about
High sea surface temperatures driven by a strengthening current reduce foraging success by penguins.Incorrect likelihood methods were used to infer scaling laws of marine predator search behaviourInferring animal densities from tracking data using Markov chainsA novel approach to quantifying the spatiotemporal behavior of instrumented grey seals used to sample the environment.Probability of detecting marine predator-prey and species interactions using novel hybrid acoustic transmitter-receiver tags.North Atlantic blue and fin whales suspend their spring migration to forage in middle latitudes: building up energy reserves for the journey?Animal-borne acoustic transceivers reveal patterns of at-sea associations in an upper-trophic level predatorJoint estimation over multiple individuals improves behavioural state inference from animal movement dataHierarchical state-space estimation of leatherback turtle navigation ability.Daily activity budgets reveal a quasi-flightless stage during non-breeding in Hawaiian albatrosses.Assessing performance of Bayesian state-space models fit to Argos satellite telemetry locations processed with Kalman filtering.Return customers: foraging site fidelity and the effect of environmental variability in wide-ranging antarctic fur seals.State-space models' dirty little secrets: even simple linear Gaussian models can have estimation problems.Putting the behavior into animal movement modeling: Improved activity budgets from use of ancillary tag information.Estimation and simulation of foraging trips in land-based marine predators.Taking animal tracking to new depths: synthesizing horizontal--vertical movement relationships for four marine predators.Key Questions in Marine Megafauna Movement Ecology.Correction: Return Customers: Foraging Site Fidelity and the Effect of Environmental Variability in Wide-Ranging Antarctic Fur Seals.Assessing threats to species at risk using stage-structured state-space models: mortality trends in skate populations.Supervised accelerometry analysis can identify prey capture by penguins at sea.Sex-specific, seasonal foraging tactics of adult grey seals (Halichoerus grypus) revealed by state-space analysis.The influence of matrix habitat on Aphthona flea beetle immigration to leafy spurge patches.Integrative modelling of animal movement: incorporating in situ habitat and behavioural information for a migratory marine predator.Abundance estimates and habitat preferences of bottlenose dolphins reveal the importance of two gulfs in South Australia.Cost-effective mitigation strategies to reduce bycatch threats to cetaceans identified using return-on-investment analysisThe retrospective analysis of Antarctic tracking data projectRecent prey capture experience and dynamic habitat quality mediate short-term foraging site fidelity in a seabirdTracking of marine predators to protect Southern Ocean ecosystemsFinding mesopelagic prey in a changing Southern OceanThe importance of sample size in marine megafauna tagging studiesMovement responses to environment: fast inference of variation among southern elephant seals with a mixed effects model
P50
Q27336305-88F3C996-A32C-4FCF-A515-AB1F4E2D6CC4Q28727306-9234A389-A937-45A2-A11C-20295C7D71E5Q30000801-EB9251A2-19E1-4046-8127-87A145535337Q30406324-98211E1F-D81B-4BE4-980A-ED2EF0919B05Q30437026-C9EF5008-DA34-4014-857B-AF2B7BDEF4D7Q30448392-3D2E85B4-E40F-4A4A-80A9-DE1020EEB654Q30460907-073ABBF6-0D5C-4BF7-A0F4-3B2F36608076Q31043478-5CF2A39A-E325-4165-9062-4BA58BB4108AQ33784305-3C8CE006-B4D6-40C6-AA25-012DBBDC0F29Q35110783-F0392D0D-A336-45D9-86DB-B0983892BBCFQ35126160-D0051004-F09A-43BF-80C2-148041C95386Q35217309-A81314C3-2C00-4733-A83F-F0D2324CA7D8Q36933941-22E31708-6637-43B0-A399-6C92B867706AQ37412386-506EBC67-B714-480B-BBEE-5F09E5ED0F8CQ38693586-0FA32848-70C9-482E-AA9E-3A19E751CEC0Q38695310-30B1BD9D-52C4-4915-94B7-32B09C6618A4Q38775759-8210B72A-FDF2-44CD-960D-D92389EA22B8Q42341836-F64570F4-06C2-4D9F-8342-FF46E9945979Q43614360-7078854A-C5A9-4CF8-BC92-C7FC5B2CC22AQ45955874-092D1D27-E95A-42DC-9166-FB5F7F3FF7B7Q46787411-C8C9C53D-CCEA-443A-AC3D-15CBE7B2D103Q51192178-0FE9F72C-FC3F-4394-B872-C88C33D559C4Q51302397-404E9583-712F-4097-9C51-03C4FF27ED90Q64889352-277034ED-0BA9-464E-A147-DF8757CF09C5Q90185659-C79CDD78-C894-43C1-999D-1DD1E91C1B19Q90438431-F62C2FE8-26F7-448D-B170-76659AD6248CQ90562043-8A4832DD-C869-4396-A041-3C5C96D6A96BQ90836193-2EBFC69D-765C-49A0-9CBF-7D853A6EC5D0Q91933261-61D5994F-0C97-41D9-A561-B8BDAD180C4DQ92650658-E52CB071-5BDD-43A3-9971-0E253AE778B8Q93363742-9F4F2EDD-44D6-47D5-9E68-78B3001BFB72
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Ian Jonsen
@ast
Ian Jonsen
@en
Ian Jonsen
@es
Ian Jonsen
@nl
Ian Jonsen
@sl
type
label
Ian Jonsen
@ast
Ian Jonsen
@en
Ian Jonsen
@es
Ian Jonsen
@nl
Ian Jonsen
@sl
prefLabel
Ian Jonsen
@ast
Ian Jonsen
@en
Ian Jonsen
@es
Ian Jonsen
@nl
Ian Jonsen
@sl
P106
P1153
6603341226
P21
P31
P496
0000-0001-5423-6076