Fire and drought effects on soils invaded by Microstegium vimineum in southern Illinois

Fraterrigo, Jennifer; Rembelski, Mara

doi:10.13012/B2IDB-0742378_V1

Illinois Data Bank - Dataset

Fire and drought effects on soils invaded by Microstegium vimineum in southern Illinois

Cite this dataset:

Fraterrigo, Jennifer; Rembelski, Mara (2020): Fire and drought effects on soils invaded by Microstegium vimineum in southern Illinois. University of Illinois at Urbana-Champaign. https://doi.org/10.13012/B2IDB-0742378_V1

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Dataset Description	We measured the effects of fire or drought treatment on plant, microbial and biogeochemical responses in temperate deciduous forests invaded by the annual grass Microstegium vimineum with a history of either frequent fire or fire exclusion. Please note, on Documentation tab / Experimental or Sampling Design, “15 (XVI)” should be “16 (XVI)”.
Subject	Life Sciences
Keywords	plant-soil interaction; grass-fire cycle; Microstegium; carbon and nitrogen cycling; microbial decomposers
License	CC0
Funder	U.S. Department of Agriculture (USDA)-Grant:ILLU-875-951
Corresponding Creator	Jennifer Fraterrigo
Downloaded	273 times
Related Materials (2) Article Fraterrigo, J.M., Rembelski, M.K. Frequent Fire Reduces the Magnitude of Positive Interactions Between an Invasive Grass and Soil Microbes in Temperate Forests. Ecosystems (2021). https://doi.org/10.1007/s10021-021-00615-x Article Rembelski, M., Fraterrigo, J. Drought reduces invasive grass performance by disrupting plant–microbe interactions that enhance plant nitrogen supply. Oecologia (2023). https://doi.org/10.1007/s00442-022-05307-4

Versions

Version	DOI	Comment	Publication Date
1	10.13012/B2IDB-0742378_V1		2020-10-01

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RelatedMaterial	update: {"citation"=>["Fraterrigo, J. M., and M. K. Rembelski. 2021. High-frequency fire reduces the magnitude of positive interactions between an invasive grass and soil microbes in temperate forests Ecosystems, in press.", "Fraterrigo, J. M., and M. K. Rembelski. 2021. High-frequency fire reduces the magnitude of positive interactions between an invasive grass and soil microbes in temperate forests. Ecosystems, in press."]}	2021-02-01T19:54:17Z
RelatedMaterial	create: {"material_type"=>"Article", "availability"=>nil, "link"=>"", "uri"=>nil, "uri_type"=>nil, "citation"=>"Fraterrigo, J. M., and M. K. Rembelski. 2021. High-frequency fire reduces the magnitude of positive interactions between an invasive grass and soil microbes in temperate forests Ecosystems, in press.", "dataset_id"=>1304, "selected_type"=>"Article", "datacite_list"=>nil}	2021-02-01T19:50:39Z
Dataset	update: {"description"=>["We measured the effects of fire or drought treatment on plant, microbial and biogeochemical responses in temperate deciduous forests invaded by the annual grass Microstegium vimineum with a history of either frequent fire or fire exclusion.", "We measured the effects of fire or drought treatment on plant, microbial and biogeochemical responses in temperate deciduous forests invaded by the annual grass Microstegium vimineum with a history of either frequent fire or fire exclusion.\r\nPlease note, on Documentation tab / Experimental or Sampling Design, “15 (XVI)” should be “16 (XVI)”. "]}	2021-02-01T19:50:39Z
Dataset	update: {"publication_state"=>["file embargo", "released"]}	2020-09-21T19:03:04Z
Dataset	update: {"version_comment"=>[nil, ""], "subject"=>[nil, "Life Sciences"]}	2020-09-21T19:03:03Z