This web page was created programmatically, to learn the article in its authentic location you may go to the hyperlink bellow:
https://link.springer.com/article/10.1140/epje/s10189-026-00587-7
and if you wish to take away this text from our website please contact us
L. Svetlichny, M. Uttieri, Kinematic traits of calanoid copepod appendage movement. J. Plankton Res. 47(2), 030 (2025)
J. Qiu, C. Marchioli, L. Zhao, A evaluation on gyrotactic swimmers in turbulent flows. Acta. Mech. Sin. 38, 722323 (2022)
G.C. Hays, in A evaluation of the adaptive significance and ecosystem penalties of zooplankton diel vertical migrations. Migrations and Dispersal of Marine Organisms: Proceedings of the thirty seventh European Marine Biology Symposium Held in Reykjavík, Iceland, 5–9 August 2002 (Springer, 2003) pp. 163–170
J.M. Sullivan, P.L. Donaghay, J.E. Rines, Coastal skinny layer dynamics: penalties to biology and optics. Cont. Shelf Res. 30(1), 50–65 (2010)
S. Lovecchio, E. Climent, R. Stocker, W.M. Durham, Chain formation can improve the vertical migration of phytoplankton by way of turbulence. Sci. Adv. 5(10), 7879 (2019)
D. Cushing, Marine Ecology and Fisheries (Cambridge University Press, Cambridge, 1975)
G. Beaugrand, Ok.M. Brander, J.A. Lindley, S. Souissi, P.C. Reid, Plankton impact on cod recruitment within the north sea. Nature 426, 661–664 (2003)
D.Ok. Steinberg, M.R. Landry, Zooplankton and the ocean carbon cycle. Ann. Rev. Mar. Sci. 9, 413–444 (2017)
G. Yang, A. Atkinson, E.A. Pakhomov, Ok. Schmidt, W. Wang, J.J. Freer, G.A. Tarling, Seasonally migrating zooplankton strongly improve southern ocean carbon sequestration. Limnol. Oceanogr. 70(8), 2208–2222 (2025)
A. Genin, J.S. Jaffe, R. Reef, C. Richter, P.J.S. Franks, Swimming towards the circulation: a mechanism of zooplankton aggregation. Science 308(5723), 860–862 (2005)
L.S. Incze, D. Hebert, N. Wolff, N. Oakey, D. Dye, Changes in copepod distributions related to elevated turbulence from wind stress. Mar. Ecol. Prog. Ser. 213, 229–240 (2001)
S.M. Gallager, H. Yamazaki, C.S. Davis, Contribution of fine-scale vertical construction and swimming habits to formation of plankton layers on Georges financial institution. Mar. Ecol. Prog. Ser. 267, 27–43 (2004)
S. Menden-Deuer, D. Grünbaum, Individual foraging behaviors and inhabitants distributions of a planktonic predator aggregating to phytoplankton skinny layers. Limnol. Oceanogr. 51(1), 109–116 (2006)
E. Buskey, P. Lenz, D. Hartline, Escape habits of planktonic copepods in response to hydrodynamic disturbances: excessive pace video evaluation. Mar. Ecol. Prog. Ser. 235, 135–146 (2002)
E. Bagøien, T. Kiørboe, Blind dating-mate discovering in planktonic copepods. I. Tracking the pheromone path of Centropages typicus. Mar. Ecol. Prog. Ser. 300, 105–115 (2005)
T. Kiørboe, What makes pelagic copepods so profitable? J. Plankton Res. 33(5), 677–685 (2011)
F.-G. Michalec, M. Holzner, D. Menu, J.-S. Hwang, S. Souissi, Behavioral responses of the estuarine calanoid copepod Eurytemora affinis to sub-lethal concentrations of waterborne pollution. Aquat. Toxicol. 138, 129–138 (2013)
C. Gambardella, S. Morgana, S. Ferrando, M. Bramini, V. Piazza, E. Costa, F. Garaventa, M. Faimali, Effects of polystyrene microbeads in marine planktonic crustaceans. Ecotoxicol. Environ. Saf. 145, 250–257 (2017)
O. Setälä, V. Fleming-Lehtinen, M. Lehtiniemi, Ingestion and switch of microplastics within the planktonic meals internet. Environ. Pollut. 185, 77–83 (2014)
J.P.W. Desforges, M. Galbraith, P.S. Ross, Ingestion of microplastics by zooplankton within the northeast pacific ocean. Arch. Environ. Contam. Toxicol. 69(3), 320–330 (2015)
Z.R.L. Botterell, N. Beaumont, M. Cole, F.E. Hopkins, M. Steinke, R.C. Thompson, P.Ok. Lindeque, Bioavailability of microplastics to marine zooplankton: impact of form and infochemicals. Environ. Sci. Technol. 54(19), 12024–12033 (2020)
J. Xu, R. Rodríguez-Torres, S. Rist, T.G. Nielsen, N.B. Hartmann, P. Brun, D. Li, R. Almeda, Unpalatable plastic: environment friendly style discrimination of microplastics in planktonic copepods. Environ. Sci. Technol. 56(10), 6455–6465 (2022)
Ok.L. Kaposi, B. Mos, B.P. Kelaher, S.A. Dworjanyn, Ingestion of microplastic has restricted affect on a marine larva. Environ. Sci. Technol. 48(3), 1638–1645 (2014)
M. Cole, P. Lindeque, E. Fileman, C. Halsband, R. Goodhead, J. Moger, T.S. Galloway, Microplastic ingestion by zooplankton. Environ. Sci. Technol. 47(12), 6646–6655 (2013)
F.-G. Michalec, O. Praud, S. Cazin, E. Climent, Experimental investigation of preferential focus in zooplankton swimming in turbulence. Eur. Phys. J. E 45(2), 12 (2022)
F.-G. Michalec, F.G. Schmitt, S. Souissi, M. Holzner, Characterization of intermittency in zooplankton behaviour in turbulence. Eur. Phys. J. E 38, 1–7 (2015)
F.-G. Michalec, I. Fouxon, S. Souissi, M. Holzner, Zooplankton can actively modify their motility to turbulent circulation. Proc. Natl. Acad. Sci. 114(52), 11199–11207 (2017)
H.L. Fuchs, G.P. Gerbi, E.J. Hunter, A.J. Christman, Waves cue distinct behaviors and differentiate transport of congeneric snail larvae from sheltered versus wavy habitats. Proc. Natl. Acad. Sci. U.S.A. 115(32), 7532–7540 (2018)
M.H. DiBenedetto, R. Monthiller, C. Eloy, L.S. Mullineaux, Plankton energetic response to turbulence permits environment friendly transport. J. Exp. Biol. 228(24), 251123 (2025)
C. Le Quiniou, F.G. Schmitt, E. Calzavarini, S. Souissi, Y. Huang, Copepod swimming exercise and turbulence depth: examine within the Agiturb turbulence generator system. Eur. Phys. J. Plus 137, 250 (2022)
F.G. Michalec, M. Holzner, A. Barras, A.S. Lacoste, L. Brunet, J.S. Lee, C. Slomianny, R. Boukherroub, S. Souissi, Short-term publicity to gold nanoparticle suspension impairs swimming habits in a widespread calanoid copepod. Environ. Pollut. 228, 102–110 (2017)
D. Devreker, S. Souissi, J.C. Molinero, D. Beyrend-Dur, F. Gomez, J. Forget-Leray, Tidal and annual variability of the inhabitants construction of Eurytemora affinis within the center a part of the seine estuary throughout 2005. Estuar. Coast. Shelf Sci. 89(4), 245–255 (2010)
M.L.M. Tackx, P.J.M. Herman, S. Gasparini, X. Irigoien, R. Billiones, M.H. Daro, Selective feeding of eurytemora affinis (copepoda, calanoida) in temperate estuaries: mannequin and subject observations. Estuar. Coast. Shelf Sci. 56(2), 305–311 (2003)
J. Thery, C. Bialais, M. Kazour, M. Moreau, D. Dufour, S. Benali, R. Amara, S. Monchy, J.-M. Raquez, S. Souissi, A brand new methodology for microplastics identification in copepods. Front. Environ. Chem. 3, 905303 (2022)
B. Lüthi, A. Tsinober, W. Kinzelbach, Lagrangian measurement of vorticity dynamics in turbulent circulation. J. Fluid Mech. 528, 87–118 (2005)
M. Bourgoin, N.T. Ouellette, H. Xu, J. Berg, E. Bodenschatz, The function of pair dispersion in turbulent circulation. Science 311(5762), 835–838 (2006)
M. Sinhuber, Ok. van der Vaart, R. Ni, J.G. Puckett, D.H. Kelley, N.T. Ouellette, Three-dimensional time-resolved trajectories from laboratory insect swarms. Sci. Data 6, 190036 (2019)
M.S. Mohamed, J.C. Larue, The decay energy regulation in grid-generated turbulence. J. Fluid Mech. 219, 195–214 (1990)
S.P. McKenna, W.R. McGillis, Observations of circulation repeatability and secondary circulation in an oscillating grid-stirred tank. Phys. Fluids 16(9), 3499–3502 (2004)
S.S. Sadri, R.C. Thompson, On the amount and composition of floating plastic particles getting into and leaving the Tamar Estuary, Southwest England. Mar. Pollut. Bull. 81(1), 55–60 (2014)
D. Devreker, S. Souissi, J.C. Molinero, F. Nkubito, Trade-offs of the copepod Eurytemora affinis in mega-tidal estuaries: insights from excessive frequency sampling within the seine estuary. J. Plankton Res. 30(12), 1329–1342 (2008)
F. Scarano, Tomographic PIV: rules and observe. Meas. Sci. Technol. 24(1), 012001 (2012)
B. Wieneke, Iterative reconstruction of volumetric particle distribution. Meas. Sci. Technol. 24(2), 024008 (2012)
Schanz, D., Schröder, A., Gesemann, S., Michaelis, D., Wieneke, B., in ‘shake the box’: a extremely environment friendly and correct tomographic particle monitoring velocimetry (tomo-ptv) methodology utilizing prediction of particle positions. PIV13; tenth International Symposium on Particle Image Velocimetry, Delft, The Netherlands, July 1-3, 2013. (Delft University of Technology, 2013)
D. Schanz, S. Gesemann, A. Schröder, Shake-the-box: Lagrangian particle monitoring at excessive particle picture densities. Exp. Fluids 57, 1–27 (2016)
B. Wieneke, Volume self-calibration for 3d particle picture velocimetry. Exp. Fluids 45(4), 549–556 (2008)
D. Schanz, S. Gesemann, A. Schröder, B. Wieneke, M. Novara, Non-uniform optical switch features in particle imaging: calibration and utility to tomographic reconstruction. Meas. Sci. Technol. 24(2), 024009 (2012)
A. Schröder, D. Schanz, 3d Lagrangian particle monitoring in fluid mechanics. Annu. Rev. Fluid Mech. 55(1), 511–540 (2023)
B. Wieneke, Improvements for quantity self-calibration. Meas. Sci. Technol. 29(8), 084002 (2018)
H. Jiang, T. Kiørboe, The fluid dynamics of swimming by leaping in copepods. J. R. Soc. Interface 8(61), 1090–1103 (2011)
S. Ott, J. Mann, An experimental investigation of the relative diffusion of particle pairs in three-dimensional turbulent circulation. J. Fluid Mech. 422, 207–223 (2000)
S.B. Pope, Turbulent Flows (Cambridge University Press, New York, 2000)
G. Sutherland, B. Ward, Ok. Christensen, Wave-turbulence scaling within the ocean blended layer. Ocean Sci. 9(4), 597–608 (2013)
P. Sutherland, W.Ok. Melville, Field measurements of floor and near-surface turbulence within the presence of breaking waves. J. Phys. Oceanogr. 45(4), 943–965 (2015)
P.J.S. Franks, B.G. Inman, J.A. MacKinnon, M.H. Alford, A.F. Waterhouse, Oceanic turbulence from a planktonic perspective. Limnol. Oceanogr. 67(2), 348–363 (2022)
R. Holleman, W. Geyer, D. Ralston, Stratified turbulence and mixing effectivity in a salt wedge estuary. J. Phys. Oceanogr. 46(6), 1769–1783 (2016)
J.M. McMillan, A.E. Hay, R.G. Lueck, F. Wolk, Rates of dissipation of turbulent kinetic vitality in a excessive Reynolds quantity tidal channel. J. Atmos. Oceanic Tech. 33(4), 817–837 (2016)
H.L. Pécseli, J.Ok. Trulsen, J.E. Stiansen, S. Sundby, P. Fossum, Feeding of plankton in turbulent oceans and lakes. Limnol. Oceanogr. 64(3), 1034–1046 (2019)
H. Yamazaki, Ok.D. Squires, Comparison of oceanic turbulence and copepod swimming. Mar. Ecol. Prog. Ser. 144, 299–301 (1996)
T. Kiørboe, H. Jiang, R.J. Gonçalves, L.T. Nielsen, N. Wadhwa, Flow disturbances generated by feeding and swimming zooplankton. Proc. Natl. Acad. Sci. 111(32), 11738–11743 (2014)
T. Kiørboe, A. Andersen, V.J. Langlois, H.H. Jakobsen, Unsteady movement: escape jumps in planktonic copepods, their kinematics and energetics. J. R. Soc. Interface 7(52), 1591–1602 (2010)
C.J. Bradley, J.R. Strickler, E.J. Buskey, P.H. Lenz, Swimming and escape habits in two species of calanoid copepods from nauplius to grownup. J. Plankton Res. 35(1), 49–65 (2013)
H. Ardeshiri, I. Benkeddad, F.G. Schmitt, S. Souissi, F. Toschi, E. Calzavarini, Lagrangian mannequin of copepod dynamics: clustering by escape jumps in turbulence. Phys. Rev. E 93(4), 043117 (2016)
M. Faimali, C. Gambardella, E. Costa, V. Piazza, S. Morgana, N. Estévez-Calvar, F. Garaventa, Old mannequin organisms and new behavioral end-points: swimming alteration as an ecotoxicological response. Mar. Environ. Res. 128, 36–45 (2017)
J. Chevalier, E. Harscoët, M. Keller, P. Pandard, J. Cachot, M. Grote, Exploration of daphnia behavioral impact profiles induced by a broad vary of toxicants with completely different modes of motion. Environ. Toxicol. Chem. 34(8), 1760–1769 (2015)
C.H. Suwaki, L.T. De-La-Cruz, R.M. Lopes, Impacts of microplastics on the swimming habits of the copepod Temora turbinata (Dana, 1849). Fluids 5(3), 103 (2020)
I. Paul-Pont, Ok.T.C. Gonzalez-Fernandez, C. Lambert, D. Vincent, D. Mazurais, J.-L. Zambonino-Infante, G. Brotons, F. Lagarde, C. Fabioux, P. Soudant, A. Huvet, Constraints and priorities for conducting experimental exposures of marine organisms to microplastics. Front. Mar. Sci. 5, 252 (2018)
J. Thery, L.-L. Li, S. Das, D. Dufour, S. Benali, J.-M. Raquez, S. Souissi, S. Monchy, Multigenerational publicity of microplastics on the microbiota of E. affinis (copepod): a comparative examine between biodegradable and nonbiodegradable microplastics. Front. Ecol. Evol. 11, 1231346 (2023)
M. Cole, P. Lindeque, E. Fileman, C. Halsband, T.S. Galloway, The affect of polystyrene microplastics on feeding, operate and fecundity within the marine copepod Calanus helgolandicus. Environ. Sci. Technol. 49(2), 1130–1137 (2015)
T. Kiørboe, Optimal swimming methods in mate-searching pelagic copepods. Oecologia 155(1), 179–192 (2008)
H. van Someren Gréve, R. Almeda, T. Kiørboe, Motile habits and predation threat in planktonic copepods. Limnol. Oceanogr. 62(5), 1810–1824 (2017)
V.S. Lin, Research highlights: impacts of microplastics on plankton. Environ Sci Process Impacts 18, 160–163 (2016)
F.G. Schmitt, D. Devreker, G. Dur, S. Souissi, Direct proof of tidally oriented habits of the copepod Eurytemora affinis within the seine estuary. Ecol. Res. 26(4), 773–780 (2011)
This web page was created programmatically, to learn the article in its authentic location you may go to the hyperlink bellow:
https://link.springer.com/article/10.1140/epje/s10189-026-00587-7
and if you wish to take away this text from our website please contact us
