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Benthic foraminiferal biogeography in NW European fjords: a baseline for assessing future change

Benthic foraminiferal biogeography in NW European fjords: a baseline for assessing future change
Benthic foraminiferal biogeography in NW European fjords: a baseline for assessing future change
The seaboard extending from northern Svalbard to Scotland is the only region of the world where fjords have been comprehensively studied for their live (stained) benthic foraminiferal faunas. These modern faunas provide essential baseline data for the interpretation of the postglacial and continuing environmental changes in those fjords and this is the first biogeographic synthesis. The data come from the surface sediment assemblages (mainly sampled in the 1990's) from all the available literature. Due to limited information of shallow water assemblages in the north, only the species occurrences in deeper water from below the halocline are considered. Amongst these, only “common species” species occurring in more than one fjord are included. There is a clear pattern of distribution with five groups of taxa: 5 widespread species found throughout the region; 53 species reaching their northern limit; 13 species reaching their southern limit; 11 deep-sea species; 1 recently introduced species. Although there is an abrupt change in temperature from Tanafjorden in northern Norway to Hornsund in southern Svalbard, the faunal change from N to S is progressive throughout the investigated region. The area of overlap of the northern and southern species corresponds with the previously recognised boundary between the Barents Sea Province and the Norwegian Coast Province based on shelf and upper slope invertebrate macrofaunal benthos and plankton. Temperature is the main abiotic control on the distributions. For the fjords which have shallow sills separating them from the open shelf it is likely that most of the foraminiferal colonisers of the deeper fjord basins are sourced from the shelf or slope via propagules. One species has recently been introduced from further south into the southern region probably through the discharge of ballast water from ships. The biodiversity of the pristine Svalbard fjords extends below what is considered to reflect acceptable ecological status for mainland Norway, illustrating the need to introduce new methods to determine possible deviations from the reference conditions as defined in the EU's Water Framework Directive (WFD; 2000/60/EC). Altogether 347 species have so far been recorded in Norwegian waters: 214 in fjords (60 above and 180 below the halocline of which 26 occur both above and below the halocline) and 266 on the shelf and slope (133 of which also occur in fjords).
Role of temperature, Biodiversity, Shelf faunas, Source of species, Faunal shift, Subarctic climate
0272-7714
218-230
Murray, John W.
3985aa41-1e0e-4504-ab90-e31a00c33c38
Alve, Elisabeth
aae74d58-6787-4e19-9b74-4eaf4068b27f
Murray, John W.
3985aa41-1e0e-4504-ab90-e31a00c33c38
Alve, Elisabeth
aae74d58-6787-4e19-9b74-4eaf4068b27f

Murray, John W. and Alve, Elisabeth (2016) Benthic foraminiferal biogeography in NW European fjords: a baseline for assessing future change. Estuarine, Coastal and Shelf Science, 181, 218-230. (doi:10.1016/j.ecss.2016.08.014).

Record type: Article

Abstract

The seaboard extending from northern Svalbard to Scotland is the only region of the world where fjords have been comprehensively studied for their live (stained) benthic foraminiferal faunas. These modern faunas provide essential baseline data for the interpretation of the postglacial and continuing environmental changes in those fjords and this is the first biogeographic synthesis. The data come from the surface sediment assemblages (mainly sampled in the 1990's) from all the available literature. Due to limited information of shallow water assemblages in the north, only the species occurrences in deeper water from below the halocline are considered. Amongst these, only “common species” species occurring in more than one fjord are included. There is a clear pattern of distribution with five groups of taxa: 5 widespread species found throughout the region; 53 species reaching their northern limit; 13 species reaching their southern limit; 11 deep-sea species; 1 recently introduced species. Although there is an abrupt change in temperature from Tanafjorden in northern Norway to Hornsund in southern Svalbard, the faunal change from N to S is progressive throughout the investigated region. The area of overlap of the northern and southern species corresponds with the previously recognised boundary between the Barents Sea Province and the Norwegian Coast Province based on shelf and upper slope invertebrate macrofaunal benthos and plankton. Temperature is the main abiotic control on the distributions. For the fjords which have shallow sills separating them from the open shelf it is likely that most of the foraminiferal colonisers of the deeper fjord basins are sourced from the shelf or slope via propagules. One species has recently been introduced from further south into the southern region probably through the discharge of ballast water from ships. The biodiversity of the pristine Svalbard fjords extends below what is considered to reflect acceptable ecological status for mainland Norway, illustrating the need to introduce new methods to determine possible deviations from the reference conditions as defined in the EU's Water Framework Directive (WFD; 2000/60/EC). Altogether 347 species have so far been recorded in Norwegian waters: 214 in fjords (60 above and 180 below the halocline of which 26 occur both above and below the halocline) and 266 on the shelf and slope (133 of which also occur in fjords).

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More information

Accepted/In Press date: 15 August 2016
Published date: 5 November 2016
Keywords: Role of temperature, Biodiversity, Shelf faunas, Source of species, Faunal shift, Subarctic climate
Organisations: Paleooceanography & Palaeoclimate

Identifiers

Local EPrints ID: 403044
URI: http://eprints.soton.ac.uk/id/eprint/403044
ISSN: 0272-7714
PURE UUID: f7cfb674-639e-4cce-95d9-34b0974b5801

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Date deposited: 17 Nov 2016 15:04
Last modified: 15 Mar 2024 03:32

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Author: John W. Murray
Author: Elisabeth Alve

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