Abstract
Generalized additive and generalized additive threshold models were used to study the relationship between landings per unit effort (LPUE) of anchovy, Engraulis encrasicolus, during the spawning season (May-October) from 2000-2010, and environmental variables, using sea surface data derived from satellite imagery (temperature, salinity, chlorophyll a, and meridional and zonal velocity current) in three fishing zones defined along the Catalan coast. The configuration of the environment where spawning aggregations occur affects early life stages and therefore the future demographic structure of the population. It is therefore fundamental to define the environmental conditions and their variations during the spawning season. Our results show that the low salinity in the Northern and Central sector and the velocity of the zonal and meridional currents in the Central and Southern sector, respectively, implicated in retention processes, increase LPUE during the spawning period. Temperature was related to LPUE in the Southern and in the Northern sectors, in both of which a non-linear positive effect with a local maximum peak at lower temperature values was present. However, in the Northern sector, this relationship held only for the period before 2007. After 2007 the decrease in preferred temperature suggests a reduction of the thermal window in which adult spawner aggregations occur. In agreement with previous studies on this species, the relationships were non-linear, stressing the importance of the match in timing and location between favourable conditions and spawning period as a crucial event for understanding the dynamics of small pelagics populations.
Highlights
Small pelagic fishes are key components of marine ecosystems and support fisheries of global importance (Alheit et al 2012)
Through the use of both GAM and threshold GAM (TGAM), this study aims to investigate the relation between the anchovy fishery landings and the local environmental conditions in the NW Mediterranean Sea during the spawning season, considering landings per unit of effort (LPUE) as a proxy of abundance of the adult
The environmental data show that the sea surface temperature (SST) has a clear seasonal pattern (Fig. 3A): the maxima during summer show high variability along the latitudinal gradient, decreasing from south to north
Summary
Small pelagic fishes are key components of marine ecosystems and support fisheries of global importance (Alheit et al 2012) These organisms are characterized by a short life span (2-3 years) and they feed on phytoplankton and small zooplankton (Tudela and Palomera 1995) in a short plankton-based food web. Populations of these fishes experience large interannual and long-term variations in abundance (Lluch-Belda et al 1989), and several hypotheses have been formulated in order to explain these fluctuations (e.g. the “matchmismatch” hypothesis (Cushing 1990); the “optimal environmental window” (Cury and Roy 1989); and the “ocean triad” (Bakun 1996, Agostini and Bakun 2002)). It is fundamental to define the environmental conditions and their variations during the spawning period of these species
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
