------------------------------------------------------------------ Imnavait, Alaska MISP Vegetation Transect Data Alaska, USA, 2018 Data authors: Sergio Vargas Zesati (1), Craig E. Tweedie (1), Karl F. Huemmrich (2), Petya Campbell (2) 1. Systems Ecology Lab, University of Texas at El Paso 2. University of Maryland Baltimore County, NASA Goddard Space Flight Center Funding from: NASA ABoVE (Grant # NNX17AC58A) Version: 2018-05-18 -------------------------------------------------------------------- CONTENTS 1. Data overview 2. Use of data 3. Temporal and spatial characteristics 4. File information -------------------------------------------------------------------- 1. DATA OVERVIEW This dataset represents full-spectrum (i.e. 350-2500nm) plot-level spectral reflectance data along the Mobile Instrumented Sensor Platform (MISP) transect in Imnavait, Alaska. Scans were collected using a Spectra Vista Corporation (SVC) HR-1024i spectrometer, standard pistol grip and fibers. Data were calibrated using a Spectralon white reference panel for changing light conditions during field sampling. The dataset contains numerous dates (each date contains 50 data records corresponding to each plot). ***Warning*** Some dates might be missing scans due to either bad data and/or as a result of data QC efforts. Data Uncertainty: No specific quality assessment information is provided. Correspondence concerning these data should be directed to: Dr. Sergio A. Vargas Zesati University of Texas at El Paso Systems Ecology Lab 500 W. University Ave. El Paso, Texas, 79968 email: savargas@utep.edu ctweedie@utep.edu -------------------------------------------------------------------- 2. USE OF DATA These data are made freely available to the public and the scientific community in the belief that their wide dissemination will lead to greater understanding and new scientific insights. -------------------------------------------------------------------- 3. TEMPORAL AND SPATIAL CHARACTERISTICS Temporal range: 2017-06-17 to 2017-08-22 Temporal resolution / sampling frequency: 5 times during the field season Geographic location / Transect boundaries: Westernmost Longitude: -149.301364° Easternmost Longitude: -149.209966° Northernmost Latitude: 68.608363° Southernmost Latitude: 68.584143° Site description: Mobile Instrumented Sensor Platform (MISP) transects (2 x 50 meters) were established at various locations throughout the Arctic as a contribution to the US Arctic Observing Network (AON),(Healey, N.C., et al. 2014). Each 50 meter transect was divided into smaller 1 x 2 meter plots and marked with white wooden boards secured to the tundra with 12” metal stakes. The robotic sensor systems collect high spatial and temporal resolution environmental data across a multitude of vegetation functional types and spanning a moisture and latitudinal gradient across the Arctic. Spatial resolution: average spectral reflectance for an approximate 1 meter squared area. -------------------------------------------------------------------- 4. FILE INFORMATION Data file format: comma-separated text (.csv) Data file description: The first row in each csv data file represents the wavelength (nm) and each row following thereafter is each plot or scan and are identified using the Unique_ID in column A, which is linkable with the metadata spreadsheet information (see below). The coordinates provided in the metadata spreadsheet were acquired using either a DGPS or handheld GPS. Metadata file description: Each scan or data record is stored by row and is assigned a Unique_ID, which can be used to query a particular measurement as detailed as by day and/or time of day. As seen in the metadata sheet, the Unique_ID column is basically composed of the first 8 columns of metadata which include the “Location”, “Site_Name”, “Target_Name”, “Target_Scale_Level” (e.g. plot (PL), leaf (LF) etc.), “Measurement_Julian_Day”, “Measurement_Time_Of_Day”, “Measurement_Year”, and “Measurement_Type” (e.g. reflectance (REFL), radiance (RAD) etc.). --------------------------------------------------------------------