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Stomatal behaviour, photosynthesis and transpiration under rising CO2.

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Stomatal behaviour, photosynthesis and transpiration under rising CO2. / Jarvis, A. J.; Mansfield, T. A.; Davies, William J.
In: Plant, Cell and Environment, Vol. 22, No. 6, 06.1999, p. 639-648.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Jarvis, AJ, Mansfield, TA & Davies, WJ 1999, 'Stomatal behaviour, photosynthesis and transpiration under rising CO2.', Plant, Cell and Environment, vol. 22, no. 6, pp. 639-648. https://doi.org/10.1046/j.1365-3040.1999.00407.x

APA

Jarvis, A. J., Mansfield, T. A., & Davies, W. J. (1999). Stomatal behaviour, photosynthesis and transpiration under rising CO2. Plant, Cell and Environment, 22(6), 639-648. https://doi.org/10.1046/j.1365-3040.1999.00407.x

Vancouver

Jarvis AJ, Mansfield TA, Davies WJ. Stomatal behaviour, photosynthesis and transpiration under rising CO2. Plant, Cell and Environment. 1999 Jun;22(6):639-648. doi: 10.1046/j.1365-3040.1999.00407.x

Author

Jarvis, A. J. ; Mansfield, T. A. ; Davies, William J. / Stomatal behaviour, photosynthesis and transpiration under rising CO2. In: Plant, Cell and Environment. 1999 ; Vol. 22, No. 6. pp. 639-648.

Bibtex

@article{0bac699203ed4b93bcae0d02c7abfa79,
title = "Stomatal behaviour, photosynthesis and transpiration under rising CO2.",
abstract = "Definitions of the variables used and the units are given in Table 1 The literature reports enormous variation between species in the extent of stomatal responses to rising CO2. This paper attempts to provide a framework within which some of this diversity can be explained. We describe the role of stomata in the short-term response of leaf gas exchange to increases in ambient CO2 concentration by developing the recently proposed stomatal model of Jarvis & Davies (1998). In this model stomatal conductance is correlated with the functioning of the photosynthetic system so that the effects of increases in CO2 on stomata are experienced through changes in the rate of photosynthesis in a simple and mechanistically transparent way. This model also allows us to consider the effects of evaporative demand and soil moisture availability on stomatal responses to photosynthesis and therefore provides a means of considering these additional sources of variation. We emphasize that the relationship between the rate of photosynthesis and the internal CO2 concentration and also drought will have important effects on the relative gains to be achieved under rising CO2.",
author = "Jarvis, {A. J.} and Mansfield, {T. A.} and Davies, {William J.}",
year = "1999",
month = jun,
doi = "10.1046/j.1365-3040.1999.00407.x",
language = "English",
volume = "22",
pages = "639--648",
journal = "Plant, Cell and Environment",
issn = "0140-7791",
publisher = "Wiley",
number = "6",

}

RIS

TY - JOUR

T1 - Stomatal behaviour, photosynthesis and transpiration under rising CO2.

AU - Jarvis, A. J.

AU - Mansfield, T. A.

AU - Davies, William J.

PY - 1999/6

Y1 - 1999/6

N2 - Definitions of the variables used and the units are given in Table 1 The literature reports enormous variation between species in the extent of stomatal responses to rising CO2. This paper attempts to provide a framework within which some of this diversity can be explained. We describe the role of stomata in the short-term response of leaf gas exchange to increases in ambient CO2 concentration by developing the recently proposed stomatal model of Jarvis & Davies (1998). In this model stomatal conductance is correlated with the functioning of the photosynthetic system so that the effects of increases in CO2 on stomata are experienced through changes in the rate of photosynthesis in a simple and mechanistically transparent way. This model also allows us to consider the effects of evaporative demand and soil moisture availability on stomatal responses to photosynthesis and therefore provides a means of considering these additional sources of variation. We emphasize that the relationship between the rate of photosynthesis and the internal CO2 concentration and also drought will have important effects on the relative gains to be achieved under rising CO2.

AB - Definitions of the variables used and the units are given in Table 1 The literature reports enormous variation between species in the extent of stomatal responses to rising CO2. This paper attempts to provide a framework within which some of this diversity can be explained. We describe the role of stomata in the short-term response of leaf gas exchange to increases in ambient CO2 concentration by developing the recently proposed stomatal model of Jarvis & Davies (1998). In this model stomatal conductance is correlated with the functioning of the photosynthetic system so that the effects of increases in CO2 on stomata are experienced through changes in the rate of photosynthesis in a simple and mechanistically transparent way. This model also allows us to consider the effects of evaporative demand and soil moisture availability on stomatal responses to photosynthesis and therefore provides a means of considering these additional sources of variation. We emphasize that the relationship between the rate of photosynthesis and the internal CO2 concentration and also drought will have important effects on the relative gains to be achieved under rising CO2.

U2 - 10.1046/j.1365-3040.1999.00407.x

DO - 10.1046/j.1365-3040.1999.00407.x

M3 - Journal article

VL - 22

SP - 639

EP - 648

JO - Plant, Cell and Environment

JF - Plant, Cell and Environment

SN - 0140-7791

IS - 6

ER -