Leaf spectra and physiological and chemical traits from sorghum grown under nitrogen stress

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Last pushed 2022-08-03 20:33.

Data and Resources

Additional Info

Field Value
Author Marcin W. Grzybowski Mackenzie Zwiener Hongyu Jin Nuwan K. Wijewardane Abbas Atefi Michael J. Naldrett Sophie Alvarez Yufeng Ge and James C. Schnable
Maintainer James Schnable
Version 1
Last Updated August 23, 2022, 19:03 (UTC)
Created June 7, 2022, 13:38 (UTC)
Acquisition Method Contact
Citation Marcin W. Grzybowski Mackenzie Zwiener Hongyu Jin Nuwan K. Wijewardane Abbas Atefi Michael J. Naldrett Sophie Alvarez Yufeng Ge and James C. Schnable. 2022. Leaf spectra and physiological and chemical traits from sorghum grown under nitrogen stress. Data set. Available on-line [http://ecosis.org] from the Ecological Spectral Information System (EcoSIS)
EcoSIS DOI Status {"requested_by":"marcing","value":"Pending Revision"}
Ecosystem Type Crops
Foreoptic Type Leaf Clip
Funding Source U.S. Department of Energy; National Science Foundation; USDA-NIFA; Foundation for Food and Agriculture Research
Funding Source Grant Number DE-SC0020355; OIA-1826781; 2021-67021-35329; No. 602757
Instrument Manufacturer Malvern Panalytical Ltd.
Instrument Model FieldSpec4
Light Source Lamp
Location Name Havelock Research Farm
Measurement Quantity Reflectance
Measurement Units %
Measurement Venue Laboratory
NASA GCMD Keywords [{"label":"earth science > biosphere > vegetation","value":"c7b5c02c-724d-4a19-b824-98180f3900c9"}]
Processing Averaged Yes
Processing Interpolated No
Processing Resampled No
Sample Platform Handheld
Target Status Fresh, Green
Target Type Leaf
Theme Agriculture, Biochemistry
Wavelength Units nm
Year 2022
resourceUpdateCount 20