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  1. Livestock Water Development

    https://ohioline.osu.edu/factsheet/ANR-12

    livestock. Adequate amounts of water are needed to maintain high levels of production. Limiting water intake ... collected water. Connecting lines between tanks should not have high or low spots in the line to eliminate ... such as sheep, cannot tolerate high levels of copper because it builds up in their system. Keep added ...

  2. Abha Bhattarai

    https://fabe.osu.edu/our-people/abha-bhattarai

    emissions and increasing soil organic carbon. ...

  3. Water Effects on Livestock Performance

    https://ohioline.osu.edu/factsheet/ANR-13

    tested P and K levels of distribution in relationship to water placement. Soil test levels were not ... elements in water do not cause problems because they do not occur at high enough levels in soluble form. ... seen at levels high enough to cause problems. Water quality problems affecting livestock are more ...

  4. Gibberella Ear Rot and Mycotoxins in Corn: Sampling, Testing, and Storage

    https://ohioline.osu.edu/factsheet/plpath-cer-04

    steps. Semi-quantitative tests estimate vomitoxin at or above certain levels (>5ppm) or within a given ... (DON), also called vomitoxin. As a result, high levels of Gibberella ear rot severity and moldy grain are ... usually accompanied by high levels of vomitoxin. Mycotoxins are harmful to both humans and animals. ...

  5. Strategies to Minimize Spray Drift for Effective Spraying in Orchards and Vineyards

    https://ohioline.osu.edu/factsheet/fabe-535

    air-assistance, nozzles producing very fine or fine droplets have a high-risk of producing drift and are not ... however, poses a relatively low risk of injury to nearby sensitive crops compared to the physical movement ... (ohioline.osu.edu/factsheet/fabe-525). The risk of drift is considerably higher when spraying in orchards and vineyards compared to ...

  6. Using Cover Crops to Convert to No-till

    https://ohioline.osu.edu/factsheet/SAG-11

    converting and storing more nitrogen as microbe numbers and soil organic matter levels increase in the soil ... P losses to surface water. In the last hundred years, tillage has decreased soil organic levels by 60 to 70 ... storehouse for many nutrients. Most soil nitrogen (>90%) and available phosphorus (50 to 75 percent) is ...

  7. M. Soledad Benitez Ponce

    https://plantpath.osu.edu/our-people/m-soledad-benitez-ponce

    Yield and soil responses to adding wheat to a corn–soybean rotation. Crop Forage & Turfgrass Mgmt, ... Soil Biology and Biochemistry 159: 108309. https://doi.org/10.1016/j.soilbio.2021.108309. Navarro KA, ... Pythium and Phytopythium Associated with Soybean Genotypes in High Disease Environments in Ohio. ...

  8. Laurence (Larry) V. Madden

    https://plantpath.osu.edu/our-people/laurence-larry-v-madden

    Accuracy in the prediction of disease epidemics when ensembling simple but highly correlated models. PLoS ... for quantifying the risk of natural contamination of maize grain with deoxynivalenol. Phytopathology ... Global Wheat Health Based on Scenario Development and Analysis.  Phytopathology 107 1109-1122 Anderson, ...

  9. Corn, Soybean, and Alfalfa Yield Responses to Micronutrient Fertilization in Ohio

    https://ohioline.osu.edu/factsheet/agf-519

    Micronutrient Deficiencies May Occur. Micronutrient Soil Crop Boron (B) Sandy soils or highly weathered soils ... Alfalfa. Diagnosing Micronutrient Deficiencies There is a large degree of uncertainty in using soil tests ... for monitoring soil micronutrient levels, as crop micronutrient availability is determined by complex ...

  10. Individual Studies

    https://fst.osu.edu/courses/fdscte-8193

    level FdScTe. Repeatable to a maximum of 15 cr hrs or 4 completions. This course is progress graded ...

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