How the food supply harvestable by waders in the Wadden Sea depends on the variation in energy density, body weight, biomass, burying depth and behaviour of tidal-flat invertebrates

Abstract For several reasons, waders in the Wadden Sea face a large seasonal and annual variation in their food supply. Observations on a tidal flat in the Dutch Wadden Sea have shown that: 1. - (1) The average energy density of ten invertebrate prey species varies between 21 and 23 kJ·g−1 AFDW. In Scrobicularia plana and Mya arenaria, but not in Macoma balthica, the energy density is 10% lower in winter than in summer. 2. - (2) Depending on the species, body weights of prey of similar size are 30 to 60% lower in winter than in summer. 3. - (3) The year-to-year fluctuation in standing-crop biomass is larger in some species than in others, the difference depending mainly on the frequency of successful recruitment. The overall biomass of the macrobenthos in winter is half of that in summer, but the timing of the peak biomass differs per species. 4. - (4) The burying depth varies per species: Cerastoderma edule live just beneath the surface, while M. balthica, S. plana, M. arenaria, Arenicola marina and Nereis diversicolor bury more deeply and the majority of these prey live out of reach of the bird's bill. In all six species, burying depth increases with size. There is no seasonal variation in depth of C. edule and M. arenaria, but the four other species live at most shallow depth in early summer and most deeply in midwinter. Burying depths in winter vary from year to year, but are unrelated to temperature. Neither has temperature any effect on depth within months. For knot Calidris canutus feeding on M. balthica, the fluctuation in the accessible fraction was the main source of variation in the biomass of prey that is actually harvestable, i.e. the biomass of prey of suitable size that is accessible. Accordingly, the paper reviews the available data on the temporal variations in accessibility, detectability, ingestibility, digestibility and profitability of prey for waders. Only a small part of the prey is harvestable since many accessible prey are ignored because of their low profitability, while many profitable prey are inaccessible. The profitability of prey depends on their size and weight but also on their depth in the mud, since handling time increases with burying depth. A simple biomechanical rule explains why the handling time of small prey increases with bill length and why large, long-billed waders ignore a disproportionately larger part of the small prey. The fraction detectable for visually feeding waders is usually very low, especially when the temperature of the substrate is below 3–6°C. Waders vary their prey choice over the year in response to the changes in the availability and profitability of their different prey species. The food supply harvestable by waders is much lower in winter than in summer. For waders wintering in the Wadden Sea, the food supply may be characterized as unpredictable and usually meagre. Waders wintering in NW Europe are concentrated in coastal sites where the average surface temperature is above 3°C. This probably cannot be explained by a greater burying depth, and only partly by a lower body condition, of prey in colder areas. Yet the harvestable fraction is lower in colder sites, especially for sight-feeding waders, as invertebrates are less active at low temperatures. However, the lower energetic cost of living and reduced chances of the prey being covered by ice may also contribute to the waders' preference for warmer sites.

[1]  T. Brey,et al.  Energy content of macrobenthic invertebrates: general conversion factors from weight to energy , 1988 .

[2]  J. Goss-Custard The Ecology of the Wash. III. Density-Related Behaviour and the Possible Effects of a Loss of Feeding Grounds on Wading Birds (Charadrii) , 1977 .

[3]  L. Zwarts,et al.  Increase of Feeding Time in Waders Preparing for Spring Migration from the Banc D'Arguin, Mauritania , 1990 .

[4]  M. Pienkowski,et al.  Differences in habitat requirements and distribution patterns of plovers and sandpipers as investigated by studies of feeding behaviour , 1978 .

[5]  J. Dauvin,et al.  Energy Values of Marine Benthic Invertebrates from the Western English Channel , 1989, Journal of the Marine Biological Association of the United Kingdom.

[6]  P. Meadows,et al.  Temperature preferences and activity of Corophium volutator (Pallas) in a new choice apparatus , 1981 .

[7]  J. Goss‐Custard,et al.  Foraging behaviour of oystercatchers Haematopus ostralegus during a diet switch from worms Nereis diversicolor to clams Scrobicularia plana , 1989 .

[8]  P. Möller Production and Abundance of Juvenile Nereis Diversicolor, and Oogenic Cycle of Adults in Shallow Waters of Western Sweden , 1985, Journal of the Marine Biological Association of the United Kingdom.

[9]  G. Cadée,et al.  Sediment reworking by arenicola marina on tidal flats in the Dutch Wadden Sea , 1976 .

[10]  E. Flach The influence of four macrozoobenthic species on the abundance of the amphipod Corophium volutator on tidal flats of the Wadden Sea , 1992 .

[11]  A. Franklin,et al.  Seasonal Changes in the Condition of the Edible Cockle (Cardium edule L.) , 1972 .

[12]  E. Atkinson,et al.  Energy values of marine benthic invertebrates from the Canadian Arctic , 1987 .

[13]  B. Bayne,et al.  Growth and Production of Mussels Mytilus edulis from Two Populations , 1980 .

[14]  Y. Heezik,et al.  The influence of chemoreception on the foraging behaviour of two species of sandpiper, calidris alba and calidris alpina , 1983 .

[15]  J. Goss‐Custard,et al.  Age-related effects in oystercatchers, Haematopus ostralegus, feeding on mussels, Mytilus edulis. I: Foraging efficiency and interference , 1987 .

[16]  R. P. Gendron Searching for cryptic prey: evidence for optimal search rates and the formation of search images in quail , 1986, Animal Behaviour.

[17]  L. Zwarts,et al.  Versatility of male Curlews Numenius arquata preying upon Nereis diversicolor:: deploying contrasting capture modes dependent on prey availability , 1989 .

[18]  R. Hughes Population Dynamics of the Bivalve Scrobicularia plana (Da Costa) on an Intertidal Mud-Flat in North Wales , 1970 .

[19]  J. Goss‐Custard The Responses of Redshank (Tringa totanus (L.)) to Spatial Variations in the Density of their Prey , 1970 .

[20]  P. Ratcliffe,et al.  The Survival of Macoma Balthica (L.) in Mobile Sediments , 1981 .

[21]  Theunis Piersma,et al.  Reconstructing diet composition on the basis of faeces in a mollusc-eating wader, the Knot Calidris canutus , 1993 .

[22]  J. Beukema Calcimass and carbonate production by molluscs on the tidal flats in the Dutch Wadden Sea: II the edible cockle, cerastoderma edule , 1982 .

[23]  G. Napolitano,et al.  Lipids and hydrocarbons in Corophium volutator from Minas Basin, Nova Scotia , 1989 .

[24]  S. Daan,et al.  On the Timing of Foraging Flights by Oystercatchers, Haematopus ostralegus, on Tidal Mudflats , 1981 .

[25]  C. M. Young,et al.  The food of the Shelduck in north-east Scotland , 1981 .

[26]  C. Mettam Seasonal Changes in Populations of Nereis diversicolor O.F. Müller from the Severn Estuary, U.K. , 1979 .

[27]  U. Winther,et al.  The biology of Mya arenaria (Bivalvia) in the eutrophic inner Oslofjord , 1985 .

[28]  D. Worrall Diet of the Dunlin Calidris alpina in the Severn Estuary , 1984 .

[29]  E. M. Berghuis,et al.  Spawning and gamete production in Arenicola marina in the Netherlands, Wadden Sea , 1979 .

[30]  J. J. Beukema,et al.  Biomass and species richness of the macrobenthic animals living on a tidal flat area in the Dutch Wadden Sea: Effects of a severe winter , 1979 .

[31]  T. Székely,et al.  Predation of waders (Charadrii) on prey populations : an exclosure experiment , 1992 .

[32]  W. Sutherland,et al.  The Criteria Determining the Selection of Mussels Mytilus Edulis By Oystercatchers Haematopus Ostralegus , 1987 .

[33]  J. Goss‐Custard,et al.  Seasonal changes in the size selection of mussels, Mytilus edulis, by oystercatchers, Haematopus ostralegus: an optimality approach , 1990, Animal Behaviour.

[34]  J. Beukema,et al.  Population parameters of the lugworm, arenicola marina, living on tidal flats in the Dutch Wadden Sea , 1979 .

[35]  R. Paine ENDOTHERMY IN BOMB CALORIMETRY , 1966 .

[36]  P. Smith,et al.  Length-weight relationships, energy content and the efforts of predation on Corophium volutator (Pallas) (Crustacea: amphipoda) , 1979 .

[37]  L. Zwarts,et al.  Siphon size and burying depth in deposit- and suspension-feeding benthic bivalves , 1989 .

[38]  K. Mouritsen,et al.  Choice of microhabitat in tactile foraging dunlins Calidris alpina: the importance of sediment penetrability , 1992 .

[39]  L. Zwarts,et al.  Annual and seasonal-variation in the food-supply harvestable by knot Calidris-canutus staging in the Wadden Sea in late summer , 1992 .

[40]  R. Rosenberg,et al.  Production and abundance of the amphipod corophium volutator on the west coast of Sweden , 1982 .

[41]  J. Hulscher,et al.  The Oystercatcher Haematopus ostralegus as a Predator of the Bivalve Macoma balthica in the Dutch Wadden Sea , 1981 .

[42]  P. Meadows Experiments on Substrate Selection by Corophium Volutator (Pallas): Depth Selection and Population Density , 1964 .

[43]  K. Jensen,et al.  Population dynamics of Macoma Balthica in the Danish Wadden Sea in an organically enriched area , 1987 .

[44]  J. Beukema,et al.  Year-to-year variability in the biomass of macrobenthic animals on tidal flats of the Wadden Sea: How predictable is this food source for birds? , 1993 .

[45]  M. R. Chambers,et al.  Seasonal variation in the condition of some intertidal invertebrates of the Ythan Estuary, Scotland , 1979 .

[46]  J. Goss‐Custard The Energetics of Prey Selection by Redshank, Tringa totanus (L.), in Relation to Prey Density , 1977 .

[47]  J. Beukema,et al.  Seasonal changes in dry weight and chemical composition of the soft parts of the tellinid bivalve Macoma balthica in the Dutch Wadden Sea , 1977 .

[48]  Theunis Piersma,et al.  Effects of Microhabitat, Flocking, Climate and Migratory Goal on Energy Expenditure in the Annual Cycle of Red Knots , 1994 .

[49]  L. Pihl,et al.  Recruitment mechanisms in North Sea Plaice Pleuronectes platessa , 1990 .

[50]  U. Safriel,et al.  Time‐Energy Budget of the Semipalmated Sandpiper Calidris Pusilla at Barrow, Alaska , 1979 .

[51]  J. J. Beukema,et al.  Annual variation in reproductive success and biomass of the major macrozoobenthic species living in a tidal flat area of the Wadden Sea , 1982 .

[52]  M. J. Norušis,et al.  Spss/Pc+ V2.0 Base Manual for the IBM Pc/Xt/at and Ps/2 , 1988 .

[53]  R. Barnes Daily activity rhythms in the intertidal gastropod Hydrobia ulvae (Pennant) , 1986 .

[54]  Theunis Piersma,et al.  Scale and intensity of intertidal habitat use by knots Calidris canutus in the Western Wadden Sea in relation to food, friends and foes , 1993 .

[55]  W. Wolff,et al.  Feeding and survival strategies of estuarine organisms , 1983 .

[56]  J. A. Oyenekan Population dynamics and secondary production in an estuarine population of Nephtys hombergii (Polychaeta: Nephtyidae) , 1986 .

[57]  P. J. Morgan,et al.  Reproductive energetics, endocrinology and population dynamics of Nephtys caeca and N. hombergi , 1985 .

[58]  Vaneerden,et al.  SIZE SELECTION IN DIVING TUFTED DUCKS AYTHYA-FULIGULA EXPLAINED BY DIFFERENTIAL HANDLING OF SMALL AND LARGE MUSSELS DREISSENA-POLYMORPHA , 1992 .

[59]  J. Goss‐Custard,et al.  Foraging behaviour of oystercatchers Haematopus ostralegus specializing on different species of prey , 1992 .

[60]  J. Goss‐Custard,et al.  The density of migratory and overwintering redshank, Tringa totanus (L.) and curlew, Numenius arquata (L.), in relation to the density of their prey in south-east England , 1977 .

[61]  W. Vader A preliminary investigation into the reactions of the infauna of the tidal flats to tidal fluctuations in water level , 1964 .

[62]  M. Leopold,et al.  Differences in bill form of the oystercatcher haematopus ostralegus; a dynamic adaptation to specific foraging techniques , 1983 .

[63]  M. L. Thomas,et al.  Some aspects of the foraging ecology of migrant juvenile sandpipers in the outer Bay of Fundy , 1984 .

[64]  D. Zandee,et al.  The Influence of Seasonal Changes on Energy Metabolism in Mytilus edulis (L.). I. Growth Rate and Biochemical Composition in relation to Environmental Parameters and Spawning , 1979 .

[65]  L. Zwarts,et al.  Prey Depletion and the Regulation of Predator Density: Oystercatchers ( Haematopus Ostralegus ) Feeding on Mussels ( Mytilus Edulis ) , 1981 .

[66]  K. Jensen The presence of the bivalve Cerastoderma edule affects migration, survival and reproduction of the amphipod Corophium volutator , 1985 .

[67]  B. J. Ens,et al.  Wulpen op het wad van Moddergat , 1980 .

[68]  M. Mathivat-Lallier,et al.  Life-history of Nephtys hombergii in Arcachon Bay , 1991 .

[69]  J. Birklund Biomass, growth and production of the amphipod Corophium insidiosum crawford, and preliminary notes on Corophium volutator (Pallas) , 1977 .

[70]  W. Sutherland,et al.  SPATIAL VARIATION IN THE PREDATION OF COCKLES BY OYSTERCATCHERS AT TRAETH MELYNOG, ANGLESEY. II. THE PATTERN OF MORTALITY , 1982 .

[71]  M. Pienkowski The Effects of Environmental Conditions on Feeding Rates and Prey-Selection of Shore Plovers , 1983 .

[72]  M. Gilbert,et al.  GROWTH RATE, LONGEVITY AND MAXIMUM SIZE OF MACOMA BALTHICA (L.) , 1973 .

[73]  A. Koolhaas,et al.  Wind effects on prey availability: How northward migrating waders use brackish and hypersaline lagoons in the Sivash, Ukraine , 1993 .

[74]  D. J. Curtis,et al.  Seasonal variations in prey selection by estuarine black-headed gulls (Larus ridibundus) , 1985 .

[75]  E. Mayes,et al.  Biochemical composition and sediment temperature in relation to the reproductive cycle in the Lugworm arenicola marina , 1985 .

[76]  P. R. Evans Predation of Intertidal Fauna by Shorebirds in Relation to Time of the Day, Tide and Year , 1988 .

[77]  B. Ens,et al.  Kleptoparasitism as a problem of prey choice: a study on mudflat-feeding curlews, Numenius arquata , 1990, Animal Behaviour.

[78]  P. E. Davidson Some Foods taken by Waders in Morecambe Bay, Lancashire , 1971 .

[79]  L. Zwarts,et al.  SELECTIVITY OF WHIMBRELS FEEDING ON FIDDLER-CRABS EXPLAINED BY COMPONENT SPECIFIC DIGESTIBILITIES , 1990 .

[80]  E. Smidt Animal production in the Danish Waddensea , 1951 .

[81]  J. Goss‐Custard Optimal foraging and the size selection of worms by redshank, Tringa totanus, in the field , 1977, Animal Behaviour.

[82]  P. Olive,et al.  Gametogenic cycle and population structure of Nereis (Hediste) diversicolor and Nereis (Nereis) pelagica from north-east England , 1981, Journal of the Marine Biological Association of the United Kingdom.

[83]  L. Zwarts,et al.  Why knot Calidris canutus take medium-sized Macoma balthica when six prey species are available , 1992 .

[84]  E. M. Berghuis,et al.  LABORATORY EXPERIMENTS ON THE SPAWNING OF MACOMA BALTHICA; ITS IMPLICATION FOR PRODUCTION RESEARCH , 1978 .

[85]  P. Dugan The Importance of Nocturnal Foraging in Shorebirds: A Consequence of Increased Invertebrate Prey Activity , 1981 .

[86]  D. C. Edwards,et al.  Feeding and Growth Rates of Polinices Duplicatus Preying on Mya Arenaria at Barnstable Harbor, Massachusetts , 1977 .

[87]  William J. Sutherland,et al.  Do oystercatchers select the most profitable cockles? , 1982, Animal Behaviour.

[88]  H. Ronald Pulliam,et al.  SEARCH AND PREY DETECTION BY FORAGING SPARROWS , 1993 .

[89]  D. J. Townshend The Importance of Field Feeding to the Survival of Wintering Male and Female Curlews Numenius Arquata on the Tees Estuary , 1981 .

[90]  J. J. Beukema,et al.  Biomass and species richness of the macro-benthic animals living on the tidal flats of the Dutch Wadden Sea , 1976 .

[91]  J. J. Beukema,et al.  Seasonal changes in the biomass of the macro-benthos of a tidal flat area in the Dutch Wadden Sea , 1974 .

[92]  M. Pekkarinen Seasonal changes in condition and biochemical constituents in the soft part of Macoma balthica (Lamellibranchiata) in the Tvärminne brackish water area (Baltic Sea) , 1983 .

[93]  P. R. Evans Adaptations Shown by Foraging Shorebirds to Cyclical Variations in the Activity and Availability of Their Intertidal Invertebrate Prey , 1979 .

[94]  S. Mcgrorty,et al.  Seasonal variations in the burying depth of Macoma balthica (L.) and its accessibility to wading birds , 1978 .

[95]  L. Zwarts Seasonal variation in body weight of the bivalves Macoma balthica, Scrobicularia plana, Mya arenaria and Cerastoderman edule in the Dutch Wadden sea , 1991 .

[96]  E. M. Berghuis,et al.  Spawning, larval development and migration of Arenicola marina under field conditions in the western Wadden Sea , 1979 .

[97]  J. Beukema Dynamics of juvenile shrimp Crangon crangon in a tidal-flat nursery of the Wadden Sea after mild and cold winters , 1992 .

[98]  J. S. Gray,et al.  Marine Biology of Polar Regions and Effects of Stress on Marine Organisms. , 1986 .

[99]  P. Heppleston The Feeding Ecology of Oystercatchers (Haematopus ostralegus L.) in Winter in Northern Scotland , 1971 .

[100]  J. Beukema Calcimass and carbonate production by molluscs on the tidal flats in the Dutch Wadden Sea: I. The tellinid bivalve Macoma balthica , 1980 .

[101]  C. M. Hawkins Population carbon budgets and the importance of the amphipod corophium volutator in the carbon transfer on a cumberland basin mudflat, upper bay of fundy, Canada , 1985 .

[102]  D. Bryant,et al.  Feeding distribution and behaviour of Shelduck in relation to food supply , 1975 .

[103]  J. Beukema Increased mortality in alternative bivalve prey during a period when the tidal flats of the Dutch Wadden Sea were devoid of mussels , 1993 .

[104]  L. Zwarts Burying depth of the benthic bivalve Scrobicularia plana (da Costa) in relation to siphon-cropping , 1986 .

[105]  Peter C. Smith,et al.  A study of the winter feeding ecology and behaviour of the bar-tailed godwit (limosa lapponica) , 1975 .

[106]  Peter C. Smith,et al.  Crawling behaviour of the amphipod Corophium volutator and foraging by Semipalmated Sandpipers, Calidris pusilla , 1989 .

[107]  R. Caldow,et al.  Sex-related differences in diet and feeding method in the oxystercatcher Haematopus ostralegus , 1993 .

[108]  W. Breteler Food consumption, growth and energy metabolism of juvenile shore crabs, Carcinus maenas , 1975 .

[109]  M. Pienkowski Surface activity of some intertidal invertebrates in relation to temperature and the foraging behaviour of their shorebird predators , 1983 .

[110]  R. Hughes An Energy Budget for a Tidal-Flat Population of the Bivalve Scrobicularia plana (Da Costa) , 1970 .

[111]  Theunis Piersma,et al.  University of Groningen INTERACTIONS BETWEEN STOMACH STRUCTURE AND DIET CHOICE IN SHOREBIRDS , 2008 .

[112]  P. Smith,et al.  Selection of foraging sites and invertebrate prey by migrant Semipalmated Sandpipers, Calidris pusilla (Pallas), in Minas Basin, Bay of Fundy , 1984 .

[113]  A. Ansell,et al.  Studies on Tellina tenuis da costa I. Seasonal growth and biochemical cycle , 1967 .

[114]  A. Meiboom,et al.  The role of touch in prey density estimation by Calidris alba , 1985 .

[115]  J. Myers,et al.  An experimental analysis of prey availability for sanderlings (Aves: Scolopacidae) feeding on sandy beach crustaceans , 1980 .

[116]  R. Summers,et al.  Tidal and sexual differences in the diet of Purple Sandpipers Calidris maritima in Scotland , 1990 .

[117]  G. Cadée,et al.  Tissue composition and reproduction of mytilus edulis in relation to food availability , 1980 .

[118]  K. Jensen,et al.  A field experiment on competition between Corophium volutator (Pallas) and Corophium arenarium Crawford (Crustacea:Amphipoda): effects on survival, reproduction and recruitment , 1990 .

[119]  R. Williams,et al.  The Ecology of the Wash. II. Seasonal Variation in the Feeding Conditions of Wading Birds (Charadrii) , 1977 .

[120]  M. R. Chambers,et al.  The production of Macoma balthica (L.) in the Ythan Estuary , 1975 .

[121]  J. Hulscher LOCALIZATION OF COCKLES (CARDIUM-EDULE L) BY OYSTERCATCHER (HAEMATOPUS-OSTRALEGUS L) IN DARKNESS AND DAYLIGHT , 1976 .

[122]  P. Meire,et al.  Are oystercatchers (Haematopus ostralegus) selecting the most profitable mussels (Mytilus edulis)? , 1986, Animal Behaviour.

[123]  C. Little,et al.  The burrowing and floating behaviour of the gastropod Hydrobia ulvae , 1976 .

[124]  L. Zwarts,et al.  Seasonal trend in burrow depth and tidal variation in feeding activity of Nereis diversicolor , 1989 .

[125]  A. Prater The Ecology of Morecambe Bay. III. The Food and Feeding Habits of Knot (Calidris canutus L.) in Morecambe Bay , 1972 .

[126]  J. Beukema The abundance of shore crabs Carcinus maenas (L.) on a tidal flat in the Wadden Sea after cold and mild winters , 1991 .

[127]  C. D. Vooys Glycogen and total lipids in the lugworm (Arenicola marina) in relation to reproduction , 1975 .

[128]  H. Hummel Food intake of Macoma balthica (mollusca) in relation to seasonal changes in its potential food on a tidal flat in the Dutch Wadden Sea , 1985 .

[129]  W. Wolff Ecology of the Wadden Sea , 1983 .

[130]  H. Bartels-Hardege,et al.  Reproductive behaviour ofNereis diversicolor (Annelida: Polychaeta) , 1990 .

[131]  T. Piersma,et al.  High Levels of Energy Expenditure in Shorebirds; Metabolic Adaptations to an Energetically Expensive Way of Life , 1987 .

[132]  H. W. Veer,et al.  Population dynamics of an intertidal 0-group flounder Platichthys flesus population in the western Dutch Wadden Sea , 1991 .

[133]  D. B. Edwards,et al.  Seasonal changes in flesh weight and biochemical composition of mussels (Mytilus edulis L.) in the Conwy Estuary, North Wales , 1975 .