Your search keyword '"DEKINGA, ANNE"' showing total 6 results

1. Testing an attachment method for solar-powered tracking devices on a long-distance migrating shorebird.

Author

Chan, Ying-Chi, Brugge, Maarten, Tibbitts, T., Dekinga, Anne, Porter, Ron, Klaassen, Raymond, and Piersma, Theunis

Subjects

TRACKING & trailing, TRANSMITTERS (Communication), PERFORMANCE evaluation, SHORE birds, GLOBAL Positioning System, EQUIPMENT & supplies

Abstract

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Published

2016

2. How salinity and temperature combine to affect physiological state and performance in red knots with contrasting non-breeding environments.

Author

Gutiérrez, Jorge, Soriano-Redondo, Andrea, Dekinga, Anne, Villegas, Auxiliadora, Masero, José, and Piersma, Theunis

Subjects

EFFECT of temperature on birds, PHYSIOLOGICAL effects of salt, BIRD physiology, RED knot (Bird), MIGRATORY birds, SHORE birds

Abstract

Migratory shorebirds inhabit environments that may yield contrasting salinity-temperature regimes-with widely varying osmoregulatory demands, even within a given species-and the question is: by which physiological means and at which organisational level do they show adjustments with respect to these demands? Red knots Calidris canutus winter in coastal areas over a range of latitudes. The nominal subspecies winters in salty areas in the tropics, whereas the subspecies Calidris canutus islandica winters in north-temperate regions of comparatively lower salinities and temperatures. In this study, both subspecies of red knot were acclimated to different salinity (28/40 ‰)-temperature (5/35 °C) combinations for 2-week periods. We then measured food/salt intakes, basal metabolic rate (BMR), body mass and temperature, fat and salt gland scores, gizzard mass, heat-shock proteins, heterophils/lymphocytes (H/L) ratio and plasma Na to assess the responses of each taxon to osmoregulatory challenges. High salinity (HS)-warm-acclimated birds reduced food/salt intake, BMR, body mass, fat score and gizzard mass, showing that salt/heat loads constrained energy acquisition rates. Higher salt gland scores in saltier treatments indicated that its size was adjusted to higher osmoregulatory demands. Elevated plasma Na and H/L ratio in high-salinity-warm-acclimated birds indicated that salt/heat loads might have a direct effect on the water-salt balance and stress responses of red knots. Subspecies had little or no effect on most measured parameters, suggesting that most adjustments reflect phenotypic flexibility rather than subspecific adaptations. Our results demonstrate how salinity and temperature affect various phenotypic traits in a migrant shorebird, highlighting the importance of considering these factors jointly when evaluating the environmental tolerances of air-breathing marine taxa. [ABSTRACT FROM AUTHOR]

Published

2015

3. No evidence for melatonin-linked immunoenhancement over the annual cycle of an avian species.

Author

Buehler, Deborah M., Koolhaas, Anita, Van't Hof, Thomas J., Schwabl, Ingrid, Dekinga, Anne, Piersma, Theunis, and Tieleman, B. Irene

Subjects

SEASONAL effects on wildlife, IMMUNE response, MELATONIN, SPECIES, BIRDS

Abstract

The winter immunoenhancement hypothesis associates long nights and increased exposure to melatonin with enhanced immune function in winter when resource availability is low and the chances of becoming ill are high. Thus, increased exposure to melatonin in the winter could be adaptive for species facing difficult winter conditions. This idea has found some support in studies of resident mammals. In birds, the link between day length and melatonin over the annual cycle is weaker, and contributions of melatonin to seasonal timing are unclear. Furthermore, many species, especially migrants, do not experience the most difficult conditions of their annual cycle in winter. In this study, we tested whether the winter immunoenhancement hypothesis holds in an avian species, the red knot Calidris canutus. We found that melatonin duration and amplitude varied significantly over the annual cycle with the highest values occurring in winter. However, peaks did not correspond to the winter solstice or with annual variation in immune function. Our findings do not support the winter immunoenhancement hypothesis in knots and question whether the idea that immune function should be bolstered in winter can be generalized to systems where winter is not the most difficult time of the year. [ABSTRACT FROM AUTHOR]

Published

2009

4. Site- and species-specific distribution patterns of molluscs at five intertidal soft-sediment areas in northwest Europe during a single winter.

Author

Bocher, Pierrick, Piersma, Theunis, Dekinga, Anne, Kraan, Casper, Yates, Michael G., Guyot, Thierry, Folmer, Eelke, and Radenac, Gilles O.

Subjects

MOLLUSKS, INVERTEBRATES, SHELLFISH, SEDIMENT microbiology, GEOBIOLOGY, MICROBIOLOGY, BIOLOGY, MICROORGANISMS

Abstract

In this study we aim to provide a basic description and comparison of the spatial distribution and population structure of the common intertidal mollusc species, sampled within a single winter along a latitudinal gradient of different soft-sediment areas spanning 8° of latitude (46°–54°N) and 900 km of distance in northwest Europe. Sediment samples were collected from December 2003 to early March 2004 in the Wadden Sea (The Netherlands), the Wash (United Kingdom), Mont Saint–Michel Bay (France) and two bays on the central French Atlantic coast in south of Brittany. Core-sampling over 250 m grids allowed us to cover 3–30 km² at nine separate intertidal subsites, with a grand total of 2,103 points visited. Among the 15 bivalve and 8 gastropod species collected, we focused on the four most common and abundant bivalve species ( Cerastoderma edule, Macoma balthica, Scrobicularia plana and Abra tenuis) that together represented 96% of all collected bivalves, and on the mudsnail Hydrobia ulvae that comprised 99% of all collected gastropods. C. edule and M. balthica were the most widespread bivalves, with higher densities occurring at higher latitudes. S. plana and A. tenuis were more abundant at southern sites, both with a clear preference for muddy sediments. The mudsnail H. ulvae occurred commonly and in comparable densities at all study sites, except in Mont Saint–Michel Bay where it was very rare. Mean sizes of the common molluscs were highly variable between sites, without clear north–south gradients. The mollusc distribution patterns at the five intertidal areas and nine subsites were predominantly site-specific. Mollusc community composition showed greater similarity within than between the regions north and south of the Brittany peninsula. [ABSTRACT FROM AUTHOR]

Published

2007

5. Publisher Correction: Fuelling conditions at staging sites can mitigate Arctic warming effects in a migratory bird.

Author

Rakhimberdiev, Eldar, Duijns, Sjoerd, Karagicheva, Julia, Camphuysen, Cornelis J., VRS Castricum, Dekinga, Anne, Dekker, Rob, Gavrilov, Anatoly, ten Horn, Job, Jukema, Joop, Saveliev, Anatoly, Soloviev, Mikhail, Tibbitts, T. Lee, van Gils, Jan A., and Piersma, Theunis

Abstract

In the original HTML version of this Article, the order of authors within the author list was incorrect. The consortium VRS Castricum was incorrectly listed after Theunis Piersma and should have been listed after Cornelis J. Camphuysen. This error has been corrected in the HTML version of the Article; the PDF version was correct at the time of publication. [ABSTRACT FROM AUTHOR]

Published

2018

6. Fuelling conditions at staging sites can mitigate Arctic warming effects in a migratory bird.

Author

Rakhimberdiev, Eldar, Duijns, Sjoerd, Karagicheva, Julia, Camphuysen, Cornelis J., Dekinga, Anne, Dekker, Rob, Gavrilov, Anatoly, ten Horn, Job, Jukema, Joop, Saveliev, Anatoly, Soloviev, Mikhail, Tibbitts, T. Lee, van Gils, Jan A., Piersma, Theunis, and VRS Castricum

Abstract

Under climate warming, migratory birds should align reproduction dates with advancing plant and arthropod phenology. To arrive on the breeding grounds earlier, migrants may speed up spring migration by curtailing the time spent en route, possibly at the cost of decreased survival rates. Based on a decades-long series of observations along an entire flyway, we show that when refuelling time is limited, variation in food abundance in the spring staging area affects fitness. Bar-tailed godwits migrating from West Africa to the Siberian Arctic reduce refuelling time at their European staging site and thus maintain a close match between breeding and tundra phenology. Annual survival probability decreases with shorter refuelling times, but correlates positively with refuelling rate, which in turn is correlated with food abundance in the staging area. This chain of effects implies that conditions in the temperate zone determine the ability of godwits to cope with climate-related changes in the Arctic. Advancing phenological timing is a risk for migratory birds, particularly in the Arctic where change is most rapid. Here, the authors show that bar-tailed godwits can adjust for phenological shifts by fuelling faster at staging areas to arrive at breeding sites in time. [ABSTRACT FROM AUTHOR]

Published

2018