Energetics of the extremely long-living bivalve Arctica islandica based on a Dynamic Energy Budget model

Ballesta-Artero, Irene; Augustine, Starrlight; Witbaard, Rob; Carroll, Michael L.; Mette, Madelyn; Wanamaker, Alan D.; Meer, Jaap van der

doi:10.1016/j.seares.2018.09.016

Cited by 9 publications

(4 citation statements)

References 47 publications

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“…The influence of local environmental factors controlling shell growth and activity in this population has also been studied in detail at Ingøya by Ballesta‐Artero et al. (2017, 2019).…”

Section: Study Locationmentioning

confidence: 97%

Persistent Multidecadal Variability Since the 15th Century in the Southern Barents Sea Derived From Annually Resolved Shell‐Based Records

et al. 2021

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The North Atlantic Ocean plays a key role in modulating global climate (e.g., Marshall et al., 2001). Surface currents of the North Atlantic, including the Gulf Stream and its northern extension, the North Atlantic Current, bring relatively warm, salty waters northward as the surface components of the Atlantic Meridional Overturning Circulation (AMOC). At higher latitudes, these waters exchange heat with the atmosphere and cool to form dense, sinking water masses (deep-water formation) that return southward at depth, contributing to global ocean circulation (e.g., Broecker, 1991;Lynch-Stieglitz et al., 2007). The strength and structure of these currents, the rate of deep-water formation, and ocean-atmosphere interactions across the

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“…The influence of local environmental factors controlling shell growth and activity in this population has also been studied in detail at Ingøya by Ballesta‐Artero et al. (2017, 2019).…”

Section: Study Locationmentioning

confidence: 97%

Persistent Multidecadal Variability Since the 15th Century in the Southern Barents Sea Derived From Annually Resolved Shell‐Based Records

et al. 2021

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“…Just after settlement of the larvae, metabolism and shell growth occur only at slow rate due to the small body size of the individuals (Figure 9). However, during this early stage of life, shell growth also accelerates most rapidly, because it receives the largest proportion of the increasing metabolic power in order to improve individual survival chances (Kooijman and Kooijman, 2010;Ballesta-Artero et al, 2019). Accordingly, the shell of young A. islandica grows faster than its soft body (Murawski et al, 1982).…”

Section: Physiological Processes Affecting Bmu Sizementioning

confidence: 99%

“…Accordingly, the maximum somatic production activity is attained after the formation of the largest BMUs. After maturation, shell growth reaches the negative asymptotic stage (Philipp and Abele, 2010) because the majority of available metabolic energy is now directed toward reproduction (Begum et al, 2010;Kooijman and Kooijman, 2010;Ballesta-Artero et al, 2019). However, the onset of sexual maturity varies greatly between localities and among specimens (Thompson et al, 1980b;Cargnelli, 1999;Thorarinsdottir and Steingrimsson, 2000), whereas BMU size maxima were always attained around age seven to nine (Figure 5).…”

Section: Physiological Processes Affecting Bmu Sizementioning

confidence: 99%

Microstructural Mapping of Arctica islandica Shells Reveals Environmental and Physiological Controls on Biomineral Size

Höche¹,

Walliser

Schöne³

2022

Front. Earth Sci.

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The shells of long-lived bivalves record environmental variability in their geochemical signatures and are thus used extensively in marine high-resolution paleoclimate studies. To possibly overcome the limitations of the commonly employed temperature proxy, the δ18Oshell value, which requires knowledge of the seawater δ18O signature and is prone to diagenetic overprint, the shell microstructures and the morphological properties of individual biomineral units (BMUs) recently attracted research interest as an alternative paleoclimate proxy. In shells of A. islandica, one of the most extensively used and best studied sclerochronological archives, the size of the BMUs increases in warmer temperatures under laboratory circumstances. This study assesses whether this relationship persists under natural growth conditions or whether additional environmental and physiological factors control the BMU size and bias temperature reconstructions. For this purpose, shells from the surface waters of NE Iceland and the Baltic Sea, as well as from deeper waters of the North Sea (100 and 243 m) were analyzed by means of SEM. The BMU sizes were measured by means of image processing software. Results demonstrate a strong effect of temperature on the BMU size at NE Iceland and in the North Sea at 100 m depth. At 243 m depth, however, temperature variability was likely too low (1.2°C) to evoke a microstructural change. At the Baltic Sea, the BMUs remained small, possibly due to physiological stress induced by low salinity and/or hypoxia. Thus, the size of BMUs of A. islandica shells only serves as a relative temperature indicator in fully marine habitats, as long as seasonal temperature amplitudes exceed ca. 1°C. Furthermore, BMU size varied through lifetime with the largest units occurring during age seven to nine. This pattern is possibly linked to the shell growth rate or to the amount of metabolic energy invested in shell growth.

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“…It also facilitates judging how current parameter estimates of a new entry at hand relate to those of taxonomically related ones (see e.g. Ballesta-Artero et al, 2018;Sadoul et al, 2018, this issue), since a good fit for the wrong reasons is always a risk to consider. Maximization of the goodness of fit is just one of the estimation criteria, which should not be pushed to the extreme, since many trivialities, such as temperature and/or food density not actually being constant, can cause deviations.…”

Section: Parameter Estimationmentioning

confidence: 99%

A new phase in DEB research

Augustine

Kooijman

2019

Journal of Sea Research

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Energetics of the extremely long-living bivalve Arctica islandica based on a Dynamic Energy Budget model

Cited by 9 publications

References 47 publications

Persistent Multidecadal Variability Since the 15th Century in the Southern Barents Sea Derived From Annually Resolved Shell‐Based Records

Persistent Multidecadal Variability Since the 15th Century in the Southern Barents Sea Derived From Annually Resolved Shell‐Based Records

Microstructural Mapping of Arctica islandica Shells Reveals Environmental and Physiological Controls on Biomineral Size

A new phase in DEB research

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