Effect of water-borne copper on respiratory and cardiac function during the early ontogeny of the brine shrimp,Artemia franciscana Kellogg 1908 (Branchiopoda: Anostraca)

There was no direct effect of copper on the ontogeny or function of the heart of the brine shrimp Artemia franciscana in sea water (salinity= 36 mg·ml^-1, 25°C). There was, however, an indirect effect as an increase in copper concentration resulted in a reduced growth rate. There was no difference between the critical O₂ tensions of newly hatched (stage 0/1) nauplii of control and treated (<0.32 and 10.11 mol·l^-1 copper, respectively) individuals. However by developmental stages 4–6, when both the heart and thoracic gills are in the process of differentiating, respiratory performance had improved (i.e. critical O₂ tension decreased from 6.27±0.45 to 4.69±0.24 kPa) in control but not in copper-treated individuals. It is suggested that respiratory impairment of stages 4–6 individuals is unlikely to be related to differences in cardiac performance or cellular respiration. Instead it may be related to metal-related damage to newly differentiating gill tissue and/or by copper in some way compromising the normal ontogenic shift in haemoglobin O₂ affinity. Copper-related respiratory impairment develops at a critical point in brine shrimp organogenesis when a good supply of O₂ is essential for normal development and if compromised may reduce the ability of this species to survive copper exposure.Abbreviations BL body length - BW body weight - HR heart rate - HM heavy metals - SW sea water - P_c critical oxygen tension