Abstract
Recent evidence has shown that postlarvae and juveniles of the most dominant species of theAbra alba community of the eastern Baie de Seine are able to re-enter the water column after larval settlement and undergo active and/or passive redistribution. However, few subtidal studies have been conducted to investigate and quantify the processes controlling the abundance of drifting postlarvae and juveniles. The purpose of this study was to verify the reproducibility or the variability of this phenomenon and to assess coupling between the intensity of drifting and that of bed shear stress, which is dependent on tidal currents, wave characteristics, and sediment features. This study was conducted in June and July 1995 at two sites in the bay, one located at the center of the muddy fine-sediment community and the other at its external border with the fine clean sands of theOphelia borealis community. At each site, suprabenthic sledge samples were taken during specific tidal conditions (low tide, slack water, and flood and ebb peaks) during a neap and a spring tide. Physical data (current velocity, turbidity, and suspended matter content) and meiobenthic samples were taken at the same time. Under megatidal conditions, drifting was a quantitatively important dispersal mechanism for at least 15 of the fine-sediment dominant species belonging to various groups such as polychaetes, molluscs (gastropods and bivalves), and echinoderms. The fluctuation in abundance of drifters was related to tidal range, tidal period, location of the site, and the recruitment dynamics. However, species differed strongly in theri response to hydrodynamical parameters. Three types of drifting species were observed: species that were only present in the water column (‘undet. cardiids’ and Mytilidae); species that were both drifting and present at the seaded (Abra alba, Phaxas pellucidus, Eteone picta, Mysella bidentata, Ophiura texturata, Owenia fusiformis, Pholoe minuta, Phyllodoce lineata, Pectinaria koreni, andSpisula subtruncata); species that were present at the seabed but did not drift during the sampling period (Acrocnida brachiata, Eteone longa, Eumida sanguinea, Glycinde normanni, Magelona mirabilis, Nemertean sp1,Nephtys sp.,Spiophanes bombyx, andTubulanus polymorphus). Each drifting pattern is related to eco-ethological species characteristics and may have very different consequences on population dynamics.
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Literature Cited
Arfi, R., D. Guiral, andM. Bouvy. 1993. Wind induced resuspension in a shallow tropical lagoon.Estuarine, Coastal and Shelf Science 36:587–604.
Armonies, W. 1989a. Semiplanktonic Plathelminthes in the Wadden Sea.Marine Biology 101:521–527.
Armonies, W. 1989b. Meiofaunal emergence from intertidal sediment measured in the field: Significant contribution to nocturnal planktonic biomass in shallow waters.Helgoländer Meeresuntersuchungen 43:29–43.
Armonies, W. 1994a. Turnover of postlarval bivalves in sediments of tidal flats in Königshafen (German Wadden Sea).Helgoländer Meeresuntersuchungen 48:291–297.
Armonies, W. 1994b. Drifting meio- and macrobenthic invertebrates on tidal flats in Königshafen: A review.Marine Ecology Progress Series 48:299–320.
Armonies, W. andD. Hartcke. 1995. Floating of mud snailsHydrobia ulvae in tidal waters of the Wadden Sea, and its implications in distribution patterns.Helgoländer Meeresuntersuchungen 49:529–538.
Armonies, W. andM. Hellwic-Armonies. 1992. Passive settlement ofMacoma balthica spat on tidal flats of the Wadden Sea and subsequent migration of juveniles.Netherlands Journal of Sea Research 29:371–378.
Beukema, J. J. andJ. de Vlas. 1989. Tidal-current transport of thread-drifting postlarval juveniles of the bivalveMacoma balthica from the Wadden Sea to the North Sea.Marine Ecology Progress Series 52:193–200.
Brookins, K. G. andC. E. Epifanio. 1985. Abundance of brachyuran larvae in a small coastal inlet over six consecutive tidal cycles.Estuaries 8:60–67.
Butman, C. A. 1987. Larval settlement of soft-sediment invertebrates: The spatial scales of patterns explained by habitat selection and the emerging role of hydrodynamical processes.Oceanography and Marine Biology: An Annual Review 25:113–165.
Cabioch, L., P. Conti, S. Frontier, F. Gentil, Y. Lagadeuc, P. Legall, G. Reculé, andC. Retière. 1986. Variabilité macrobenthique et phénomènes physiques. Etude du déterminisme du recrutement en Baie de Seine orientale: Hypothèses de travail, stratégies d’échantillonnage et résultats préliminaires, p. 57–76.In Commission of the European Communities, Proceedings of the CCE-COST 647: Coastal Benthic Ecology European Workshop La Coruna. Environment Programme, Directorate General for Science, Research and Development. Brussels, Belgium.
Cabioch, L. andF. Gentil. 1975. Distribution des peuplements benthiques dans la partie orientale de la Baie de Seine.Compte-Rendu de l'Académie des Sciences de Paris 280:571–574.
Chabert d’Hières, G. 1986. La circulation des eaux en Baie de Seine.Actes de Colloque IFREMER 4:15–24.
Commito, J. A., C. A. Currier, L. R. Kane, K. A. Reinsel, andI. M. Ulm. 1995. Dispersal dynamics of the bivalveGemma gemma in a patchy environment.Ecological Monographs 65:1–20.
Cummings, V. J., R. D. Pridmore, S. F. Thrush, andJ. E. Hewitt. 1993. Emergence and floating behaviours of post-settlement juveniles ofMacomona liliana (Bivalvia: Tellinacea).Marine Behaviour and Physiology 24:25–32.
Cummings, V. J., R. D. Pridmore, S. E. Thrush, andJ. E. Hewitt. 1995. Post-settlement movement by intertidal benthic macroinvertebrates: Do common New Zealand species drift in the water column?.New Zealand Journal of Marine and Freshwater Research 29:59–67.
Dauvin, J. C. 1992. Cinétique du recrutement et croissance des juvéniles d’Owenia fusiformis Delle Chiaje en Baie de Seine (Manche orientale).Oceanologica Acta 15:187–196.
Dauvin, J. C. andP. Gillet. 1991. Spatio-temporal variability of the demographic structure ofOwenia fusiformis Delle Chiaje (Annelida-Polychaeta) from the Bay of Seine (Eastern English Channel).Journal of Experimental Marine Biology and Ecology 152:105–122.
Dauvin, J. C., A. Igleslas, andJ. C. Lorgeré. 1994. Circalittoral suprabenthic coarse sand community from the western English Channel.Journal of the Marine Biological Association of the United Kingdom 74:543–582.
Dauvin, J. C. andJ. C. Lorgeré. 1989. Modifications du traîneau MACER-GIROQ pour l’amélioration de l'échantillonnage quantitatif étagé de la faune suprabenthique.Journal de Recherche Océanographique 14:65–67.
De Haas, H. andD. Eisma. 1993. Suspended-sediment transport in the Dollard Estuary.Netherlands Journal of Sea Research 31: 19–36.
De Vries, M. C., R. A. Tankersley, R. B. Forward Jr.W. W. Kirby-Smith, andR. A. Luettich Jr. 1994. The abundance of estuarine crab larvae is associated with tidal hydrologic variables.Marine Biology 118:403–418.
Dittel, A. I. andC. E. Epifanio. 1990. Seasonal and tidal abundance of crab larvae in a tropical mangrove system, Gulf of Nicoya, Costa Rica.Marine Ecology Progress Series 65:25–34.
Eisma, D. andA. Li. 1993. Changes in suspended-matter floc size during the tidal cycle in the Dollard Estuary.Netherlands Journal of Sea Research 31:107–117.
Epifanio, C. E., C. C. Valenti, andA. E. Pembroke. 1984. Dispersal and recruitment of blue crab larvae in Delaware Bay, USA.Estuarine Coastal and Shelf Science 18:1–12.
Gentil, F. 1976. Distribution des peuplements benthiques en Baie de Seine. Thèse de 3ème cycle, Université de Paris VI, Paris, France.
Gentil, F., J. P. Irlinger, B. Elkaïm, andF. Proniewsky 1986. Premières données sur la dynamique du peuplement macrobenthique des sables fins envasés àAbra alba de la Baie de Seine orientale.Actes de Colloque IFREMER 4:409–419.
Gross, T. F., F. E. Werner, andJ. E. Eckman. 1992. Numerical modelling in turbulent bottom boundary layers.Journal of Marine Research 50:611–642.
Günther, C. P. 1992. Dispersal of intertidal invertebrates: A strategy to react to disturbances of different scales?.Netherland Journal of Sea Research 30:45–56.
Hawley, N. andB. M. Lesht. 1992. Sediment resuspension in Lake St. Clair.Limnology and Oceanography 37:1720–1737.
Healy, M. J. R. 1962. Some basic statistical techniques in soil zoology, p. 3–9.In Murphy (ed.), Progress in Soil Zoology. Butterworths, London.
Huynh-Thanh, S. andA. Temperville. 1991. A numerical model of the rough turbulent boundary layer in combined wave and current interaction, p. 93–100.In R. L. Soulsby and R. Bettess (eds.), Sand Transport in Rivers, Estuaries and the Sea. Balkema, Rotterdam, Netherlands.
Irlinger, J. P. 1985. Dynamique du peuplement macrobenthique des sables fins envasés de la Baie de Seine orientale. Thèse de 3ème cycle, Université de Paris VI, Paris, France.
Jaklin, S. andC.-P. Günther. 1996. Macrobenthic drifting of the Gröninger Plate,Senckenbergiana Maritima 26:127–134.
Lagadeuc, Y. 1992. Repartition verticale des larves dePectinaria koreni en baie de Seine orientale: Influence sur le transport et le recrutement.Oceanologica Acta 15:95–104.
Lambert, R. 1992. Recrutement d’espèces benthiques à larves pélagiques en régime mégatidal. Cas dePectinaria koreni (Malmgren), Annélide Polychète.Bulletin de la Société Zoologique de France 117:99–104.
Larsonneur, C., P. Bouysse andJ. P. Auffret. 1982. The superficial sediments of the English Channel and its western approaches.Sedimentology 29:851–864.
Le Hir, P. andJ. L’Yavang 1986. Observations de courant en Baie de Seine.Actes de Colloque IFREMER 4:25–34.
Le Hir, P., J. C. Salomon, C. Provost, G. Chabert d’Hières, andJ. L. Mauyais. 1986. Approche de la circulation résiduelle en Baie de Seine.Actes de Colloque IFREMER 4:63–72.
Lindsay, P., P. W. Balls, andJ. R. West. 1996. Influence of tidal range and river discharge on suspended particulate matter fluxes in the Forth Estuary (Scotland).Estuarine, Coastal and Shelf Science 42:63–82.
Little, K. T. andC. E. Epifanio. 1991. Mechanisms for the reinvasion of an estuary by two species of brachyuran megalopae.Marine Ecology Progress Series 68:235–242.
Lund-Hansen, L. C., M. Peirup, J. Valeur, andA. Jensen. 1993. Gross sedimentation rates in the North Sea-Baltic Sea transition: Effects of stratification, wind energy transfer, and resuspension.Oceanologica Acta 16:205–212.
Martel, A. andF. S. Chia. 1991a. Foot-raising behaviour and active participation during the initial phase of post-metamorphic drifting in the gastropodLacuna spp.Marine Ecology Progress Series 72:247–254.
Martel, A. andF. S. Chia. 1991b. Drifting and dispersal of small bivalves and gastropods with direct development.Journal of Experimental Marine Biology and Ecology 150:131–147.
Martel, A. andT. Diefenbach. 1993. Effects of body size, water current and microhabitat on mucous-thread drifting in post-metamorphic gastropodsLacuna spp.Marine Ecology Progress Series 99:215–220.
Mense, D. J. andE. L. Wenner. 1989. Distribution and abundance of early life history stages of the blue crab,Callinectes sapidus, in tidal marsh creeks near Charleston, South Carolina.Estuaries 12:157–168.
Milliken, G. A. andD. E. Johnson. 1992. Analysis of messy dataIn (ed.), Volume I: Designed Experiments. Van Nostrand Reinhold, New York.
Morgan, S. G., R. K. Zimmer-Faust, K. L. Heck J., andL. D. Coen. 1996. Population regulation of blue crabs,Callinectes sapidus, in the northern Gulf of Mexico: Postlarval supply.Marine Ecology Progress Series 133:73–88.
Olafsson, E. B., C. H. Peterson, andW. G. Ambrose Jr. 1994. Does recruitment limitation structure populations and communities of macro-invertebrates in marine soft sediments: The relative significance of pre- and post-settlement processes.Oceanography and Marine Biology: An Annual Review 32:65–109.
Olivier, F. 1997. Régulation des populations de recrues en régime mégatidal: Effet du couplage Physique-Biologie en couche limite benthique. Thèse de 3ème cycle, Université de Rennes 1. France.
Olivier, F., C. Vallet, J. C. Dauvin, andC. Retière. 1996a. Drifting in post-larvae and juveniles in anAbra alba community of the eastern part of the Bay of Seine (English Channel).Journal of Experimental marine Biology and Ecology 199:89–109.
Olivier, F., N. Desroy, andC. Retière. 1996b. Habitat selection and adult-recruit interactions inPectinaria koreni (Malmgren) (Annelida: polychaeta) post-larval populations: Results of flume experiments.Journal of Sea Research 36:217–226.
Olmi, E. J. 1994. Vertical migration of blue crab,Callinectes sapidus, megalopae: Implications for transport in estuaries.Marine Ecology Progress Series 113:39–54.
Palmer, M. A. andG. Gust. 1985. Dispersal of meiofauna in a turbulent tidal creek.Journal of Marine Research 43:179–210.
Petersep, C. G. J. 1913. Valuation of the sea. II. The animal communities of the sea bottom and their importance for marine zoogeography.Report of the Danish Biological Station 21:1–44.
Rouvillois, A. andM. Rosset-Moulinier. 1969. Mise au point d’un petit carottier pour le prélèvement sans perturbation de la partie superficielle des sédiments marins.Cahiers Oceanographiques 21:933–941.
Salomon, J. C. 1986. Courantologie calculée en Baie de Seine.Actes de Colloque IFREMER 4:35–42.
Sanford, L. P. 1994. Wave-forced resuspension of upper Chesapeake Bay muds.Estuaries 17:148–165.
Sherwood, C. R., B. Butman, D. A. Cacchione, D. E. Drake, T. F. Gross, R. W. Sternberg, P. L. Wiberg, andA. J. Williams III. 1994. Sediment-transport events on the northern California continental shelf during the 1990–1991 STRESS experiment.Continental Shelf Research 14:1063–1099.
Sirgurdsson, J. B., C. W. Titman, andP. A. Davies. 1976. The dispersal of young post-larval bivalve molluscs by byssus threads.Nature 262:386–387.
Smith, N. P. andA. W. Stoner. 1993. Computer simulation of larval transport through tidal channel: Role of vertical migration.Estuarine, Coastal and Shelf Science 37:43–58.
Sörlin, T. 1988. Floating behaviour in the tellinid bivalveMacoma balthica (L.).Oecologia 77:273–277.
Soulsby, R. L., L. Hamm, G. Klopman, D. Myrhaug, R. R. Simons, andJ. P. Thomas. 1993. Wave-current interaction within and outside the bottom boundary layer.Coastal Engineering 21:41–69.
Tankersley, R. A., L. M. McKelvey, andR. B. Forward. 1995. Responses of estuarine crab megalopae to pressure, salinity and light: Implications for flood-tide transport.Marine Biology 122:391–400.
Ten Brinke, W. B. M. andJ. Dronkers. 1993. Physical and biotic aspects of fine-sediment import in the Oosterschelde tidal basin (The Netherlands).Netherlands Journal of Sea Research 31: 19–36.
Thiébaut, E. 1994. Dynamique du recrutement et dispersion larvaire de deux annélides polychètesOwenia fusiformis etPectinaria koreni en régime mégatidal (Baie de Seine orientale, Manche). Thèse de 3ème cycle, Université de Paris VI, Paris, France.
Thiébaut, E., J. C. Dauvin, andY. Lagadeuc. 1992. Transport ofOwenia fusiformis larvae (Annelida: Polychaeta) in the Bay of Seine. I. Vertical distribution in relation to water column stratification and ontogenic vertical migration.Marine Ecology Progress Series 80:29–39.
Thiébaut, E., J. C. Dauvin, andZ. Wang. 1996. Tidal transport ofPectinaria koreni postlarvae (Annelida: Polychaeta) in the Bay of Seine (eastern English Channel).Marine Ecology Progress Series 138:63–70.
Thistle, D., G. L. Weatherly, andS. C. Ertman. 1995. Shelf harpacticoid copepods do not escape into the seabed during winter storms.Journal of Marine Research 53:847–863.
Wang, Z. andJ. G. Dauvin. 1994. The suprabenthic crustacean fauna of the infralittoral fine sand community from the Bay of Seine (Eastern English Channel): Composition, swimming activity and diurnal variation.Cahiers de Biologie Marine 35:135–155.
Wiberg, P. L., D. E. Drake, andD. A. Cacchione. 1994. Sediment resuspension and bed armoring during high bottom stress events on the northern California inner continental shelf: Measurements and predictions.Continental Shelf Research 14:1191–1219.
Zeng, C. andE. Naylor. 1996. Endogenous tidal rhythms of vertical migration in field collected zoea-1 larvae of the shore crabCarcinus maenas: Implications for ebb tide offshore dispersal.Marine Ecology Progress Series 132:71–82.
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Olivier, F., Retière, C. The role of physical-biological coupling in the benthic boundary layer under megatidal conditions: The case of the dominant species of theAbra alba community in the Eastern Baie de Seine (English Channel). Estuaries 21, 571–584 (1998). https://doi.org/10.2307/1353296
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DOI: https://doi.org/10.2307/1353296