IDENTIFYING THE EFFECTS OF OCEANOGRAPHIC FEATURES AND ZOOPLANKTON ON PRESPAWNING HERRING ABUNDANCE USING GENERALIZED ADDITIVE-MODELS

Spatial distribution patterns of prespawning herring were analyzed in relation to zooplankton biomass, sea-surface temperature and salinity, temperature and depth of the thermocline (fronts) and the temperature difference between surface and bottom water. Data were collected in m idsummer 1995 during the ICES coordinated herring acoustic survey of t he ICES Division IVa. We used generalized additive models (GAMs), nonp arametric generalization of multiple linear regression, to test the hy pothesis that prespawning herring distribution is related to zooplankt on availability and the oceanography around the Shetland Islands (UK), with particular reference to inflows from the Slope Current. The resu lts of this study supported this hypothesis. We found that zooplankton biomass and the location of ocean fronts influence the distribution o f prespawning herring. Mean herring abundance was consistently highest in areas having a surface salinity of 35.1 ppt and where the zooplank ton abundances were higher. Results indicated that herring appeared to prefer the well-mixed waters and transition zones and avoided the str atified and frontal areas. The present results also suggested that pre spawning aggregations of herring followed the movements of zooplankton to deeper and cooler waters beneath the thermocline during summer. Wa ters with specific salinity and temperature properties are attractive to herring due to the process of frontal mixing which enhances primary and secondary production. These waters are ultimately linked with the Slope Current which is responsible for the advection of warm, nutrien t-rich, saline water into the North Sea ecosystem.