0000000000268760

AUTHOR

Adam Shreading

showing 4 related works from this author

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

2020

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 understandi…

0106 biological sciencesEcology (disciplines)Acclimatization[SDV]Life Sciences [q-bio]PopulationPopulationEcological Parameter MonitoringClimate change010603 evolutionary biology01 natural sciences010605 ornithologyOnderz. Form. D.ddc:570Life ScienceAnimals14. Life underwaterNo themeeducationComputingMilieux_MISCELLANEOUSeducation.field_of_studyMultidisciplinaryEcologyPhenologyArchivesArctic RegionsData discoveryEcological Parameter MonitoringPlan_S-Compliant_NO15. Life on landSubarctic climateGeographyArctic13. Climate actioninternational[SDE]Environmental SciencesWIASDierecologieAnimal MigrationAnimal Ecology
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Large birds travel farther in homogeneous environments

2019

Aim: Animal movement is an important determinant of individual survival, population dynamics and ecosystem structure and function. Nonetheless, it is still unclear how local movements are related to resource availability and the spatial arrangement of resources. Using resident bird species and migratory bird species outside the migratory period, we examined how the distribution of resources affects the movement patterns of both large terrestrial birds (e.g., raptors, bustards and hornbills) and waterbirds (e.g., cranes, storks, ducks, geese and flamingos). Location: Global. Time period: 2003–2015. Major taxa studied: Birds. Methods: We compiled GPS tracking data for 386 individuals across 3…

0106 biological sciencesproductivityEnhanced vegetation indexPopulationForagingenhanced vegetation index landscape complementation movement ecology productivity spatial behaviour terrestrial birds waterbirdsspatial behaviour010603 evolutionary biology01 natural sciencesMovement ecologyddc:570landscape complementationWaterbirdsZoologíaeducationSpatial analysisEcology Evolution Behavior and SystematicsProductivityterrestrial birds2. Zero hungerGlobal and Planetary Changeeducation.field_of_studyEcologyEcology010604 marine biology & hydrobiologywaterbirdsEnhanced vegetation index15. Life on landLandscape complementationSpatial behaviourenhanced vegetation indexTaxonGeographyHabitat13. Climate actionHomogeneousTerrestrial birdsComplementarity (molecular biology)[SDE]Environmental Sciencesmovement ecology
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Diurnal timing of nonmigratory movement by birds: the importance of foraging spatial scales

2020

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 activit…

0106 biological sciencesDaytimeflight modetemporalForagingZoologyBiologySunsetTemporalnonmigratory01 natural sciences010605 ornithologyforagingMovement ecologyflight mode foraging movement ecology multispecies nonmigratory temporalddc:570SunriseNonmigratoryZoologíaDaylightForagingEcology Evolution Behavior and SystematicsFlight modeMovement (music)MultispeciesPelagic zoneDidáctica de las Ciencias ExperimentalesmultispeciesHabitatmovement ecologyAnimal Science and ZoologyEnvironmental Sciences
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Data from: Large birds travel farther in homogeneous environments

2019

Aim: Animal movement is an important determinant of individual survival, population dynamics, and ecosystem structure and function. Yet it is still unclear how local movements are related to resource availability and the spatial arrangement of resources. Using resident bird species and migratory bird species outside of the migratory period, we examined how the distribution of resources affect the movement patterns of both large terrestrial birds (e.g., raptors, bustards, hornbills) and waterbirds (e.g., cranes, storks, ducks, geese, flamingos). Location: Global Time Period: 2003 - 2015 Major taxa studied: Birds Methods: We compiled GPS tracking data for 386 individuals across 36 bird specie…

medicine and health careLandscape ComplementationTerrestrial BirdsLife SciencesMedicinespatial behaviourEnhanced Vegetation Index (EVI)
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