Devin Rippner
Horticultural Crops Production and Genetic Improvement Research Unit
Research Soil Scientist
Phone: (805) 748-2844
Fax:
3420 NW ORCHARD AV
CORVALLIS,
OR
973305014
(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
will take you to the publication reprint.)
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Managing nutrient inputs and arbuscular mycorrhizal fungi in vineyards
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Soil health in washington vineyards
- (Other)
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Mcilquham, M., Moyer, M., Davenport, J., Rippner, D.A., Gelardi, D., Porter, T., Michel, L., Lahue-Griffin, D. 2023. Soil health in washington vineyards. Extension Publications. 14.
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A workflow for segmenting soil and plant X-ray computed tomography images with deep learning in Google’s Colaboratory
- (Peer Reviewed Journal)
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Rippner, D.A., Raja, P., Earles, J.M., Momayyezi, M., Buchko, A., Duong, F., Forrestel, E., Parkinson, D., Shackel, K., Neyhart, J.L., McElrone, A.J. 2022. A workflow for segmenting soil and plant X-ray computed tomography images with deep learning in Google’s Colaboratory. Frontiers in Plant Science. 13. Article 893140. https://doi.org/10.3389/fpls.2022.893140.
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Structural and functional leaf diversity lead to variability in photosynthetic capacity across a range of Juglans regia genotypes
- (Peer Reviewed Journal)
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Momayyezi, M., Rippner, D.A., Duong, F.V., Raja, P.V., Brown, P.J., Kluepfel, D.A., Earles, J., Forrestel, E.J., Gilbert, M.E., McElrone, A.J. 2022. Structural and functional leaf diversity lead to variability in photosynthetic capacity across a range of Juglans regia genotypes. Plant Cell and Environment. 45(8):2351-2365. https://doi.org/10.1111/pce.14370.
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A workflow for segmenting soil and plant X-ray CT images with deep learning in Google’s Colaboratory
- (Pre-print Publication)
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Rippner, D.A., Raja, P., Earles, J., Buchko, A., Momayyezi, M., Duong, F., Parkinson, D., Gupta, L., Forrestel, E., McElrone, A.J. 2022. A workflow for segmenting soil and plant X-ray CT images with deep learning in Google’s Colaboratory. ArXiv. https://doi.org/10.48550/arXiv.2203.09674.
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Biochar alters hydraulic conductivity and impacts nutrient leaching in two agricultural soils
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Gelardi, D.L., Ainuddin, A., Rippner, D.A., Patiño, J.E., Abou Najm, M., Parikh, S.J. 2021. Biochar alters hydraulic conductivity and impacts nutrient leaching in two agricultural soils. Soil. 7(2):811-825. https://doi.org/10.5194/soil-7-811-2021.
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Microbial response to copper oxide nanoparticles in soils is controlled by land use rather than copper fate
- (Peer Reviewed Journal)
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Rippner, D.A., Margenot, A.J., Fakra, S.C., Aguilera, L., Li, C., Sohng, J., Dynarski, K.A., Waterhouse, H., McElroy, N., Wade, J., Hind, S.R., Green, P.G., Peak, D., McElrone, A.J., Chen, N., Feng, R., Scow, K., Parikh, S. 2021. Microbial response to copper oxide nanoparticles in soils is controlled by land use rather than copper fate. Environmental Science: Nano. 8(12):3560-3576. https://doi.org/10.1039/D1EN00656H.
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Evaluation of bacillus seed coatings on soybean phosphorus uptake in an oxisol fertilized with 32P-labeled hydroxyapatite
- (Peer Reviewed Journal)
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Li, C., Rippner, D.A., Manavalan, L.P., Parikh, S.J. 2021. Evaluation of bacillus seed coatings on soybean phosphorus uptake in an oxisol fertilized with 32P-labeled hydroxyapatite. Plant and Soil. 464:273–287. https://doi.org/10.1007/s11104-021-04941-w.
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