Data from: "Soil moisture mediates alpine life form and community productivity responses to warming"

This dataset contains values that were used to support conclusions drawn in the publication “Soil moisture mediates alpine life form and community productivity responses to warming”, originally published in 2016 by Winkler et al. All data were collected in the alpine site of the Alpine Treeline Warm...

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Bibliographic Details
Main Authors: Daniel E. Winkler, Kenneth J. Chapin, Lara M. Kueppers
Format: Dataset
Language:unknown
Published: ESS-DIVE: Deep Insight for Earth Science Data 2020
Subjects:
Alpine tundra
Climate change
Climate experiment
Degree days
Primary productivity
Season length
Soil moisture
Warming
EARTH SCIENCE > BIOSPHERE > ECOLOGICAL DYNAMICS
EARTH SCIENCE > BIOSPHERE > ECOSYSTEMS
EARTH SCIENCE > BIOSPHERE > VEGETATION
EARTH SCIENCE > CLIMATE INDICATORS > CLIMATE FEEDBACKS
Species
Vegetation percent cover
Aboveground vascular biomass
Biomass weight
Adequate soil moisture days
Growing degree days
Snowmelt date
Meteorological data
Air temperature
Precipitation
Soil temperature
Volumetric water content
Tundra
Online Access:https://search.dataone.org/view/ess-dive-c6e9cd9bb866ee9-20201110T215107955
id dataone:ess-dive-c6e9cd9bb866ee9-20201110T215107955
record_format openpolar
spelling dataone:ess-dive-c6e9cd9bb866ee9-20201110T215107955 2023-11-08T14:15:00+01:00 Data from: "Soil moisture mediates alpine life form and community productivity responses to warming" Daniel E. Winkler Kenneth J. Chapin Lara M. Kueppers Research was conducted within the Alpine Treeline Warming Experiment (ATWE), on Niwot Ridge in the Front Range of the Colorado Rocky Mountains, USA. The alpine site (ALP; 3560 m) is on Niwot Ridge and is located approximately 400 m above timberline. The site is dominated by sedges, forbs, and grasses, and is characterized as an alpine meadow. ENVELOPE(-105.59426,-105.59335,40.05454,40.053673) BEGINDATE: 2009-05-01T00:00:00Z ENDDATE: 2013-09-30T00:00:00Z 2020-01-01T00:00:00Z https://search.dataone.org/view/ess-dive-c6e9cd9bb866ee9-20201110T215107955 unknown ESS-DIVE: Deep Insight for Earth Science Data Alpine tundra Climate change Climate experiment Degree days Primary productivity Season length Soil moisture Warming EARTH SCIENCE > BIOSPHERE > ECOLOGICAL DYNAMICS EARTH SCIENCE > BIOSPHERE > ECOSYSTEMS EARTH SCIENCE > BIOSPHERE > VEGETATION EARTH SCIENCE > CLIMATE INDICATORS > CLIMATE FEEDBACKS Species Vegetation percent cover Aboveground vascular biomass Biomass weight Adequate soil moisture days Growing degree days Snowmelt date Meteorological data Air temperature Precipitation Soil temperature Volumetric water content Dataset 2020 dataone:urn:node:ESS_DIVE 2023-11-08T13:46:30Z This dataset contains values that were used to support conclusions drawn in the publication “Soil moisture mediates alpine life form and community productivity responses to warming”, originally published in 2016 by Winkler et al. All data were collected in the alpine site of the Alpine Treeline Warming Experiment (ATWE), located on Niwot Ridge, in the Front Range of the Colorado Rocky Mountains, USA. The file types in this archive include comma-separated-values (.csv) files, and two types of geospatial files: .kml and shapefiles (.shp). The csv files can be opened by R, Microsoft Excel, or any simple text editor software. The geospatial files can be opened by Google Earth/Google Maps, and the ESRI shapefiles can be opened by geographic information systems softwares that can read shapefiles, including ESRI’s ArcGIS Desktop suite, and QGIS. Climate warming is expected to alter primary production and community composition in alpine systems around the globe. Whether production will increase in response to warming in the absence of additional precipitation remains underexplored. We experimentally warmed an alpine plant community on Niwot Ridge, Colorado to test whether warming increases or decreases productivity of multiple plant life form groups and the entire plant community. We also provided supplemental water to a subset of plots to alleviate potential drying effects of warming. We predicted alpine community above-ground productivity would increase in response to warming only when combined with supplemental water to limit soil drying. We also predicted plant life form groups would vary in their responses and would like buffer changes in community productivity. Dataset Tundra ESS-DIVE: Deep Insight for Earth Science Data (via DataONE) ENVELOPE(-105.59426,-105.59335,40.05454,40.053673)
institution Open Polar
collection ESS-DIVE: Deep Insight for Earth Science Data (via DataONE)
op_collection_id dataone:urn:node:ESS_DIVE
language unknown
topic Alpine tundra
Climate change
Climate experiment
Degree days
Primary productivity
Season length
Soil moisture
Warming
EARTH SCIENCE > BIOSPHERE > ECOLOGICAL DYNAMICS
EARTH SCIENCE > BIOSPHERE > ECOSYSTEMS
EARTH SCIENCE > BIOSPHERE > VEGETATION
EARTH SCIENCE > CLIMATE INDICATORS > CLIMATE FEEDBACKS
Species
Vegetation percent cover
Aboveground vascular biomass
Biomass weight
Adequate soil moisture days
Growing degree days
Snowmelt date
Meteorological data
Air temperature
Precipitation
Soil temperature
Volumetric water content
spellingShingle Alpine tundra
Climate change
Climate experiment
Degree days
Primary productivity
Season length
Soil moisture
Warming
EARTH SCIENCE > BIOSPHERE > ECOLOGICAL DYNAMICS
EARTH SCIENCE > BIOSPHERE > ECOSYSTEMS
EARTH SCIENCE > BIOSPHERE > VEGETATION
EARTH SCIENCE > CLIMATE INDICATORS > CLIMATE FEEDBACKS
Species
Vegetation percent cover
Aboveground vascular biomass
Biomass weight
Adequate soil moisture days
Growing degree days
Snowmelt date
Meteorological data
Air temperature
Precipitation
Soil temperature
Volumetric water content
Daniel E. Winkler
Kenneth J. Chapin
Lara M. Kueppers
Data from: "Soil moisture mediates alpine life form and community productivity responses to warming"
topic_facet Alpine tundra
Climate change
Climate experiment
Degree days
Primary productivity
Season length
Soil moisture
Warming
EARTH SCIENCE > BIOSPHERE > ECOLOGICAL DYNAMICS
EARTH SCIENCE > BIOSPHERE > ECOSYSTEMS
EARTH SCIENCE > BIOSPHERE > VEGETATION
EARTH SCIENCE > CLIMATE INDICATORS > CLIMATE FEEDBACKS
Species
Vegetation percent cover
Aboveground vascular biomass
Biomass weight
Adequate soil moisture days
Growing degree days
Snowmelt date
Meteorological data
Air temperature
Precipitation
Soil temperature
Volumetric water content
description This dataset contains values that were used to support conclusions drawn in the publication “Soil moisture mediates alpine life form and community productivity responses to warming”, originally published in 2016 by Winkler et al. All data were collected in the alpine site of the Alpine Treeline Warming Experiment (ATWE), located on Niwot Ridge, in the Front Range of the Colorado Rocky Mountains, USA. The file types in this archive include comma-separated-values (.csv) files, and two types of geospatial files: .kml and shapefiles (.shp). The csv files can be opened by R, Microsoft Excel, or any simple text editor software. The geospatial files can be opened by Google Earth/Google Maps, and the ESRI shapefiles can be opened by geographic information systems softwares that can read shapefiles, including ESRI’s ArcGIS Desktop suite, and QGIS. Climate warming is expected to alter primary production and community composition in alpine systems around the globe. Whether production will increase in response to warming in the absence of additional precipitation remains underexplored. We experimentally warmed an alpine plant community on Niwot Ridge, Colorado to test whether warming increases or decreases productivity of multiple plant life form groups and the entire plant community. We also provided supplemental water to a subset of plots to alleviate potential drying effects of warming. We predicted alpine community above-ground productivity would increase in response to warming only when combined with supplemental water to limit soil drying. We also predicted plant life form groups would vary in their responses and would like buffer changes in community productivity.
format Dataset
author Daniel E. Winkler
Kenneth J. Chapin
Lara M. Kueppers
author_facet Daniel E. Winkler
Kenneth J. Chapin
Lara M. Kueppers
author_sort Daniel E. Winkler
title Data from: "Soil moisture mediates alpine life form and community productivity responses to warming"
title_short Data from: "Soil moisture mediates alpine life form and community productivity responses to warming"
title_full Data from: "Soil moisture mediates alpine life form and community productivity responses to warming"
title_fullStr Data from: "Soil moisture mediates alpine life form and community productivity responses to warming"
title_full_unstemmed Data from: "Soil moisture mediates alpine life form and community productivity responses to warming"
title_sort data from: "soil moisture mediates alpine life form and community productivity responses to warming"
publisher ESS-DIVE: Deep Insight for Earth Science Data
publishDate 2020
url https://search.dataone.org/view/ess-dive-c6e9cd9bb866ee9-20201110T215107955
op_coverage Research was conducted within the Alpine Treeline Warming Experiment (ATWE), on Niwot Ridge in the Front Range of the Colorado Rocky Mountains, USA. The alpine site (ALP; 3560 m) is on Niwot Ridge and is located approximately 400 m above timberline. The site is dominated by sedges, forbs, and grasses, and is characterized as an alpine meadow.
ENVELOPE(-105.59426,-105.59335,40.05454,40.053673)
BEGINDATE: 2009-05-01T00:00:00Z ENDDATE: 2013-09-30T00:00:00Z
long_lat ENVELOPE(-105.59426,-105.59335,40.05454,40.053673)
genre Tundra
genre_facet Tundra
_version_ 1782011790029225984

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