Annual pattern of calanoid copepod abundance, prosome length and minor role in pelagic carbon flux in the Solent, UK

A. G. Hirst, M. Sheader, J. A. Williams

    Research output: Contribution to journalArticle

    Abstract

    Investigation of the calanoid copepods at a coastal station in the Solent, UK, over a 14 mo period revealed a numerical dominance by species of the genus Acartia (comprising A. bifilosa, A. clausi, A. discaudata and A. margalefi), and the species Temora longicornis and Centropages hamatus, with sporadic appearances of Paracalanus parvus and Pseudocalanus elongatus. There was clear seasonality in the abundance of calanoids, with total numbers being highest from May onwards, and low after October. Stage-specific prosome lengths varied with season, and in most cases were negatively correlated with temperature. Individual weights and abundance of the copepods, together with measures of temperature, were used to predict weight-specific growth and production rates using a published empirical relationship. Comparisons of annual copepod production with previous measures of annual primary production and production of bacteria and ciliates at this same site were made, and a carbon flow diagram was constructed. Calanoid copepod annual production was 32.2 mgC m-3 yr-1. This represents only 0.5 % of the total annual primary production, and 0.6 % of the annual primary production of algae >3 µm. Ciliate annual production was almost 2 orders of magnitude higher, and constituted 33 % of the total annual primary production. In other neritic studies (with water column depths <200 m) annual production by copepods has varied between 21 and 177% of annual ciliate production, whereas at this Solent site the value was only 1.5 %. It is suggested that the low biomass (and production) achieved by calanoid copepods was the consequence of population loss through high local flushing rates, unfavourable feeding conditions resulting from high suspended particulate matter, and high levels of hydrocarbon contaminants in the area.

    Original languageEnglish
    Pages (from-to)133-146
    Number of pages14
    JournalMarine Ecology Progress Series
    Volume177
    Publication statusPublished - 11 Feb 1999

    Fingerprint

    carbon flux
    primary production
    ciliate
    suspended particulate matter
    flushing
    seasonality
    water column
    temperature
    diagram
    alga
    hydrocarbon
    bacterium
    pollutant
    carbon
    biomass
    rate

    Keywords

    • Abundance
    • Calanoid
    • Copepodite stage
    • Production
    • Prosome length
    • Solent

    Cite this

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    title = "Annual pattern of calanoid copepod abundance, prosome length and minor role in pelagic carbon flux in the Solent, UK",
    abstract = "Investigation of the calanoid copepods at a coastal station in the Solent, UK, over a 14 mo period revealed a numerical dominance by species of the genus Acartia (comprising A. bifilosa, A. clausi, A. discaudata and A. margalefi), and the species Temora longicornis and Centropages hamatus, with sporadic appearances of Paracalanus parvus and Pseudocalanus elongatus. There was clear seasonality in the abundance of calanoids, with total numbers being highest from May onwards, and low after October. Stage-specific prosome lengths varied with season, and in most cases were negatively correlated with temperature. Individual weights and abundance of the copepods, together with measures of temperature, were used to predict weight-specific growth and production rates using a published empirical relationship. Comparisons of annual copepod production with previous measures of annual primary production and production of bacteria and ciliates at this same site were made, and a carbon flow diagram was constructed. Calanoid copepod annual production was 32.2 mgC m-3 yr-1. This represents only 0.5 {\%} of the total annual primary production, and 0.6 {\%} of the annual primary production of algae >3 µm. Ciliate annual production was almost 2 orders of magnitude higher, and constituted 33 {\%} of the total annual primary production. In other neritic studies (with water column depths <200 m) annual production by copepods has varied between 21 and 177{\%} of annual ciliate production, whereas at this Solent site the value was only 1.5 {\%}. It is suggested that the low biomass (and production) achieved by calanoid copepods was the consequence of population loss through high local flushing rates, unfavourable feeding conditions resulting from high suspended particulate matter, and high levels of hydrocarbon contaminants in the area.",
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    Annual pattern of calanoid copepod abundance, prosome length and minor role in pelagic carbon flux in the Solent, UK. / Hirst, A. G.; Sheader, M.; Williams, J. A.

    In: Marine Ecology Progress Series, Vol. 177, 11.02.1999, p. 133-146.

    Research output: Contribution to journalArticle

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