Influence of environmental conditions on the reproductive success and recruitment of the Argentine hake Merluccius hubbsi (southwestern Atlantic Ocean)

Abstract The Argentine hake Merluccius hubbsi represents the dominant demersal fish and one of the main fisheries in the Argentine Sea. We analyzed over 17 years (September 1997–February 2015) of satellite surface chlorophyll concentration ( CHL ) and sea surface temperature anomaly ( SSTA ) data in the main spawning ( SUB ) and nursery ( SJG ) areas of the Patagonian stock of M. hubbsi . The variability observed in these environmental conditions was related to interannual differences in the reproductive success of hake. CHL values were maximum during austral spring (October–November) and minimum during winter (June–August). Blooms started in late September and lasted on average 128 and 110 days at SUB and SJG , respectively. At SUB , average CHL at the time of reproduction, the day of occurrence of the maximum chlorophyll concentration, and fall SST anomalies were significantly related to recruitment ( R VPA ) a year later and to two Larval Survival Indices ( LSI SSB and LSI TEP ) considered. At SJG , R VPA , LSI SSB , and LSI TEP showed negative correlations with fall (March–May) SSTA . Total egg production was not related to fall SSTA or spring phytoplankton dynamics at SUB or SJG . Significant positive trends were observed in the time series of CHL and SSTA in the study area. The trends observed in CHL represent average increases of 40.7% and 35.7% since 1997 at SUB and SJG , respectively. The potential implications of long‐term changes in environmental conditions for hake reproductive success are discussed.