Chang et al.: The Antarctic Oscillation index as an environmental parameter for predicting catches of ///ex argentinus 
211 
tionship to sea water temperature changes. Zool. Stud. 
46:362-374. 
Chen, X. J., B. L. Liu, and Y. Z. Wang. 
2005. Study on the distribution of production of lllex 
argentinus and its relationship with sea surface tem- 
perature in the southwest Atlantic Ocean in 2000. J. 
Zhanjiang Ocean Univ. 25:29-34. 
Dawe, E. G., E. B. Colbourne, and K. F. Drinkwater. 
2000. Environmental effects on recruitment of short- 
finned squid (lllex illecebrosus). ICES J. Mar. Sci. 
57:1002-1013. 
Dawe, E. G., L. C. Hendrickson, E. B. Colbourne, K. F. Drink- 
water, and M. A. Showell. 
2007. Ocean climate effects on the relative abundance of 
short-finned ( lllex illecebrosus ) and long-finned (Loligo 
pealeii ) squid in the northwest Atlantic Ocean. Fish. 
Oceanogr. 16:303-316. 
Fang Z., X. J. Chen, J. H. Li, and H. J. Lu. 
2013. Distribution of fishing ground of lllex argentinus 
and its relationship with sea surface temperature in 
the waters of Exclusive Economic Zone of Argentina. J. 
Shanghai Ocean Univ. 22:134-140. 
Forsythe, J. W. 
1993. A working hypothesis on how seasonal tempera- 
ture change may impact the field growth of young ceph- 
alopods. In Recent advances in cephalopod fisheries 
biology (T. Okutani, R. K. O’Dor, and T. Kubodera, eds.), 
p. 133-143. Tokai Univ. Press, Tokyo. 
Georgakarakos, S., J. Haralabous, V. Valavanis, C. Arvanitidis, 
D. Koutsoubas, and A. Kapantagakis. 
2002. Loliginid and ommastrephid stock prediction 
in Greek waters using time series analysis tech- 
niques. Bull. Mar. Sci. 71:269-287. 
Gherardi, D. F. M., E. T. Paes, H. C. Soares, L. P. Pezzi, and 
M. T. Kayano. 
2010. Differences between spatial patterns of climate 
variability and large marine ecosystems in the western 
South Atlantic. Pan-am. J. Aquat. Sci. 5:310-319. 
Gong, D., and S. Wang. 
1999. Definition of Antarctic Oscillation index. Geo- 
phys. Res. Lett. 6:459-462. 
Haimovici, M., N. E. Brunetti, P. G. Rodhouse, J. Csirke, and 
R. H. Leta. 
1998. lllex argentinus. In Squid recruitment dynamics: 
the genus lllex as a model, the commerical lllex spe- 
cies and influences on variability (P. G. Rodhouse, E. G. 
Dawe, and R. K. O’Dor, eds.), p. 27-58. FAO Fish. Tech. 
Pap. 376. FAO, Rome. 
Harrell, F. E., Jr. 
2014. rms: regression modeling strategies. R package, 
vers. 4.2-0. [Available from , accessed Septem- 
ber 2014.] 
Jereb, P., and C. F. E. Roper (eds.). 
2010. Cephalopods of the world, an annotated and illus- 
trated catalogue of cephalopod species known to date. 
Vol: 2. Myopsid and oegopsid squids. FAO Species Cat- 
alogue for Fishery Purposes no. 4, vol. 2, 605 p. FAO, 
Rome. 
Justino, F., and W. R. Peltier. 
2008. Climate anomalies induced by the Arctic and Ant- 
arctic Oscillations: glacial maximum and present-day 
perspectives. J. Clim. 21:459-475. 
Kidokoro, H., T. Goto, T. Nagasawa, H. Nishida, T. Akamine, 
and Y. Sakurai. 
2010. Impact of a climate regime shift on the migration 
of Japanese common squid (Todarodes pacificus) in the 
Sea of Japan. ICES J. Mar. Sci. 67:1314-1322. 
Lloret, J., I. Palomera, J. Salat, and I. Sole. 
2004. Impact of freshwater input and wind on land- 
ings of anchovy ( Engraulis encrasicolus ) and sardine 
(Sardina pilchardus) in shelf waters surrounding the 
Ebre (Ebro) River delta (north-western Mediterra- 
nean). Fish. Oceanogr. 13:102-110. 
Peel, G. T., and G. D. Jackson. 
2008. The potential impacts of climate change on in- 
shore squid: biology, ecology and fisheries. Rev. Fish 
Biol. Fish. 18:373-385. 
Pierce, G. J., and P. R. Boyle. 
2003. Empirical modeling of interannual trends in abun- 
dance of squid (Loligo forbesi) in Scottish waters. Fish. 
Res. 59:305-326. 
Pierce, G. J., V. D. Valavanis, A. Guerra, P. Jereb, L. Orsi-Reli- 
ni, J. M. Bellido, I. Katara, U. Piatkowski, J. Pereira, E. Bal- 
guerias, I. Sobrino, E. Lefkaditou, J. Wang, M. Santurtun, P. 
R. Boyle, L. C. Hastie, C. D. MacLeod, J. M. Smith, M. Viana, 
A. F. Gonzalez, and A. F. Zuur. 
2008. A review of cephalopod — environment interactions 
in European Seas. Hydrobiologia 612:49-70. 
Polanco, J., U. Ganzedo, J. Saenz, A. M. Caballero-Alfonso, and 
J. J. Castro-Hernandez. 
2011. Wavelet analysis of correlation among Canary Is- 
lands octopus captures per unit effort, sea-surface tem- 
peratures and the North Atlantic Oscillation. Fish. 
Res. 107:177-183. 
R Core Team. 
2014. R: a language and environment for statistical com- 
puting. R Foundation for Statistical Computing, Vien- 
na, Austria. [Available from website, accessed August 
2014.] 
Rodhouse, P. G. 
2001. Managing and forecasting squid fisheries in vari- 
able environments. Fish. Res. 54:3—8. 
Sacau, M., G. J. Pierce, J. Wang, A. I. Arkhipkin, J. Portela, P. 
Brickie, M. B. Santos, A. F. Zuur, and X. Cardoso. 
2005. The spatio-temporal pattern of Argentine shortfin 
squid lllex argentinus abundance in the southwest At- 
lantic. Aquat. Living Resour. 18:361-372. 
Sakurai, Y., H. Kiyofuji, S. Saitoh, J. Yamamoto, T. Goto, K. 
Mori, and T. Kinoshita. 
2002. Stock fluctuations of the Japanese common squid, 
Todarodes pacificus, related to the recent climate 
changes. Fish. Sci. 68(suppl. I):226-229. 
Silvestri, G. E., and C. S. Vera. 
2003. Antarctic Oscillation signal on precipitation anom- 
alies over southeastern South America. Geophys. Res. 
Lett. 30:2115. 
Turner, J., J. E. Overland, and J. E. Walsh. 
2007. An Arctic and Antarctic perspective on recent cli- 
mate change. Int. J. Climatol. 27:277-293. 
Vasconcellos, F. C., and I. F. A. Cavalcanti. 
2010. Extreme precipitation over Southeastern Brazil 
in the austral summer and relations with the South- 
ern Hemisphere annular mode. Atmos. Sci. Lett. 
11:21-26. 
Waluda, C. M., P. G. Rodhouse, G. P. Podesta, P. N. Trathan, 
and G. J. Pierce. 
2001a. Surface oceanography of the inferred hatching 
grounds of lllex argentinus (Cephalopoda: Ommas- 
trephidae) and influences on recruitment variabil- 
ity. Mar. Biol. 139:671-679. 
Waluda, C. M., P. G. Rodhouse, P. N. Trathan, and G. J. Pierce. 
2001b. Remotely sensed mesoscale oceanography and 
