NITROGEN METABOLISM OF THE ANTARCTIC BIVALVE LATERNULA ELLIPTICA (KING & BRODERIP) AND ITS POTENTIAL USE AS BIOMARKER

The Antarctic marine environment is characterized by the extreme seasonality of the primary production in the water column and the low but stable temperatures. Both are considered the main factors in the adaptative evolution of Antarctic ectothermic organisms. Studies about physiological and biochem...

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Bibliographic Details
Main Authors: Rodrigues, Edson, Vani, Gannabathula Sree, Lavrado, Helena Passeri
Format: Article in Journal/Newspaper
Language:Portuguese
Published: Associação Brasileira de Ciência Ecológica e Conservação 2017
Subjects:
Antarctica
benthos
Laternula elliptica
arginase
metabolism
ecophysiology
biomarkers
heavy metals
Antartica
bentos
metabolismo
ecofisiologia
biomarcadores
metais pesados
Antarctic
Austral
The Antarctic
Antarc*
antartic*
Online Access:https://revistas.ufrj.br/index.php/oa/article/view/8058
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Summary:The Antarctic marine environment is characterized by the extreme seasonality of the primary production in the water column and the low but stable temperatures. Both are considered the main factors in the adaptative evolution of Antarctic ectothermic organisms. Studies about physiological and biochemical processes of the cold-adapted species revealed the presence of antifreeze glycoproteins in the biological fluids and cold-adapted proteins. The low and stable temperatures have resulted in the appearence of enzymes with high catalytic efficiency and the absence of the thermal stress proteins in some Antarctic fishes. The austral winter promotes a seasonal food shortage, submitting the benthic ectotherms to long periods of starvation. This is particularly true for the organisms that depend on phytoplankton as their primary source of food. The Antarctic marine environment also presents areas of high copper concentrations on the sediment surface as well as cadmium in the water column. The bivalve Laternula elliptica, a circumpolar species, has been proposed as bioindicator for long term monitoring of heavy metals in the shallow waters of Antarctica due to its capacity to accumulate metals, especially cadmium and zinc. Like other Antarctic ectothermic organisms, L. elliptica changes its metabolism from aerobic to anaerobic as a function of temperature, being 6 ºC critical and 9 ºC lethal. This bivalve also shows a marked seasonality in its metabolism, with low oxygen consumption in winter as compared to summer. It is speculated that it enters into a dormancy state during the austral winter as it apparently retracts its siphons below the sediment surface. The apparent supression of the water pumping by the siphons during winter forces L. elliptica to mobilize its energy reserves, using the siphon proteins as its principal source of energy (ratio of oxygen consumption/excreted nitrogen = 3.0). Even during summer, when the high food supply stimulates the bivalve growth, the metabolism is mainly protein based. (O:N ratio ...

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