Mapping bald eagle activity shadows around communal roosts

Watts, Bryan D.; Turrin, Courtney

doi:10.1002/jwmg.21263

Cited by 4 publications

(5 citation statements)

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“…We determined the diurnal activity ranges of individual birds by using the kernel density estimation method using the library "adehabitatHR" in R (Calenge 2006) to generate the utilization distributions of the individual birds. We used the default "href" function as the smoothing parameter (Worton 1995, Watts andTurrin 2017). Utilization distribution is a representation of the relative space use by an individual bird within its entire activity range (Worton 1989).…”

Section: Discussionmentioning

confidence: 99%

“…Often the choice of the roosts by birds is positively influenced by the position of the foraging sites (Watts andTurrin 2017, Johnston-González andAbril 2019). The choice of roost sites may also be influenced by factors like thermoregulation (Williams and Du Plessis 2013) and predation pressures (Townsend et al 2009, Johnston-González andAbril 2019).…”

Section: Roosting Patterns Of Hornbillsmentioning

confidence: 99%

“…Certain species roost communally, which may accord foraging benefits through information transfer (Ward and Zahavi 1973) apart from enabling energy efficiency (Williams and Du Plessis 2013) and reduced per-capita predation pressure (Eiserer 1984). Most information on roosting comes from raptors (Bock et al 2013, Watts andTurrin 2017), water birds (Peters andOtis 2007, Jankowiak et al 2015, Johnston-González and Abril 2019) and birds in temperate regions (Zabala et al 2012, Jamieson et al 2016 with relatively little information from tropical birds (Jirinec et al 2018).…”

Section: Introductionmentioning

confidence: 99%

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Patterns of roost site use by Asian hornbills and implications for seed dispersal

Naniwadekar

Rathore

Shukla

2020

Preprint

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Animals spend a significant amount of time roosting. Therefore, understanding roosting patterns and the processes that influence roosting behaviour and roost site choice is essential. Hornbills exhibit interesting roosting patterns with some species roosting communally in large flocks. They are important seed dispersers and patterns of roost site use can have a significant influence on seed dispersal distributions and thereby on plant recruitment. We documented roost site use by four Great Hornbills (Buceros bicornis) and one Wreathed Hornbill (Rhyticeros undulatus) at a site in north-east India using GPS telemetry. We examined the influence of riverine habitats, nests and foraging range on roost selection. We determined the proportion of seeds that hornbills disperse at roosts and the dispersal distances of seeds dispersed at roosts from the source trees. Through telemetry, we found that roosts of Great Hornbills were generally in forested habitats. Our telemetry data showed that Wreathed Hornbill roosts were close to the river. These results were corroborated by observational data from roost sites where we had regular detections of relatively large flocks of Wreathed Hornbills and occasionally Great Hornbills. The roost sites were not close to the nest sites and were generally within the 95% kernel density diurnal activity ranges. Hornbills dispersed a small proportion of seeds at roost sites. Seeds dispersed at roost sites had almost twice the dispersal distances compared to those dispersed at non-roost sites. This study highlights variation in roost site pattern across individual hornbills and its implications for seed dispersal.

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Section: Discussionmentioning

confidence: 99%

Section: Roosting Patterns Of Hornbillsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Patterns of roost site use by Asian hornbills and implications for seed dispersal

Naniwadekar

Rathore

Shukla

2020

Preprint

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“…We used the kernel density estimation method using the library “adehabitatHR” in R to determine the foraging activity range of the individual birds (Calenge, 2006). We used the default “href” function as the smoothing parameter rather than the least square cross validation (LSCV) method (Watts & Turrin, 2017; Worton, 1995). LSCV method tends to estimate smaller home ranges than the href method.…”

Section: Methodsmentioning

confidence: 99%

Roost site use by Great (Buceros bicornis) and Wreathed (Rhyticeros undulatus) Hornbill and its implications for seed dispersal

2021

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Knowledge about roost selection can have implications for understanding the ecological role played by animals. For example, some frugivorous animals have been reported to clump-disperse seeds at their roosts that are used repeatedly (Datta, 2001;Howe, 1989;Kitamura et al., 2008). Clump-dispersed seeds at communal roosts that are repeatedly used experience high mortality due to negative density dependence (Comita et al., 2014;Datta, 2001;Kitamura et al., 2008). However, if clump-dispersed seeds at roost sites form only a small proportion of seeds that are dispersed by the frugivore, it may not significantly alter the overall contribution of the frugivore to seed dispersal. Relative proportions of seeds that get dispersed at favorable and unfavorable sites by animals are typically not estimated (Naniwadekar et al., 2019b). This is critical for determining the quantitative and qualitative role of frugivores in seed dispersal (Schupp, 1993).Hornbills are key avian seed dispersers with interesting roosting ecology. They may roost as singles, in pairs, smaller flocks, or in large communal roosts (up to 2,000 birds) (Poonswad et al., 2013). A telemetry study on Southern Ground Hornbills (Bucorvus leadbeateri) in South Africa revealed that the birds preferred riverine habitat for roosting and exhibited site fidelity (Zoghby et al., 2016). In northeast India, hornbills roost on isolated trees, in open riverine grassland areas or on cliff faces with lower tree density, and they exhibit

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“…Our results partially align with the hypothesis of proximity to foraging-patch (Caccamise & Morrison 1988), such that roosts can be understood as the result of birds aggregating near rich sources of food, rather than or in addition to social aggregations per se. Raptors (Josens et al 2013, Watts & Turrin 2017, colonial waterbirds (Sparling & Krapu 1994), corvids (Gorenzel & Salmon 1995, Sonerud et al 2001) and other birds and mammals (Beauchamp 2014) form aggregations around food-rich patches. In such cases, roosts are thought to work as 'information centres' and individuals participating could alter their daily behaviour to follow successful foragers.…”

Section: Foraging Opportunities and Patch-sitting Hypothesismentioning

confidence: 99%

Predation risk and resource availability explain roost locations of Whimbrel Numenius phaeopus in a tropical mangrove delta

Johnston-González

Abril²

2018

Ibis

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Roosts are important sites for shorebirds in non‐breeding areas at night and during high tides. How the spatial configuration of food and risk of predation and disturbance influence roost site use in tropical locations remains poorly known. We analysed the locations of nocturnal roosts of Whimbrel Numenius phaeopus in mangroves of Sanquianga National Park, Colombia, with respect to variation in spatial variables related to food resources and risk of predation and disturbance. We contrasted characteristics of all 13 known nocturnal roost locations with those of all other mangrove islands (n = 209) within the limits of the park. We estimated the distance from roosts and other mangrove islands to foraging sites, and sources of predators and human disturbance. Larger areas of feeding habitat surrounded nocturnal roosts than other mangrove islands, and the average distance to individual feeding patches was shorter. Roosts were also more isolated than other islands, but proximity to sources of human disturbance did not differ. We conclude that Whimbrel roost site use in Sanquianga was best explained by a combination of access to feeding territories and isolation from potential sources of mainland predators, but not by avoidance of human disturbance. Beyond identifying factors influencing roost site selection, the large aggregations of individuals in single locations may suggest that presence of conspecifics itself also plays a role in the formation of Whimbrel roosts. We highlight the interaction of food and risk landscapes with intraspecific attraction on the roost site selection by Whimbrels and the importance of mangroves as roosting sites in tropical regions.

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Mapping bald eagle activity shadows around communal roosts

Cited by 4 publications

References 49 publications

Patterns of roost site use by Asian hornbills and implications for seed dispersal

Patterns of roost site use by Asian hornbills and implications for seed dispersal

Roost site use by Great (Buceros bicornis) and Wreathed (Rhyticeros undulatus) Hornbill and its implications for seed dispersal

Predation risk and resource availability explain roost locations of Whimbrel Numenius phaeopus in a tropical mangrove delta

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