College of Agriculture
Permanent URI for this communityhttps://scholarworks.montana.edu/handle/1/4
As the foundation of the land grant mission at Montana State University, the College of Agriculture and the Montana Agricultural Experiment Station provide instruction in traditional and innovative degree programs and conduct research on old and new challenges for Montana’s agricultural community. This integration creates opportunities for students and faculty to excel through hands-on learning, to serve through campus and community engagement, to explore unique solutions to distinct and interesting questions and to connect Montanans with the global community through research discoveries and outreach.
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Item Data from: An exploration for truth in soil parent materials in Hyalite Canyon, Montana [dataset](2015-08) Sugden, John Charles; Ewing, Stephanie A.; Challender, Stuart; Hartshorn, AnthonyThe raw data set contains geochemical data from a soil "lithosequence" in Hyalite Canyon, MT near the Langohr Campground and includes data for underlying rock. Data for many major and minor (including rare earth and high field strength) elements and oxides are included. Atmospheric deposition samples were collected at the Arthur Post Farm and from the rooftops of Bobcat Stadium. Duplicates included in the data set are marked. The three calculation spreadsheets convey methods to calculate the fractional rock influence on soil materials <2mm; to determine chemical depletion from rock only and from rock and atmospheric deposition; and to calculate mass balance using rock only, atmospheric deposition only, and mass balance using both rock and atmospheric deposition scaled using the fraction rock calculations mentioned above.Item Probabilistic downscaling of remote sensing data with applications for multi-scale biogeochemical flux modeling [dataset](Montana State University ScholarWorks, 2015-05) Stoy, Paul C.; Quaife, TristanMATLAB code to perform two-dimensional Tikhonov Regularization (2DTR). Subheaders refer to MATLAB function names. A simulated landscape with a Lagrange multiplier gamma = 10^.85, a mean value of 0.54, and a variance of 0.009 can be generated using: [Rgamma] = doDisaggExperiment(rand(64), 10^.85, 0.009, 0.54 ). The Stoy Lab adheres to an open data policy. Data collected by the Stoy Lab are free to anyone to use with two caveats: 1. Coauthorship may be requested if intellectual input is provided. Intellectual input is defined in this case as an analysis that is critical to outcomes that could not otherwise be performed. 2. Graduate students operate the towers and analyze the data. They must be given the opportunity to be coauthors on your work. Please email paul dot stoy at gmail dot com with any questions.Item Eddy covariance and micrometeorological data from the Tenderfoot Creek Experimental Forest subcanopy tower [dataset](2015-03) Stoy, Paul C.Eddy covariance and micrometeorological data from the Tenderfoot Creek Experimental Forest subcanopy tower. These data are subject to revision and final versions will eventually be hosted on the FLUXNET and Ameriflux websites. The Stoy Lab adheres to an open data policy. Data collected by the Stoy Lab are free to anyone to use with two caveats: 1. Coauthorship may be requested if intellectual input is provided. Intellectual input is defined in this case as an analysis that is critical to outcomes that could not otherwise be performed. 2. Graduate students operate the towers and analyze the data. They must be given the opportunity to be coauthors on your work. Please email paul dot stoy at gmail dot com with any questions.Item Normalized difference vegetation index observations an Azimuth Systems AZ-16 Airborne Thematic Mapper (ATM) overflight on 17th July, 2005 near Abisko, Sweden [dataset](2014-12) Stoy, Paul C.Normalized Difference Vegetation Index observations an Azimuth Systems AZ-16 Airborne Thematic Mapper (ATM) overflight on 17th July, 2005 near Abisko, Sweden, courtesy of Dr. Brian Huntley. Stoy Lab adheres to an open data policy. Data collected by the Stoy Lab are free to anyone to use with two caveats: (1) Coauthorship may be requested if intellectual input is provided. Intellectual input is defined in this case as an analysis that is critical to outcomes that could not otherwise be performed. (2) Graduate students operate the towers and analyze the data. They must be given the opportunity to be coauthors on your work. Please email paul dot stoy at gmail dot com with any questions. Further information is available from the Biosphere-Atmosphere Interactions Lab https://sites.google.com/site/stoylabItem Air temperature and photosynthetically active photon flux density data from the Abisko Scientific Research center [dataset](2014-12) Stoy, Paul C.Air temperature and photosynthetically active photon flux density data from the Abisko Scientific Research center courtesy of Annika Kristofferson. The Stoy Lab adheres to an open data policy. Data collected by the Stoy Lab are free to anyone to use with two caveats: 1. Coauthorship may be requested if intellectual input is provided. Intellectual input is defined in this case as an analysis that is critical to outcomes that could not otherwise be performed. 2. Graduate students operate the towers and analyze the data. They must be given the opportunity to be coauthors on your work. Please email paul dot stoy at gmail dot com with any questions. Further information is available from the Biosphere-Atmosphere Interactions Lab website https://sites.google.com/site/stoylab/homeItem Response to fire on the Upper Snake River plain [dataset](2011-06) Taylor, Kimberley T.; Brummer, Tyler J.; Rew, Lisa J.; Lavin, Matthew; Maxwell, Bruce D.This file contains environmental and vegetation data for 10 x 10 m plots along transects through a chronosequence of fires on the Upper Snake River Plain.Item Tables S1 and S2 [dataset](2014-08) Gan, Fei; Zhang, Shuyi; Rockwell, Nathan C.; Martin, Shelley; Langarias, J. Clark; Bryant, Donald A.This dataset is associated with the following article: Gan, F., S. Zhang, N. C. Rockwell, S. S. Martin, J. C. Lagarias, and D. A. Bryant. “Extensive Remodeling of a Cyanobacterial Photosynthetic Apparatus in Far-Red Light." Science 345, no. 6202 (August 21, 2014): 1312-1317. doi:10.1126/science.1256963