Article
Paralytic Shellfish Toxins in Surf Clams Mesodesma donacium during a Large Bloom of Alexandrium catenella Dinoflagellates Associated to an Intense Shellfish Mass Mortality
Fecha
2019Autor
Álvarez, Gonzalo
Díaz, Patricio A.
Godoy, Marcos
Araya, Michael
Ganuza, Iranzu
Pino, Roberto
Álvarez, Francisco
Rengel, José
Hernández, Cristina
Uribe, Eduardo
Blanco, Juan
Institución
Resumen
In late February 2016, a harmful algal bloom (HAB) of Alexandrium catenella was detected in southern Chiloe, leading to the banning of shellfish harvesting in an extended geographical area (similar to 500 km). On April 24, 2016, this bloom produced a massive beaching (an accumulation on the beach surface of dead or impaired organisms which were drifted ashore) of surf clams Mesodesma donacium in Cucao Bay, Chiloe. To determine the effect of paralytic shellfish poisoning (PSP) toxins in M. donacium, samples were taken from Cucao during the third massive beaching detected on May 3, 2016. Whole tissue toxicity evidence a high interindividual variability with values which ranged from 1008 to 8763 g STX eq 100 g(-1) and with a toxin profile dominated by GTX3, GTX1, GTX2, GTX4, and neoSTX. Individuals were dissected into digestive gland (DG), foot (FT), adductor muscle (MU), and other body fractions (OBF), and histopathological and toxin analyses were carried out on the obtained fractions. Some pathological conditions were observed in gill and digestive gland of 40-50% of the individuals that correspond to hemocyte aggregation and haemocytic infiltration, respectively. The most toxic tissue was DG (2221 g STX eq 100 g(-1)), followed by OBF (710 g STX eq 100 g(-1)), FT (297 g STX eq 100 g(-1)), and MU (314 g STX eq 100 g(-1)). The observed surf clam mortality seems to have been mainly due to the desiccation caused by the incapability of the clams to burrow. Considering the available information of the monitoring program and taking into account that this episode was the first detected along the open coast of the Pacific Ocean in southern Chiloe, it is very likely that the M. donacium population from Cucao Bay has not had a recurrent exposition to A. catenella and, consequently, that it has not been subjected to high selective pressure for PSP resistance. However, more research is needed to determine the effects of PSP toxins on behavioral and physiological responses, nerve sensitivity, and genetic/molecular basis for the resistance or sensitivity of M. donacium.