Occupancy of Mountain Plover and Burrowing Owl in Colorado

Departure decisions of songbirds at ecological barriers they encounter en route can strongly influence time, energy and survival costs of migration. To date, most field studies of departure decisions and their correlates have used indirect methods and followed migrants at a single stopover site, with limited information on what happens to individuals after they depart from the site. We used an automated radiotelemetry array extending 350 km from southwest Nova Scotia to southern Maine to study the migratory and stopover movements of Northern Waterthrushes Parkesia noveboracensis, Red‐eyed Vireos Vireo olivaceus and Yellow‐rumped Warblers Setophaga coronata in relation to fuel load and weather at the northeastern edge of the Gulf of Maine. From the 105 radio‐transmitters we deployed in southwest Nova Scotia, we recorded 42 landscape‐scale stopover flights and 47 migratory flights by 75 individuals. Of the migratory flights, 57% were orientated southwest, a trajectory that, if held, would require individuals to complete a 350–440 km overwater flight. The remaining 43% of migratory flights were orientated northwest, away from the Gulf of Maine, and 15 individuals were confirmed to have detoured around all or a portion of the barrier, as evidenced by their being re‐detected over the Bay of Fundy and/or along the coast of Maine between 4 h and 15 days later. Across all individuals, initial fat score had a positive effect on departure probability, especially for individuals that made stopover flights. Among weather variables, tailwind assistance was the best predictor of migratory departures but did not appear to be the main factor determining whether individuals orientated towards or away from the Gulf of Maine. Weather had little effect on departure decisions of individuals that made stopover flights. These differences in the correlates of migratory departures and stopover flights would probably not have been distinguishable had our study been restricted to a local scale. Therefore, our findings highlight the importance of expanding the scale at which departure decisions and the ecology of stopover in general are studied.

show abstract

“…Tipton et al . ). We used model‐averaging because there was considerable model selection uncertainty (i.e.…”

Section: Methodsmentioning

confidence: 97%

Patterns and correlates of songbird movements at an ecological barrier during autumn migration assessed using landscape‐ and regional‐scale automated radiotelemetry

Woodworth

Mitchell

Norris

et al. 2014

Ibis

View full text Add to dashboard Cite

show abstract

“…Despite this concern, equal or mildly unequal probability spatially balanced survey designs have tremendous potential benefits to a model‐based inferential paradigm. Examples of modeling studies in which spatially balanced designs have been used with model‐based inference are described by Tipton et al (2008) and Rodhouse et al (2010). Johnson et al (2009) outlined a spatially balanced design for model‐based inference with marshbirds and also concluded that under standard equal probability conditions this should be a conservative approach that provides substantial practical benefits as well as statistical reassurances.…”

Section: Discussionmentioning

confidence: 99%

“…More sophisticated approaches to dealing with imperfect detection in a model‐based context, for example by including detection model covariates, are recommended and have been used with spatially balanced sampling of other organisms (e.g., Tipton et al 2008, Rodhouse et al 2010). However, the GRTS design‐based variance estimator is not used in the modeling context and model‐based analysis of unequal probability designs should proceed with caution.…”

Section: Methodsmentioning

confidence: 99%

See 1 more Smart Citation

A practical sampling design for acoustic surveys of bats

2011

View full text Add to dashboard Cite

Acoustic surveys are widely used for describing bat occurrence and activity patterns and are increasingly important for addressing concerns for habitat management, wind energy, and disease on bat populations. Designing these surveys presents unique challenges, particularly when a probabilistic sample is required for drawing inference to unsampled areas. Sampling frame errors and other logistical constraints often require survey sites to be dropped from the sample and new sites added. Maintaining spatial balance and representativeness of the sample when these changes are made can be problematic. Spatially balanced sampling designs recently developed to support aquatic surveys along rivers provide solutions to a number of practical challenges faced by bat researchers and allow for sample site additions and deletions, support unequal‐probability selection of sites, and provide an approximately unbiased local neighborhood‐weighted variance estimator that is efficient for spatially structured populations such as is typical for bats. We implemented a spatially balanced design to survey canyon bat (Parastrellus hesperus) activity along a stream network. The spatially balanced design accommodated typical logistical challenges and yielded a 25% smaller estimated standard error for the mean activity level than the usual simple random sampling estimator. Spatially balanced designs have broad application to bat research and monitoring programs and will improve studies relying on model‐based inference (e.g., occupancy models) by providing flexibility and protection against violations of the independence assumption, even if design‐based estimators are not used. Our approach is scalable and can be used for pre‐ and post‐construction surveys along wind turbine arrays and for regional monitoring programs. © 2011 The Wildlife Society.

show abstract

“…Each resulting cell has an independent probability (drawn from a uniform random distribution) of being selected, which is modified by the area of the resource in a cell being selected. RRQRR has been used to develop sample designs for a variety of purposes (e.g., [39][40][41][42][43]) including sampling within NEON domains. Software is readily available (see Supplementary Material) and a version of RRQRR is implemented in ArcGIS software [44]; see the example used by [41].…”

Section: Rrqrr Sample Designmentioning

confidence: 99%

A General-Purpose Spatial Survey Design for Collaborative Science and Monitoring of Global Environmental Change: The Global Grid

Theobald

2016

Remote Sensing

View full text Add to dashboard Cite

Recent guidance on environmental modeling and global land-cover validation stresses the need for a probability-based design. Additionally, spatial balance has also been recommended as it ensures more efficient sampling, which is particularly relevant for understanding land use change. In this paper I describe a global sample design and database called the Global Grid (GG) that has both of these statistical characteristics, as well as being flexible, multi-scale, and globally comprehensive. The GG is intended to facilitate collaborative science and monitoring of land changes among local, regional, and national groups of scientists and citizens, and it is provided in a variety of open source formats to promote collaborative and citizen science. Since the GG sample grid is provided at multiple scales and is globally comprehensive, it provides a universal, readily-available sample. It also supports uneven probability sample designs through filtering sample locations by user-defined strata. The GG is not appropriate for use at locations above ±85 • because the shape and topological distortion of quadrants becomes extreme near the poles. Additionally, the file sizes of the GG datasets are very large at fine scale (resolution~600 m × 600 m) and require a 64-bit integer representation.

show abstract

Occupancy of Mountain Plover and Burrowing Owl in Colorado

Cited by 25 publications

References 24 publications

Patterns and correlates of songbird movements at an ecological barrier during autumn migration assessed using landscape‐ and regional‐scale automated radiotelemetry

Patterns and correlates of songbird movements at an ecological barrier during autumn migration assessed using landscape‐ and regional‐scale automated radiotelemetry

A practical sampling design for acoustic surveys of bats

A General-Purpose Spatial Survey Design for Collaborative Science and Monitoring of Global Environmental Change: The Global Grid

Contact Info

Product

Resources

About