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The effect of sea temperature and food availability on the spawning success of Cape anchovy Engraulis capensis in the southern Benguela
Richardson, A.J.; Mitchell-Innes, B.A.; Fowler, J.L.; Bloomer, S.F.; Verheye, H.M.; Field, J.G.; Hutchings, L.; Painting, S.J. (1998). The effect of sea temperature and food availability on the spawning success of Cape anchovy Engraulis capensis in the southern Benguela. S. Afr. J. Mar. Sci./S.-Afr. Tydskr. Seewet. 19(1): 275-290. https://dx.doi.org/10.2989/025776198784126755
In: South African Journal of Marine Science = Suid-Afrikaanse Tydskrif vir Seewetenskap. Marine & Coastal Management: Cape Town. ISSN 0257-7615, more
Peer reviewed article  

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Keyword
    Marine/Coastal

Authors  Top 
  • Richardson, A.J., more
  • Mitchell-Innes, B.A.
  • Fowler, J.L.
  • Bloomer, S.F.
  • Verheye, H.M.
  • Field, J.G.
  • Hutchings, L.
  • Painting, S.J.

Abstract
    Data on the thermal structure, copepod biomass and production, and total number of eggs of the Cape anchovy Engraulis capensis were obtained from monthly surveys during the periods August 1993 – March 1994 and September 1994 – March 1995 on the western Agulhas Bank and off the South-Western Cape, South Africa. Previous work suggested that anchovy spawn on the western Agulhas Bank in temperatures between 16 and 19°C, where they feed predominantly on copepods. This study shows that the western Bank is a more suitable spawning area for anchovy, having greater thermal stability, a larger area of 16–19°C water and a more consistent food environment than off the South-Western Cape. Also, copepod production on the western Bank was highest in 16–19°C water. To identify factors controlling the area of this water mass, a cluster analysis was used on a suite of hydrographic variables. Three periods were identified: winter (August-September), spring (October-December) and summer (January-March), reflecting changes in the extent of the 16–19°C water and anchovy spawning, both of which peaked during spring. Spring was further characterized by infrequent surface upwelling. During summer, upwelling frequently reached the surface and the upwelling front migrated offshore, constricting the area of 16–19°C water. It is hypothesized that spawning success in anchovy is dependent upon the extent of suitable spawning habitat, both spatially (l6–19°C water) and temporally (spring). To put this concept into a predictive framework, the number of anchovy eggs was regressed against the area of 16–19°C water; a significant, positive relationship (p < 0.001, r 2 = 0.56, n = 17) was found. An implication of the hypothesis is that the duration of spawning may be important to recruitment.

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