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Results:
1-16
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Results: 16
Authors:
Bernacchi, CJ
Singsaas, EL
Pimentel, C
Portis, AR
Long, SP
Citation: Cj. Bernacchi et al., Improved temperature response functions for models of Rubisco-limited photosynthesis, PL CELL ENV, 24(2), 2001, pp. 253-259
Authors:
Hymus, GJ
Baker, NR
Long, SP
Citation: Gj. Hymus et al., Growth in elevated CO2 can both increase and decrease photochemistry and photoinhibition of photosynthesis in a predictable manner. Dactylis glomerata grown in two levels of nitrogen nutrition, PLANT PHYSL, 127(3), 2001, pp. 1204-1211
Authors:
McKee, IF
Long, SP
Citation: If. Mckee et Sp. Long, Plant growth regulators control ozone damage to wheat yield, NEW PHYTOL, 152(1), 2001, pp. 41-51
Authors:
Harrison, EP
Olcer, H
Lloyd, JC
Long, SP
Raines, CA
Citation: Ep. Harrison et al., Small decreases in SBPase cause a linear decline in the apparent RuBP regeneration rate, but do not affect Rubisco carboxylation capacity, J EXP BOT, 52(362), 2001, pp. 1779-1784
Authors:
Martin, MJ
Farage, PK
Humphries, SW
Long, SP
Citation: Mj. Martin et al., Can the stomatal changes caused by acute ozone exposure be predicted by changes occurring in the mesophyll? A simplification for models of vegetationresponse to the global increase in tropospheric elevated ozone episodes, AUST J PLAN, 27(3), 2000, pp. 211-219
Authors:
Martin, MJ
Stirling, CM
Humphries, SW
Long, SP
Citation: Mj. Martin et al., A process-based model to predict the effects of climatic change on leaf isoprene emission rates, ECOL MODEL, 131(2-3), 2000, pp. 161-174
Authors:
Isopp, H
Frehner, M
Long, SP
Nosberger, J
Citation: H. Isopp et al., Sucrose-phosphate synthase responds differently to source-sink relations and to photosynthetic rates: Lolium perenne L. growing at elevated p(CO2) inthe field, PL CELL ENV, 23(6), 2000, pp. 597-607
Authors:
Morison, JIL
Piedade, MTF
Muller, E
Long, SP
Junk, WJ
Jones, MB
Citation: Jil. Morison et al., Very high productivity of the C-4 aquatic grass Echinochloa polystachya inthe Amazon floodplain confirmed by net ecosystem CO2 flux measurements, OECOLOGIA, 125(3), 2000, pp. 400-411
Authors:
McKee, IF
Mulholland, BJ
Craigon, J
Black, CR
Long, SP
Citation: If. Mckee et al., Elevated concentrations of atmospheric CO2 protect against and compensate for O-3 damage to photosynthetic tissues of field-grown wheat, NEW PHYTOL, 146(3), 2000, pp. 427-435
Authors:
Young, KJ
Long, SP
Citation: Kj. Young et Sp. Long, Crop ecosystem responses to climatic change: Maize and sorghum, CLIMATE CHANGE AND GLOBAL CROP PRODUCTIVITY, 2000, pp. 107-131
Authors:
Davey, PA
Parsons, AJ
Atkinson, L
Wadge, K
Long, SP
Citation: Pa. Davey et al., Does photosynthetic acclimation to elevated CO2 increase photosynthetic nitrogen-use efficiency? A study of three native UK grassland species in open-top chambers, FUNCT ECOL, 13, 1999, pp. 21-28
Authors:
Beale, CV
Morison, JIL
Long, SP
Citation: Cv. Beale et al., Water use efficiency of C-4 perennial grasses in a temperate climate, AGR FOR MET, 96(1-3), 1999, pp. 103-115
Authors:
Grossman-Clarke, S
Kimball, BA
Hunsaker, DJ
Long, SP
Garcia, RL
Kartschall, T
Wall, GW
Printer, PJ
Wechsung, F
LaMorte, RL
Citation: S. Grossman-clarke et al., Effects of elevated atmospheric CO2 on canopy transpiration in senescent spring wheat, AGR FOR MET, 93(2), 1999, pp. 95-109
Authors:
Farage, PK
Long, SP
Citation: Pk. Farage et Sp. Long, The effects of O-3 fumigation during leaf development on photosynthesis ofwheat and pea: An in vivo analysis, PHOTOSYN R, 59(1), 1999, pp. 1-7
Authors:
Hymus, GJ
Ellsworth, DS
Baker, NR
Long, SP
Citation: Gj. Hymus et al., Does free-air carbon dioxide enrichment affect photochemical energy use byevergreen trees in different seasons? A chlorophyll fluorescence study of mature loblolly pine, PLANT PHYSL, 120(4), 1999, pp. 1183-1191
Authors:
Aguilera, C
Stirling, CM
Long, SP
Citation: C. Aguilera et al., Genotypic variation within Zea mays for susceptibility to and rate of recovery from chill-induced photoinhibition of photosynthesis, PHYSL PLANT, 106(4), 1999, pp. 429-436
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1-16
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