RESUMEN
Global losses of oyster populations urgently necessitate evaluating the status of underdocumented populations. The north-Patagonian Ostrea puelchana metapopulation changed in recent decades: certain beds grew and expanded; others became depleted by the Bonamia exitiosa epizootic. We surveyed eight oyster beds from the San Matías and San José gulfs; assessing the extension, demographic structure, and density-distribution pattern of each. We integrated biologic and environmental data on different spatial and temporal scales. Beds from the northestern and southern coasts continued expanding; while the northwestern beds- decimated by B. exitiosa in mid-1990-evidenced signs of recovery. We observed an envelope relationship between adult density and carriage incidence, suggesting a density-dependent compensation. Temporal data revealed decreased mean O. puelchana shell heights during recent decades. We discuss the success of extractive closures for long-term management and stress the effectiveness of a multiscale approach to determine the density-dependent processes structuring and driving marine-bivalve-population development.
Asunto(s)
Haplosporidios , Ostrea , Animales , Argentina , Dinámica Poblacional , Alimentos MarinosRESUMEN
Wild oyster populations have declined severely worldwide, however fluctuations of South Atlantic populations are poorly documented. We explored the changes in the abundance of Ostrea puelchana population of Northern Patagonia, Argentina, by linking data from paleontological, archaeological and informal sources, with time series data from fishing, ecological and studies of oyster pathology. The present work is the first study which includes a South Atlantic time series concerning oyster beds. The focal area for this study is the San Matías Gulf (SMG, 40° 50'-42° 15' S, 63° 5'-65° 10' W). Populations of O. puelchana were inferred from sub-fossil deposits (>700 years ago) throughout the gulf, but were documented in surveys a century ago only in the NW coast. The population has declined in the last decades. However, new populations have established recently in the NE and southern regions of the gulf. A Bonamia exitiosa epizootic was coincident with the declining trend of the abundance provided by the time series, suggesting that beds declined as a consequence of parasite infections. Dredging fisheries for scallops took place in the 1970s and 1980s on the NE coast of the gulf, in areas adjacent to the NE oyster beds. We proposed that fishing activities might have had a low impact on oyster beds, since NE beds expanded and increased during that period. The southward expansion of oyster population at latitudes beyond the historical distribution range might reflect long-term adequate environmental conditions for larval survival on the NE and S of the SMG.