John D Eide
Sugarbeet Research
Plant Physiologist
Phone: (701) 239-1354
Fax: (701) 239-1349
(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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Storage duration, harvest injury, and fungal pathogens promote ethanol accumulation in postharvest sugarbeet roots
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Sugarbeet root storage conditions and plant genetics affect sugar transporter gene expression with likely effects on postharvest sucrose losses
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Transcriptional and enzymatic changes in carbohydrate metabolism in wounded sugarbeet taproots
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Abiotic factors and sugarbeet storage pathogens promote ethanol accumulation in postharvest sugarbeet roots
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Genomic analysis of SWEET and TST sugar transporter gene families in sugarbeet (Beta vulgaris L.)
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Relationship of long-term storage and raffinose metabolism in sugarbeet
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Severe preharvest drought elevates respiration and storage rot in postharvest sugarbeet roots
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Fugate, K.K., Lafta, A., Eide, J.D., Khan, M., Finger, F. 2024. Severe preharvest drought elevates respiration and storage rot in postharvest sugarbeet roots. Journal of Agronomy and Crop Science. 210. Article e12718. https://doi.org/10.1111/jac.12718.
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Transcriptomic and metabolomic changes in postharvest sugarbeet roots reveal widespread metabolic changes in storage and identify genes potentially responsible for respiratory sucrose loss
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Fugate, K.K., Eide, J.D., Lafta, A., Tehseen, M., Chu, C.N., Khan, M., Finger, F. 2024. Transcriptomic and metabolomic changes in postharvest sugarbeet roots reveal widespread metabolic changes in storage and identify genes potentially responsible for respiratory sucrose loss. Frontiers in Plant Science. 15. Article 1320705. https://doi.org/10.3389/fpls.2024.1320705.
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Sugar beet root storage properties are unaffected by Cercospora leaf spot
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Fugate, K.K., Khan, M.F., Eide, J.D., Hakk, P.C., Lafta, A.M. 2023. Sugar beet root storage properties are unaffected by Cercospora leaf spot. Plant Disease. 107(6):1649-1958. https://doi.org/10.1094/PDIS-09-22-2156-RE.
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Newly developed sugarbeet lines with altered postharvest respiration rates differ in transcription factor and glycolytic enzyme expression
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Fugate, K.K., Campbell, L.G., Lafta, A.M., Eide, J.D., Khan, M.F., Chu, C.N., Finger, F.L. 2022. Newly developed sugarbeet lines with altered postharvest respiration rates differ in transcription factor and glycolytic enzyme expression. Crop Science. 62(3):1251-1263. https://doi.org/10.1002/csc2.20729.
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Methyl jasmonate effects on sugarbeet root responses to postharvest dehydration
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Finger, F.L., Eide, J.D., Dogramaci, M., Fugate, K.K. 2021. Methyl jasmonate effects on sugarbeet root responses to postharvest dehydration. PeerJ. 9. Article e11623. https://doi.org/10.7717/peerj.11623.
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Impact of Cercospora leaf spot disease severity on sugarbeet root storage
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Effect of Cercospora leaf spot on sugarbeet root storage properties
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Impact of Cercospora leaf spot disease severity on sugarbeet root storage
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Fugate, K.K., Eide, J.D., Lafta, A.M., Khan, M. 2020. Impact of Cercospora leaf spot disease severity on sugarbeet root storage. Sugarbeet Research and Extension Reports. p.76.
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Colocalization of sucrose synthase expression and sucrose storage in the sugarbeet taproot indicates a potential role for sucrose catabolism in sucrose accumulation
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Fugate, K.K., Eide, J.D., Martins, D.N., Grusak, M.A., Deckard, E.L., Finger, F.L. 2019. Colocalization of sucrose synthase expression and sucrose storage in the sugarbeet taproot indicates a potential role for sucrose catabolism in sucrose accumulation. Journal of Plant Physiology. 240:153016. https://doi.org/10.1016/j.jplph.2019.153016.
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Effect of drought stress on plant growth, photosynthesis, and proline metabolism in sugarbeet
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Impact of Cercospora leaf spot disease severity on sugarbeet root storage
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Fugate, K.K., Eide, J.D., Lafta, A., Mohamed, K. 2019. Impact of Cercospora leaf spot disease severity on sugarbeet root storage. Sugarbeet Research and Extension Reports. 49:98-100.
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Effect of methyl jasmonate and Headline on root and sucrose yield
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Fugate, K.K., Metzger, M., Eide, J.D., Larson, E., Lafta, A., Khan, M. 2019. Effect of methyl jasmonate and Headline on root and sucrose yield. Sugarbeet Research and Extension Reports. 49: 93-97.
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Impact of drought stress on sugarbeet storage properties
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Fugate, K.K., Lafta, A.M., Eide, J.D., Khan, M.F. 2019. Impact of drought stress on sugarbeet storage properties. Sugarbeet Research and Extension Reports. 49: 101-103.
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Drought stress increases sugarbeet root respiration rate and susceptibility to storage rots
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Lafta, A.M., Fugate, K.K., Eide, J.D., Khan, M.F. 2019. Drought stress increases sugarbeet root respiration rate and susceptibility to storage rots [abstract]. American Society of Sugar Beet Technologists, February 25-28, 2019, Anaheim, CA.
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Bidirectional sucrose transporters are upregulated during sugar beet root storage
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Fugate, K.K., Lafta, A.M., Eide, J.D., Khan, M.F., Finger, F.L. 2018. Bidirectional sucrose transporters are upregulated during sugar beet root storage [abstract]. American Society of Sugar Beet Technologists, February 25-28, 2019, Anaheim, CA.
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Methyl jasmonate alleviates drought stress in young sugarbeet (Beta vulgaris L.) plants
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Fugate, K.K., Lafta, A.M., Eide, J.D., Li, G., Lulai, E.C., Young, L.L., Deckard, E.L., Khan, M.F., Finger, F.L. 2018. Methyl jasmonate alleviates drought stress in young sugarbeet (Beta vulgaris L.) plants. Journal of Agronomy and Crop Science. https://doi.org/10.1111/jac.12286.
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Effect of methyl jasmonate, salicylic acid, Headline and Stadium on root yield, sucrose yield, and storage properties
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Effect of methyl jasmonate, salicylic acid, Headline and Stadium on sucrose yield and storage properties
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Fugate, K.K., Campbell, L.G., Eide, J.D., Lafta, A.M., Khan, M.F. 2017. Effect of methyl jasmonate, salicylic acid, Headline and Stadium on sucrose yield and storage properties. 2016 Sugarbeet Research and Extension Reports. 47:88-92.
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Effect of methyl jasmonate on seedling tolerance to drought and cold temperature stress
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Fugate, K.K., Lafta, A.M., Eide, J.D., Li, G., Khan, M.F. 2017. Effect of methyl jasmonate on seedling tolerance to drought and cold temperature stress [abstract.] Journal of Sugar Beet Research. 54(1-2):103.
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Effect of methyl jasmonate on sugarbeet yield and storage properties
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Fugate, K.K., Campbell, L.G., Eide, J.D., Metzger, M., Lafta, A.M., Khan, M.F. 2017. Effect of methyl jasmonate on sugarbeet yield and storage properties [abstract.] Journal of Sugar Beet Research. 54(1-2):115.
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Effect of methyl jasmonate, salicylic acid, Headline and Stadium on sucrose yield and storage properties
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Fugate, K.K., Campbell, L.G., Eide, J.D., Ribeiro, W.S., DeOliveira, L.S. 2016. Effect of methyl jasmonate, salicylic acid, Headline and Stadium on sucrose yield and storage properties. 2015 Sugarbeet Research and Extension Reports. 46:73-76.
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VIRULENCE OF METARHIZIUM ANISOPIAE IN SUGARBEET ROOT MAGGOT LARVAE
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Jonason, N.B., Boetel, M.A., Eide, J.D., Campbell, L.G., Rao, M.B. 2005. Virulence of Metarhizium anisopiae (Deuteromycotina: Hyphomycetes) to sugarbeet root maggot (Diptera: Ulidiidae) larvae. Journal of Sugarbeet Research. 42(3&4):103-117.
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GENETIC DIVERSITY OF <I>CERCOSPORA BETICOLA </I> IN THE US AND ASSOCIATION OF MOLECULAR MARKERS WITH TOLERANCE TO THE FUNGICIDE TRIPHENYLTIN HYDROXIDE(TPTH).
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SUGARBEET ROOT SUCROSE SYNTHASE ISOFORMS ARE TETRAMERS COMPOSED OF VARYING RATIOS OF TWO PUTATIVE SUBUNITS.
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SUGARBEET ROOT MAGGOT CONTROL WITH METARHIZIUM ANISOPLIAE
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PERSISTENCE AND MOVEMENT OF FUNGAL CONIDIA APPLIED TO SOIL FOR THE MANAGEMENT OF THE SUGARBEET ROOT MAGGOT, TETANOPS MYOPAEFORMIS (RODER).
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METARHIZIUM ANISOPLAIE AS A BIOCONTROL AGENT FOR SUGARBEET ROOT MAGGOT.
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SUGARBEET ROOT MAGGOT CONTROL WITH METARHIZIUM ANISOPLIAE
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METARHIZIUM ANISOPLAIE AS A BIOCONTROL AGENT FOR SUGARBEET ROOT MAGGOT
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PERSISTENCE AND MOVEMENT OF FUNGAL CONIDIA APPLIED IN SOIL FOR THE MANAGEMENT OF THE SUGARBEET ROOT MAGGOT, TETANOPS MYOPAEFORMIS (RODER).
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PROGRESS IN CONTROL OF SUGARBEET ROOT MAGGOT VIA PATHOGENIC FUNGI
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ALTERNATIVES TO INSECTICIDES FOR CONTROL OF THE SUGARBEET ROOT MAGGOT
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BIOLOGICAL CONTROL OF TETANOPS MYOPAEFORMIS (SUGARBEET ROOT MAGGOT) USING THE ENTOMOPATHOGENIC FUNGI BEAUVERIA BASSIANA AND METARHIZIUM ANISOPLIAE
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DEFENSE PROTEIN SYNTHESIS IN RESPONSE TO CERCOSPORA BETICOLA
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BIOLOGICAL CONTROL OF THE SUGARBEET ROOT MAGGOT VIA PATHOGENIC FUNGI
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DEFENSE PROTEIN SYNTHESIS IN RESPONSE TO CERCOSPORA BETICOLA
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