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Fishery Bulletin 101(3) 



Potts, P. J. 



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 Hall, New York, NY. 

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1995. Otolith microchemistry of charr — use in life history 

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 1990. Strontiumxalcium concentration ratios in otoliths of 

 herring larvae as indicators of environmental conditions. 

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1994. Use of otolith microchemistry to discriminate Oncor- 

 hynchus nerka of resident and anadromous origin. Can. J. 

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 Secor, D. H. 



1992. Application of otolith microchemistry analysis to 

 investigate anadromy in Chesapeake Bay striped bass 

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1999. Specifying divergent migration patterns in the concept 

 of stock: the contingent hypothesis. Fish. Res. 43:13-34. 



Secor, D. H., and J. R. Rooker 



2000. Is otolith strontium a useful scalar of life cycles in 

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Thresher, R. E. 



1999. Elemental composition of otoliths as a stock delineator 

 in fishes. Fish. Res. 43: 165-204. 

 Thresher, R. E., C. H. Proctor, J. S. Gunn, and I. R. Harrowfield. 

 1994. An evaluation of electron-probe microanalysis of 

 otoliths for stock delineation and identification of nursery 

 areas in a southern temperate groundfish, Nemadactylus 

 macropterus (Cheilodactylidae). Fish. Bull. 92:817-840. 



Toole, C. L., D. F Markle, and P H. Harris. 



1993. Relationships between otolith microstructure, micro- 

 chemistry, and early life history events in Dover sole, 

 Microstomus pacificus. Fish. Bull. 91:732-753. 

 Toole, C. L., and R. L. Nielsen. 



1992. Effects of microprobe precision on hypotheses related 

 to otolith Sr:Ca ratios. Fish. Bull. 90:421-427. 

 Tzeng, W. N., K. P. Severin, and H. Wikstrom. 



1997. Use of otolith microchemistry to investigate the 

 environmental history of European eel, Anquilla anquilla. 

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 Volk, E. C, A. Blakley, S. L. Schroder, and S. M. Kuehner. 



2000. Otolith microchemistry reflects migratory characteris- 

 tics of Pacific salmonids: using otolith core chemistry to dis- 

 tinguish maternal associations with sea and freshwaters. 

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2000. Ecological relation of sympatric steelhead and resi- 

 dent rainbow trout in the Deschutes River, Oregon. Ph.D. 

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2000. Population structure of sympatric anadromous and 

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 spawning surveys and otolith microchemistry. Can. J. 

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 progeny in the Deschutes River, Oregon, revealed with oto- 

 lith microchemistry. Trans. Am. Fish. Soc. 131:986-993. 



