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ARS Home » Midwest Area » Columbus, Ohio » Soil Drainage Research » People & Locations » Luis Martinez (Rene)

Luis Rene Martinez (Rene)
Soil Drainage Research
Hydrologic Technician

Phone: (614) 314-9300
Fax:

590 WOODY HAYES DRIVE #234
COLUMBUS, OH 43210

(Employee information on this page comes from the REE Directory. Please contact your front office staff to update the REE Directory.)


Publications (Clicking on the reprint icon Reprint Icon will take you to the publication reprint.)
Subsurface drainage outlet detection in ditches and streams with UAV thermal infrared imagery: preliminary research Reprint Icon - (Peer Reviewed Journal)
Allred, B.J., Martinez, L.R., Khanal, S., Sawyer, A., Rouse, G. 2022. Subsurface drainage outlet detection in ditches and streams with UAV thermal infrared imagery: preliminary research. Agricultural Water Management. Article 107737. https://doi.org/10.1016/j.agwat.2022.107737.
Time of day impact on mapping agricultural subsurface drainage systems with UAV thermal infrared imagery Reprint Icon - (Peer Reviewed Journal)
Allred, B.J., Martinez, L.R., Fessehazion, M., Rouse, G., Koganti, T., Freeland, R., Eash, N., Wishart, D., Featheringill, R. 2021. Time of day impact on mapping agricultural subsurface drainage systems with UAV thermal infrared imagery. Agricultural Water Management. 256: Article 107071. https://doi.org/10.1016/j.agwat.2021.107071.
Mapping of agricultural subsurface drainage systems using unmanned aerial vehicle imagery and ground penetrating radar Reprint Icon - (Peer Reviewed Journal)
Koganti, T., Ghane, E., Martinez, L.R., Iversen, B.V., Allred, B.J. 2021. Mapping of agricultural subsurface drainage systems using unmanned aerial vehicle imagery and ground penetrating radar. Sensors. 21(8). Article 2800. https://doi.org/10.3390/s21082800.
Overall results and key findings on the use of UAV visible-color, multispectral, and thermal infrared imagery to map agricultural drainage pipes Reprint Icon - (Peer Reviewed Journal)
Allred, B.J., Martinez, L.R., Fessehazion, M., Rouse, G., Williamson, T., Wishart, D., Koganti, T., Freeland, R., Eash, N., Batschelet, A., Featheringill, R. 2020. Overall results and key findings on the use of UAV visible-color, multispectral, and thermal infrared imagery to map agricultural drainage pipes. Agricultural Water Management. 232:106036. https://doi.org/10.1016/j.agwat.2020.106036.
Mapping subsurface drainage in agricultural areas using unmanned aerial vehicle imagery and ground penetrating radar - (Proceedings)
Koganti, T., Ghane, E., Martinez, L.R., Iversen, B.V., Allred, B.J. 2019. Mapping subsurface drainage in agricultural areas using unmanned aerial vehicle imagery and ground penetrating radar. Proceedings of the 1st Indian Near Surface Geophysics Conference & Exhibition. 76-80.
Agricultural drainage tile surveying using an unmanned aircraft vehicle paired with real-time kinematic positioning: A case study Reprint Icon - (Peer Reviewed Journal)
Freeland, R., Allred, B.J., Eash, N., Martinez, L.R., Wishart, D. 2019. Agricultural drainage tile surveying using an unmanned aircraft vehicle paired with real-time kinematic positioning: A case study. Computers and Electronics in Agriculture. 165:104946. https://doi.org/10.1016/j.compag.2019.104946.
Delineation of agricultural drainage pipe patterns using ground penetrating radar integrated with a real-time kinematic global navigation satellite system Reprint Icon - (Peer Reviewed Journal)
Allred, B.J., Wishart, D., Martinez, L.R., Schomberg, H.H., Mirsky, S.B., Meyers, G.E., Elliott, J., Charyton, C. 2018. Delineation of agricultural drainage pipe patterns using ground penetrating radar integrated with a real-time kinematic global navigation satellite system. Agriculture. 8(11):167. https://doi.org/10.3390/agriculture8110167.
Effective and efficient agricultural drainage pipe mapping with UAS thermal infrared imagery: a case study Reprint Icon - (Peer Reviewed Journal)
Allred, B.J., Eash, N., Freeland, R., Martinez, L.R., Wishart, D. 2017. Effective and efficient agricultural drainage pipe mapping with UAS thermal infrared imagery: a case study. Agricultural Water Management. 197:132-137.
Phosphate removal from agricultural drainage water using an iron oxyhydroxide filter material Reprint Icon - (Peer Reviewed Journal)
Allred, B.J., Martinez, L.R., Gamble, D.L. 2017. Phosphate removal from agricultural drainage water using an iron oxyhydroxide filter material. Water, Air, and Soil Pollution. https://doi.org/10.1007/s11270-017-3410-9.
Ground penetrating radar water content mapping of golf course green sand layers - (Peer Reviewed Journal)
Allred, B.J., Freeland, R., Grote, K., McCoy, E., Martinez, L.R., Gamble, D.L. 2016. Ground penetrating radar water content mapping of golf course green sand layers. Journal of Environmental & Engineering Geophysics. 21(4):215-229.
Performance of hybrid and single-frequency impulse GPR antennas on USGA sporting greens - (Peer Reviewed Journal)
Freeland, R.S., Allred, B.J., Martinez, L.R., Gamble, D.L., Jones, B.R., McCoy, E.L. 2016. Performance of hybrid and single-frequency impulse GPR antennas on USGA sporting greens. Journal of Environmental & Engineering Geophysics. 21(2):57-65.
Mapping soil water content on golf course greens with GPR - (Proceedings)
Allred, B.J., Martinez, L.R., Gamble, D.L., Mccoy, E. 2015. Mapping soil water content on golf course greens with GPR. Ohio Turfgrass Foundation Research Field Day Proceedings, August 11, 2015, Columbus, Ohio. p. 23-24.
Laboratory investigation of boundary condition impacts on nitrate anion exclusion in an unsaturated soil Reprint Icon - (Peer Reviewed Journal)
Allred, B.J., Brown, G., Martinez, L.R. 2015. Laboratory investigation of boundary condition impacts on nitrate anion exclusion in an unsaturated soil. Soil Science Society of America Journal. 79(3):742-756.
Subsurface investigation with ground penetrating radar - (Proceedings)
Allred, B.J., Martinez, L.R., Mccoy, E.L. 2014. Subsurface investigation with ground penetrating radar. Symposium Proceedings. Proceedings for the 2014 OTF Turfgrass Research Field Day. Columbus, OH. pp. 36-39.