Your search keyword '"DEKINGA, ANNE"' showing total 118 results

101. Scale and intensity of intertidal habitat use by knots Calidris canutus in the Western Wadden Sea in relation to food, friends and foes

Author

Piersma, Theunis, primary, Hoekstra, Rinke, additional, Dekinga, Anne, additional, Koolhaas, Anita, additional, Wolf, Pim, additional, Battley, Phil, additional, and Wiersma, Popko, additional

Published

1993

102. Now an empty mudflat: past and present benthic abundances in the western Dutch Wadden Sea.

Author

Kraan, Casper, Dekinga, Anne, and Piersma, Theunis

Subjects

*TIDAL flats, *GROUNDFISHES, *BIVALVES

Abstract

The benthic fauna of two areas in the western Dutch Wadden Sea, Posthuiswad and Staart van Schieringhals, was described in 1930-1960 and again between 1996 and 2005. Here, we document the changes. Whereas both areas formerly had high densities of species that biogenically structured the intertidal mudflats such as mussels Mytilus edulis and cockles Cerastoderma edule, by 1996 they had shown a tenfold decrease in the densities of molluscs, with no recovery till 2005. Although the number of species of polychaetes and crustaceans may not have changed much, their relative abundance did. Nowadays, more polychaete species are common than before. We briefly discuss whether the changes in benthic community composition could be due to industrial fishery practices or eutrophication effects. [ABSTRACT FROM AUTHOR]

Published

2011

103. Why Afro-Siberian Red Knots Calidris canutus canutus have stopped staging in the western Dutch Wadden Sea during southward migration.

Author

Kraan, Casper, Van Gils, Jan A., Spaans, Bernard, Dekinga, Anne, and Piersma, Theunis

Abstract

This article discusses a study which examined the decline in the food stocks of Afro-Siberian Red Knots in the western Dutch Wadden Sea. Particular focus is given to the boundaries of the western Dutch Wadden Sea, which was surveyed from 1996-2005. Between July and early September, annual sampling of intertidal macrozoobenthic prey were performed. An optimal diet model was used in this study to predict the intake rate of Red Knots. Results of the study showed that there were changes in the extent of intertidal mudflats that fulfilled the minimum intake needs of Red Knots. From 1996-2005, the study found an 86% drop in suitable foraging area. It also found a decline in the proportion of Red Knots without primary moult.

Published

2010

104. Reversed optimality and predictive ecology: burrowing depth forecasts population change in a bivalve.

Author

Van Gils, Jan A., Kraan, Casper, Dekinga, Anne, Koolhaas, Anita, Drent, Jan, De Goeij, Petra, and Piersma, Theunis

Subjects

ANIMAL populations, MACOMA baltica, ANTIPREDATOR behavior, ANIMAL behavior, BIVALVES, POPULATION biology

Abstract

The article focuses on a study which described the use of the behavioural anti-predation trait of the marine bivalve Macoma balthica as an indicator of population size change. The study utilized the burrowing depth character of Baltic tellin to forecast population change. It analyzed three components of population change, namely the decline in the risk of predation at a given depth, increased in the marginal value of energy, and the decline in Macoma balthica's expected future fitness. Study authors concluded that behavioural ecology can be used to predict the perception of animals about their environment.

Published

2009

105. Assessment of the amount of body water in the Red Knot ( Calidris canutus ): an evaluation of the principle of isotope dilution with 2 H, 17 O, and 18 O as measured with laser spectrometry and isotope ratio mass spectrometry.

Author

Kerstel, Erik R. T., Piersma, Theunis A. J., Gessaman, G. Jim, Dekinga, Anne, Meijer, Harro A. J., and Visser, G. Henk

Subjects

ISOTOPE dilution analysis, BODY composition, SHORE birds, RED knot (Bird), WATER in the body

Abstract

We have used the isotope dilution technique to study changes in the body composition of a migratory shorebird species (Red Knot, Calidris canutus ) through an assessment of the amount of body water in it. Birds were quantitatively injected with a dose of water with elevated concentrations of 2 H, 17 O, and 18 O. Thereafter, blood samples were taken and distilled. The resulting water samples were analysed using an isotope ratio mass spectrometry (for 2 H and 18 O only) and a stable isotope ratio infrared laser spectrometry ( 2 H, 17 O, and 18 O) to yield estimates of the amount of body water in the birds, which in turn could be correlated to the amount of body fat. Here, we validate laser spectrometry against mass spectrometry and show that all three isotopes may be used for body water determinations. This opens the way to the extension of the doubly labelled water method, used for the determination of energy expenditure, to a triply labelled water method, incorporating an evaporative water loss correction on a subject-by-subject basis or, alternatively, the reduction of the analytical errors by statistically combining the 17 O and 18 O measurements. [ABSTRACT FROM AUTHOR]

Published

2006

106. Digestive bottleneck affects foraging decisions in red knotsCalidris canutus. II. Patch choice and length of working day.

Author

Van Gils, Jan A., Dekinga, Anne, Spaans, Bernard, Vahl, Wouter K., and Piersma, Theunis

Subjects

*RED knot (Bird), *CALIDRIS, *FORAGING behavior, *PREDATORY animals, *DIGESTION, *SURVIVAL behavior (Animals)

Abstract

1. When prey occur at high densities, energy assimilation rates are generally constrained by rates of digestion rather than by rates of collection (i.e. search and handle). As predators usually select patches containing high prey densities, rates of digestion will play an important role in the foraging ecology of a species.2. The red knotCalidris canutusshows tremendous inter- and intra-individual variation in maximum rates of digestion due to variation in the size of the processing machinery (gizzard and intestine), which makes it a suitable species to study the effects of digestive processing rate on foraging decisions.3. Here we report on patch use, prey choice, and daily foraging times as a function of gizzard size in free-ranging, radio-marked, red knots. As knots crush their bulky bivalve prey in their gizzard, the size of this organ, which we measured using ultrasonography, determines digestive processing rate.4. Using the digestive rate model, we a priori modelled patch use, prey choice, and daily foraging times as a function of gizzard mass. Focusing on two contrasting patches, birds with small gizzards were expected to feed on high-quality (soft-bodied) prey found in low densities in the one patch, while birds with large gizzards were expected to feed on low-quality (hard-shelled) prey found in high densities in the other patch. Assuming that red knots aim to balance their energy budget on a daily basis, we expected daily foraging time to decline with gizzard mass.5. Observed patch and prey choices were in quantitative agreement with these theoretical predictions. Observed daily foraging times were only in qualitative agreement: they declined with gizzard mass but less steeply than predicted.6. We discuss that red knots might be aiming for a slightly positive energy budget in order to (i) refuel their stores depleted during migration, and (ii) to insure against unpredictability in supply and demand during winter. Red knots arriving from their breeding grounds with small gizzards are only able to realize this aim when densities of soft-bodied prey are high, which is the case in late July and early August. Rapidly declining soft-bodied prey densities throughout late summer pose a major penalty for individuals arriving late at their wintering grounds.7. The long daily foraging periods required by knots with small gizzards are only feasible through‘tide-extension’. In our study area, birds can and do raise the daily low tide period from 12 h to almost 17 h by moving along with the tide in an easterly direction, subsequently flying back to their starting point at the high tide roost.Journal of Animal Ecology(2005) doi: 10.1111/j.1365-2656.2004.00904.x [ABSTRACT FROM AUTHOR]

Published

2005

107. Do body condition and plumage during fuelling predict northwards departure dates of Great KnotsCalidris tenuirostrisfrom north-west Australia?

Author

Battley, Phil F., Piersma, Theunis, Rogers, Danny I., Dekinga, Anne, Spaans, Bernard, and Van Gils, Jan A.

Subjects

ORNITHOLOGY, BIRDS, BREEDING, MEDICAL imaging systems, ZOOLOGY

Abstract

It is often assumed that strong selection pressures give rise to trade-offs between body condition and time in long-distance migrating birds. Birds that are‘behind schedule’ in fuel deposition or moult should delay departure, and this should result in a negative correlation between initial condition and departure date. We tested this hypothesis in the Great KnotCalidris tenuirostrismigrating from north-west Australia to eastern Asia en route to Siberia. Great Knot gain mass and moult into breeding plumage before leaving northern Australia in late March and early April, and fly 5400–6000 km to eastern China and Korea. We radiotracked 27 individuals (17 males and ten females) to determine departure dates; 23 migrated and four remained in Australia. We characterized body condition at capture using body mass, predicted pectoral muscle mass (based on ultrasound estimates of the size of the pectoral muscles) and breeding plumage scores. Residual condition indices were uncorrelated, indicating that at the individual level, variation in one fuelling component was not strongly associated with variation in the other components. Birds that did not depart had lower residual body mass and breeding plumage indices than those that did migrate; these four birds may have been subadults. Neither sex, size nor the condition indices explained variation in departure date of migrants. Reasons for this are explored. Departure dates for northward migrating waders indicate that the migration window (span over which birds depart) decreases with proximity to the northern breeding grounds. We suggest that migration schedules become tighter as birds get nearer to the breeding grounds. Thus the lack of a relationship between condition and departure date in Great Knots may reflect the fact that the departure episode under study is the first one in sequence and is still 4–8 weeks before breeding. [ABSTRACT FROM AUTHOR]

Published

2004

108. Additional file 1: of Resource landscapes explain contrasting patterns of aggregation and site fidelity by red knots at two wintering sites

Author

Oudman, Thomas, Piersma, Theunis, Salem, Mohamed Ahmedou, Feis, Marieke, Dekinga, Anne, Holthuijsen, Sander, Horn, Job Ten, Gils, Jan Van, and Allert Bijleveld

Subjects

15. Life on land

Abstract

Supplementary material. (PDF 430 kb)

109. Additional file 1: of Resource landscapes explain contrasting patterns of aggregation and site fidelity by red knots at two wintering sites

Author

Oudman, Thomas, Piersma, Theunis, Salem, Mohamed Ahmedou, Feis, Marieke, Dekinga, Anne, Holthuijsen, Sander, Horn, Job Ten, Gils, Jan Van, and Allert Bijleveld

Subjects

15. Life on land

Abstract

Supplementary material. (PDF 430 kb)

110. Cause for caution: Response to Forum Contribution by van der Meer and Folmer.

Author

Piersma, Theunis, Koolhaas, Anita, van Gils, Jan A., and Dekinga, Anne

Subjects

*LITERATURE reviews, *BIRD habitats, *POPULATION ecology, *HARVESTING, *DREDGING, *TIDAL flats

Abstract

Triggered by the disappearance of the bivalve‐eating red knots Calidris canutus from feeding areas in the western Dutch Wadden Sea after these intertidal flats were exposed to the harvesting of edible cockles Cerastoderma edule by shallow‐draft suction dredging vessels, the admission of such dredging practices in this state nature monument, RAMSAR‐site and area designated protection under the EC Habitat and Bird Directives became an issue of politicized and heated societal debate in the 1990s and early 2000s. In the absence of focussed scientific research yielding peer‐reviewed papers, the few published studies on the issue were 'side‐products' of a long‐term study on foraging ecology and population dynamics of red knots.In their contribution, van der Meer and Folmer criticized some of the statistical analyses in, what they consider, key papers leading to the closure of these forms of shellfish‐harvesting in the Dutch Wadden Sea.The material provided by van der Meer and Folmer represents useful hindsight, further analytical sophistication and a (in our view biased) literature review, and thus raises new issues of concern, while leaving intact the arguments for concern about harmful ecological effects of large‐scale suction‐dredging in protected intertidal areas.Policy implications. We conclude that, even in the light of the statistical concerns expressed by van der Meer and Folmer, there is still reasonable doubt on an absence of harmful ecological effects of suction‐dredging. This means that the eventual precautionary ruling on suction‐dredging for cockles in the protected Dutch Wadden Sea would remain perfectly valid. [ABSTRACT FROM AUTHOR]

Published

2023

111. Identical Metabolic Rate and Thermal Conductance in Rock Sandpiper (Calidris ptilocnemis) Subspecies with Contrasting Nonbreeding Life Histories

Author

Ruthrauff, Daniel R., Dekinga, Anne, Gill, Robert E., and Piersma, Theunis

Published

2013

112. Do Red Knots (Calidris Canutus Islandica) Routinely Skip Iceland During Southward Migration?

Author

Dietz, Maurine W., Spaans, Bernard, Dekinga, Anne, Klaassen, Marcel, Korthals, Harry, Leeuwen, Casper Van, and Piersma, Theunis

Published

2010

113. WATLAS: high-throughput and real-time tracking of many small birds in the Dutch Wadden Sea.

Author

Bijleveld, Allert I., van Maarseveen, Frank, Denissen, Bas, Dekinga, Anne, Penning, Emma, Ersoy, Selin, Gupte, Pratik R., de Monte, Luc, ten Horn, Job, Bom, Roeland A., Toledo, Sivan, Nathan, Ran, and Beardsworth, Christine E.

Subjects

*ANIMAL tracks, *WORLD Heritage Sites, *ANIMAL behavior, *EFFECT of human beings on climate change, *ANIMAL mechanics, *BIRD populations

Abstract

Tracking animal movement is important for understanding how animals interact with their (changing) environment, and crucial for predicting and explaining how animals are affected by anthropogenic activities. The Wadden Sea is a UNESCO World Heritage Site and a region of global importance for millions of shorebirds. Due to climate change and anthropogenic activity, understanding and predicting movement and space-use in areas like the Wadden Sea is increasingly important. Monitoring and predicting animal movement, however, requires high-resolution tracking of many individuals. While high-resolution tracking has been made possible through GPS, trade-offs between tag weight and battery life limit its use to larger species. Here, we introduce WATLAS (the Wadden Sea deployment of the ATLAS tracking system) capable of monitoring the movements of hundreds of (small) birds simultaneously in the Dutch Wadden Sea. WATLAS employs an array of receiver stations that can detect and localize small, low-cost tags at fine spatial (metres) and temporal resolution (seconds). From 2017 to 2021, we tracked red knots, sanderlings, bar-tailed godwits, and common terns. We use parts of these data to give four use-cases revealing its performance and demonstrating how WATLAS can be used to study numerous aspects of animal behaviour, such as, space-use (both intra- and inter-specific), among-individual variation, and social networks across levels of organization: from individuals, to species, to populations, and even communities. After describing the WATLAS system, we first illustrate space-use of red knots across the study area and how the tidal environment affects their movement. Secondly, we show large among-individual differences in distances travelled per day, and thirdly illustrate how high-throughput WATLAS data allows calculating a proximity-based social network. Finally, we demonstrate that using WATLAS to monitor multiple species can reveal differential space use. For example, despite sanderlings and red knots roosting together, they foraged in different areas of the mudflats. The high-resolution tracking data collected by WATLAS offers many possibilities for research into the drivers of bird movement in the Wadden Sea. WATLAS could provide a tool for impact assessment, and thus aid nature conservation and management of the globally important Wadden Sea ecosystem. [ABSTRACT FROM AUTHOR]

Published

2022

114. Evolutionary design of a flexible, seasonally migratory, avian phenotype: why trade gizzard mass against pectoral muscle mass?

Author

Mathot, Kimberley J., Kok, Eva M. A., Burant, Joseph B., Dekinga, Anne, Manche, Petra, Saintonge, Darren, and Piersma, Theunis

Subjects

*EMIGRATION & immigration, *BIRD ecology, *GIZZARD, *MUSCLE mass, *CONJOINT analysis

Abstract

Migratory birds undergo impressive body remodelling over the course of an annual cycle. Prior to long-distance flights, red knots (Calidris canutus islandica) reduce gizzard mass while increasing body mass and pectoral muscle mass. Although body mass and pectoral muscle mass are functionally linked via their joint effects on flight performance, gizzard and pectoral muscle mass are thought to be independently regulated. Current hypotheses for observed negative within-individual covariation between gizzard and pectoral muscle mass in free-living knots are based on a common factor (e.g. migration) simultaneously affecting both traits, and/or protein limitation forcing allocation decisions. We used diet manipulations to generate within-individual variation in gizzard mass and test for independence between gizzard and pectoral muscle mass within individuals outside the period of migration and under conditions of high protein availability. Contrary to our prediction, we observed a negative within-individual covariation between gizzard and pectoral muscle mass. We discuss this result as a potential outcome of an evolved mechanism underlying body remodelling associated with migration. Although our proposed mechanism requires empirical testing, this study echoes earlier calls for greater integration of studies of function and mechanism, and in particular, the need for more explicit consideration of the evolution of mechanisms underlying phenotypic design. [ABSTRACT FROM AUTHOR]

Published

2019

115. Rates of mass gain and energy deposition in red knot on their final spring staging site is both time- and condition-dependent.

Author

ATKINSON, PHILIP W., BAKER, ALLAN J., BENNETT, KAREN A., CLARK, NIGEL A., CLARK, JACQUIE A., COLE, KIMBERLY B., DEKINGA, ANNE, DEY, AMANDA, GILLINGS, SIMON, GONZÁLEZ, PATRICIA M., KALASZ, KEVIN, MINTON, CLIVE D. T., NEWTON, JASON, NILES, LAWRENCE J., PIERSMA, THEUNIS, ROBINSON, ROBERT A., and SITTERS, HUMPHREY P.

Subjects

*RED knot (Bird), *BIRD migration, *GENOTYPE-environment interaction, *SHORE birds, *LIMULUS polyphemus, *ANIMALS, *AQUATIC resources, *HABITATS, *CRABS

Abstract

1. Millions of shorebirds migrate each year through a small number of highly productive staging areas where they often conflict with fisheries interests. Delaware Bay, USA, is a major shorebird stopover site where, in spring, many thousands of shorebirds undergo rapid mass gain by feeding on the eggs of commercially harvested horseshoe crabs Limulus polyphemus. 2. Environmental factors may cause deviations from the best migration schedule. We used within-year mass gain data from red knot Calidris canutus caught in Delaware Bay between 1998 and 2005 to determine the degree of flexibility individuals have to vary migration speed. 3. Mass gain by birds below 133 g was shown to comprise 15·3% fat (39 kJ g−1), the remainder being lean mass (6 kJ g−1). Above this critical level, fat comprised 83·9% of mass deposition. The rates of energy deposition (kJ d−1) were therefore fundamentally different between the two states but were among the highest ever recorded among vertebrates (5–7 × basic metabolic rate). 4. A total of 36–62% of the variation in observed rates of energy deposition between 1998 and 2002 was explained by a year factor, date and mass at initial capture and interaction terms, such that light-weight birds at the end of May had rates of mass gain or energy deposition two to three times higher than birds of similar mass in mid-May, indicating that birds were attempting to achieve a certain mass by a certain date. In 2003 and 2005, this relationship broke down as a result of lower densities of eggs. 5. Synthesis and application. The maintenance of high densities of crab eggs required for high rates of mass gain in red knot requires severe cuts in, or the complete cessation of, the crab harvest, reduced human and raptor-related disturbance as well as management of beaches to provide sufficient crab-spawning habitat. These findings are widely applicable to other systems where harvesting activities come into conflict with migrating animals and show that certain sections of the population, in this case the long-distance migrants from South America, will be impacted more than short-distance migrants whose physiology may give them access to alternative food resources. [ABSTRACT FROM AUTHOR]

Published

2007

116. Environmental factors influencing red knot ( Calidris canutus islandica ) departure times of relocation flights within the non-breeding period.

Author

Gobbens E, Beardsworth CE, Dekinga A, Ten Horn J, Toledo S, Nathan R, and Bijleveld AI

Abstract

Deciding when to depart on long-distance, sometimes global, movements can be especially important for flying species. Adverse weather conditions can affect energetic flight costs and navigational ability. While departure timings and conditions have been well-studied for migratory flights to and from the breeding range, few studies have focussed on flights within the non-breeding season. Yet in some cases, overwintering ranges can be large enough that ecological barriers, and a lack of resting sites en route, may resist movement, especially in unfavorable environmental conditions. Understanding the conditions that will enable or prohibit flights within an overwintering range is particularly relevant in light of climate change, whereby increases in extreme weather events may reduce the connectivity of sites. We tracked 495 ( n  = 251 in 2019; n  = 244 in 2020) overwintering red knots ( Calidris canutus islandica ) in the Dutch Wadden Sea and investigated how many departed towards the UK (on westward relocation flights), which requires flying over the North Sea. For those that departed, we used a resource selection model to determine the effect of environmental conditions on the timing of relocation flights. Specifically, we investigated the effects of wind, rain, atmospheric pressure, cloud cover, and migratory timing relative to sunset and tidal cycle, which have all been shown to be crucial to migratory departure conditions. Approximately 37% (2019) and 36% (2020) of tagged red knots departed on westward relocation flights, indicating differences between individuals' space use within the overwintering range. Red knots selected for departures between 1 and 2.5 h after sunset, approximately 4 h before high tide, with tailwinds and little cloud cover. However, rainfall and changes in atmospheric pressure appear unimportant. Our study reveals environmental conditions that are important for relocation flights across an ecological barrier, indicating potential consequences of climate change on connectivity., Competing Interests: The authors declare no conflicts of interest., (© 2024 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published

2024

117. Erratum: Publisher Correction: Resource landscapes explain contrasting patterns of aggregation and site fidelity by red knots at two wintering sites.

Author

Oudman T, Piersma T, Ahmedou Salem MV, Feis ME, Dekinga A, Holthuijsen S, Ten Horn J, van Gils JA, and Bijleveld AI

Abstract

[This corrects the article DOI: 10.1186/s40462-018-0142-4.].

Published

2019

118. Avian migration: temporal multitasking and a case study of melatonin cycles in waders.

Author

Helm B, Gwinner E, Koolhaas A, Battley P, Schwabl I, Dekinga A, and Piersma T

Subjects

Animals, Circadian Rhythm physiology, Environment, Animal Migration physiology, Birds physiology, Melatonin metabolism, Photoperiod, Seasons

Abstract

Timing "in the real world" must cope with the temporal complexity of natural environments. Extreme examples for the resultant "multitasking" are migratory birds, which precisely time movements to remote areas. New field technologies highlight temporal accuracy, while captivity studies emphasize underlying programs and plasticity of schedules. After reviewing these findings, we focus on waders, which undertake spectacular long-distance migrations, have robust circannual clocks, and cope with diel, tidal, and polar environments. To explore features that may facilitate such multitasking, we speculated that melatonin amplitudes are low and damped during seasons when entrainment to subtle Zeitgebers occurs. We measured melatonin profiles under European daylength in two species with different ecologies and found low-amplitude melatonin cycles that changed over the year. Annual patterns neither fully supported our hypothesis, nor simply reflected daylight availability. While migratory birds are inspiring models for chronobiology, mechanistic understanding of their multitasking is still poor., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published

2012