Teresa Militão scite author profile

The evolution of different life-history strategies has been suggested as a major force constraining physiological mechanisms such as immunity. In some long-lived oviparous species, a prolonged persistence of maternal antibodies in offspring could thus be expected in order to protect them over their long growth period. Here, using an intergenerational vaccination design, we show that specific maternal antibodies can display an estimated half-life of 25 days post-hatching in the nestlings of a long-lived bird. This temporal persistence is much longer than previously known for birds and it suggests specific properties in the regulation of IgY immunoglobulin catabolism in such a species. We also show that maternal antibodies in the considered procellariiform species are functional as late as 20 days of age. Using a modelling approach, we highlight that the potential impact of such effects on population viability could be important, notably when using vaccination for conservation. These results have broad implications, from comparative immunology to evolutionary eco-epidemiology and conservation biology.

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Spatial scales of marine conservation management for breeding seabirds

Oppel

Bolton

Carneiro

et al. 2018

Marine Policy

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Combining stable isotope analyses and geolocation to reveal kittiwake migration

González‐Solís

Smyrli²,

Militão³

et al. 2011

Mar. Ecol. Prog. Ser.

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Determining migratory strategies of seabirds is still a major challenge due to their relative inaccessibility. Small geolocators are improving this knowledge, but not all birds can be tracked. Stable isotope ratios in feathers can help us to understand migration, but we still have insufficient baseline knowledge for linking feather signatures to movements amongst distinct water masses. To understand the migration strategies of kittiwakes Rissa tridactyla and the link between stable isotopes in feathers and the areas in which these were grown, we tracked 6 kittiwakes from Hornøya, Norway, with light level geolocators over 1 yr. Then we analysed the stable isotopes of carbon and nitrogen in their 1st and 7th primary feathers as well as in the 1st, 3rd, 5th, 7th and 10th primaries of 12 birds found freshly dead in the same breeding colony. After breeding, all tracked birds moved east of the Svalbard Archipelago and subsequently migrated to the Labrador Sea. Thereafter, birds showed individual variation in migration strategies: 3 travelled to the NE Atlantic, whereas the others remained in the Labrador Sea until the end of the wintering period. Changes in stable isotope signatures from the 1st to the 10th primary feathers corresponded well to the sequence of movements during migration and the area in which we inferred that each feather was grown. Thus, by combining information on moult patterns and tracking data, we demonstrate that stable isotope analysis of feathers can be used to trace migratory movements of seabirds.KEY WORDS: Intrinsic markers · Tracking · Seabirds · Wintering grounds · Black-legged kittiwake Resale or republication not permitted without written consent of the publisher

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Moulting strategies of a long‐distance migratory seabird, the Mediterranean Cory's ShearwaterCalonectris diomedea diomedea

Ramos

Militão

González‐Solís

et al. 2008

Ibis

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Seabird moult is poorly understood because most species undergo moult at sea during the non‐breeding season. We scored moult of wings, tail and body feathers on 102 Mediterranean Cory's Shearwaters Calonectris diomedea diomedea accidentally caught by longliners throughout the year. Primary renewal was found to be simple and descendant from the most proximal (P1) to the most distal (P10) feather. Secondaries showed a more complex moulting pattern, with three different asynchronous foci: the first starting on the innermost secondaries (S21), the second on the middle secondaries (S5) and the latest on the outermost secondaries (S1). Rectrix moult started at a later stage and was simple and descendant from the most proximal feather (R1) expanding distally. Although a few body feathers can be moulted from prelaying to hatching, moult of ventral and dorsal feathers clearly intensified during chick rearing. Different moulting sequences and uncoupled phenology between primary and secondary renewal suggest that flight efficiency is a strong constraint factor in the evolution of moulting strategies. Moreover, moult of Cory's Shearwaters was synchronous between wings and largely asynchronous between tail halves, with no more than one rectrix moulted at once. This result is probably related to the differential sensitivity of wings and the tail on flight performance, ultimately derived from different aerodynamic functions. Finally, Cory's Shearwater females renewed feathers earlier and faster than males, which may be related to the lower chick attendance of females.

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Multispecies tracking reveals a major seabird hotspot in the North Atlantic

Davies

Carneiro

Tarzia

et al. 2021

CONSERVATION LETTERS

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Teresa Militão

Maternal antibody persistence: a neglected life-history trait with implications from albatross conservation to comparative immunology

Spatial scales of marine conservation management for breeding seabirds

Combining stable isotope analyses and geolocation to reveal kittiwake migration

Moulting strategies of a long‐distance migratory seabird, the Mediterranean Cory's ShearwaterCalonectris diomedea diomedea

Multispecies tracking reveals a major seabird hotspot in the North Atlantic

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