Data from: A climate-associated multi-species cryptic genetic cline in the northwest Atlantic"

This is supplementary environmental data used in environmental population structure analyses: "A climate-associated multi-species cryptic genetic cline in the northwest Atlantic" This data is described in the methods as: Temperature and salinity data were aggregated to seasonal climatologi...

Full description

Bibliographic Details
Main Author:	Stanley, Ryan
Other Authors:	Yalcin, Semra
Language:	unknown
Published:	Borealis
Subjects:	Earth and Environmental Sciences Canada Northwest Atlantic
Online Access:	https://doi.org/10.5683/SP2/RFWOJD

id	ftborealisdata:doi:10.5683/SP2/RFWOJD
record_format	openpolar
spelling	ftborealisdata:doi:10.5683/SP2/RFWOJD 2023-05-15T17:45:32+02:00 Data from: A climate-associated multi-species cryptic genetic cline in the northwest Atlantic" Stanley, Ryan Yalcin, Semra https://doi.org/10.5683/SP2/RFWOJD unknown Borealis https://doi.org/10.5683/SP2/RFWOJD Earth and Environmental Sciences ftborealisdata https://doi.org/10.5683/SP2/RFWOJD 2022-10-10T05:32:58Z This is supplementary environmental data used in environmental population structure analyses: "A climate-associated multi-species cryptic genetic cline in the northwest Atlantic" This data is described in the methods as: Temperature and salinity data were aggregated to seasonal climatological data (averaged across 2002-2012) layers, effectively corresponding with winter (January – March), spring (April – June), summer (July – September), and fall (October – December). Seasonal sea surface temperature (SST) and sea surface salinity (SSS) were assembled at spatial resolutions interpretable to 1 km2 from Level 3 SST climatological satellite data, including Advanced Very High Resolution Radiometer data (AVHRR Atlantic; compiled by Fisheries and Oceans Canada) and global oceanographic climatological SSS composites (Tyberghein et al. 2012). Benthic temperature and benthic salinity climatological data layers were assembled at spatial resolutions interpretable to 8 km2 from a numerical climatological model (GLORYS2V1) adapted to the study area by Fisheries and Oceans Canada. We represented topographic complexity of the seafloor (interpretable to 1 km2) by east-west and north-south components of aspect, slope, plan and profile curvature, and rugosity (Sbrocco & Barber 2013). These data layers were used as predictive surfaces for each of the five species native to the range (Table 1). From these data layers, we extracted point estimates of each environmental variable for each genetic sample location to evaluate genetic-environmental relationships. This dataset represents these point estimates. Other/Unknown Material Northwest Atlantic Borealis Canada
institution	Open Polar
collection	Borealis
op_collection_id	ftborealisdata
language	unknown
topic	Earth and Environmental Sciences
spellingShingle	Earth and Environmental Sciences Stanley, Ryan Data from: A climate-associated multi-species cryptic genetic cline in the northwest Atlantic"
topic_facet	Earth and Environmental Sciences
description	This is supplementary environmental data used in environmental population structure analyses: "A climate-associated multi-species cryptic genetic cline in the northwest Atlantic" This data is described in the methods as: Temperature and salinity data were aggregated to seasonal climatological data (averaged across 2002-2012) layers, effectively corresponding with winter (January – March), spring (April – June), summer (July – September), and fall (October – December). Seasonal sea surface temperature (SST) and sea surface salinity (SSS) were assembled at spatial resolutions interpretable to 1 km2 from Level 3 SST climatological satellite data, including Advanced Very High Resolution Radiometer data (AVHRR Atlantic; compiled by Fisheries and Oceans Canada) and global oceanographic climatological SSS composites (Tyberghein et al. 2012). Benthic temperature and benthic salinity climatological data layers were assembled at spatial resolutions interpretable to 8 km2 from a numerical climatological model (GLORYS2V1) adapted to the study area by Fisheries and Oceans Canada. We represented topographic complexity of the seafloor (interpretable to 1 km2) by east-west and north-south components of aspect, slope, plan and profile curvature, and rugosity (Sbrocco & Barber 2013). These data layers were used as predictive surfaces for each of the five species native to the range (Table 1). From these data layers, we extracted point estimates of each environmental variable for each genetic sample location to evaluate genetic-environmental relationships. This dataset represents these point estimates.
author2	Yalcin, Semra
author	Stanley, Ryan
author_facet	Stanley, Ryan
author_sort	Stanley, Ryan
title	Data from: A climate-associated multi-species cryptic genetic cline in the northwest Atlantic"
title_short	Data from: A climate-associated multi-species cryptic genetic cline in the northwest Atlantic"
title_full	Data from: A climate-associated multi-species cryptic genetic cline in the northwest Atlantic"
title_fullStr	Data from: A climate-associated multi-species cryptic genetic cline in the northwest Atlantic"
title_full_unstemmed	Data from: A climate-associated multi-species cryptic genetic cline in the northwest Atlantic"
title_sort	data from: a climate-associated multi-species cryptic genetic cline in the northwest atlantic"
publisher	Borealis
url	https://doi.org/10.5683/SP2/RFWOJD
geographic	Canada
geographic_facet	Canada
genre	Northwest Atlantic
genre_facet	Northwest Atlantic
op_relation	https://doi.org/10.5683/SP2/RFWOJD
op_doi	https://doi.org/10.5683/SP2/RFWOJD
_version_	1766148629044658176

Data from: A climate-associated multi-species cryptic genetic cline in the northwest Atlantic"

Similar Items