Fey et al.: Daily deposition of growth increments in sagittae and lapilli of larval Esox lucius 
309 
Geffen, A. J. 
1982. Otolith ring deposition in relation to growth rate 
in herring ( Clupea harengus) and turbot ( Scophthalmus 
maximus) larvae. Mar. Biol. 71:317-326. 
1992. Validation of otolith increment deposition rate. In 
Otolith microstructure examination and analysis (D. K. 
Stevenson and S. E. Campana, eds.), p. 101-113. Can. 
Spec. Publ. Fish. Aquat. Sci. 117. 
Graham, R. J., and D. J. Orth. 
1987. Otolith aging of young-of-the-year smallmouth bass. 
In Age and growth of fish (R. C. Summerfelt and G. E. 
Hall, eds.), p. 486-491. Iowa State Univ. Press, Arnes, 
IA. 
Greszkiev/icz, M., and D. P. Fey. 
2018. Effect of preservation in formalin and alcohol on 
the growth rate estimates of larval northern pike. North 
Am. J. Fish. Manage. 38:601-605. 
Hill, A. A., and K. R. Bestgen. 
2014. Otolith daily increment deposition in age-0 small¬ 
mouth bass reared in constant and fluctuating water 
temperatures. North Am. J. Fish. Manage. 34:774-779. 
Hoff, G. R., D. J. Logan, and D. F. Markle. 
1997. Notes: otolith morphology and increment validation 
in young Lost River and shortnose suckers. Trans. Am. 
Fish. Soc. 126:488-494. 
Hussy, K., H.-H. Hinrichsen, D. P. Fey, Y. Walther, and A. 
Velasco. 
2010. The use of otolith microstructure to estimate age 
in adult Atlantic cod ( Gadus morhua). J. Fish Biol. 
76:1640-1654. 
Ichimaru, T., and T. Katsunori. 
1995. Otolith increment formation of flyingfishes larvae, 
Cypselurus heterurus doederleini and Cypselurus hiraii 
under rearing conditions. Bull. Nagasaki Prefect. Inst. 
Fish. 21:1-6. 
Isely, J. J., and R. L. Noble. 
1987. Validation of daily ring deposition in otoliths of 
wild young-of-the-year largemouth bass. Tex. J. Sci. 
39:273-277. 
Jones, C. 
1986. Determining age of larval fish with the otolith in¬ 
crement technique. Fish. Bull. 84:91-103. 
Jones, C., and E. B. Brothers. 
1987. Validation of otolith increment aging technique for 
striped bass, Morone saxatilis, larvae reared under subop- 
timal feeding conditions. Fish. Bull. 85:171-178. 
Larsson, P., P. Tibblin, P. Koch-Schmidt, O. Engstedt, J. Nils¬ 
son, O. NordaM, and A. Forsman. 
2015. Ecology, evolution, and management strategies of 
northern pike populations in the Baltic Sea. Ambio 
44(suppl. 3):451—61. 
Nilsson, J., O. Engstedt, and P. Larsson. 
2014. Wetlands for northern pike (Esox lucius L.) recruit¬ 
ment in the Baltic Sea. Hydrobiologia 721:145-154. 
Radtke, P.., and D. P. Fey. 
1996. Environmental effects on primary increment for¬ 
mation in the otoliths of newlyhatched Arctic charr. J. 
Fish Biol. 48:1238-1255. 
Secor, D. H . E. D. Houde, and D. M. Monteleone. 
1995. A mark-release experiment on larval striped bass 
Morone saxatilis in a Chesapeake Bay tributary. ICES 
J. Mar. Sci. 52:87-101. 
Sepulveda, A. 
1994. Daily growth increments in the otoliths of Euro¬ 
pean smelt Osmerus eperlanus larvae. Mar. Ecol. Prog. 
Ser. 108:33-42. 
Skov, C., and P. A. Nilsson, (eds.). 
2018. Biology and ecology of pike, 402 p. CRC Press, 
Boca Raton, FL. 
Stevenson, D. K., and S. E. Campana (eds.). 
1992. Otolith microstructure examination and analy¬ 
sis. Can. Spec. Publ. Fish. Aquat. Sci. 117, 126 p. 
Thorrold, S. R., and J. A. Hare. 
2002. Otolith applications in reef fish ecology. In Coral 
reef fishes: dynamics and diversity in a complex ecosys¬ 
tem (P. F. Sale, ed.), p. 243-264. Academic Press, San 
Diego, CA. 
Volk, E. C., R. C. Wissmar, C. A. Simenstad, and D. M. Eggers. 
1984. Relationship between otolith microstructure and 
the growth of juvenile chum salmon ( Oncorhynchus keta ) 
under different prey rations. Can. J. Fish. Aquat. Sci. 
41:126-133. 
Wang, N., and R. Eckmann. 
1992. Effects of photoperiod, feeding regime and water 
temperature on the formation of daily growth increments 
in otoliths of larval pike ( Esox lucius L.). J. Appl. Ich- 
thyol. 8:246-250. 
