Differential impacts of exploitation rate and juvenile exploitation on NE atlantic fish stock dynamics over the past half century

P. Vasilakopoulos*, F. G. O'Neill, C. T. Marshall

*Corresponding author for this work

Research output: Contribution to journalArticle

8 Citations (Scopus)

Abstract

Exploitation rate, as measured by average fishing mortality, has been a major focus of fisheries management in the past half century in the NE Atlantic and its temporal development and negative impact on stock status are well-documented. This is not the case for juvenile exploitation, i.e. the proportional fishing mortality of juveniles, despite the expected benefits from allowing fish to spawn before capture. In this study, we describe the aggregate (cross-stock) temporal development of fishing mortality, juvenile exploitation and stock status for three ecologically distinct groups of ICES stocks (demersal roundfish, pelagic and flatfish stocks) and separately for cod stocks and NE Arctic (Barents Sea) stocks. Both the long- and short-term effects of the variation in fishing mortality and juvenile exploitation on the temporal development of stock status were explored within all five groups. The long-term aggregate temporal trends were represented for each group by calculating the average values of fishing mortality, juvenile exploitation and stock status over all stocks by year. On aggregate, time periods with high fishing mortalities, in conjunction with high juvenile exploitation, are associated with rapid declines in stock status. Stocks are better able to withstand higher fishing mortalities when juvenile exploitation is low. The short-term effects of fishing mortality and juvenile exploitation on aggregate stock status were investigated using multiple linear regressions. Significant negative effects of recent fishing mortality on stock status were found for all groups of stocks examined, whereas the effects of recent juvenile exploitation were mostly non-significant. Overall, the results indicate that when ICES stocks are considered on aggregate, exploitation rate is the main driver of stock status trends through time.

Original languageEnglish
Pages (from-to)21-28
Number of pages8
JournalFisheries Research
Volume134-136
Early online date24 Aug 2012
DOIs
Publication statusPublished - 1 Dec 2012

Fingerprint

fishing mortality
fish
fish stock
rate
Barents Sea
Pleuronectiformes
flatfish
cod (fish)
fisheries management
fishery management
Arctic region
effect

Keywords

  • Fishing mortality
  • Immature fish
  • Meta-analysis
  • Selectivity
  • Stock status

ASJC Scopus subject areas

  • Aquatic Science

Cite this

Differential impacts of exploitation rate and juvenile exploitation on NE atlantic fish stock dynamics over the past half century. / Vasilakopoulos, P.; O'Neill, F. G.; Marshall, C. T.

In: Fisheries Research, Vol. 134-136, 01.12.2012, p. 21-28.

Research output: Contribution to journalArticle

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abstract = "Exploitation rate, as measured by average fishing mortality, has been a major focus of fisheries management in the past half century in the NE Atlantic and its temporal development and negative impact on stock status are well-documented. This is not the case for juvenile exploitation, i.e. the proportional fishing mortality of juveniles, despite the expected benefits from allowing fish to spawn before capture. In this study, we describe the aggregate (cross-stock) temporal development of fishing mortality, juvenile exploitation and stock status for three ecologically distinct groups of ICES stocks (demersal roundfish, pelagic and flatfish stocks) and separately for cod stocks and NE Arctic (Barents Sea) stocks. Both the long- and short-term effects of the variation in fishing mortality and juvenile exploitation on the temporal development of stock status were explored within all five groups. The long-term aggregate temporal trends were represented for each group by calculating the average values of fishing mortality, juvenile exploitation and stock status over all stocks by year. On aggregate, time periods with high fishing mortalities, in conjunction with high juvenile exploitation, are associated with rapid declines in stock status. Stocks are better able to withstand higher fishing mortalities when juvenile exploitation is low. The short-term effects of fishing mortality and juvenile exploitation on aggregate stock status were investigated using multiple linear regressions. Significant negative effects of recent fishing mortality on stock status were found for all groups of stocks examined, whereas the effects of recent juvenile exploitation were mostly non-significant. Overall, the results indicate that when ICES stocks are considered on aggregate, exploitation rate is the main driver of stock status trends through time.",
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