about
Seabird acoustic communication at sea: a new perspective using bio-logging devices.Drivers of time-activity budget variability during breeding in a pelagic seabirdForaging behavior links climate variability and reproduction in North Pacific albatrosses.Interpolation of animal tracking data in a fluid environment.Southern Ocean frontal structure and sea-ice formation rates revealed by elephant seals.Wind, waves, and wing loading: morphological specialization may limit range expansion of endangered albatrosses.A parsimonious approach to modeling animal movement data.Bird-borne video-cameras show that seabird movement patterns relate to previously unrevealed proximate environment, not prey.Weathering a Dynamic Seascape: Influences of Wind and Rain on a Seabird's Year-Round Activity BudgetsHow to capture fish in a school? Effect of successive predator attacks on seabird feeding success.Reproductive constraints influence habitat accessibility, segregation, and preference of sympatric albatross speciesSeabird distribution patterns observed with fishing vessel's radar reveal previously undescribed sub-meso-scale clusters.Time to eat: measurements of feeding behaviour in a large marine predator, the northern elephant seal Mirounga angustirostris.Reproductive synchrony in a recovering bottlenecked sea turtle population.Fractal landscape method: an alternative approach to measuring area-restricted searching behavior.Dynamic habitat models: using telemetry data to project fisheries bycatch.Unconventional ventral attachment of time-depth recorders as a new method for investigating time budget and diving behaviour of seabirdsSpecies- and sex-specific differences in foraging behaviour and foraging zones in blue-footed and brown boobies in the Gulf of California
P50
Q27320121-C8CC52AC-57B0-4549-BB61-3D71CD9F7DE2Q30421202-14217A6F-A92E-44E3-98B2-7D3B0E52322BQ31000676-2E258EB9-9E54-4BEE-A6B1-0496198643A8Q31026204-7C160C19-65EF-40D3-AA04-D6B5680827DAQ31171181-0425A600-8051-4DB1-918F-7473411541E2Q33395673-300CC73D-CD7E-4711-A838-B0A2DF04BA7AQ33415069-184046C4-C981-471F-9BC9-CC4768B8B92CQ35093605-AC781521-DA6C-4731-8164-69A539E95A6CQ35845465-93EA05DA-A544-4679-9342-F88C02ECFA1FQ35894497-E8A38965-8003-4CD6-B770-0E3D922CCAF1Q36104757-3A0BE62A-493A-4D31-8329-18C0A0B2392DQ38639739-5650BEEC-7B28-432D-B40A-CD94354FB7C2Q38699806-7B660034-C545-4C01-8361-BA9267CE791BQ45759635-AF75A28B-A102-415F-8DC3-ACAFDF71920EQ51921115-B520CB0D-DFA3-407C-AE34-AFC876A3A217Q55650690-89F768C4-198C-4F79-A5B5-2B7B23F61077Q73344693-8C2148E4-B359-481E-885E-CBAFB623FFAFQ76880013-40c7fad7-406c-9d44-daef-c2edd0890d70
P50
description
researcher ORCID ID = 0000-0002-4653-9269
@en
wetenschapper
@nl
name
Yann Tremblay
@ast
Yann Tremblay
@en
Yann Tremblay
@es
Yann Tremblay
@nl
type
label
Yann Tremblay
@ast
Yann Tremblay
@en
Yann Tremblay
@es
Yann Tremblay
@nl
prefLabel
Yann Tremblay
@ast
Yann Tremblay
@en
Yann Tremblay
@es
Yann Tremblay
@nl
P106
P31
P496
0000-0002-4653-9269