Species and habitats - Solea solea - Larvae Stage 4 - Preferential habitat in April/May modelled by Generalised Linear Modelling and its uncertainty for Reise1, Reise2 and BCD surveys
Modelised abundance of larval stages of several species or prediction uncertainty.
Simple
- Title
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Species and habitats - Solea solea - Larvae Stage 4 - Preferential habitat in April/May modelled by Generalised Linear Modelling and its uncertainty for Reise1, Reise2 and BCD surveys
- Alternate title
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BCD-Reise_species_model
- Date (Publication)
- 2009-12-31T00:00:00
- Citation identifier
- CHARM_SOLESOL_LARV4_GLM_MOD_ERR_R
- Presentation form
- Digital map
- Other citation details
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Source CHARM Consortium
- Abstract
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Modelised abundance of larval stages of several species or prediction uncertainty.
- Credit
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Université du Littoral Côte d'Opale
- Credit
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CHARM consortium
- Status
- Completed
- Point of contact
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Organisation name Individual name Electronic mail address Role UPMC Univ Paris 06, UMR 7093, Laboratoire d'Océanographie de Villefranche
Philippe Koubbi
Local service desk CHARM Consortium
CHARM Consortium
Production center
- Maintenance and update frequency
- As needed
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Thèmes Sextant
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/Biological Environment/Species/Fish Species of Commercial Interest
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- Discipline
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Species data set
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CHARM
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GEMET - INSPIRE themes, version 1.0
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Habitats et biotopes
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external.theme.gemet
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ressource halieutique
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- Use limitation
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research-only
- Access constraints
- License
- Other legal constraints
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Has to be cited this way in maps : "Source CHARM Consortium"
- Other legal constraints
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Has to be cited this way in bibliography : "Carpentier A, Martin CS, Vaz S (Eds.), 2009. Channel Habitat Atlas for marine Resource Management, final report / Atlas des habitats des ressources marines de la Manche orientale, rapport final (CHARM phase II). INTERREG 3a Programme, IFREMER, Boulogne-sur-mer, France. 626 pp. & CD-rom"
- Spatial representation type
- Grid
- Denominator
- 1000
- Language
- Français
- Language
- English
- Character set
- UTF8
- Topic category
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- Oceans
- Biota
- Environment
- Environment description
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Microsoft Windows XP ; ESRI ArcGIS 9.x
- Geographic identifier
- Eastern English Channel and south of the North Sea
- Reference system identifier
- 4326
- Number of dimensions
- 2
- Dimension name
- Column
- Dimension size
- 250
- Resolution
- 0.009 degree
- Dimension name
- Row
- Dimension size
- 203
- Resolution
- 0.009 degree
- Cell geometry
- Area
- Transformation parameter availability
Distributor
- Distributor contact
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Organisation name Individual name Electronic mail address Role Ifremer - Centre de Brest
Dissemination Unit
- Distributor format
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Name Version
- OnLine resource
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Protocol Linkage Name OGC:WMS
https://sextant.ifremer.fr/services/wms/wms_charm CHARM_SOLESOL_LARV4_GLM_R
OGC:WMS
https://sextant.ifremer.fr/services/wms/wms_charm CHARM_SOLESOL_LARV4_GLM_MOD_ERR_R
WWW:LINK
http://www.ifremer.fr/charm/ COPYFILE
Preferential habitat
COPYFILE
Model error
- Hierarchy level
- Dataset
- Statement
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In 1995, two REISE surveys were held: these surveys looked at ichthyoplankton between the Schelde and Seine estuaries. There were 45 stations sampled in April 1995 and 60 stations sampled in May 1995 (REISE 2). Ichthyoplankton was collected with a double-framed bongo net (plankton nets with 500m mesh). Oblique tows were carried out at 2 knots from the surface to the proximity of the seabed. The BCD survey (Biodiversity and cartography throughout the Dover Straits) was held at the end of April 1999, with sampling from 39 stations. The BCD survey was financed by the European INTERREG II programme (1995-2001) and produced maps of larvae stages and plankton. The aims of the BCD survey was to compare planktonic assemblages on the French and English coasts. Ichthyoplankton was collected with a double-framed bongo net (plankton nets with 500m mesh). Oblique tows were carried out at 2 knots from the surface to the proximity of the seabed.
- Description
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GLM describes the mean response of a species abundance or presence probability according to environmental conditions (figure 2). In this type of model, a linear prediction is related to the mean of the response variable through a link function (e.g. identity function for a normally distributed variable, or logit function for binary data). Corresponding habitat models required a two step modelling procedure. The presence probability of the considered species as a function of environmental factors is first modelled using presence-absence data, independently from abundance data. Then, the response in terms of abundance is modelled in case of presence only. The species habitat can finally be predicted by combining the presence-absence model with the model of abundance response in case of presence. This procedure allows circumventing the problem of atypical distribution of count data which include numerous observations with value zero, which is common in species abundance data (Stefánsson, 1996; Barry & Welsh, 2002). In this study, model selection was carried out by initially fitting a complete model including all available explanatory variables (continuous parameters were introduced as second order polynomials, nominal variables as factors and all first order interactions between environmental parameters were considered; note that interactions were not tested for the egg developmental stage). The selected environment predictors were: temperature, salinity, bed shear stress, depth, chlorophyll a concentration (only for the egg stage), fluorescence (only for the larval stage) and seabed sediment type. Although the first six factors were regarded as continuous covariables, sediment type (mud, fine sand, coarse sand, gravel and pebble) was introduced in the model as a categorical factor. The GLM model was optimised through backward selection based on Chi-square or F-test significance tests (Venables & Ripley, 2002). This approach was taken rather than Akaike Information Criterion reduction (or AIC; Akaike, 1974) to be coherent with quantile regression selection procedure which is also based on significance tests. For presence-absence data, binomial modelling with logit link function was chosen to obtain a prediction of the probability of presence of the species considered. For non-null abundance data (i.e. removing zero values), the data was log-transformed to achieve normality, and gaussian modelling with identity link function was used to predict positive density on a log scale. The predicted probability of presence was then multiplied with the positive density prediction, to obtain the final predicted value of abundance (Stefánsson, 1996). For each species considered, the equation of the final habitat model was used to recode digital maps of the environmental factors with the predicted abundance (or presence probability) of the species, using the Raster Calculator tool, thereby producing a habitat map. Prior to this and for each survey, digital (raster) maps of the environmental parameters had been limited to the ranges of values observed during the surveys, so as to avoid extrapolating outside the model development bounds. The resulting habitat maps were further centred and standardised, so that the resulting maps ranged between 0 and 1, thereby permitting an easier comparison amongst results from different stage, species or season (notable exceptions are the habitat maps based on binary data, and the larval stage habitat maps). The spatial distribution of the model error ratios was mapped for each model, the value of 1 corresponding to the maximum possible prediction error. The model prediction error can thus be interpreted as a percentage of model uncertainty.
- Description
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REISE (1 & 2) and CD surveys, scientific surveys of ULCO
Metadata
- File identifier
- 85aa386b-3f48-4bd9-a95a-56f8c4eff575
- Metadata language
- English
- Character set
- UTF8
- Hierarchy level
- Dataset
- Date stamp
- 2020-06-04T01:04:23
- Metadata standard name
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ISO 19115:2003/19139 - SEXTANT
- Metadata standard version
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1.0
- Metadata author
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Organisation name Individual name Electronic mail address Role Ifremer
Fanny Lecuy
Local service desk