Can gray seals maintain heading within areas of high tidal current? Preliminary results from numerical modeling and GPS observations
Seals are capable of navigation and orientation during long distance movements, even in absence of apparent landmarks, in open seas, and at night (e.g., Lowry et al. 1998, McConnell et al. 1999, Gjertz et al. 2000, Lesage et al. 2004). Several ideas have been put forwards about marine animals'...
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| Published in | Marine mammal science Vol. 30; no. 1; pp. 374 - 380 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Beaufort
Blackwell Publishing Ltd
01.01.2014
Wiley Subscription Services, Inc Wiley |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0824-0469 1748-7692 |
| DOI | 10.1111/mms.12024 |
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| Abstract | Seals are capable of navigation and orientation during long distance movements, even in absence of apparent landmarks, in open seas, and at night (e.g., Lowry et al. 1998, McConnell et al. 1999, Gjertz et al. 2000, Lesage et al. 2004). Several ideas have been put forwards about marine animals' ability to orientate and navigate at sea (Mills Flemming et al. 2006, Lohmann et al. 2008, Chapman et al. 2011). However, little work has been carried out on seals (but see Matsumura et al. 2011). A number of experiments have been conducted on captive seals in order to test their sensory systems and orientation capacities (e.g., Kowalewsky et al. 2006, Mauck et al. 2008), but such experiments are difficult to conduct on free-ranging seals. Modeling the animals' movements at sea in relation to environmental variables may elucidate the cues they use to orient and navigate. However, such free-ranging animal movements are always subject to the influence of local currents (Lohmann et al. 2008). Thus the incorporation of current data is necessary to reveal underlying navigational capabilities and strategies (Willis 2011). In this study, we model the observed sea surface tracks of two gray seals (Halichoerus grypus) that had crossed the English Channel in September 2011 (Fig. 1, 2). The seals (referred to as B23 and B24), were tracked by Fastloc GPS/GSM telemetry techniques. Their surface positions were drawn from the series of Fastloc GPS locations transmitted by GPS phone tags developed by the Sea Mammal Research Unit.2 These were glued to the animal's fur on the neck behind the head with quick-setting epoxy. The tags were configured to attempt Fastloc GPS locations every 10 min provided the seal was at the sea surface. Both seals were captured and tagged in the Mol ene archipelago, western Brittany, France. |
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| AbstractList | Seals are capable of navigation and orientation during long distance movements, even in absence of apparent landmarks, in open seas, and at night (e.g., Lowry et al. 1998, McConnell et al. 1999, Gjertz et al. 2000, Lesage et al. 2004). Several ideas have been put forwards about marine animals' ability to orientate and navigate at sea (Mills Flemming et al. 2006, Lohmann et al. 2008, Chapman et al. 2011). However, little work has been carried out on seals (but see Matsumura et al. 2011). A number of experiments have been conducted on captive seals in order to test their sensory systems and orientation capacities (e.g., Kowalewsky et al. 2006, Mauck et al. 2008), but such experiments are difficult to conduct on free-ranging seals. Modeling the animals' movements at sea in relation to environmental variables may elucidate the cues they use to orient and navigate. However, such free-ranging animal movements are always subject to the influence of local currents (Lohmann et al. 2008). Thus the incorporation of current data is necessary to reveal underlying navigational capabilities and strategies (Willis 2011). In this study, we model the observed sea surface tracks of two gray seals (Halichoerus grypus) that had crossed the English Channel in September 2011 (Fig. 1, 2). The seals (referred to as B23 and B24), were tracked by Fastloc GPS/GSM telemetry techniques. Their surface positions were drawn from the series of Fastloc GPS locations transmitted by GPS phone tags developed by the Sea Mammal Research Unit.2 These were glued to the animal's fur on the neck behind the head with quick-setting epoxy. The tags were configured to attempt Fastloc GPS locations every 10 min provided the seal was at the sea surface. Both seals were captured and tagged in the Mol ene archipelago, western Brittany, France. |
| Author | Chevaillier, Damien Mcconnell, Bernie J. Karpytchev, Mikhail Vincent, Cecile Moss, Simon |
| Author_xml | – sequence: 1 givenname: Damien surname: Chevaillier fullname: Chevaillier, Damien email: damien.chevaillier@gmail.com organization: LIENSs, UMR 7266CNRS/University of La Rochelle, 2 rue Olympe de Gouges, 17 000, La Rochelle, France – sequence: 2 givenname: Mikhail surname: Karpytchev fullname: Karpytchev, Mikhail organization: LIENSs, UMR 7266CNRS/University of La Rochelle, 2 rue Olympe de Gouges, 17 000, La Rochelle, France – sequence: 3 givenname: Bernie J. surname: Mcconnell fullname: Mcconnell, Bernie J. organization: Sea Mammal Research Unit, Gatty Marine Laboratory, University of St Andrews, St Andrews, KY16 8LB, Fife, United Kingdom – sequence: 4 givenname: Simon surname: Moss fullname: Moss, Simon organization: Sea Mammal Research Unit, Gatty Marine Laboratory, University of St Andrews, St Andrews, KY16 8LB, Fife, United Kingdom – sequence: 5 givenname: Cecile surname: Vincent fullname: Vincent, Cecile organization: LIENSs, UMR 7266CNRS/University of La Rochelle, 2 rue Olympe de Gouges, 17 000, La Rochelle, France |
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| Cites_doi | 10.1046/j.1365-2664.1999.00429.x 10.1111/j.2517-6161.1974.tb01013.x 10.1016/j.cub.2011.08.014 10.1007/s10236-011-0428-1 10.1098/rsbl.2005.0380 10.1007/s001140050767 10.1242/jeb.048827 10.1002/9780470319628 10.1007/s003000000143 10.1016/j.ecss.2008.12.003 10.1002/env.774 10.1007/s10236-009-0219-0 10.1139/z04-084 10.2307/3315767 10.1007/s10071-008-0156-1 10.1371/journal.pone.0014245 10.1242/jeb.015792 10.1016/j.ecolmodel.2011.10.004 10.1007/s003000050238 |
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| References | Brillinger, D. R., and B. S. Stewart. 1995. Elephant-seal movements: Modeling migration. The Canadian Journal of Statistics 26:431-443. Hervouet, J. M. 2007. Hydrodynamics of free surface flows: Modelling with the finite element method. John Wiley & Sons, Ltd., Chichester, England. Kowalewsky, S., M. Dambach, B. Mauck and G. Dehnhardt. 2006. High olfactory sensitivity for dimethil sulphide in harbour seals. Biology Letters 2:106-109. Mills Flemming, J. E., C. A. Field, M. C. James, I. D. Jonsen and R. A. Myers. 2006. How well can animals navigate? Estimating the circle of confusion from tracking data. Environmetrics 17:351-362. Mills Flemming, J. E., I. D. Jonsen, R. A. Myers and C. A. Field. 2010. Hierarchical state-space estimation of leatherback turtle navigation ability. PLoS ONE 5(12):e14245. Matsumura, M., Y.Y. Watanabe, P. W. Robinson, P. J. O. Miller, D. P. Costa and N. Miyazaki. 2011. Underwater and surface behavior of homing juvenile northern elephant seals. Journal of Experimental Biology 214:629-636. Chapman, J. W., R. H. G. Klaassen, V. A. Drake, et al. 2011. Animal orientation strategies for movement in flows. Current Biology 21:R861-R870. Lowry, L. F., K. J. Frost, R. Davis, D. P. DeMaster and R. S. Suydam. 1998. Movements and behavior of satellite-tagged spotted seals (Phoca largha) in the Bering and Chukchi seas. Polar Biology 19:221-230. Lohmann, K. J., C. M. F. Lohmann and C. S. Endres. 2008. The sensory ecology of ocean navigation. Journal of Experimental Biology 211:1719-1728. Nicolle, A., M. Karpytchev and M. Benoit. 2009. Amplification of the storm surges in shallow waters of the Pertuis Charentais (Bay of Biscay, France). Ocean Dynamics 59:921-935. Kendall, D. G. 1974. Pole-seeking Brownian motion and bird navigation. Journal of the Royal Statistical Society, Series B 36:365-417. Davies, A., J. Xing and E. Jones. 2011. A model study of tidal distributions in the Celtic and Irish Sea regions determined with finite volume and finite element methods. Ocean Dynamics 61:1645-1667. Sticken, J., and G. Dehnhardt. 2000. Salinity discrimination in harbor seals: A sensory basis for spatial orientation in the marine environment? Naturwissenschaften 87:499-502. McConnell, B. J., M. A. Fedak, P. Lovell and P. S. Hammond. 1999. Movements and foraging areas of grey seals in the North Sea. Journal of Applied Ecology 36:573-590. Lesage, V., M. O. Hammill and K. M. Kovacs. 2004. Long-distance movements of harbor seals (Phoca vitulina) from a seasonally ice-covered area, the St. Lawrence River estuary, Canada. Canadian Journal of Zoology 82:1070-1081. Mauck, B., N. Gläser, W. Schlosser and G. Dehnhardt. 2008. Harbour seals (Phoca vitulina) can steer by the stars. Animal Cognition 11:715-718. Sentchev, A., P. Forget and Y. Barbin. 2009. Residual and tidal circulation revealed by VHF radar surface current measurements in the southern Channel Isles region (English Channel). Estuarine, Coastal and Shelf Science 82:180-192. Willis, J. 2011. Modelling swimming aquatic animals in hydrodynamic models. Ecological Modelling 222:3869-3887. Gjertz, I., K. Kovacs, C. Lydersen and Ø. Wiig. 2000. Movements and diving of adult ringed seals (Phoca hispida) in Svalbard. Polar Biology 23:651-656. 2011; 214 1974; 36 1998; 19 2004; 82 2011 1995; 26 2000; 23 2009; 82 2000; 87 2006; 17 2011; 61 1999; 36 2007 2011; 21 2008; 11 2006; 2 2008; 211 2010; 5 2011; 222 2009; 59 e_1_2_4_3_1 e_1_2_4_2_1 e_1_2_4_5_1 Kendall D. G. (e_1_2_4_8_1) 1974; 36 e_1_2_4_4_1 e_1_2_4_7_1 e_1_2_4_6_1 e_1_2_4_9_1 e_1_2_4_21_1 e_1_2_4_10_1 e_1_2_4_20_1 e_1_2_4_11_1 e_1_2_4_12_1 e_1_2_4_13_1 e_1_2_4_14_1 e_1_2_4_15_1 e_1_2_4_16_1 e_1_2_4_18_1 e_1_2_4_17_1 e_1_2_4_19_1 |
| References_xml | – reference: Kowalewsky, S., M. Dambach, B. Mauck and G. Dehnhardt. 2006. High olfactory sensitivity for dimethil sulphide in harbour seals. Biology Letters 2:106-109. – reference: Lohmann, K. J., C. M. F. Lohmann and C. S. Endres. 2008. The sensory ecology of ocean navigation. Journal of Experimental Biology 211:1719-1728. – reference: Mauck, B., N. Gläser, W. Schlosser and G. Dehnhardt. 2008. Harbour seals (Phoca vitulina) can steer by the stars. Animal Cognition 11:715-718. – reference: Brillinger, D. R., and B. S. Stewart. 1995. Elephant-seal movements: Modeling migration. The Canadian Journal of Statistics 26:431-443. – reference: Sentchev, A., P. Forget and Y. Barbin. 2009. Residual and tidal circulation revealed by VHF radar surface current measurements in the southern Channel Isles region (English Channel). Estuarine, Coastal and Shelf Science 82:180-192. – reference: Mills Flemming, J. E., I. D. Jonsen, R. A. Myers and C. A. Field. 2010. Hierarchical state-space estimation of leatherback turtle navigation ability. PLoS ONE 5(12):e14245. – reference: Willis, J. 2011. Modelling swimming aquatic animals in hydrodynamic models. Ecological Modelling 222:3869-3887. – reference: Lesage, V., M. O. Hammill and K. M. Kovacs. 2004. Long-distance movements of harbor seals (Phoca vitulina) from a seasonally ice-covered area, the St. Lawrence River estuary, Canada. Canadian Journal of Zoology 82:1070-1081. – reference: Lowry, L. F., K. J. Frost, R. Davis, D. P. DeMaster and R. S. Suydam. 1998. Movements and behavior of satellite-tagged spotted seals (Phoca largha) in the Bering and Chukchi seas. Polar Biology 19:221-230. – reference: Nicolle, A., M. Karpytchev and M. Benoit. 2009. Amplification of the storm surges in shallow waters of the Pertuis Charentais (Bay of Biscay, France). Ocean Dynamics 59:921-935. – reference: McConnell, B. J., M. A. Fedak, P. Lovell and P. S. Hammond. 1999. Movements and foraging areas of grey seals in the North Sea. Journal of Applied Ecology 36:573-590. – reference: Sticken, J., and G. Dehnhardt. 2000. Salinity discrimination in harbor seals: A sensory basis for spatial orientation in the marine environment? Naturwissenschaften 87:499-502. – reference: Mills Flemming, J. E., C. A. Field, M. C. James, I. D. Jonsen and R. A. Myers. 2006. How well can animals navigate? Estimating the circle of confusion from tracking data. Environmetrics 17:351-362. – reference: Hervouet, J. M. 2007. Hydrodynamics of free surface flows: Modelling with the finite element method. John Wiley & Sons, Ltd., Chichester, England. – reference: Gjertz, I., K. Kovacs, C. Lydersen and Ø. Wiig. 2000. Movements and diving of adult ringed seals (Phoca hispida) in Svalbard. Polar Biology 23:651-656. – reference: Kendall, D. G. 1974. Pole-seeking Brownian motion and bird navigation. Journal of the Royal Statistical Society, Series B 36:365-417. – reference: Davies, A., J. Xing and E. Jones. 2011. A model study of tidal distributions in the Celtic and Irish Sea regions determined with finite volume and finite element methods. Ocean Dynamics 61:1645-1667. – reference: Matsumura, M., Y.Y. Watanabe, P. W. Robinson, P. J. O. Miller, D. P. Costa and N. Miyazaki. 2011. Underwater and surface behavior of homing juvenile northern elephant seals. Journal of Experimental Biology 214:629-636. – reference: Chapman, J. W., R. H. G. Klaassen, V. A. Drake, et al. 2011. Animal orientation strategies for movement in flows. Current Biology 21:R861-R870. – volume: 19 start-page: 221 year: 1998 end-page: 230 article-title: Movements and behavior of satellite‐tagged spotted seals ( ) in the Bering and Chukchi seas publication-title: Polar Biology – volume: 82 start-page: 1070 year: 2004 end-page: 1081 article-title: Long‐distance movements of harbor seals ( ) from a seasonally ice‐covered area, the St. Lawrence River estuary, Canada publication-title: Canadian Journal of Zoology – volume: 59 start-page: 921 year: 2009 end-page: 935 article-title: Amplification of the storm surges in shallow waters of the Pertuis Charentais (Bay of Biscay, France) publication-title: Ocean Dynamics – volume: 211 start-page: 1719 year: 2008 end-page: 1728 article-title: The sensory ecology of ocean navigation publication-title: Journal of Experimental Biology – volume: 5 start-page: e14245 issue: 12 year: 2010 article-title: Hierarchical state‐space estimation of leatherback turtle navigation ability publication-title: PLoS ONE – volume: 23 start-page: 651 year: 2000 end-page: 656 article-title: Movements and diving of adult ringed seals ( ) in Svalbard publication-title: Polar Biology – volume: 87 start-page: 499 year: 2000 end-page: 502 article-title: Salinity discrimination in harbor seals: A sensory basis for spatial orientation in the marine environment? publication-title: Naturwissenschaften – volume: 11 start-page: 715 year: 2008 end-page: 718 article-title: Harbour seals ( ) can steer by the stars publication-title: Animal Cognition – volume: 2 start-page: 106 year: 2006 end-page: 109 article-title: High olfactory sensitivity for dimethil sulphide in harbour seals publication-title: Biology Letters – volume: 26 start-page: 431 year: 1995 end-page: 443 article-title: Elephant‐seal movements: Modeling migration publication-title: The Canadian Journal of Statistics – year: 2007 – volume: 61 start-page: 1645 year: 2011 end-page: 1667 article-title: A model study of tidal distributions in the Celtic and Irish Sea regions determined with finite volume and finite element methods publication-title: Ocean Dynamics – volume: 222 start-page: 3869 year: 2011 end-page: 3887 article-title: Modelling swimming aquatic animals in hydrodynamic models publication-title: Ecological Modelling – volume: 21 start-page: R861 year: 2011 end-page: R870 article-title: Animal orientation strategies for movement in flows publication-title: Current Biology – volume: 214 start-page: 629 year: 2011 end-page: 636 article-title: Underwater and surface behavior of homing juvenile northern elephant seals publication-title: Journal of Experimental Biology – volume: 17 start-page: 351 year: 2006 end-page: 362 article-title: How well can animals navigate? Estimating the circle of confusion from tracking data publication-title: Environmetrics – start-page: 40 year: 2011 – volume: 82 start-page: 180 year: 2009 end-page: 192 article-title: Residual and tidal circulation revealed by VHF radar surface current measurements in the southern Channel Isles region (English Channel) publication-title: Estuarine, Coastal and Shelf Science – volume: 36 start-page: 365 year: 1974 end-page: 417 article-title: Pole‐seeking Brownian motion and bird navigation publication-title: Journal of the Royal Statistical Society, Series B – volume: 36 start-page: 573 year: 1999 end-page: 590 article-title: Movements and foraging areas of grey seals in the North Sea publication-title: Journal of Applied Ecology – ident: e_1_2_4_15_1 doi: 10.1046/j.1365-2664.1999.00429.x – volume: 36 start-page: 365 year: 1974 ident: e_1_2_4_8_1 article-title: Pole‐seeking Brownian motion and bird navigation publication-title: Journal of the Royal Statistical Society, Series B doi: 10.1111/j.2517-6161.1974.tb01013.x – ident: e_1_2_4_3_1 doi: 10.1016/j.cub.2011.08.014 – ident: e_1_2_4_5_1 doi: 10.1007/s10236-011-0428-1 – ident: e_1_2_4_9_1 doi: 10.1098/rsbl.2005.0380 – ident: e_1_2_4_20_1 doi: 10.1007/s001140050767 – ident: e_1_2_4_13_1 doi: 10.1242/jeb.048827 – ident: e_1_2_4_7_1 doi: 10.1002/9780470319628 – ident: e_1_2_4_6_1 doi: 10.1007/s003000000143 – ident: e_1_2_4_19_1 doi: 10.1016/j.ecss.2008.12.003 – ident: e_1_2_4_16_1 doi: 10.1002/env.774 – ident: e_1_2_4_18_1 doi: 10.1007/s10236-009-0219-0 – ident: e_1_2_4_10_1 doi: 10.1139/z04-084 – ident: e_1_2_4_2_1 doi: 10.2307/3315767 – ident: e_1_2_4_14_1 doi: 10.1007/s10071-008-0156-1 – ident: e_1_2_4_17_1 doi: 10.1371/journal.pone.0014245 – ident: e_1_2_4_11_1 doi: 10.1242/jeb.015792 – ident: e_1_2_4_21_1 doi: 10.1016/j.ecolmodel.2011.10.004 – ident: e_1_2_4_4_1 – ident: e_1_2_4_12_1 doi: 10.1007/s003000050238 |
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| Title | Can gray seals maintain heading within areas of high tidal current? Preliminary results from numerical modeling and GPS observations |
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