Rochet et a\. Precision and accuracy of fish length measurements obtained with two visual underwater methods 



Norcross, B., and F.-J. Mueter. 



1999. The use of an ROV in the study of juvenile flat- 

 fish. Fish. Res. 39:241-251. 

 PetreU, R. J., X. Shi, R. K. Ward, A. Naiberg, and C. R. Savage. 

 1997. Determining fish size and swimming speed in cages 

 and tanks using simple video techniques. Aquacult. 

 Engineer. 16:63-84. 

 Pfister. R. D., and D. Goulet. 



1999. Nonintrusive video technique for in situ sizing of 

 coral reef fishes. Copeia 1999:789-793. 



Pinheiro, J. C, and D. M. Bates. 



2000. Mixed-effects models in S and S-PLUS, 528 p. 

 Springer, New York, NY. 



Trenkel, V. M., P. Lorance, and S. Mahevas. 



2004. Do visual transects provide true population den- 

 sity estimates for deep-water fish? ICES J. Mar. Sci. 

 61:1050-1056. 



Uiblein, F., P. Lorance, and D. Latrouite. 



2002. Variation in locomotion behaviour in northern cut- 

 throat eel iSynaphobranchus kaupi) on the Bay of Biscay 

 continental slope. Deep-Sea Res. 49l 11:1689-1703. 



van Rooij, J. M., and J. J. Videler. 



1996. A simple field method for stereo-photographic 

 length measurement of free-swimming fish: merits and 

 constraints. J. E.xp. Mar. Biol. Ecol. 195:237-249. 



Yoklavich, M. M., H. G. Greene, G. M. Cailliet, D. E. Sullivan, 

 R. N. Lea, and M. S. Love. 



2000. Habitat associations of deep-water rockfishes in a 

 submarine canyon: an example of a natural refuge. Fish. 

 Bull. 98:625-641. 

 Yoshihara, K. 



1997. A fish body length measuring method using an 

 underwater video camera in combination with laser 

 discharge equipment. Fish. Sci. 63:676-680. 



