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Coastal Biodiversity and Ecosystem Service Sustainability (CBESS) individual bioturbation potential in mudflat and saltmarsh habitats

Coastal Biodiversity and Ecosystem Service Sustainability (CBESS) individual bioturbation potential in mudflat and saltmarsh habitats
Coastal Biodiversity and Ecosystem Service Sustainability (CBESS) individual bioturbation potential in mudflat and saltmarsh habitats
The location of the sample sites was determined by randomly allocated quadrats. Twenty two 1 x 1 m quadrats were randomly allocated to each mudflat and saltmarsh site using R (R Development Core Team, 2014) to specify four different spatial scales (A = 1 quadrat only, B = 3 quadrats at 1 m to 10 m apart, C = 6 quadrats at 10 m to 100 m apart, D = 12 quadrats at 100 m to 1000 m or site maximum). 3 cylindrical cores of sediment (10cm depth and diameter) were taken at each quadrat and fixed in 4 percent buffered formalin in seawater. The cores were then sieved on a 0.5mm mesh and the residue retained and preserved in 70 percent Industrial Methylated Spirit (IMS). Using a stereo microscope, all the animals were picked out of the residue, identified to species level (or appropriate taxon). To obtain the abundance data, each individual of each species was counted and stored in vials containing 70 percent IMS. In cases where specimens had been damaged (any badly damaged specimens or parts of specimens where no head was present were separated into major group debris (annelid, mollusc and crustacea) pots and a YES/NO presence noted. To obtain the biomass data, the individuals of each taxon (from one replicate) were blotted on tissue paper to remove any excess IMS. They were then weighed on a balance and the weight was recorded to 0.0001g. In situations where the animals were too light to register on the balance, a weight of 0.0001g was recorded. (The same method was used to obtain biomass values for major group debris.) The abundance and biomass data was then multiplied by 127.323955 to give results in m squared (abundance to the nearest whole individual and biomass to 0.0001g). This was then used to calculate BPi as follows: BPi = (square root Bi) x Mi x Ri Where Bi = individual biomass. Mi = individual species mobility. Ri = individual species reworking,The dataset details individual species bioturbation potential (BPi) across 6 intertidal sites in the winter and summer of 2013. The data provide an index of bioturbation potential of individual invertebrate species present within the top 10cm of sediment. Three sites were located in Essex, South East England and the other three in Morecambe Bay, North West England. Each site consisted of a saltmarsh habitat and adjacent mudflat habitat. 22 sampling quadrats were placed in each habitat covering four spatial scales. three replicate cores of sediment were collected at each quadrat. They were sieved on a 0.5mm mesh and the macrofauna was removed, identified to species (or appropriate taxon) and individuals were identified to species (or most appropriate taxon), counted and weighed. The resulting abundance and biomass data were then used to calculate BPi of each individual species present within a sample. BPi data for mudflat habitats across Essex and Morecambe are complete, however, saltmarsh data is only available for one full Essex site (Tillingham Marsh), in one season (winter) and across all sites, at the 1m scale. This data was collected as part of Coastal Biodiversity and Ecosystem Service Sustainability (CBESS). The project was funded with support from the Biodiversity and Ecosystem Service Sustainability (BESS) programme. BESS is a six-year programme (2011-2017) funded by the UK Natural Environment Research Council (NERC) and the Biotechnology and Biological Sciences Research Council (BBSRC) as part of the UK's Living with Environmental Change (LWEC) programme.
Hediste diversicolor, BESS, season, abundance, Macona balthica, mudflat, biomass, spatial scale, individual bioturbation potential, Essex, benthic, salt marsh, United Kingdom, Pygospio elegans, Peringia ulvae, biodiversity, Abra tenuis, BPi, intertidal, Morecambe Bay, Corophium volutator, macrofauna, Eteone longa, bioturbation, sediment, species, Corophium arenarium, CBESS
Natural Environment Research Council
Wood, C.L.
9a3c06f1-8b71-4a44-867b-af38316ec369
Hawkins, Stephen John
758fe1c1-30cd-4ed1-bb65-2471dc7c11fa
Godbold, J.A.
df6da569-e7ea-43ca-8a95-a563829fb88a
Solan, M.
c28b294a-1db6-4677-8eab-bd8d6221fecf
Wood, C.L.
9a3c06f1-8b71-4a44-867b-af38316ec369
Hawkins, Stephen John
758fe1c1-30cd-4ed1-bb65-2471dc7c11fa
Godbold, J.A.
df6da569-e7ea-43ca-8a95-a563829fb88a
Solan, M.
c28b294a-1db6-4677-8eab-bd8d6221fecf

(2015) Coastal Biodiversity and Ecosystem Service Sustainability (CBESS) individual bioturbation potential in mudflat and saltmarsh habitats. Natural Environment Research Council doi:10.5285/897d03de-f88c-46b8-a2ab-e6899d39f4f8 [Dataset]

Record type: Dataset

Abstract

The location of the sample sites was determined by randomly allocated quadrats. Twenty two 1 x 1 m quadrats were randomly allocated to each mudflat and saltmarsh site using R (R Development Core Team, 2014) to specify four different spatial scales (A = 1 quadrat only, B = 3 quadrats at 1 m to 10 m apart, C = 6 quadrats at 10 m to 100 m apart, D = 12 quadrats at 100 m to 1000 m or site maximum). 3 cylindrical cores of sediment (10cm depth and diameter) were taken at each quadrat and fixed in 4 percent buffered formalin in seawater. The cores were then sieved on a 0.5mm mesh and the residue retained and preserved in 70 percent Industrial Methylated Spirit (IMS). Using a stereo microscope, all the animals were picked out of the residue, identified to species level (or appropriate taxon). To obtain the abundance data, each individual of each species was counted and stored in vials containing 70 percent IMS. In cases where specimens had been damaged (any badly damaged specimens or parts of specimens where no head was present were separated into major group debris (annelid, mollusc and crustacea) pots and a YES/NO presence noted. To obtain the biomass data, the individuals of each taxon (from one replicate) were blotted on tissue paper to remove any excess IMS. They were then weighed on a balance and the weight was recorded to 0.0001g. In situations where the animals were too light to register on the balance, a weight of 0.0001g was recorded. (The same method was used to obtain biomass values for major group debris.) The abundance and biomass data was then multiplied by 127.323955 to give results in m squared (abundance to the nearest whole individual and biomass to 0.0001g). This was then used to calculate BPi as follows: BPi = (square root Bi) x Mi x Ri Where Bi = individual biomass. Mi = individual species mobility. Ri = individual species reworking,The dataset details individual species bioturbation potential (BPi) across 6 intertidal sites in the winter and summer of 2013. The data provide an index of bioturbation potential of individual invertebrate species present within the top 10cm of sediment. Three sites were located in Essex, South East England and the other three in Morecambe Bay, North West England. Each site consisted of a saltmarsh habitat and adjacent mudflat habitat. 22 sampling quadrats were placed in each habitat covering four spatial scales. three replicate cores of sediment were collected at each quadrat. They were sieved on a 0.5mm mesh and the macrofauna was removed, identified to species (or appropriate taxon) and individuals were identified to species (or most appropriate taxon), counted and weighed. The resulting abundance and biomass data were then used to calculate BPi of each individual species present within a sample. BPi data for mudflat habitats across Essex and Morecambe are complete, however, saltmarsh data is only available for one full Essex site (Tillingham Marsh), in one season (winter) and across all sites, at the 1m scale. This data was collected as part of Coastal Biodiversity and Ecosystem Service Sustainability (CBESS). The project was funded with support from the Biodiversity and Ecosystem Service Sustainability (BESS) programme. BESS is a six-year programme (2011-2017) funded by the UK Natural Environment Research Council (NERC) and the Biotechnology and Biological Sciences Research Council (BBSRC) as part of the UK's Living with Environmental Change (LWEC) programme.

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More information

Published date: 2015
Keywords: Hediste diversicolor, BESS, season, abundance, Macona balthica, mudflat, biomass, spatial scale, individual bioturbation potential, Essex, benthic, salt marsh, United Kingdom, Pygospio elegans, Peringia ulvae, biodiversity, Abra tenuis, BPi, intertidal, Morecambe Bay, Corophium volutator, macrofauna, Eteone longa, bioturbation, sediment, species, Corophium arenarium, CBESS

Identifiers

Local EPrints ID: 434306
URI: http://eprints.soton.ac.uk/id/eprint/434306
PURE UUID: 8f917085-33b3-45a5-9079-54c5c86ef6f8
ORCID for J.A. Godbold: ORCID iD orcid.org/0000-0001-5558-8188
ORCID for M. Solan: ORCID iD orcid.org/0000-0001-9924-5574

Catalogue record

Date deposited: 18 Sep 2019 16:30
Last modified: 06 May 2023 01:47

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Contributors

Contributor: C.L. Wood
Contributor: Stephen John Hawkins
Contributor: J.A. Godbold ORCID iD
Contributor: M. Solan ORCID iD

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