Detection of sex and sex ratio in Calanus finmarchicus early stage fifth copepodites
Ability to determine sex ratios from developing copepodites collected in the field has, in the past, been limited to observations of overall gonad shape and size. This approach has been useful in distinguishing developing male and female fifth copepodites (C5s), but is limited to individuals in the...
| Published in: | ICES Journal of Marine Science |
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| Main Authors: | , |
| Format: | Text |
| Language: | English |
| Published: |
Oxford University Press
2000
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| Subjects: | |
| Online Access: | http://icesjms.oxfordjournals.org/cgi/content/short/57/6/1773 https://doi.org/10.1006/jmsc.2000.0979 |
| Summary: | Ability to determine sex ratios from developing copepodites collected in the field has, in the past, been limited to observations of overall gonad shape and size. This approach has been useful in distinguishing developing male and female fifth copepodites (C5s), but is limited to individuals in the final stages of gonad development. We have refined the approach by identifying and describing five distinct gonad types found in C. finmarchicus C5s and categorizing the early stages of sexual differentiation in the gonad on the basis of gonad shape and cell size. In Calanus , the first meiotic division of cells in the gonad occurs well before it has begun to take on the characteristic shape of an ovary or testis. Cell size can be seen easily after staining the gonads and clearing the integument and somatic tissues. Developing testes and ovaries can be recognized at an early stage by observing relative cell size anterior and posterior to the zone of first meiotic division. We used this technique to make preliminary determinations of the sex ratio in developing C. finmarchicus C5s on and around the Georges Bank during the 1998 GLOBEC Broadscale Survey. These data are compared with monthly sex ratios calculated from adult abundance from the same sample set. Results show that the seasonal patterns of C5 and adult sex ratios are similar, with a temporal offset attributed to developmental timing. In all samples, the proportion of developing male C5s is higher than the proportion of adult males, which we attribute to differential mortality between adult males and females. |
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