Species and habitats - Dicentrarchus labrax - Nurseries - Potential habitat modellised by Quantile Regression and its uncertainty for YFS survey

Modelised abundances of several species in coastal nurseries or prediction uncertainty.

Simple

Alternate title
YFS_species_model
Date ( Publication )
2009-12-31T00:00:00
Identifier
CHARM_DICELAB_NURS_RQ_MOD_ERR_R
Presentation form
Digital map
Other citation details
Source CHARM Consortium
Credit
IFREMER
Credit
CHARM consortium
Status
Completed
Resource provider
Center for Environment, Fisheries & Aquaculture Science - Steve Mackinson ( )
Resource provider
Ifremer - Sandrine Vaz
Custodian
CHARM Consortium - CHARM Consortium
Maintenance and update frequency
As needed
Thèmes Sextant Thèmes Sextant ( Theme )
  • /Biological Environment/Species/Fish Species of Commercial Interest
Keywords ( Discipline )
  • Species data set
  • CHARM
GEMET - INSPIRE themes, version 1.0 GEMET - INSPIRE themes, version 1.0 ( Theme )
  • Habitats and biotopes
external.theme.gemet external.theme.gemet ( Theme )
  • ressource halieutique
Keywords ( Theme )
  • essential fish habitat
Cadre Réglementaire - SIMM Cadre Réglementaire - SIMM ( Theme )
  • Directive Cadre Stratégie pour le Milieu Marin (DCSMM)
DCSMM : Descripteurs DCSMM : Descripteurs ( Theme )
  • D1: Fish and Cephalopods
  • D1: Biodiversité - Poissons
Sous-regions marines Sous-regions marines ( Place )
  • Channel-North Sea
Thématiques - SIMM Thématiques - SIMM ( Theme )
  • /Activités et Usages/Pêche et Aquaculture
  • /Etat du Milieu/Espèces
  • /Etat du Milieu/Habitats
Type de jeux de donnée ODATIS Type de jeux de donnée ODATIS ( Theme )
  • /Processed data/Composite products
Use limitation
research-only
Access constraints
License
Other constraints
Has to be cited this way in maps : "Source CHARM Consortium"
Other constraints
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
2500
Metadata language
fr
Metadata language
en
Character set
UTF8
Topic category
  • Oceans
  • Biota
  • Environment
Environment description
Microsoft Windows XP ; ESRI ArcGIS 9.x
Geographic identifier
Eastern English Channel
N
S
E
W
thumbnail


Begin date
1977-01-01
End date
2006-12-31
Reference system identifier
WGS 84 (EPSG:4326)
Number of dimensions
2
Dimension name
Column
Dimension size
489
Resolution
0.009  degree
Dimension name
Row
Dimension size
278
Resolution
0.009  degree
Cell geometry
Area
Transformation parameter availability
No

Distributor

Distributor
Ifremer - Centre de Brest
OnLine resource
CHARM_DICELAB_NURS_RQ_R ( OGC:WMS )

Probable habitat

OnLine resource
CHARM_DICELAB_NURS_RQ_MOD_ERR_R ( OGC:WMS )

Model error

OnLine resource
CHARM web site ( WWW:LINK )

CHARM web site

Protocol
COPYFILE
Name
Probable habitat
Description
Probable habitat
Protocol
COPYFILE
Name
Model error
Description
Model error
Hierarchy level
Dataset
Statement
Combinations of the French YFS and the British YFS.
Description
Quantile Regression (RQ) belongs to the family of regression approaches that also includes simple li-near and multiple regression (Koenker, 2005). In RQ, any part of the data distribution may be modelled rather than the mean (a quantile q describing the value greater or equal to q% of the observed data, or in other words the upper bound of q% of the observed data). The study of the upper-bound of response data (typically abundance between 0.75 and 0.95 quantiles) as a function of environmental factor (figure 3) allows estimating their limiting effects on a species distribution (Cade et al., 1999; Hiddink & Kaiser, 2005). As for GLM modelling (see §4.1), the selected environment predictors were: temperature, salinity, bed shear stress, depth, chlorophyll a concentration (only for the egg stage) and fluorescence (only for the larval stage) as continuous covariables and seabed sediment type as factor. Model selection with RQ is made complicated by the large number of candidate models that can be estimated over a range of different quantiles (i.e. one model per quantile): in other words, the model selection includes both the selection of explanatory variables and that of the quantile at which there are considered. Model selection was carried out by initially fitting a model to 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 stage). The selection procedure used is that proposed by Vaz et al. (2008). RQ models were estimated at five quantile intervals, from the 75th to the 95th. Using a backwards elimination procedure, significance tests of all polynomials and interactions were performed and the variable associated with the largest average p-value across the five quantiles, contingent on being greater than 0.05, was selected to be removed from the model. The reduced model hence obtained was then re-run across all five quantiles, and additional variables were removed according to the same rule. Main effects were tested only when associated interactions and second order polynomials had been eliminated. The process of backward elimination was stopped when all remaining variables were significant (p < 0.05) at least for one quantile (Vaz et al., 2008), this quantile being selected as the representative quantile. In case the resulting model was found to have all variables significant over more than one quantile, the highest of these quantiles was chosen, as the more representative of the limiting effect imposed by the environmental variables over the species abundance. 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
FYFS plus BYFS surveys
File identifier
9dd26479-fb6c-4d96-bf19-513e1e4fee00 XML
Metadata language
en
Character set
UTF8
Parent identifier
55b44ab3-0b69-4bc4-8d4d-0ad2e022005c 55b44ab3-0b69-4bc4-8d4d-0ad2e022005c
Hierarchy level
Dataset
Date stamp
2021-09-14T16:34:40
Metadata standard name
ISO 19115:2003/19139 - SEXTANT
Metadata standard version
1.0
Point of contact
Ifremer - Fanny Lecuy
 
 

Overviews

overview

Spatial extent

N
S
E
W
thumbnail


Keywords

essential fish habitat
Cadre Réglementaire - SIMM
Directive Cadre Stratégie pour le Milieu Marin (DCSMM)
DCSMM : Descripteurs
D1: Biodiversité - Poissons D1: Fish and Cephalopods
GEMET - INSPIRE themes, version 1.0
Habitats and biotopes
Thèmes Sextant
/Biological Environment/Species/Fish Species of Commercial Interest
Thématiques - SIMM
/Activités et Usages/Pêche et Aquaculture /Etat du Milieu/Espèces /Etat du Milieu/Habitats
Type de jeux de donnée ODATIS
/Processed data/Composite products
external.theme.gemet
ressource halieutique

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