Data from: "Warming of alpine tundra enhances belowground production and shifts community towards resource acquisition traits"

This archive contains data used to draw conclusions in “Warming of alpine tundra enhances belowground production and shifts community towards resource acquisition traits”, by Yang et al. 2020. Data were collected on Niwot Ridge, in an alpine meadow within the Alpine Treeline Warming Experiment (ATWE...

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Bibliographic Details
Main Authors: Yan Yang, Julia A. Klein, Daniel E. Winkler, Ahui Peng, Brynne E. Lazarus, Matthew J. Germino, Katharine N. Suding, Jane G. Smith, Lara M. Kueppers
Format: Dataset
Language:unknown
Published: ESS-DIVE: Deep Insight for Earth Science Data 2021
Subjects:
alpine tundra
belowground plant production
functional traits
Rocky Mountains
soil moisture
warming
water-use efficiency
EARTH SCIENCE > BIOSPHERE > ECOSYSTEMS
EARTH SCIENCE > BIOSPHERE > VEGETATION
Soil temperature
Soil moisture
Volumetric water content
Water use efficiency
13C/12C isotope ratio
NPP
Net primary productivity
BNPP
Belowground net primary productivity
ANPP
Aboveground net primary productivity
Leaf mass area
Leaf dry mass content
Fresh leaf weight
Dry leaf weight
Saturated leaf weight
Leaf area
Root length
Total root length
Total root volume
Root tissue density
Specific root length
SRL
Average root diameter
Leaf scans
Root scans
Vegetation cover
Ground cover
Species richness
Keyhole
Tundra
Online Access:https://search.dataone.org/view/ess-dive-8218b775156f5e3-20210406T175743190
Description
Summary:This archive contains data used to draw conclusions in “Warming of alpine tundra enhances belowground production and shifts community towards resource acquisition traits”, by Yang et al. 2020. Data were collected on Niwot Ridge, in an alpine meadow within the Alpine Treeline Warming Experiment (ATWE) field sites in Colorado, USA. Samples were also processed in the U.S. Geological Survey Forest and Rangeland Ecosystem Science Center, in Boise, Idaho. File formats in this archive include comma-separated values (.csv), portable document format (.pdf), Microsoft Excel (.xlsx), and two types of geospatial files: keyhole markup language (.kml), and ESRI shapefiles (.shp). Leaf scans are .jpg images, and root scans are .tiff/.tif images. The .csv files can be opened using R, Microsoft Excel, or any simple text-editing software such as TextEdit and Notepad. Microsoft Excel files can be opened using Microsoft Excel, and .pdf files can be opened with Adobe Acrobat Reader, Preview, or other compatible programs. Scanned images can be opened using any photo and/or picture viewing software. The .kml file can be opened using Google Earth and Google Maps, and the shapefiles can be opened by any programs compatible with shapefiles, such as the ArcGIS Desktop suite, and QGIS. ------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------ Measures of belowground net primary productivity (BNPP) are required to understand whether aboveground net primary production (ANPP) changes reflect changes in allocation or are indicative of a whole plant NPP response. Plant functional traits provide a key way to scale from the individual plant to the community level, and provide insight into drivers of NPP responses to environmental change. We used infrared heaters to warm an alpine plant community at Niwot Ridge, Colorado, and applied supplemental water to compensate for soil water loss induced by warming. We measured ANPP, BNPP, and leaf and root functional traits across treatments after 5 years of continuous warming. Community-level ANPP and total NPP (ANPP + BNPP) did not respond to heating or watering, but BNPP increased in response to heating. Heating decreased community-level leaf dry matter content and increased total root length, indicating a shift in strategy from resource conservation to acquisition in response to warming.

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