Search Results - "Pinter, P. J."

Drought-induced changes in nitrogen partitioning between cyanide and nitrate in leaves and stems of sorghum grown at elevated CO2 are age dependent by Gleadow, R.M., Ottman, M.J., Kimball, B.A., Wall, G.W., Pinter, P.J., LaMorte, R.L., Leavitt, S.W.

“…•Sorghum accumulates dhurrin (cyanide) and nitrate; forage can be toxic.•Partitioning of N to cyanide and nitrate was measured in FACE studies.•Cyanide,…”
Get full text

Interactive effects of elevated carbon dioxide and drought on wheat by Wall, G.W, Garcia, R.L, Kimball, B.A, Hunsaker, D.J, Pinter, P.J. Jr, Long, S.P, Osborne, C.P, Hendrix, D.L, Wechsung, F, Wechsung, G

“…Atmospheric CO2 concentration (C(a)) continues to rise. An imperative exists, therefore, to elucidate the interactive effects of elevated C(a) and drought on…”
Get full text

Elevated Atmospheric CO2 Improved Sorghum Plant Water Status by Ameliorating the Adverse Effects of Drought by Wall, G. W., Brooks, T. J., Adam, N. R., Cousins, A. B., Kimball, B. A., Pinter, P. J., LaMorte, R. L., Triggs, J., Ottman, M. J., Leavitt, S. W., Matthias, A. D., Williams, D. G., Webber, A. N.

“…• The interactive effects of atmospheric CO2 concentration and soil-water content on grain sorghum (Sorghum bicolor) are reported here. • Sorghum plants were…”
Get full text

CO2 enrichment increases water‐use efficiency in sorghum by Conley, Matthew M., Kimball, B. A., Brooks, T. J., Pinter, P. J., Hunsaker, D. J., Wall, G. W., Adam, N. R., LaMorte, R. L., Matthias, A. D., Thompson, T. L., Leavitt, S. W., Ottman, M. J., Cousins, A. B., Triggs, J. M.

“…Summary •  Sorghum (Sorghum bicolor) was grown for two consecutive seasons at Maricopa, AZ, USA, using the free‐air CO2 enrichment (FACE) approach to…”
Get full text

Effects of elevated CO2 and drought on wheat: testing crop simulation models for different experimental and climatic conditions by EWERT, F, RODRIGUEZ, D, WEIGEL, H. J, FANGMEIER, A, FERERES, E, VILLALOBOS, F, JAMIESON, P, SEMENOV, M. A, MITCHELL, R. A. C, GOUDRIAAN, J, PORTER, J. R, KIMBALL, B. A, PINTER, P. J, MANDERSCHEID, R

“…Effects of increasing carbon dioxide concentration [CO2] on wheat vary depending on water supply and climatic conditions, which are difficult to estimate. Crop…”
Get full text

Development of C4 photosynthesis in sorghum leaves grown under free‐air CO2 enrichment (FACE) by Cousins, A. B., Adam, N. R., Wall, G. W., Kimball, B. A., Pinter Jr, P. J., Ottman, M. J., Leavitt, S. W., Webber, A. N.

“…The developmental pattern of C4 expression has been well characterized in maize and other C4 plants. However, few reports have explored the possibility that…”
Get full text

Free-air CO2 enrichment effects on the energy balance and evapotranspiration of sorghum by Triggs, J.M, Kimball, B.A, Pinter, P.J. Jr, Wall, G.W, Conley, M.M, Brooks, T.J, LaMorte, R.L, Adam, N.R, Ottman, M.J, Matthias, A.D

“…Increasing atmospheric carbon dioxide (CO2) likely will affect future water requirements of most plants, including agricultural crops. This research quantifies…”
Get full text

Modelling CO2 effects on wheat with varying nitrogen supplies by JAMIESON, P. D, BERNTSEN, J, EWERT, F, KIMBALL, B. A, OLESEN, J. E, PINTER, P. J, PORTER, J. R, SEMENOV, M. A

Get full text

Carbon isotope discrimination by Sorghum bicolor under CO2 enrichment and drought by Williams, D. G., Gempko, V., Fravolini, A., Leavitt, S. W., Wall, G. W., Kimball, B. A., Pinter, P. J., LaMorte, R., Ottman, M.

“…Summary •  Sorghum bicolor was exposed to free‐air CO2 enrichment (FACE) and drought at the Maricopa Agricultural Center, AZ, USA, in summer 1998. We predicted…”
Get full text

Free-air CO2 enrichment and soil nitrogen effects on energy balance and evapotranspiration of wheat by Kimball, B.A, LaMorte, R.L, Pinter, P.J. Jr, Wall, G.W, Hunsaker, D.J, Adamsen, F.J, Leavitt, S.W, Thompson, T.L, Matthias, A.D, Brooks, T.J

“…In order to determine the likely effects of the increasing atmospheric CO2 concentration on future evapotranspiration, ET, plots of field-grown wheat were…”
Get full text

CO2 enrichment and soil nitrogen effects on wheat evapotranspiration and water use efficiency by HUNSAKER, D. J, KIMBALL, B. A, PINTER, P. J, WALL, G. W, LAMORTE, R. L, ADAMSEN, F. J, LEAVITT, S. W, THOMPSON, T. L, MATTHIAS, A. D, BROOKS, T. J

Get full text

Photosystem II energy use, non-photochemical quenching and the xanthophyll cycle in Sorghum bicolor grown under drought and free-air CO2 enrichment (FACE) conditions by COUSINS, A. B, ADAM, N. R, WALL, G. W, KIMBALL, B. A, PINTER, P. J, OTTMAN, M. J, LEAVITT, S. W, WEBBER, A. N

Get full text

Photosynthesis and conductance of spring‐wheat leaves: field response to continuous free‐air atmospheric CO2 enrichment by Garcia, R. L., Long, S. P., Wall, G. W., Osborne, C. P., Kimball, B. A., Nie, G. Y., Pinter, P. J., Lamorte, R. L., Wechsung, F.

“…Spring wheat was grown from emergence to grain maturity in two partial pressures of CO2 (pCO2): ambient air of nominally 37 Pa and air enriched with CO2 to 55…”
Get full text

Combining multifrequency microwave and optical data for crop management by Moran, M.S., Vidal, A., Troufleau, D., Qi, J., Clarke, T.R., Pinter, P.J., Mitchell, T.A., Inoue, Y., Neale, C.M.U.

“…The potential for the combined use of microwave and optical data for crop management is explored with the use of images acquired in the visible, near-infrared,…”
Get full text

Free-air CO2 enrichment (FACE) : blower effects on wheat canopy microclimate and plant development by PINTER, P. J, KIMBALL, B. A, NAGY, J, JOHNSON, H. B, WECHSUNG, F, LEAVITT, S. W, THOMPSON, T. L, MATTHIAS, A. D, BROOKS, T. J, WALL, G. W, LAMORTE, R. L, HUNSAKER, D. J, ADAMSEN, F. J, FRUMAU, K. F. A, VUGTS, H. F, HENDREY, G. R, LEWIN, K. F

Get full text

Dynamics of labile and recalcitrant soil carbon pools in a sorghum free-air CO2 enrichment (FACE) agroecosystem by Cheng, L, Leavitt, S.W, Kimball, B.A, Pinter, P.J. Jr, Ottman, M.J, Matthias, A, Wall, G.W, Brooks, T, Williams, D.G, Thompson, T.L

“…Experimentation with dynamics of soil carbon pools as affected by elevated CO2 can better define the ability of terrestrial ecosystems to sequester global…”
Get full text

Crop water relations under different CO2 and irrigation: testing of ecosys with the free air CO2 enrichment (FACE) experiment by Grant, R.F, Wall, G.W, Kimball, B.A, Frumau, K.F.A, Pinter, P.J. Jr, Hunsaker, D.J, LaMorte, R.L

Get full text

Photosynthesis and conductance of spring wheat ears: field response to free‐air CO2 enrichment and limitations in water and nitrogen supply by Wechsung, F., Garcia, R. L., Wall, G. W., Kartschall, T., Kimball, B. A., Michaelis, P., Jr, P. J. Pinter, Wechsung, G., Grossman‐Clarke, S., Lamorte, R. L., Adamsen, F. J., Leavitt, S. W., Thompson, T. L., Matthias, A. D., Brooks, T. J.

“…ABSTRACT The mid‐day responses of wheat ear CO2 and water vapour exchange to full‐season CO2 enrichment were investigated using a Free‐Air CO2 Enrichment…”
Get full text

Leaf nitrogen concentration of wheat subjected to elevated [CO 2] and either water or N deficits by Sinclair, T.R, Pinter Jr, P.J, Kimball, B.A, Adamsen, F.J, LaMorte, R.L, Wall, G.W, Hunsaker, D.J, Adam, N, Brooks, T.J, Garcia, R.L, Thompson, T, Leavitt, S, Matthias, A

“…Leaf N concentration is important because it is associated with the CO 2 assimilatory capacity of crops, and in grasslands, it is an important determinant of…”
Get full text

Modeling elevated carbon dioxide effects on water relations, water use, and growth of irrigated sorghum by Grant, R.F, Kimball, B.A, Wall, G.W, Triggs, J.M, Brooks, T.J, Pinter, P.J. Jr, Conley, M.M, Ottman, M.J, Lamorte, R.L, Leavitt, S.W

“…Elevated concentrations of atmospheric CO2 (C(a)) are believed to raise sorghum Sorghum bicolor (L.) Moench productivity by improving water relations. In…”
Get full text