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PUBLICATIONS
Refereed
Journal Publications
Burton,
J.D., J.W. Gronwald, D.A. Somers, B.G. Gengenbach, and D.L. Wyse. 1987.
Inhibition of Plant Acetyl-Coenzyme A Carboxylase by the Herbicides Sethoxydim
and Haloxyfop. Biochem. Biophys. Res. Comm. 148:1039-1044.
Burton,
J.D. and N.E. Balke. 1988. Glyphosate Uptake by Suspension-Cultured Potato Cells. Weed Sci. 36:146-153.
Burton,
J.D., J. W. Gronwald, D.A. Somers, B.G. Gengenbach, and D.L. Wyse. 1989.
Inhibition of Corn Acetyl-CoA Carboxylase by Cyclohexanedione and
Aryloxyphenoxypropionate Herbicides. Pest.
Biochem. Physiol. 34:76-85.
Stoltenberg,
D.E., J.W. Gronwald, D.L. Wyse, and J.D. Burton. 1989. The influence of
Sethoxydim and Haloxyfop on Acetyl-Coenzyme A Carboxylase Activity in Tolerant
and Susceptible Festuca Species. Weed Sci. 37:512-516.
Parker,
W.B., F. Kieth, D.A. Somers, J.D. Burton, B.G. Gengenbach, and D.L. Wyse. 1989.
Characterization of Sethoxydim and Haloxyfop Tolerant Mutants Selected from
Tissue Culture. Plant Physiol. 92:1220-1225.
Parker,
W.B. , L.C. Marshall, J.D. Burton, D.A. Somers, D.L. Wyse, J.W. Gronwald, and
B.G. Gengenbach. 1990. dominant mutations Causing Alterations in
Acetyl-Coenzyme A Carboxylase Confer tolerance
to cyclohexanedione and aryloxyphenoxypropionate herbicides in maize. Proc.
Natl. Acad. Sci. 87:7175-7179.
Burton,
J.D., J.W. Gronwald, D.A. Somers, B.G. Gengenbach, and D.L. Wyse. 1991.
Kinetics of Inhibition of Acetyl-CoA Carboxylase by Sethoxydim and
Haloxyfop. Pest. Biochem. Physiol. 39:100-109.
Burton,
J.D. and E.P. Maness. 1992. Constitutive and Inducible Bentazon
Hydroxylation in Shattercane (Sorghum
bicolor) and Johnsongrass (S.
halapense). Pest. Biochem. Physiol. 44:40-49.
Catanzaro,
C.J., J.D. Burton, and W.A. Skroch. 1993. Graminicide Resistance of Acetyl-CoA Carboxylase from Ornamental
Grasses. Pest. Biochem. Physiol. 45:147-153.
Catanzaro,
C.J., W.A. Skroch, and J.D. Burton. 1993. Response of ornamental grasses to graminicides. Weed
Tech. 7:326-330.
Burton,
J.D., E. P. Maness, D.A. Monks and D.K. Robinson. 1994. Sulfonylurea Selectivity and Safener Activity in 'Landmark' and 'Merit'
Sweet Corn. Pestic. Biochem. Physiol. 48:163-172.
Robinson,
D.K., D.W. Monks, and J.D. Burton. 1994. Effect of Naphthalic
Annhydride, CGA 154 281 and BAS 145 138 Seed Treatments on Sweet Corn Tolerance
to Nicosulfuron.Weed Science.
42:614-617
Ferreira,
K.L. H.D. Coble, and J.D. Burton. 1995. Effect of DPX-PE350 on Fluazifop Activity. Weed Sci. 43:184-191
Sunderland,
S.L., J.D. Burton, H.D. Coble, and E.P. Maness. 1995. Physiological Mechanism for Tall Mroningglory (Ipomoea purpurea) Tolerance to
DPX-PE350. Weed Sci. 43:21-27
Robinson,
D.K., D.W. Monks, and J.D. Burton. 1996. Safening Influence of LAB 145 138 on Nicosulfuron, Terbufos and
Bentazon Interactions in Sweet Corn (Zea
mays).Weed Sci. 44:339-344.
Roe,
R.M. J.D. Burton and R.J. Kuhr,
(Eds) 1997. Herbicide Activity: Toxicology,
Biochemistry and Molecular Biology. IOS Press, Amsterdam
Ma, G.,
H.D. Coble, F.T. Corbin, and J.D. Burton. 1997. Physiological
mechanisms for differential responses of three weed species to prosulfuron. Weed
Sci. 45:642-647.
Burton, J.D. 1997. Acetyl-coenzyme A
carboxylase inhibitors. In:
Herbicide Activity: Toxicology, Biochemistry and Molecular Biology. R.M. Roe,
J.D. Burton and R.J. Kuhr, Eds). IOS Press, Amsterdam. Pg 187-205.
Wahlers,
R.L. Burton, J.D. Maness, E.P. And Skroch, W.A. 1997. Physiological characteristics of a stem cut and blade
delivery method of application. Weed Sci. 45:746-749.
Wahlers,
R.L. Burton, J.D. Maness, E.P. And Skroch, W.A. 1997. A stem cut and blade delivery method of herbicide
application for weed control. Weed Sci. 45:829-832.
Burton,
J.D. 1997. The search for novel herbicide target sites: explorations off the
beaten pathway. Weed Sci. 45:600.
Patton,
C.A. Ranney, T.G. Burton, J.D. And Walgenbach, J.F. 1997. Feeding responses of Japanese beetle to
naturally occurring metabolites found in Rosaceous plants. J. Environ. Hort. 15(4):222-227.
Patton, C.A. Ranney, T.G. Burton, J.D. And
Walgenbach, J.F. 1997. Natural pest resistance of Prunus taxa to feeding by
adult Japanese beetles: role of endogenous allelochemicals in host plant
resistance. J. Soc. Hort Sci. 122(5):668-672.
Fulcher, A.F., T.G. Ranney, J.D. Burton, J.F.
Walgenbach, and D.A. Danehower. 1998. Role of foliar phenolics in host plant resistance of Malus Taxa to adult
Japanese Beeltes. Hort Sci.
33:862-865
Feusi, M.E.S., J.D. Burton, J.D. Williamson, and D.M. Pharr. 1999. Galactosyl-sucrose metabolism and UDP-galactose
pyrophosphorylase from Cucumis Mels L. Fruit. Physiologia Plantarum 106:9-16.
Henson,
S.E., W.A. Skroch, J.D. Burton, and A.D. Worsham. 2003. Herbicide efficacy using the Burch Wet
Blade application system. Weed Tecnhology 17:320-324.
Troxler,
S.C., I.C. Burke, W.D. Smith, J.D. Burton, J. Wilcut. 2003 Absorption, translocation and metabolism of CGA 362622 in purple and
yellow nutsedge. Weed Sci.
51:13-18
S.
Chris Reberg-Horton, J.D. Burton, D.A. Danehower, G. Ma, D. W. Monks, J.P.
Murphy, N.N. Ranells, J.D. Williamson, and N.G. Creamer. 2005. Changes Over Time In The
Allelochemical Content Of Ten Cultivars Of Rye (Secale Cereale L.) J.
Chem. Ecol. 31:179-193
M.
Finney, D.A. Danehower, and J.D. Burton. 2005. A Gas Chromatographic Method for
the Analysis of Allelopathic Natural Products in Rye (Secale cereale L.). J. Chromatography A, 1066:249–253.
Pedersen,
M.K., J.D. Burton, and H.D. Coble. 2006. Effect of cyclanilide, ethephon, auxin transport inhibitors and
temperature on leaf defoliation in bean plants. Crop Science 46:1666-1672
Burke,
I. C., J. D. Burton, J. W. Wilcut, and J. Cranmer. 2006. Mechanism
of resistance to clethodim in a johnsongrass (Sorghum halepense) biotype. Weed Sci. 54:401-506.
Burke,
I. C., W. E. Thomas, J. D. Burton, J. F. Spears, and J. W. Wilcut. 2006. A seedling assay to screen aryloxyphenoxypropionic acid and
cyclohexanedione resistance in johnsongrass (Sorghum halepense). Weed Technol. 20:950-955.
Burke, I. C., J. B. Holland, A. C. York, J. D. Burton, and J. W. Wilcut. 2007. Johnsongrass (Sorghum halepense) pollen expresses ACCase target-site resistance. Weed Technol. 21:(In Press).
