Your search keyword '"Graham, Clayton L."' showing total 9 results

1. Body composition of American Woodcock during fall staging: a validation of the non-invasive deuterium dilution method

Author

Graham, Clayton L. and McWilliams, Scott R.

Published

2022

2. Unconventional life history in a migratory shorebird: desegregating reproduction and migration

Author

Slezak, Colby R., primary, Blomberg, Erik J., additional, Roth, Amber M., additional, Berigan, Liam A., additional, Fish, Alexander C., additional, Darling, Rachel, additional, Clements, Sarah J., additional, Balkcom, Greg, additional, Carpenter, Bobbi, additional, Costanzo, Gary, additional, Duguay, Jeffrey, additional, Graham, Clayton L., additional, Harvey, William, additional, Hook, Michael, additional, Howell, Douglas L., additional, Maddox, Seth, additional, Meyer, Shawn W., additional, Nichols, Theodore C., additional, Pollard, J. Bruce, additional, Roy, Christian, additional, Stiller, Joshua C., additional, Straub, Jacob N., additional, Tetreault, Mathieu, additional, Tyl, Reina, additional, Williams, Lisa, additional, Kilburn, Jennifer E., additional, and McWilliams, Scott R., additional

Published

2024

3. Satellite tracking of American Woodcock reveals a gradient of migration strategies.

Author

Clements, Sarah J, Berigan, Liam A, Fish, Alexander C, Darling, Rachel L, Roth, Amber M, Balkcom, Greg, Carpenter, Bobbi, Costanzo, Gary, Duguay, Jeffrey, Filkins, Kayleigh, Graham, Clayton L, Harvey, William, Hook, Michael, Howell, Douglas L, Maddox, Seth, McWilliams, Scott, Meyer, Shawn W, Nichols, Theodore C, Pollard, J Bruce, and Roy, Christian

Subjects

AMERICAN woodcock, BIRD migration, ARTIFICIAL satellite tracking, BIRD diversity, MIGRATORY birds

Abstract

Diversity in behavior is important for migratory birds in adapting to dynamic environmental and habitat conditions and responding to global change. Migratory behavior can be described by a variety of factors that comprise migration strategies. We characterized variation in migration strategies in American Woodcock (Scolopax minor), a migratory gamebird experiencing long-term population decline, using GPS data from ~300 individuals tracked throughout eastern North America. We classified woodcock migratory movements using a step-length threshold, and calculated characteristics of migration related to distance, path, and stopping events. We then used principal components analysis (PCA) to ordinate variation in migration characteristics along axes that explained different fundamental aspects of migration, and tested effects of body condition, age-sex class, and starting and ending location on PCA results. The PCA did not show evidence for clustering, suggesting a lack of discrete strategies among groups of individuals; rather, woodcock migration strategies existed along continuous gradients driven most heavily by metrics associated with migration distance and duration, departure timing, and stopping behavior. Body condition did not explain variation in migration strategy during the fall or spring, but during spring adult males and young females differed in some characteristics related to migration distance and duration. Starting and ending latitude and longitude, particularly the northernmost point of migration, explained up to 61% of the variation in any one axis of migration strategy. Our results reveal gradients in migration behavior of woodcock, and this variability should increase the resilience of woodcock to future anthropogenic landscape and climate change. [ABSTRACT FROM AUTHOR]

Published

2024

4. American woodcock migration phenology in eastern North America: implications for hunting season timing.

Author

Fish, Alexander C., Roth, Amber M., Balkcom, Greg, Berigan, Liam, Brunette, Kylie, Clements, Sarah, Costanzo, Gary, Graham, Clayton L., Harvey, William F., Hook, Michael, Howell, Douglas L., Maddox, Seth, McWilliams, Scott, Meyer, Shawn W., Nichols, Theodore C., Bruce Pollard, J., Roy, Christian, Stiller, Josh, Washington, Dawn, and Williams, Lisa

Subjects

BIRD migration, WINTER, GLOBAL Positioning System, PHENOLOGY, SPRING, CANADIAN provinces

Abstract

Understanding the phenology of migration is fundamental to management of migratory gamebirds, in part because of the role migratory timing plays in setting harvest regulations. Migratory timing is particularly important for determining appropriate dates for hunting seasons, which may be selected to coincide with major periods of migration, according to local management objectives. We used global positioning system (GPS)‐transmitters to track American woodcock (Scolopax minor), characterize the timing of woodcock migration, and identify sources of variation in timing relative to current hunting season structures in eastern North America. We captured 304 woodcock in 3 Canadian provinces and 12 states from 2017 to 2020, primarily within the Eastern Woodcock Management Region. Using locations collected every 1.7 days on average, we assessed whether initiation, termination, or stopover timing of woodcock migration during fall and early spring varied geographically, differed among age and sex classes, or was influenced by individual body condition. During fall, woodcock migrating from summer use areas farther north and west (e.g., Ontario, Quebec, Canada) initiated and terminated migration earlier than woodcock migrating from areas farther south and east (e.g., Rhode Island, USA). Adult woodcock made multiday stopovers that were 3 days longer on average than juveniles and females made more stopovers on average (8.0 stopovers) compared to males (6.1 stopovers). During the onset of spring migration, woodcock that wintered farther west initiated migration before birds that spent the winter farther east, and males initiated migration on average 6 days earlier than females. Under the current 45‐day harvest regulatory framework in the United States, hunting seasons in northern breeding and southern wintering areas are generally consistent with migration phenology. At more intermediate latitudes, however, periods of migration are generally longer than 45 days, resulting in many circumstances where migrating woodcock are present during periods when hunting seasons are closed. Managers in mid‐latitude states could consider opening hunting seasons later, allowing hunters to harvest more migrant woodcock. [ABSTRACT FROM AUTHOR]

Published

2024

5. The American Woodcock Singing Ground Survey largely conforms to the phenology of male woodcock migration

Author

Blomberg, Erik J., primary, Fish, Alexander C., additional, Berigan, Liam A., additional, Roth, Amber M., additional, Rau, Rebecca, additional, Clements, Sarah J., additional, Balkcom, Greg, additional, Carpenter, Bobbi, additional, Costanzo, Gary, additional, Duguay, Jeffrey, additional, Graham, Clayton L., additional, Harvey, William, additional, Hook, Michael, additional, Howell, Douglas L., additional, Maddox, Seth, additional, McWilliams, Scott, additional, Meyer, Shawn W., additional, Nichols, Theodore C., additional, Pollard, J. Bruce, additional, Roy, Christian, additional, Slezak, Colby, additional, Stiller, Josh, additional, Tetreault, Mathieu, additional, and Williams, Lisa, additional

Published

2023

6. Body composition of American Woodcock during fall staging: a validation of the non-invasive deuterium dilution method

Author

Graham, Clayton L., primary and McWilliams, Scott R., additional

Published

2021

7. The Influence of Pre-Migratory Body Composition and Habitat Quality on Fall Migration in the American Woodcock (Scolopax minor)

Author

Graham, Clayton L and Graham, Clayton L

Abstract

Young forests and the wildlife that are dependent upon them are uncommon and declining within the Northeastern U.S. As such, forest management plans have been implemented to create and maintain young forest for wildlife, including migratory birds such as the American Woodcock (Scolopax minor) that use young forest to meet their life history needs. Given that most Northeastern woodcock migrate between more northerly breeding areas and southern wintering areas, information about how post-breeding habitat quality and body composition carry over to influence fall migration strategies and residency is important for their management but currently unknown. I investigated how habitat quality prior to fall migration influenced the timing of departure, departure body composition and subsequent migratory phenology of the American Woodcock. First, I validated the non-destructive deuterium dilution method for estimating body composition of woodcock prior to departure in fall and used these models to estimate the rate of fattening for free-living fall-staging woodcock in Rhode Island (Chapter 1). Second, I assessed the influence of post-breeding habitat quality on departure body composition and fall migration patterns in a southern New England breeding population of American Woodcock (Chapter 2). In Chapter 1, I report the first validation of the deuterium-dilution method for estimating the body composition of a fall staging shorebird. I captured male (n=35) and female (n=13) woodcock in the fall of 2018 and 2019 (September – November), directly measured the body composition of 20 woodcock and used predictive models to estimate the body composition of fall-staging 28 woodcock which were released to continue on fall migration. I directly measured for each wild-caught woodcock (n = 20) their total body water, age, body mass, and fat score, and then used multiple regression and measured whole-body water and body composition to estimate the whole-body lean mass and fat mass of woodco

Published

2020

8. Cross-seasonal effects in the American Woodcock: Conditions prior to fall migration relate to migration strategy and implications for conservation.

Author

Graham, Clayton L., Steeves, Tanner, and McWilliams, Scott R.

Subjects

*AMERICAN woodcock, *BREEDING, *ANIMAL breeding, *HABITATS, *LANDSCAPES

Abstract

How postbreeding habitat quality and body composition of migratory birds carry over to influence fall migration strategies and residency merits consideration when creating cross-seasonal conservation plans, especially in breeding populations that are partial migrants. We assessed the influence of postbreeding habitat quality on departure body composition and fall migration patterns in a southern New England breeding population of American Woodcock (Scolopax minor). Woodcock that overwintered near breeding areas (n = 5) had less fat upon capture in fall and used lower quality habitat during the fall than birds that eventually departed on migration (n = 17). Woodcock that departed earlier were long-distance migrants that had inhabited higher quality landscapes prior to migration, departed with less or similar fat stores, stopped over for shorter periods on migration, and arrived earlier on their more southerly wintering areas. In contrast, woodcock that departed later were short-distance migrants that had inhabited lower quality landscapes prior to migration yet stored similar or more fat upon departure, stopped over for longer periods on migration, and arrived relatively late to their more northerly wintering areas. These differences in migration strategies were evident under the same fall environmental conditions and did not appear related to individuals responding to their own condition as would be expected if they were classic condition-based carry-over effects. As such, the southern New England breeding population of woodcock is best categorized as nonfacultative partial migrants (i.e., includes residents, short-distance migrants, and long-distance migrants) that demonstrate weak connectivity between life stages; such populations are excellent for the study of the costs and benefits of migration. The stopover and wintering areas used by woodcock in the coastal mid-Atlantic states deserve conservation and management attention in order to preserve critical habitat throughout their wintering range. [ABSTRACT FROM AUTHOR]

Published

2022

9. Unconventional life history in a migratory shorebird: desegregating reproduction and migration.

Author

Slezak CR, Blomberg EJ, Roth AM, Berigan LA, Fish AC, Darling R, Clements SJ, Balkcom G, Carpenter B, Costanzo G, Duguay J, Graham CL, Harvey W, Hook M, Howell DL, Maddox S, Meyer SW, Nichols TC, Pollard JB, Roy C, Stiller JC, Straub JN, Tetreault M, Tyl R, Williams L, Kilburn JE, and McWilliams SR

Subjects

Animals, Female, Seasons, Reproduction, Birds, Ecosystem, Animal Migration, Life History Traits, Charadriiformes

Abstract

Conventional life-history theory predicts that energy-demanding events such as reproduction and migration must be temporally segregated to avoid resource limitation. Here, we provide, to our knowledge, the first direct evidence of 'itinerant breeding' in a migratory bird, an incredibly rare breeding strategy (less than 0.1% of extant bird species) that involves the temporal overlap of migratory and reproductive periods of the annual cycle. Based on GPS-tracking of over 200 female American woodcock, most female woodcock (greater than 80%) nested more than once (some up to six times) with short re-nest intervals, and females moved northwards on average 800 km between first and second nests, and then smaller distances ( ca 200+ km) between subsequent nesting attempts. Reliance on ephemeral habitat for breeding, ground-nesting and key aspects of life history that reduce both the costs of reproduction and migration probably explain the prevalence of this rare phenotype in woodcock and why itinerant breeding so rarely occurs in other bird species.

Published

2024