Trophic network model of exposed sandy coast: Linking continental and marine water ecosystems

Trophic network model of exposed sandy coast: Linking continental and marine water ecosystems

A macroscopic food web network for the exposed sandy coastal zone of the south-eastern Baltic Sea was reconstructed using ECOPATH software to assess the matter and energy balance in the ecosystem. The model incorporated 40 living functional groups representing the Baltic Sea coastal system of Lithua...

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Bibliographic Details
Published in:Estuarine, coastal and shelf science Vol. 195; pp. 110 - 123
Main Authors: Razinkovas-Baziukas, Artūras, Morkūnė, Rasa, Bacevičius, Egidijus, Gasiūnaitė, Zita Rasuolė
Format: Journal Article
Language:English
Published: Elsevier Ltd 05-08-2017
Subjects:
Baltic sea
ECOPATH model
Metabolism
Migrations
Transport
Metabolism
Transport
ECOPATH model
Migrations
Baltic sea
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Summary:A macroscopic food web network for the exposed sandy coastal zone of the south-eastern Baltic Sea was reconstructed using ECOPATH software to assess the matter and energy balance in the ecosystem. The model incorporated 40 living functional groups representing the Baltic Sea coastal system of Lithuania during the first decade of 21rst century. The overall pedigree index of our model was relatively high (0.66) as much of the input data originated from the study area. The results indicate net heterotrophy of the coastal zone due to strong influences from the nearby river – lagoon system (Curonian Lagoon). The majority of fish species and waterbirds were present in the coastal system on a seasonal basis and their migrations contributed to heterotrophic conditions. Among fish, the freshwater stragglers possibly contribute to the reversal of flow in biomass and energy from the coastal zone to the river-lagoon system. Top predators such as breeding and wintering piscivorous waterbirds and large pike-perch were identified as keystone species. There was a clear negative balance for the biomass of small marine pelagic fishes such as smelt, sprat and Baltic herring which represent the main prey items in this system. •Fish populations in the exposed sandy coastal zone are sustained by seasonal migrations.•A trophic network in exposed sandy coastal zone up to 20 m depth is heterotrophic.•Predatory freshwater fishes and waterbirds are the largest fish consumers and keystone species.
ISSN:0272-7714
1096-0015
DOI:10.1016/j.ecss.2017.04.030