Reproductive trade-off of the copepod Acartia tonsa in a hypersaline estuary of Southwestern Atlantic.Temporal variations in the morphology of eggs

BERASATEGUI ANABELA ANAHÍ; FERNÁNDEZ SEVERINI MELISA DAIANA; MENÉNDEZ MARÍA CLARA; BIANCALANA FLORENCIA; DUTTO MARÍA SOFÍA; GUINDER VALERIA ANA; LOPEZ ABBATE MARÍA CELESTE; CHAZARRETA CARLO JAVIER; HOFFMEYER MÓNICA SUSANA

MARINE BIOLOGY RESEARCH

TAYLOR & FRANCIS AS

Lugar: Londres; Año: 2016 vol. 12 p. 817 - 829

1745-1000

The purpose of the present work was to study the seasonal variations in egg production, morphology and hatching success in the cryptic species Acartia tonsa taking into account variations in female size, population abundance and environmental factors in a turbid and hypersaline estuary. Sampling was performed during the austral warm (18-23°C and 32-36 salinity) and cold seasons (5-17 7ºC; 32-38) in Bahía Blanca Estuary (BBE), Argentina, during a particular year. Field females were incubated in the laboratory simulating in situ environmental conditions, and specimens from fixed samples were measured using optical and scanning electronic microscopy. A. tonsa´s marked seasonality in its reproductive traits was found to ensure its permanence in the water column all over the year. During the warm season, small-sized females were observed to invest their energy in the production of subitaneous eggs with high hatching success and smooth appearance (12.95±2.38 eggs f-1d-1 and specific egg production rate= SEP of 16.57%Cf-1d-123 ). During the cold season, females invested C in body mass as well as in the production of resting eggs of three different morphotypes (6.56±3.2 eggs f-1d-1 and SEP of 7.37%Cf-1d-125 ). Although these morphotypes were found to show differences in surface ornamentation, they exhibited the same delayed hatching behaviour. The eggs with shorter spines were found to integrate the resting egg bank in BBE. Our findings confirming a delayed egg hatching behaviour and a great tolerance to low temperatures and high salinities in A. tonsa population in BBE suggest that this possible strain is a valuable phenotype for aquaculture.