Replication Data for: Explicit integration of dispersal-related metrics improves predictions of SDM in predatory arthropods

This dataset includes presences of both fishing spiders in Fennoscandia and the R scripts to prepare and run the species distribution models (SDMs). The different predictions are also available, together with an HTML file with interactive maps of the suitable/reachable habitat predictions. Abstract:...

Full description

Bibliographic Details
Main Author:	Monsimet, Jérémy
Format:	Dataset
Language:	unknown
Published:	2020
Subjects:	Earth and Environmental Sciences Climate change Hybrid SDM Pisauridae Fishing spiders Dispersal limitation Fennoscandia
Online Access:	https://search.dataone.org/view/sha256:4828c96549d7ecd4ecb26b0fc2eddd921453612c8bcbe70b42fb75b6db47ded9

id	dataone:sha256:4828c96549d7ecd4ecb26b0fc2eddd921453612c8bcbe70b42fb75b6db47ded9
record_format	openpolar
spelling	dataone:sha256:4828c96549d7ecd4ecb26b0fc2eddd921453612c8bcbe70b42fb75b6db47ded9 2024-10-03T18:46:04+00:00 Replication Data for: Explicit integration of dispersal-related metrics improves predictions of SDM in predatory arthropods Monsimet, Jérémy BEGINDATE: 1995-01-01T00:00:00Z ENDDATE: 2020-05-07T00:00:00Z 2020-10-13T00:00:00Z https://search.dataone.org/view/sha256:4828c96549d7ecd4ecb26b0fc2eddd921453612c8bcbe70b42fb75b6db47ded9 unknown Earth and Environmental Sciences Climate change Hybrid SDM Pisauridae Fishing spiders Dispersal limitation Dataset 2020 dataone:urn:node:DVNO 2024-10-03T18:16:38Z This dataset includes presences of both fishing spiders in Fennoscandia and the R scripts to prepare and run the species distribution models (SDMs). The different predictions are also available, together with an HTML file with interactive maps of the suitable/reachable habitat predictions. Abstract: Fishing spiders (Dolomedes spp.) make an interesting model to predict the impact of global changes because they are generalist, opportunistic predators, whose distribution is driven mostly by abiotic factors. Yet, the two European species are expected to react differently to forthcoming environmental changes, because of habitat specialization and initial range. We used an original combination of habitat and dispersal data to revisit these predictions under various climatic scenarios. We used the future range of suitable habitat, predicted with habitat variables only, as a base layer to further predict the range or reachable habitat by accounting for both dispersal ability and landscape connectivity. Our results confirm the northward shift in range and indicate that the area of co-occurrences should also increase. However, reachable habitat should expand less than suitable habitat, especially when accounting for landscape connectivity. In addition, the potential range expansion was further limited for the red-listed D. plantarius, which is more habitat-specialist and has a lower ability to disperse. This study highlights the importance of looking beyond habitat variables to produce more accurate predictions for the future of arthropods populations. Dataset Fennoscandia Unknown
institution	Open Polar
collection	Unknown
op_collection_id	dataone:urn:node:DVNO
language	unknown
topic	Earth and Environmental Sciences Climate change Hybrid SDM Pisauridae Fishing spiders Dispersal limitation
spellingShingle	Earth and Environmental Sciences Climate change Hybrid SDM Pisauridae Fishing spiders Dispersal limitation Monsimet, Jérémy Replication Data for: Explicit integration of dispersal-related metrics improves predictions of SDM in predatory arthropods
topic_facet	Earth and Environmental Sciences Climate change Hybrid SDM Pisauridae Fishing spiders Dispersal limitation
description	This dataset includes presences of both fishing spiders in Fennoscandia and the R scripts to prepare and run the species distribution models (SDMs). The different predictions are also available, together with an HTML file with interactive maps of the suitable/reachable habitat predictions. Abstract: Fishing spiders (Dolomedes spp.) make an interesting model to predict the impact of global changes because they are generalist, opportunistic predators, whose distribution is driven mostly by abiotic factors. Yet, the two European species are expected to react differently to forthcoming environmental changes, because of habitat specialization and initial range. We used an original combination of habitat and dispersal data to revisit these predictions under various climatic scenarios. We used the future range of suitable habitat, predicted with habitat variables only, as a base layer to further predict the range or reachable habitat by accounting for both dispersal ability and landscape connectivity. Our results confirm the northward shift in range and indicate that the area of co-occurrences should also increase. However, reachable habitat should expand less than suitable habitat, especially when accounting for landscape connectivity. In addition, the potential range expansion was further limited for the red-listed D. plantarius, which is more habitat-specialist and has a lower ability to disperse. This study highlights the importance of looking beyond habitat variables to produce more accurate predictions for the future of arthropods populations.
format	Dataset
author	Monsimet, Jérémy
author_facet	Monsimet, Jérémy
author_sort	Monsimet, Jérémy
title	Replication Data for: Explicit integration of dispersal-related metrics improves predictions of SDM in predatory arthropods
title_short	Replication Data for: Explicit integration of dispersal-related metrics improves predictions of SDM in predatory arthropods
title_full	Replication Data for: Explicit integration of dispersal-related metrics improves predictions of SDM in predatory arthropods
title_fullStr	Replication Data for: Explicit integration of dispersal-related metrics improves predictions of SDM in predatory arthropods
title_full_unstemmed	Replication Data for: Explicit integration of dispersal-related metrics improves predictions of SDM in predatory arthropods
title_sort	replication data for: explicit integration of dispersal-related metrics improves predictions of sdm in predatory arthropods
publishDate	2020
url	https://search.dataone.org/view/sha256:4828c96549d7ecd4ecb26b0fc2eddd921453612c8bcbe70b42fb75b6db47ded9
op_coverage	BEGINDATE: 1995-01-01T00:00:00Z ENDDATE: 2020-05-07T00:00:00Z
genre	Fennoscandia
genre_facet	Fennoscandia
_version_	1811924037434081280

Replication Data for: Explicit integration of dispersal-related metrics improves predictions of SDM in predatory arthropods

Similar Items