Public
Public
- SPRUCE: Root Production Assessed with Manual Minirhizotrons Resolved to Plant Functional Type, 2015–2021
- SPRUCE Ground Observations of Phenology in Experimental Plots, 2024
- SPRUCE: Vegetation Phenology in Experimental Plots from PhenoCam Imagery, 2015-2024
- 2025 SPRUCE All Hands Meeting - Posters
- 2025 SPRUCE All Hands Meeting- Poster Lightning Talks
- SPRUCE Surface N2O fluxes measured with LI-7820, 2024
- 2025 June SPRUCE Project Meeting
- 2025 SPRUCE All Hands Meeting (Day 2)
- 2025 SPRUCE All Hands Meeting (Day 1)
- 2025 April SPRUCE Project Meeting
- 2025 March SPRUCE Project Meeting
- 2025 February SPRUCE Project Meeting
- SPRUCE: Root Tip and Ectomycorrhizal Fungi Colonization Measurements from Ingrowth Cores, 2017
- SPRUCE Atmospheric Gas and Aerosol Particle Concentrations, 2023-2024
- SPRUCE: Carbon Dioxide and Methane Soil Flux Measurements at High Temporal Resolution, Beginning in 2022
- SPRUCE: Vegetation Phenology in Experimental Plots from Phenocam Imagery, 2015-2023
- SPRUCE: Ground Observations of Phenology in Experimental Plots, 2023
- SPRUCE: Phospholipid Fatty Acid (PLFA) Abundances, August 2021-June 2022
- SPRUCE: Quantitative PCR (qPCR) of microbial gene copy numbers, 2021-2022
- SPRUCE: Chloroform Fumigation Extraction for Microbial Biomass and Dissolved Organic Carbon from SPRUCE, 2021-2022
- SPRUCE 13C-Phospholipid Fatty Acid (13C-PLFA) Abundances, June 2014-June 2015
- SPRUCE: Anaerobic oxidation of methane mitigates net methane production and responds to long-term experimental warming in a northern bog: Supporting data
- SPRUCE: Climate Warming and Elevated CO2 Rapidly Alter Peatland Soil Carbon Sources and Stability: Supporting Data
- SPRUCE Sphagnum Growth and Photosynthesis Responses to Shading Treatments, 2021
- SPRUCE: Vegetation Phenology in Experimental Plots from Phenocam Imagery, 2015-2022
- SPRUCE Ground Observations of Phenology in Experimental Plots, 2022
- SPRUCE: Mass and Chemistry of Peat Ladder Decomposition Treatments, 2017-2020
- SPRUCE: Sphagnum Phytobiome Responses to Whole Ecosystem Warming and Elevated Atmospheric CO2 in July, 2017-2021
- SPRUCE Peat Physical and Chemical Characteristics from Experimental Plot Cores, Select Pre-Treatment 2012 and Post-Treatment 2020-21
- SPRUCE Ground Observations of Phenology in Experimental Plots 2021
- SPRUCE Vegetation Phenology in Experimental Plots from Phenocam Imagery, 2015-2021
- 2022 SPRUCE All-Hands Meeting 3, 4 and 5 May (Videoconference)
- SPRUCE Vegetation Phenology in Experimental Plots from Phenocam Imagery, 2015-2020
- SPRUCE Ground Observations of Phenology in Experimental Plots, 2020
- SPRUCE Radiocarbon analyses quantify peat carbon losses with increasing temperature in a whole ecosystem warming experiment, 2014-2020
- SPRUCE Compositional Stability of Peat in Ecosystem-Scale Warming Mesocosms, 2014 and 2019
- September 2021 SPRUCE Project Meeting
- Datafiles
- Meetings
- SPRUCE Warming Promotes the Use of Organic Matter as an Electron Acceptor in a Peatland: Supporting Data
- SPRUCE Vertical Profiles of CO2 and H2O Concentrations in Air in Experimental Plots Beginning in 2015
- SPRUCE S1 Bog Production of Newly-Grown Fine Roots Assessed Using Root Ingrowth Cores in 2013
- SPRUCE Soil Metabolome Responses to Whole Ecosystem Warming in SPRUCE Experimental Plots, Beginning in 2016
- SPRUCE Plant Tissue Analyses from Experimental Plots Beginning 2017
- SPRUCE S1 Bog and Bog Lake Fen Moss Decomposition and Litter Chemistry Data, 2014-2019
- SPRUCE Outflow Chemistry Data for Experimental Plots Beginning in 2016
- Virtual Site Tour Video
- SPRUCE Ground Observations of Phenology in Experimental Plots, 2019
- SPRUCE Vegetation Phenology in Experimental Plots from Phenocam Imagery, 2015-2019
- SPRUCE Precipitation Chemistry and Bulk Atmospheric Deposition Beginning in 2013
- SPRUCE: Sphagnum Carbon, Nitrogen and Phosphorus Concentrations in the SPRUCE Experimental Plots
- Work Schedule and Plan
- Site Access
- SPRUCE High-Resolution Minirhizotrons in an Experimentally-Warmed Peatland Provide an Unprecedented Glimpse at Fine Roots and their Fungal Partners: Supporting Data
- SPRUCE Production and Chemistry of Newly-Grown Fine Roots Assessed Using Root Ingrowth Cores in SPRUCE Experimental Plots beginning in 2014
- SPRUCE Diurnal and Seasonal Patterns of Water Potential in S1 Bog and SPRUCE Experimental Plot Vegetation beginning in 2010
- SPRUCE Plot-Level Water Table Data Assessments for Absolute Elevations and Height with Respect to Mean Hollows Beginning in 2015
- SPRUCE Photosynthesis and Respiration of Picea mariana and Larix laricina in SPRUCE Experimental Plots, 2016-2017
- SPRUCE Plot Characteristics
- SPRUCE Peat Mercury, Methylmercury, and Sulfur Concentrations from Experimental Plot Cores, beginning in 2014
- SPRUCE Microtopography of Experimental Plots Derived from Terrestrial Laser Scans Beginning in 2016
- SPRUCE Terrestrial Laser Scanning of Experimental Plots Beginning in 2015
- SPRUCE Ground Observations of Phenology in Experimental Plots, 2018
- SPRUCE Vegetation Phenology in Experimental Plots from Phenocam Imagery, 2015-2018
- SPRUCE: Hyperspectral Remote Sensing of Vegetation Communities in SPRUCE Experimental Plots, 2016
- SPRUCE Tritium in Porewater of SPRUCE Experimental Plots and Neighboring Peatlands, and in Groundwater, Stream Water, and Precipitation of the S1 Bog, 2014-2016
- SPRUCE Total Gaseous Mercury Fluxes and Peat Mercury Concentrations, 2014-2015
- SPRUCE Outflow Total Mercury and Methylmercury from Experimental Plots, Beginning in 2017
- SPRUCE Porewater Total Mercury and Methylmercury from Experimental Plots, Beginning in 2016
- SPRUCE Fungal Necromass Litter Bag Decomposition Study in SPRUCE Experimental Plots, 2016-2018
- SPRUCE Does dissolved organic matter or solid peat fuel anerobic respiration in peatlands?: Supporting Data
- SPRUCE: Vegetation Community Survey Data from SPRUCE Experimental Plots, 2014-2020
- SPRUCE Photosynthesis and Respiration of Rhododendron groenlandicum and Chamaedaphne calyculata in SPRUCE Experimental Plots, 2016
- SPRUCE: LAI Data from SPRUCE Experimental Plots, 2017-2019
- SPRUCE: Manual Minirhizotron Images from Experimental Plots Beginning in 2013
- SPRUCE: NDVI Data from Selected SPRUCE Experimental Plots, 2016-2018
- SPRUCE S1 Bog Pretreatment Seasonal Photosynthesis and Respiration of Trees, Shrubs, and Herbaceous Plants, 2010-2015
- SPRUCE S1 Bog Seasonal Patterns of Nonstructural Carbohydrates in Larix, Picea, Rhododendron, and Chamaedaphne, 2013
- SPRUCE Bog Surface Elevation Assessments with SET Instrument Beginning in 2013
- SPRUCE Manual Phenology Observations and Photographs Beginning in 2011
- SPRUCE Deep Peat Heating (DPH) to Whole Ecosystem Warming (WEW) Metagenomes for Peat Samples Collected June 2016
- SPRUCE Vegetation Phenology in Experimental Plots from Phenocam Imagery, 2015-2017
- SPRUCE Ground Observations of Phenology in Experimental Plots, 2016-2017
- SPRUCE Tree Growth Assessments of Picea and Larix in S1-Bog Plots and SPRUCE Experimental Plots, Beginning in 2011, Version 2
- SPRUCE Shrub-Layer Growth Assessments in S1-Bog Plots and SPRUCE Experimental Plots beginning in 2010
- SPRUCE Small Differences in Ombrotrophy Control Regional-Scale Variation in Methane Cycling among Sphagnum-Dominated Peatlands: Supporting Data
- PhenoCam Gallery
- SPRUCE Advanced Molecular Techniques Provide a Rigorous Method for Characterizing Organic Matter Quality in Complex Systems: Supporting Data
- SPRUCE: Sphagnum Productivity and Community Composition in the SPRUCE Experimental Plots
- SPRUCE Epiphytic Lichen Annual Biomass Growth in Experimental Plots, 2013-2016
- SPRUCE Inspired Art
- Data Pending
- SPRUCE Methylotrophic Methanogenesis in Sphagnum-dominated Peatland Soils – CH4 and CO2 Production in Laboratory Incubations
- Facilities Orientation
- SPRUCE Data-constrained Projections of Methane Fluxes in a Northern Minnesota Peatland in Response to Elevated CO2 and Warming: Modeling Archive
- Author Information
- Opportunities
- SPRUCE Safety and Facilities Orientation
- SPRUCE RSS Required Reading Acknowledgement
- Ground Observations of Phenology in Experimental Plots
