Data_Sheet_2_Assessing Pathways of Climate Change Effects in SpaDES: An Application to Boreal Landbirds of Northwest Territories Canada.pdf

Distributions of landbirds in Canadian northern forests are expected to be affected by climate change, but it remains unclear which pathways are responsible for projected climate effects. Determining whether climate change acts indirectly through changing fire regimes and/or vegetation dynamics, or...

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Main Authors: Tatiane Micheletti, Frances E. C. Stewart, Steven G. Cumming, Samuel Haché, Diana Stralberg, Junior A. Tremblay, Ceres Barros, Ian M. S. Eddy, Alex M. Chubaty, Mathieu Leblond, Rhiannon F. Pankratz, C. L. Mahon, Steven L. Van Wilgenburg, Erin M. Bayne, Fiona Schmiegelow, Eliot J. B. McIntire
Format: Dataset
Language:unknown
Published: 2021
Subjects:
Evolutionary Biology
Ecology
Invasive Species Ecology
Landscape Ecology
Conservation and Biodiversity
Behavioural Ecology
Community Ecology (excl. Invasive Species Ecology)
Ecological Physiology
Freshwater Ecology
Marine and Estuarine Ecology (incl. Marine Ichthyology)
Population Ecology
Terrestrial Ecology
landscape simulation
ecological forecasting
vegetation
fire
decision support
forest management
reproducibility
reusability
Canada
Northwest Territories
Online Access:https://doi.org/10.3389/fevo.2021.679673.s002
https://figshare.com/articles/dataset/Data_Sheet_2_Assessing_Pathways_of_Climate_Change_Effects_in_SpaDES_An_Application_to_Boreal_Landbirds_of_Northwest_Territories_Canada_pdf/16727878
id ftfrontimediafig:oai:figshare.com:article/16727878
record_format openpolar
spelling ftfrontimediafig:oai:figshare.com:article/16727878 2023-05-15T17:46:39+02:00 Data_Sheet_2_Assessing Pathways of Climate Change Effects in SpaDES: An Application to Boreal Landbirds of Northwest Territories Canada.pdf Tatiane Micheletti Frances E. C. Stewart Steven G. Cumming Samuel Haché Diana Stralberg Junior A. Tremblay Ceres Barros Ian M. S. Eddy Alex M. Chubaty Mathieu Leblond Rhiannon F. Pankratz C. L. Mahon Steven L. Van Wilgenburg Erin M. Bayne Fiona Schmiegelow Eliot J. B. McIntire 2021-10-04T04:12:17Z https://doi.org/10.3389/fevo.2021.679673.s002 https://figshare.com/articles/dataset/Data_Sheet_2_Assessing_Pathways_of_Climate_Change_Effects_in_SpaDES_An_Application_to_Boreal_Landbirds_of_Northwest_Territories_Canada_pdf/16727878 unknown doi:10.3389/fevo.2021.679673.s002 https://figshare.com/articles/dataset/Data_Sheet_2_Assessing_Pathways_of_Climate_Change_Effects_in_SpaDES_An_Application_to_Boreal_Landbirds_of_Northwest_Territories_Canada_pdf/16727878 CC BY 4.0 CC-BY Evolutionary Biology Ecology Invasive Species Ecology Landscape Ecology Conservation and Biodiversity Behavioural Ecology Community Ecology (excl. Invasive Species Ecology) Ecological Physiology Freshwater Ecology Marine and Estuarine Ecology (incl. Marine Ichthyology) Population Ecology Terrestrial Ecology landscape simulation ecological forecasting vegetation fire decision support forest management reproducibility reusability Dataset 2021 ftfrontimediafig https://doi.org/10.3389/fevo.2021.679673.s002 2021-10-06T23:01:42Z Distributions of landbirds in Canadian northern forests are expected to be affected by climate change, but it remains unclear which pathways are responsible for projected climate effects. Determining whether climate change acts indirectly through changing fire regimes and/or vegetation dynamics, or directly through changes in climatic suitability may allow land managers to address negative trajectories via forest management. We used SpaDES, a novel toolkit built in R that facilitates the implementation of simulation models from different areas of knowledge to develop a simulation experiment for a study area comprising 50 million ha in the Northwest Territories, Canada. Our factorial experiment was designed to contrast climate effects pathways on 64 landbird species using climate-sensitive and non-climate sensitive models for tree growth and mortality, wildfire, and landbirds. Climate-change effects were predicted to increase suitable habitat for 73% of species, resulting in average net gain of 7.49 million ha across species. We observed higher species turnover in the northeastern, south-central (species loss), and western regions (species gain). Importantly, we found that most of the predicted differences in net area of occupancy across models were attributed to direct climate effects rather than simulated vegetation change, despite a similar relative importance of vegetation and climate variables in landbird models. Even with close to a doubling of annual area burned by 2100, and a 600 kg/ha increase in aboveground tree biomass predicted in this region, differences in landbird net occupancy across models attributed to climate-driven forest growth were very small, likely resulting from differences in the pace of vegetation and climate changes, or vegetation lags. The effect of vegetation lags (i.e., differences from climatic equilibrium) varied across species, resulting in a wide range of changes in landbird distribution, and consequently predicted occupancy, due to climate effects. These findings suggest that ... Dataset Northwest Territories Frontiers: Figshare Canada Northwest Territories
institution Open Polar
collection Frontiers: Figshare
op_collection_id ftfrontimediafig
language unknown
topic Evolutionary Biology
Ecology
Invasive Species Ecology
Landscape Ecology
Conservation and Biodiversity
Behavioural Ecology
Community Ecology (excl. Invasive Species Ecology)
Ecological Physiology
Freshwater Ecology
Marine and Estuarine Ecology (incl. Marine Ichthyology)
Population Ecology
Terrestrial Ecology
landscape simulation
ecological forecasting
vegetation
fire
decision support
forest management
reproducibility
reusability
spellingShingle Evolutionary Biology
Ecology
Invasive Species Ecology
Landscape Ecology
Conservation and Biodiversity
Behavioural Ecology
Community Ecology (excl. Invasive Species Ecology)
Ecological Physiology
Freshwater Ecology
Marine and Estuarine Ecology (incl. Marine Ichthyology)
Population Ecology
Terrestrial Ecology
landscape simulation
ecological forecasting
vegetation
fire
decision support
forest management
reproducibility
reusability
Tatiane Micheletti
Frances E. C. Stewart
Steven G. Cumming
Samuel Haché
Diana Stralberg
Junior A. Tremblay
Ceres Barros
Ian M. S. Eddy
Alex M. Chubaty
Mathieu Leblond
Rhiannon F. Pankratz
C. L. Mahon
Steven L. Van Wilgenburg
Erin M. Bayne
Fiona Schmiegelow
Eliot J. B. McIntire
Data_Sheet_2_Assessing Pathways of Climate Change Effects in SpaDES: An Application to Boreal Landbirds of Northwest Territories Canada.pdf
topic_facet Evolutionary Biology
Ecology
Invasive Species Ecology
Landscape Ecology
Conservation and Biodiversity
Behavioural Ecology
Community Ecology (excl. Invasive Species Ecology)
Ecological Physiology
Freshwater Ecology
Marine and Estuarine Ecology (incl. Marine Ichthyology)
Population Ecology
Terrestrial Ecology
landscape simulation
ecological forecasting
vegetation
fire
decision support
forest management
reproducibility
reusability
description Distributions of landbirds in Canadian northern forests are expected to be affected by climate change, but it remains unclear which pathways are responsible for projected climate effects. Determining whether climate change acts indirectly through changing fire regimes and/or vegetation dynamics, or directly through changes in climatic suitability may allow land managers to address negative trajectories via forest management. We used SpaDES, a novel toolkit built in R that facilitates the implementation of simulation models from different areas of knowledge to develop a simulation experiment for a study area comprising 50 million ha in the Northwest Territories, Canada. Our factorial experiment was designed to contrast climate effects pathways on 64 landbird species using climate-sensitive and non-climate sensitive models for tree growth and mortality, wildfire, and landbirds. Climate-change effects were predicted to increase suitable habitat for 73% of species, resulting in average net gain of 7.49 million ha across species. We observed higher species turnover in the northeastern, south-central (species loss), and western regions (species gain). Importantly, we found that most of the predicted differences in net area of occupancy across models were attributed to direct climate effects rather than simulated vegetation change, despite a similar relative importance of vegetation and climate variables in landbird models. Even with close to a doubling of annual area burned by 2100, and a 600 kg/ha increase in aboveground tree biomass predicted in this region, differences in landbird net occupancy across models attributed to climate-driven forest growth were very small, likely resulting from differences in the pace of vegetation and climate changes, or vegetation lags. The effect of vegetation lags (i.e., differences from climatic equilibrium) varied across species, resulting in a wide range of changes in landbird distribution, and consequently predicted occupancy, due to climate effects. These findings suggest that ...
format Dataset
author Tatiane Micheletti
Frances E. C. Stewart
Steven G. Cumming
Samuel Haché
Diana Stralberg
Junior A. Tremblay
Ceres Barros
Ian M. S. Eddy
Alex M. Chubaty
Mathieu Leblond
Rhiannon F. Pankratz
C. L. Mahon
Steven L. Van Wilgenburg
Erin M. Bayne
Fiona Schmiegelow
Eliot J. B. McIntire
author_facet Tatiane Micheletti
Frances E. C. Stewart
Steven G. Cumming
Samuel Haché
Diana Stralberg
Junior A. Tremblay
Ceres Barros
Ian M. S. Eddy
Alex M. Chubaty
Mathieu Leblond
Rhiannon F. Pankratz
C. L. Mahon
Steven L. Van Wilgenburg
Erin M. Bayne
Fiona Schmiegelow
Eliot J. B. McIntire
author_sort Tatiane Micheletti
title Data_Sheet_2_Assessing Pathways of Climate Change Effects in SpaDES: An Application to Boreal Landbirds of Northwest Territories Canada.pdf
title_short Data_Sheet_2_Assessing Pathways of Climate Change Effects in SpaDES: An Application to Boreal Landbirds of Northwest Territories Canada.pdf
title_full Data_Sheet_2_Assessing Pathways of Climate Change Effects in SpaDES: An Application to Boreal Landbirds of Northwest Territories Canada.pdf
title_fullStr Data_Sheet_2_Assessing Pathways of Climate Change Effects in SpaDES: An Application to Boreal Landbirds of Northwest Territories Canada.pdf
title_full_unstemmed Data_Sheet_2_Assessing Pathways of Climate Change Effects in SpaDES: An Application to Boreal Landbirds of Northwest Territories Canada.pdf
title_sort data_sheet_2_assessing pathways of climate change effects in spades: an application to boreal landbirds of northwest territories canada.pdf
publishDate 2021
url https://doi.org/10.3389/fevo.2021.679673.s002
https://figshare.com/articles/dataset/Data_Sheet_2_Assessing_Pathways_of_Climate_Change_Effects_in_SpaDES_An_Application_to_Boreal_Landbirds_of_Northwest_Territories_Canada_pdf/16727878
geographic Canada
Northwest Territories
geographic_facet Canada
Northwest Territories
genre Northwest Territories
genre_facet Northwest Territories
op_relation doi:10.3389/fevo.2021.679673.s002
https://figshare.com/articles/dataset/Data_Sheet_2_Assessing_Pathways_of_Climate_Change_Effects_in_SpaDES_An_Application_to_Boreal_Landbirds_of_Northwest_Territories_Canada_pdf/16727878
op_rights CC BY 4.0
op_rightsnorm CC-BY
op_doi https://doi.org/10.3389/fevo.2021.679673.s002
_version_ 1766150425718816768

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