a single female prairie falcon and generated a 1.17 Gb (gigabases) draft genome assembly. We generated maximum likelihood phylogenetic trees using complete mitochondrial genomes as well as nuclear protein-coding genes. This process provided evidence that F. mexicanus is an outgroup to the clade that includes the peregrine falcon and members of the subgenus Hierofalco. We annotated > 16,000 genes and almost 600,000 high-quality single nucleotide polymorphisms (SNPs) in the nuclear genome, providing the raw material for a SNP assay design featuring > 140 gene-associated markers and a molecular-sexing marker. We subsequently genotyped ~ 100 individuals from California (including the San Francisco East Bay Area, Pinnacles National Park and the Mojave Desert) and Idaho (Snake River Birds of Prey National Conservation Area). We tested for population structure and found evidence that individuals sampled in California and Idaho represent a single panmictic population. Conclusions Our study illustrates how genomic resources can rapidly shed light on genetic variability in understudied species and resolve phylogenetic relationships. Furthermore, we found evidence of a single, randomly mating population of prairie falcons across our sampling locations. Prairie falcons are highly mobile and relatively rare long-distance dispersal events may promote gene flow throughout the range. As such, California’s prairie falcons might be managed as a single population, indicating that management actions undertaken to benefit the species at the local level have the potential to influence the species as a whole. Electronic supplementary material The online version of this article (10.1186/s12864-018-4615-z) contains supplementary material, which is available to authorized users.

Published

2018

50. Raptor Interactions with Wind Energy: Case Studies from Around the World

Author

Miguel Ferrer, W. Grainger Hunt, Hanneline Smit-Robinson, Richard T. Watson, Manuela M. P. Huso, Torgeir Nygård, Patrick S. Kolar, Naira N. Johnston, Christopher J. Farmer, and Todd E. Katzner

Subjects

0106 biological sciences, displacement, Collision, Renewable energy, Mitigation, Foraging, Endangered species, Matematikk og Naturvitenskap: 400::Zoologiske og botaniske fag: 480 [VDP], 010603 evolutionary biology, 01 natural sciences, Wind farm, Raptor conservation, Mortality, Environmental planning, Wind power, Wind power generation, Energy, business.industry, people.cause_of_death, Raptor, 010601 ecology, Electrocution, Habitat destruction, Avoidance, Environmental science, Animal Science and Zoology, business, people, Wind turbine

Abstract

The global potential for wind power generation is vast, and the number of installations is increasing rapidly. We review case studies from around the world of the effects on raptors of wind-energy development. Collision mortality, displacement, and habitat loss have the potential to cause population-level effects, especially for species that are rare or endangered. The impact on raptors has much to do with their behavior, so careful siting of wind-energy developments to avoid areas suited to raptor breeding, foraging, or migration would reduce these effects. At established wind farms that already conflict with raptors, reduction of fatalities may be feasible by curtailment of turbines as raptors approach, and offset through mitigation of other human causes of mortality such as electrocution and poisoning, provided the relative effects can be quantified. Measurement of raptor mortality at wind farms is the subject of intense effort and study, especially where mitigation is required by law, with novel statistical approaches recently made available to improve the notoriously difficult-to-estimate mortality rates of rare and hard-to-detect species. Global standards for wind farm placement, monitoring, and effects mitigation would be a valuable contribution to raptor conservation worldwide.

Published

2018