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  1. David M. Hix

    https://senr.osu.edu/our-people/david-m-hix

    [http://oardc.osu.edu/ferel/index.htm] Lake States Fire Science Consortium website [http://lakestatesfiresci.net/] Courses Offered ...

  2. Using Soil Tests Phosphorus Results to Identify Agronomic and Conservation Needs

    https://agcrops.osu.edu/newsletter/corn-newsletter/2020-30/using-soil-tests-phosphorus-results-identify-agronomic-and

    inches of rainfall. Use the Ohio P risk index, field scale hydrology/water quality models, or monitoring ...

  3. Robyn S. Wilson

    https://senr.osu.edu/our-people/robyn-s-wilson

    http://sites.nationalacademies.org/dbasse/becs/index.htm The Sustainability Institute –  https://si.osu.edu The Environmental and Social Sustainability ...

  4. Kaiguang Zhao

    https://senr.osu.edu/our-people/kaiguang-zhao

    & S. Popescu. 2009. Lidar-based mapping of leaf area index and its comparison with satellite ...

  5. Lake Erie HAB Forecast

    https://agcrops.osu.edu/newsletter/corn-newsletter/2015-21/lake-erie-hab-forecast

    Cyanobacterial Index from NASA’s MODIS-Aqua data (Bottom) for 2011 and 2013 at peak bloom for each year. The ... MODIS-Aqua data gives a concentration index with the red color indicated a higher concentration and the blue ...

  6. Douglas Jackson-Smith

    https://senr.osu.edu/our-people/douglas-jackson-smith

    http://www.jrp.icaap.org/index.php/jrp/article/view/335/297 Sharp, Jeff., D. Jackson-Smith, and Leah Smith. 2011. “Agricultural economic development at the ...

  7. Full List of 2017 Publications

    https://senr.osu.edu/research/publications/full-list-2017-publications

    Y Su, S. Tao, K. Zhao, & G. Xu. 2017. Retrieving the gap fraction, element clumping index, and leaf ... area index of individual trees using single-scan data from a terrestrial laser scanner, ISPRS Journal ... Hemmerle, B. de Solan. 2017. Estimating wheat Green area index from ground-based LiDAR measurement through ...

  8. Soil Test P value less than 50 PPM (or "Lower" P Risk Assessment)

    https://agbmps.osu.edu/scenario/soil-test-p-value-less-50-ppm-or-lower-p-risk-assessment

    A soil test that includes a value for Soil Test Phosphorus (STP) is useful to discuss both the risk of yield loss in crop management and as an indicator for risk of environmental loss of P. In crop management, fields with an STP level of less than 20 PPM ...

  9. Soil Test P value greater than 120 PPM (or P Risk Assessment of "High" to "Very High")

    https://agbmps.osu.edu/scenario/soil-test-p-value-greater-120-ppm-or-p-risk-assessment-high-very-high

    Soil test phosphorus (STP) is a good indicator for the potential risk of phosphorus movement at the edge-of-field into downstream waters. STP is a quick and widely available measure that can be used to identify field level P loss risk potential. Actual me ...

  10. Soil Test P value between 50 PPM and 120 PPM (or "Moderate" P Loss Risk Assessment)

    https://agbmps.osu.edu/scenario/soil-test-p-value-between-50-ppm-and-120-ppm-or-moderate-p-loss-risk-assessment

    Soil test phosphorus (STP) is a good indicator for the potential risk of phosphorus movement at the edge-of-field into downstream waters. STP is a quick and widely available measure that can be used to identify field level P loss risk potential. Actual me ...

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