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Interacting effects of CO2 concentration, temperature and nitrogen supply on the photosynthesis and composition of winter wheat leaves

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Interacting effects of CO2 concentration, temperature and nitrogen supply on the photosynthesis and composition of winter wheat leaves. / DELGADO, E.; MITCHELL, R. A.C.; PARRY, M. A.J. et al.
In: Plant, Cell & Environment, Vol. 17, No. 11, 11.1994, p. 1205-1213.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

DELGADO, E, MITCHELL, RAC, PARRY, MAJ, DRISCOLL, SP, MITCHELL, VJ & LAWLOR, DW 1994, 'Interacting effects of CO2 concentration, temperature and nitrogen supply on the photosynthesis and composition of winter wheat leaves', Plant, Cell & Environment, vol. 17, no. 11, pp. 1205-1213. https://doi.org/10.1111/j.1365-3040.1994.tb02018.x

APA

DELGADO, E., MITCHELL, R. A. C., PARRY, M. A. J., DRISCOLL, S. P., MITCHELL, V. J., & LAWLOR, D. W. (1994). Interacting effects of CO2 concentration, temperature and nitrogen supply on the photosynthesis and composition of winter wheat leaves. Plant, Cell & Environment, 17(11), 1205-1213. https://doi.org/10.1111/j.1365-3040.1994.tb02018.x

Vancouver

DELGADO E, MITCHELL RAC, PARRY MAJ, DRISCOLL SP, MITCHELL VJ, LAWLOR DW. Interacting effects of CO2 concentration, temperature and nitrogen supply on the photosynthesis and composition of winter wheat leaves. Plant, Cell & Environment. 1994 Nov;17(11):1205-1213. doi: 10.1111/j.1365-3040.1994.tb02018.x

Author

DELGADO, E. ; MITCHELL, R. A.C. ; PARRY, M. A.J. et al. / Interacting effects of CO2 concentration, temperature and nitrogen supply on the photosynthesis and composition of winter wheat leaves. In: Plant, Cell & Environment. 1994 ; Vol. 17, No. 11. pp. 1205-1213.

Bibtex

@article{c3ae03de494746cfba55fdaedd8cb84d,
title = "Interacting effects of CO2 concentration, temperature and nitrogen supply on the photosynthesis and composition of winter wheat leaves",
abstract = "Winter wheat (Triticum aestivum L., cv. Mercia) was grown at two different atmospheric CO2 concentrations (350 and 700 μmol mol−1), two temperatures [ambient temperature (i.e. tracking the open air) and ambient +4°C] and two rates of nitrogen supply (equivalent to 489 kg ha−1 and 87 kg ha−1). Leaves grown at 700 μmol mol−1 CO2 had slightly greater photosynthetic capacity (10% mean increase over the experiment) than those grown at ambient CO2 concentration, but there were no differences in carboxylation efficiency or apparent quantum yield. The amounts of chlorophyll, soluble protein and ribulose‐1,5‐bisphosphate carboxylase/oxygenase (Rubisco) per unit leaf area did not change with long‐term exposure to elevated CO2 concentration. Thus winter wheat, grown under simulated field conditions, for which total biomass was large compared to normal field production, did not experience loss of components of the photosynthetic system or loss of photosynthetic competence with elevated CO2 concentration. However, nitrogen supply and temperature had large effects on photosynthetic characteristics but did not interact with elevated CO2 concentration. Nitrogen deficiency resulted in decreases in the contents of protein, including Rubisco, and chlorophyll, and decreased photosynthetic capacity and carboxylation efficiency. An increase in temperature also reduced these components and shortened the effective life of the leaves, reducing the duration of high photosynthetic capacity.",
keywords = "apparent quantum yield, carboxylation efficiency, chlorophyll, climate change, elevated CO concentration, leaf protein, photosynthetic acclimation, ribulose‐1,5‐bisphosphate carboxylase‐oxygenase, Rubisco, Triticum aestivum L.",
author = "E. DELGADO and MITCHELL, {R. A.C.} and PARRY, {M. A.J.} and DRISCOLL, {S. P.} and MITCHELL, {V. J.} and LAWLOR, {D. W.}",
year = "1994",
month = nov,
doi = "10.1111/j.1365-3040.1994.tb02018.x",
language = "English",
volume = "17",
pages = "1205--1213",
journal = "Plant, Cell & Environment",
issn = "0140-7791",
publisher = "Wiley",
number = "11",

}

RIS

TY - JOUR

T1 - Interacting effects of CO2 concentration, temperature and nitrogen supply on the photosynthesis and composition of winter wheat leaves

AU - DELGADO, E.

AU - MITCHELL, R. A.C.

AU - PARRY, M. A.J.

AU - DRISCOLL, S. P.

AU - MITCHELL, V. J.

AU - LAWLOR, D. W.

PY - 1994/11

Y1 - 1994/11

N2 - Winter wheat (Triticum aestivum L., cv. Mercia) was grown at two different atmospheric CO2 concentrations (350 and 700 μmol mol−1), two temperatures [ambient temperature (i.e. tracking the open air) and ambient +4°C] and two rates of nitrogen supply (equivalent to 489 kg ha−1 and 87 kg ha−1). Leaves grown at 700 μmol mol−1 CO2 had slightly greater photosynthetic capacity (10% mean increase over the experiment) than those grown at ambient CO2 concentration, but there were no differences in carboxylation efficiency or apparent quantum yield. The amounts of chlorophyll, soluble protein and ribulose‐1,5‐bisphosphate carboxylase/oxygenase (Rubisco) per unit leaf area did not change with long‐term exposure to elevated CO2 concentration. Thus winter wheat, grown under simulated field conditions, for which total biomass was large compared to normal field production, did not experience loss of components of the photosynthetic system or loss of photosynthetic competence with elevated CO2 concentration. However, nitrogen supply and temperature had large effects on photosynthetic characteristics but did not interact with elevated CO2 concentration. Nitrogen deficiency resulted in decreases in the contents of protein, including Rubisco, and chlorophyll, and decreased photosynthetic capacity and carboxylation efficiency. An increase in temperature also reduced these components and shortened the effective life of the leaves, reducing the duration of high photosynthetic capacity.

AB - Winter wheat (Triticum aestivum L., cv. Mercia) was grown at two different atmospheric CO2 concentrations (350 and 700 μmol mol−1), two temperatures [ambient temperature (i.e. tracking the open air) and ambient +4°C] and two rates of nitrogen supply (equivalent to 489 kg ha−1 and 87 kg ha−1). Leaves grown at 700 μmol mol−1 CO2 had slightly greater photosynthetic capacity (10% mean increase over the experiment) than those grown at ambient CO2 concentration, but there were no differences in carboxylation efficiency or apparent quantum yield. The amounts of chlorophyll, soluble protein and ribulose‐1,5‐bisphosphate carboxylase/oxygenase (Rubisco) per unit leaf area did not change with long‐term exposure to elevated CO2 concentration. Thus winter wheat, grown under simulated field conditions, for which total biomass was large compared to normal field production, did not experience loss of components of the photosynthetic system or loss of photosynthetic competence with elevated CO2 concentration. However, nitrogen supply and temperature had large effects on photosynthetic characteristics but did not interact with elevated CO2 concentration. Nitrogen deficiency resulted in decreases in the contents of protein, including Rubisco, and chlorophyll, and decreased photosynthetic capacity and carboxylation efficiency. An increase in temperature also reduced these components and shortened the effective life of the leaves, reducing the duration of high photosynthetic capacity.

KW - apparent quantum yield

KW - carboxylation efficiency

KW - chlorophyll

KW - climate change

KW - elevated CO concentration

KW - leaf protein

KW - photosynthetic acclimation

KW - ribulose‐1,5‐bisphosphate carboxylase‐oxygenase

KW - Rubisco

KW - Triticum aestivum L.

U2 - 10.1111/j.1365-3040.1994.tb02018.x

DO - 10.1111/j.1365-3040.1994.tb02018.x

M3 - Journal article

AN - SCOPUS:0027977706

VL - 17

SP - 1205

EP - 1213

JO - Plant, Cell & Environment

JF - Plant, Cell & Environment

SN - 0140-7791

IS - 11

ER -