Application of an enthalpy balance model of the relation between growth and respiration to temperature acclimation of<i>Eucalyptus globulus</i>seedlings

Macfarlane, Craig; Adams, Mark A.; Hansen, Lee D.

doi:10.1098/rspb.2002.2030

Cited by 34 publications

(43 citation statements)

References 63 publications

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“…R q at 14.1°C was calculated from R CO 2 at 14.1°C by assuming that the ratio R q /R CO 2 was the same at 14.1 and 20°C. This assumption is supported by previous work with E. globulus shoots (recalculated data from Macfarlane et al 2002Macfarlane et al , 2005.…”

Section: Calculation Of Derived Respiration Traitsmentioning

confidence: 54%

“…The assumption that carbohydrate is the dominant substrate has underpinned nearly all previous studies to separate enthalpy change into anabolic and catabolic components (e.g. Criddle et al 1997;Taylor et al 1998;Macfarlane et al 2002Macfarlane et al , 2005Marcar et al 2002;Matheson et al 2004). This assumption has also been used in conjunction with Eq.…”

Section: Discussionmentioning

confidence: 96%

“…Rate of ATP production in plant mitochondria is determined by (a) respiratory rate, (b) the nature of substrate, and (c) the efficiency of mitochondrial electron transport, represented as the ratio of oxidative phosphorylation to oxygen consumption, P/O (Macfarlane et al 2002). We developed an expression for R ATP that explicitly included c S in order to explore the influence of c S on the relationship between R ATP and R CO 2 in mature leaves, for which genotypic differences in c S were large.…”

Section: Calculation Of Derived Respiration Traitsmentioning

confidence: 99%

“…We developed an expression for R ATP that explicitly included c S in order to explore the influence of c S on the relationship between R ATP and R CO 2 in mature leaves, for which genotypic differences in c S were large. The following expression for R ATP was given by Macfarlane et al (2002):…”

Section: Calculation Of Derived Respiration Traitsmentioning

confidence: 99%

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Water stress impacts on respiratory rate, efficiency and substrates, in growing and mature foliage of Eucalyptus spp

Callister

Adams

2006

Planta

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In previous studies, water stress has induced variable and sometimes contradictory changes in respiration. We used isothermal calorimetry to measure the response of foliar respiration to water deficit in nine eucalypt genotypes. Specific growth rates (R(SG)) of shoots and leaves of variable age were measured independently, and the data were applied to both the growth-maintenance and enthalpy balance models. We calculated the oxidation state of respiratory substrate and the enthalpy change for the conversion of substrate carbon to biomass (DeltaH(B)). Moderate water stress reduced the R(SG) of shoots by 38% (P<0.01) and carbon conversion efficiency by 15% (P<0.05). The relationship between carbon conversion efficiency and R(SG) was not affected by water deficit for shoots, but was significantly altered for leaves. Water deficit increased maintenance respiration by about 23% (P<0.001). The growth coefficient of respiration was not significantly altered. However, changes in oxidation states of substrate and biomass suggest that the energy requirements of biosynthesis were increased under water stress. Our results confirm that carbohydrates are the major respiratory substrates in growing tissues, though mature leaves utilized a substantial component of more reduced substrate. Mature leaves had variable oxidation states for respiration substrate, which indicates a variable relationship between CO(2) evolution and ATP production. Measured DeltaH(B) in shoots and leaves were too small for reliable estimation of R(SG) by the enthalpy balance model. We also found significant effects of water stress on the oxidation state of substrate and DeltaH(B).

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Section: Calculation Of Derived Respiration Traitsmentioning

confidence: 54%

Section: Discussionmentioning

confidence: 96%

Section: Calculation Of Derived Respiration Traitsmentioning

confidence: 99%

Section: Calculation Of Derived Respiration Traitsmentioning

confidence: 99%

See 2 more Smart Citations

Water stress impacts on respiratory rate, efficiency and substrates, in growing and mature foliage of Eucalyptus spp

Callister

Adams

2006

Planta

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“…using a modified aqueous phase on-line mass spectrometry-gas chromatography system. Macfarlane et al (2002) estimated ATP production efficiency equivalent to the distribution rate of e − to AOX by measuring enthalpy conversion efficiency in Eucalyptus globulus Labill. seedlings.…”

Section: Cox Stainingmentioning

confidence: 99%

Oxygen Consumption by Fruits and Vegetables

Makino

2013

FSTR

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Respiration by fruits and vegetables is vital action to generating the ATP needed for maintenance of cell viability, even after harvesting and as nutrients decompose. Therefore, respiration is strongly associated with qualitative deterioration during transportation and storage. Measurement and mathematical modeling of O 2 uptake and CO 2 production rates have been effective for evaluating the deterioration rate of horticultural products. ATP is produced by F O F 1 -ATP synthase through the transfer of electrons from ubiquinone to cytochrome c oxidase (COX) in plant cells. Although COX consumes a large amount of O 2 taken into cells, oxidizing protons as the terminal enzyme in the classical electron transport chain, an alternative pathway involving an alternative oxidase has been discovered, which performs the same reaction in plant cells without producing ATP. Staining and light sensing have been employed to measure enzymatic activity and O 2 consumption rate, respectively.

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Calorespirometry in Plant Biology

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Application of an enthalpy balance model of the relation between growth and respiration to temperature acclimation ofEucalyptus globulusseedlings

Cited by 34 publications

References 63 publications

Water stress impacts on respiratory rate, efficiency and substrates, in growing and mature foliage of Eucalyptus spp

Water stress impacts on respiratory rate, efficiency and substrates, in growing and mature foliage of Eucalyptus spp

Oxygen Consumption by Fruits and Vegetables

Calorespirometry in Plant Biology

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