Shell Deformations in the Baltic Clam Macoma balthica from Southern Baltic Sea (the Gulf of Gdansk): Hypotheses on Environmental Effects

Adam Sokołowski; Krzysztof Pawlikowski; Maciej Wołowicz; Pascale Garcia; Jacek Namieśnik

doi:10.1579/0044-7447(2008)37[93:SDITBC]2.0.CO;2

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1 March 2008 Shell Deformations in the Baltic Clam Macoma balthica from Southern Baltic Sea (the Gulf of Gdansk): Hypotheses on Environmental Effects

Adam Sokołowski, Krzysztof Pawlikowski, Maciej Wołowicz, Pascale Garcia, Jacek Namieśnik

Author Affiliations +

Adam Sokołowski,^* Krzysztof Pawlikowski,^** Maciej Wołowicz,^*** Pascale Garcia,^**** Jacek Namieśnik^*****

^*Adam Sokołowski is a professor's assistant at the Institute of Oceanography, University of Gdansk, Poland. His research focuses on the effects of environmental changes (natural and anthropogenic) on macrobenthic fauna and food web functioning. His address: Laboratory of Estuarine Ecology, Institute of Oceanography, University of Gdansk, Al. Marszałka J. Piłsudskiego 46, 81-378 Gdynia, Poland. oceas@univ.gda.pl
^**Krzysztof Pawlikowski is a marine biologist at Sea Fisheries Institute in Gdynia. His current research focuses on taxonomic structure and biomass assessment of shallow water zooplankton of Gdańsk Bay. His address: Laboratory of Estuarine Ecology, Institute of Oceanography, University of Gdansk, Al. Marszałka J. Piłsudskiego 46, 81-378 Gdynia, Poland. Present address: Sea Fisheries Institute, Department of Fisheries Oceanography and Marine Ecology, ul. Kołłątaja 1, 81-332 Gdynia, Poland k.pawlikowski@mir.gdynia.pl
^***Maciej Wołowicz is a professor, Head of the Department of Marine Ecosystem Functioning, and professor of marine ecology at the University of Méditerranée in Marseille (1994–1997) and the University of La Rochelle (2002), France. He is working on ecophysiological and genetic adaptations of benthic invertebrates to the environmental changes. His address: Laboratory of Estuarine Ecology, Institute of Oceanography, University of Gdansk, Al. Marszałka J. Piłsudskiego 46, 81-378 Gdynia, Poland. ocemw@univ.gda.pl
^****Pascale Garcia is a professor at the University of La Rochelle, France. Her research focuses on the impact of human activities, especially the introduction of exotics, on marine ecosystems, using the molecular tools of population genetics. Her address: Centre de Recherche sur les Ecosystèmes Littoraux Anthropisés, CRELA UMR 6217, Université de La Rochelle, Avenue Michel Crépeau, 17042 La Rochelle, France. pgarciam@univ-lr.fr
^*****Jacek Namieśnik is a professor and head of the Department of Analytical Chemistry at the Gdansk University of Technology. His research interests are environmental analytics and monitoring. His address: Chemical Faculty, Gdansk University of Technology, 11/12 ul. G. Narutowicza, 80-952 Gdansk, Poland. chemanal@pg.gda.pl

AMBIO: A J. of the Human Environment, 37(2):93-100 (2008). https://doi.org/10.1579/0044-7447(2008)37[93:SDITBC]2.0.CO;2

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Abstract

High-resolution digital photography and graphical image analyses systems have been used to define external morphometric characters of shell deformations in four populations of the Baltic clam Macoma balthica from the Gulf of Gdansk (southern Baltic Sea). The proposed shell deformation indices (SDI), which were based on the relationship of selected dimensions in the posterior and the anterior part of the shell, showed at least three morphological features that provide a distinctive diagnosis of “regular” and “deformed” clams: the presence of flexure on the posterior side (SDI1), elongated posterior region (SDI2), and shell growth (SDI3). The degree and prevalence of deformed clams varied locally over space. Increase in percentage contribution of aberrated shells with depth, corresponding to oxygen depletion profile in the Gulf, suggests low oxygen concentrations as the main agent exerting a deforming influence. The observed morphological aberrations developed with age (size) of a bivalve, suggesting a long-term effect of causal factors, and were accompanied by lightening shell weight, possibly due to decalcification of previously deposited calcareous material during anaerobic metabolism. It is hypothesized that hypoxic/anoxic conditions and a subsequent presence of hydrogen sulfide on a deep organic-rich sea bottom induce shell form alterations that enable the pumping of oxygenated water from above the anoxic layer. Such a morphological modification highlights the functional significance of shell deformations in protective response to the ambient low-oxygen concentrations. Sediment organotin concentrations fall within moderate to high contamination range and, therefore, may also have an adverse impact on the shell form. DNA analyses of the fragment of mitochondrial gene cytochrome oxidase I (COI, 393 base pairs) showed homogenous genetic structure of regular and deformed clams, indicating that shell deformations in M. balthica are primarily driven by acclimatization to the ambient environmental conditions.

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Adam Sokołowski, Krzysztof Pawlikowski, Maciej Wołowicz, Pascale Garcia, and Jacek Namieśnik "Shell Deformations in the Baltic Clam Macoma balthica from Southern Baltic Sea (the Gulf of Gdansk): Hypotheses on Environmental Effects," AMBIO: A Journal of the Human Environment 37(2), 93-100, (1 March 2008). https://doi.org/10.1579/0044-7447(2008)37[93:SDITBC]2.0.CO;2

Received: 6 September 2005; Accepted: 1 June 2007; Published: 1 March 2008

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AMBIO: A Journal of the Human Environment

AMBIO: A Journal of the Human Environment
Vol. 37 • No. 2
March 2008

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Adam Sokołowski, Krzysztof Pawlikowski, Maciej Wołowicz, Pascale Garcia, Jacek Namieśnik "Shell Deformations in the Baltic Clam Macoma balthica from Southern Baltic Sea (the Gulf of Gdansk): Hypotheses on Environmental Effects," AMBIO: A Journal of the Human Environment, 37(2), 93-100, (1 March 2008)

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