01c45866a4954e8a9c77edc802e3bd09049af1225f444feb9462cd2d8be6714b162ecc1084e94dc285529f67f6f759be255e6701508845efb8325e386af0ec0b31aa2978495548ff9df4fa962c39ebb834a630591702451f99fb2f5a8265e8aa3c685618b9554e04b1107128c69e69516c689a659186491d8d958b4ea626227186ffaecbf62943e89f348a0986d05d96a2d164d5461a4d72a7ec3ec6d910b547ad1f20efb90d4d0fab44729d51bf1ee7b8f26d8a174a4766a11da56a818808ffca750806f83342d9a18b25382a10388bd679978763b54b8a8143adcb84e6a31b
person
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
agent
Seed dispersal potential by wild mallard duck as estimated from digestive tract analysisTransfer of maternal antibodies against avian influenza virus in mallards (Anas platyrhynchos)Habitat use throughout migration: linking individual consistency, prior breeding success and future breeding potentialSkipping swans: Fuelling rates and wind conditions determine differential use of migratory stopover sites of Bewick's Swans Cygnus bewickiiIdentifying crucial gaps in our knowledge of the life-history of avian influenza viruses - an Australian perspectiveImproving provenance studies in migratory birds when using feather hydrogen stable isotopesMinor differences in body condition and immune status between avian influenza virus infected and non-infected mallards: a sign of co-evolution?Experimental quantification of long distance dispersal potential of aquatic snails in the gut of migratory birdsHampered performance of migratory swans: intra- and inter-seasonal effects of avian influenza virusInsights from the eco-physiological book of records: Bewick's swans outperform the canonical intake-maximizing vertebrateComparing the seasonal survival of resident and migratory oystercatchers: carry-over effects of habitat quality and weather conditionsThe exception to the rule: retreating ice front makes Bewick’s swans Cygnus columbianus bewickii migrate slower in spring than in autumnSurveillance of wild birds for avian influenza virusMigratory birds reinforce local circulation of avian influenza virusesHow to find natural reservoir hosts from endemic prevalence in a multi-host population: A case study of influenza in waterfowlEcophysiology of avian migration in the face of current global hazardsReconstructing an annual cycle of interaction: natural infection and antibody dynamics to avian influenza along a migratory flywayThe roles of migratory and resident birds in local avian influenza infection dynamics.Weak negative associations between avian influenza virus infection and movement behaviour in a key host species, the mallard (Anas platyrhynchos)Effects of infection-induced migration delays on the epidemiology of Avian Influenza in wild mallard populationsMigrating swans profit from favourable changes in wind conditions at low altitudeJuveniles and migrants as drivers for seasonal epizootics of avian influenza virusLonger guts and higher food quality increase energy intake in migratory swansFrom food to offspring down: Tissue-specific discrimination and turn-over of stable isotopes in herbivorous waterbirds and other avian foraging guildsHost behaviour and physiology underpin individual variation in avian influenza virus infection in migratory Bewick's swansHampered foraging and migratory performance in swans infected with low-pathogenic avian influenza A virusLonger days in spring than in autumn accelerate migration speed of passerine birdsA puzzling migratory detour: are fueling conditions in Alaska driving the movement of juvenile sharp-tailed sandpipers?Assessing body condition and energy budget components by scoring abdominal profiles in free-ranging pink-footed geese Anser brachyrhynchusFathers with highly demanding partners and offspring in a semi-desert environment: energetic aspects of the breeding system of Monteiro's Hornbills (Tockus monteiri) in NamibiaWhy do Gull-billed Terns Gelochelidon nilotica feed on fiddler crabs Uca tangeri in Guinea-Bissau?Does migration of hybrids contribute to post-zygotic isolation in flycatchers?Aquatic plant shows flexible avoidance by escape from tuber predation by swansRelationships between migration and breeding strategies in arctic breeding birdsMetabolic constraints on long-distance migration in birdsDispersal of Aquatic organisms: The role of waterbirdsVector activity and propagule size affect dispersal potential by vertebratesThe foldable "Ottenby" walk-in trap: a handy and efficient wader trap for expedition conditionsPredicting migratory flight altitudes by physiological migration modelsFlying, fasting, and feeding in birds during migration: a nutritional and physiological ecology perspective
author
education
type
label
M. Klaassen
firstName
lastName
name
employeeId
staffOrganisationAssociations
visibility
Public - No restriction
@en
Publiek - Geen beperking
@nl
relatedLink
title
prof. dr.
@en