Replication Data for: Biotically driven vegetation mosaics in grazing ecosystems

Data files for the paper: Howison et al (2017). Biotically driven vegetation mosaics in grazing ecosystems: the battle between bioturbation and biocompaction. Ecol Monogr. BifurcationModel.zip Bifurcation model resulting in figures 2 and 3, designed and written by Johan van de Koppel and Ruth Howiso...

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Main Authors:	Howison, R.A., Olff, H., Van De Koppel, J., Smit, C.
Format:	Dataset
Language:	unknown
Published:	DataverseNL 2017
Subjects:	permafrost
Online Access:	https://dx.doi.org/10.34894/cfy17f https://dataverse.nl/citation?persistentId=doi:10.34894/CFY17F

id	ftdatacite:10.34894/cfy17f
record_format	openpolar
spelling	ftdatacite:10.34894/cfy17f 2023-05-15T17:58:00+02:00 Replication Data for: Biotically driven vegetation mosaics in grazing ecosystems Howison, R.A. Olff, H. Van De Koppel, J. Smit, C. 2017 https://dx.doi.org/10.34894/cfy17f https://dataverse.nl/citation?persistentId=doi:10.34894/CFY17F unknown DataverseNL dataset Dataset 2017 ftdatacite https://doi.org/10.34894/cfy17f 2021-11-05T12:55:41Z Data files for the paper: Howison et al (2017). Biotically driven vegetation mosaics in grazing ecosystems: the battle between bioturbation and biocompaction. Ecol Monogr. BifurcationModel.zip Bifurcation model resulting in figures 2 and 3, designed and written by Johan van de Koppel and Ruth Howison, using R (R Core Team (2015). R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. URL: https://www.R-project.org/. Phase planes depicting the bifurcation analysis of simple plant-herbivore models, showing the more classical A) Herbivore-plant quality feedback, and B) Water-infiltration feedback. Phase planes depicting the bifurcation analysis of plant-herbivore models with bioturbation, showing that the interplay between bioturbation and biocompaction strongly expands the conditions under which heterogeneity can persist in grazing ecosystems, with A) only bioturbation feedback and B) the consequence of combining bioturbation and biocompaction feedbacks. GIS_Rainfall_Texture_Analysis.zip Analysis by Ruth Howison and Han Olff, using ESRI ArcMap 10.3 for Desktop Global prediction of the regions where patchiness generated by bioturbation and biocompaction is possible, eliminating for unsuitable conditions, specifically certain soil characteristics and rainfall. Incompatible soils include; permafrost, sand (> 70% sand fraction and 15% clay fraction), organic soil (histosols or > 20% organic material dry mass), and rainfall 400 and > 1200 mm/yr and representing limits to forage quantity and quality required to maintain large herbivores. Data sources used: 1) Harmonized World Soil Database (HWSD) version 1.21 2) Rainfall parameters were delineated using the global precipitation surface available from BioClim.org (Hijmans et al. 2005). Dataset permafrost DataCite Metadata Store (German National Library of Science and Technology)
institution	Open Polar
collection	DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id	ftdatacite
language	unknown
description	Data files for the paper: Howison et al (2017). Biotically driven vegetation mosaics in grazing ecosystems: the battle between bioturbation and biocompaction. Ecol Monogr. BifurcationModel.zip Bifurcation model resulting in figures 2 and 3, designed and written by Johan van de Koppel and Ruth Howison, using R (R Core Team (2015). R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. URL: https://www.R-project.org/. Phase planes depicting the bifurcation analysis of simple plant-herbivore models, showing the more classical A) Herbivore-plant quality feedback, and B) Water-infiltration feedback. Phase planes depicting the bifurcation analysis of plant-herbivore models with bioturbation, showing that the interplay between bioturbation and biocompaction strongly expands the conditions under which heterogeneity can persist in grazing ecosystems, with A) only bioturbation feedback and B) the consequence of combining bioturbation and biocompaction feedbacks. GIS_Rainfall_Texture_Analysis.zip Analysis by Ruth Howison and Han Olff, using ESRI ArcMap 10.3 for Desktop Global prediction of the regions where patchiness generated by bioturbation and biocompaction is possible, eliminating for unsuitable conditions, specifically certain soil characteristics and rainfall. Incompatible soils include; permafrost, sand (> 70% sand fraction and 15% clay fraction), organic soil (histosols or > 20% organic material dry mass), and rainfall 400 and > 1200 mm/yr and representing limits to forage quantity and quality required to maintain large herbivores. Data sources used: 1) Harmonized World Soil Database (HWSD) version 1.21 2) Rainfall parameters were delineated using the global precipitation surface available from BioClim.org (Hijmans et al. 2005).
format	Dataset
author	Howison, R.A. Olff, H. Van De Koppel, J. Smit, C.
spellingShingle	Howison, R.A. Olff, H. Van De Koppel, J. Smit, C. Replication Data for: Biotically driven vegetation mosaics in grazing ecosystems
author_facet	Howison, R.A. Olff, H. Van De Koppel, J. Smit, C.
author_sort	Howison, R.A.
title	Replication Data for: Biotically driven vegetation mosaics in grazing ecosystems
title_short	Replication Data for: Biotically driven vegetation mosaics in grazing ecosystems
title_full	Replication Data for: Biotically driven vegetation mosaics in grazing ecosystems
title_fullStr	Replication Data for: Biotically driven vegetation mosaics in grazing ecosystems
title_full_unstemmed	Replication Data for: Biotically driven vegetation mosaics in grazing ecosystems
title_sort	replication data for: biotically driven vegetation mosaics in grazing ecosystems
publisher	DataverseNL
publishDate	2017
url	https://dx.doi.org/10.34894/cfy17f https://dataverse.nl/citation?persistentId=doi:10.34894/CFY17F
genre	permafrost
genre_facet	permafrost
op_doi	https://doi.org/10.34894/cfy17f
_version_	1766166531965714432

Replication Data for: Biotically driven vegetation mosaics in grazing ecosystems

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