Spatial Patterns and Environmental Control of Polychaete Communities in the Southwestern Barents Sea

Dikaeva, Dinara R.; Dvoretsky, Alexander G.

doi:10.3390/biology13110924

Biology

2024

DOI: 10.3390/biology13110924

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Spatial Patterns and Environmental Control of Polychaete Communities in the Southwestern Barents Sea

Dinara R. Dikaeva,

Alexander G. Dvoretsky

Abstract: The Barents Sea region is influenced by an increased inflow of warm Atlantic water, which impacts all components of the local ecosystem. Information on the state of benthic communities is required to predict alterations in the food web’s structure and functioning. The spatial distribution of polychaete communities was investigated in relation to environmental conditions at nine stations along the Kola Transect (70°00′–74°00′ N, 33°30′ E) in April 2019. A taxonomically diverse fauna containing 114 taxa was foun… Show more

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Cited by 2 publications

References 43 publications

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Effects of water temperature on zooplankton abundance and biomass in the southwestern Barents Sea: Implications for Arctic monitoring and management

Dvoretsky,

Dvoretsky

2025

Ocean & Coastal Management

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Effects of water temperature on zooplankton abundance and biomass in the southwestern Barents Sea: Implications for Arctic monitoring and management

Dvoretsky,

Dvoretsky

2025

Ocean & Coastal Management

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Spatial Distribution and Growth Patterns of a Common Bivalve Mollusk (Macoma calcarea) in Svalbard Fjords in Relation to Environmental Factors

Noskovich,

Dvoretsky

2024

Animals

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Ongoing warming in the Arctic has led to significant sea-ice loss and alterations in primary production, affecting all components of the marine food web. The considerable spatial variability of near-bottom environments around the Svalbard Archipelago renders the local fjords promising sites for revealing responses of benthic organisms to different environmental conditions. We investigated spatial variations in abundance, biomass, and growth parameters of the common bivalve Macoma calcarea in waters off western Spitsbergen and identified two distinct groups of this species: one composed mainly of cold-water stations from Storfjorden (Group I) and the other comprising warmer-water stations from Grønfjorden and Coles Bay (Group II). Within these groups, the mean abundance, biomass, production, and mortality accounted for 0.2 and 429 ind. m−2, 20 and 179 g m−2, 18.5 and 314 g m−2 year−1, and 0.22 and 0.10 year−1 respectively. The size–frequency and age–frequency distributions were biased towards smaller and younger specimens in Group I, while Group II displayed more even distributions. The maximum ages were 11 and 21 years, respectively. The mollusks from cold water were significantly smaller than their same-aged counterparts from warmer water. Two groups of Macoma were identified: slow-growing individuals with a rate of 1.4 mm and fast-growing individuals with a growth rate of 1.8 mm. Most population parameters were higher than those observed in the Pechora, Kara, and Greenland Seas. Redundancy analysis indicated water temperature as the main driving factor of abundance and biomass, while the latter was also influenced by the presence of pebbles. Our findings provide new insights into the growth patterns and spatial distribution of Macoma at high latitudes and confirm that this species can serve as a reliable indicator of environmental conditions.

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Spatial Patterns and Environmental Control of Polychaete Communities in the Southwestern Barents Sea

Cited by 2 publications

References 43 publications

Effects of water temperature on zooplankton abundance and biomass in the southwestern Barents Sea: Implications for Arctic monitoring and management

Effects of water temperature on zooplankton abundance and biomass in the southwestern Barents Sea: Implications for Arctic monitoring and management

Spatial Distribution and Growth Patterns of a Common Bivalve Mollusk (Macoma calcarea) in Svalbard Fjords in Relation to Environmental Factors

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