table of contents table of contents

A comparison of three methods used to estimate the stomatal density of …

Home » Biology Articles » Botany » A comparison of three methods for determining the stomatal density of pine needles » References

- A comparison of three methods for determining the stomatal density of pine needles


Alvin KL.1970. The study of fossil leaves by SEM. Scanning Electron Microscopy 3, 121–218.

Beerling DJ, Chaloner WG.1992. Stomatal density as an indicator of past atmospheric CO2 concentrations. Holocene 2, 71–78.

Beerling DJ, Chaloner WG.1993. The impact of atmospheric CO2 and the temperature change on stomatal density: observations from Quercus robur lammas leaves. Annals of Botany 71, 231–235.

Beerling DJ, Chaloner WG, Huntley B, Pearson JA, Tooley MJ.1993. Stomatal density responds to the glacial cycle of environmental change. Proceedings of the Royal Society of London, Series B 251, 133–138.

Beerling DJ, Heath J, Woodward FI, Mansfield TA.1996. Drought–CO2 interactions in trees: observations and mechanisms. New Phytologist 134, 235–242.

Bettarini I, Vaccari FP, Miglietta F.1998. Elevated CO2 concentrations and stomatal density: observations from 17 plant species growing in a CO2 spring in central Italy. Global Change Biology 4, 17–22.

Cregg BM.1994. Carbon allocation, gas exchange, and needle morphology of Pinus ponderosa genotypes known to differ in growth and survival under imposed drought. Tree Physiology 14, 883–898.

Masterson J.1994. Stomatal size in fossil plants: evidence for polyploidy in majority of angiosperms. Science 264, 421–423.

McElwain J, Mitchell FJG, Jones MB.1995. Relationship of stomatal density and index of Salix cinerea to atmospheric carbon dioxide concentrations in the Holocene. Holocene 5, 216–219.

McElwain JC, Chaloner WG.1995. Stomatal density and index of fossil plants track atmospheric carbon dioxide in the Palaeozoic. Annals of Botany 76, 389–395.

Porter KR, Kelley D, Andrews PM.1972. The preparation of cultured cells and soft tissues for scanning electron microscopy. Proceedings of the Fifth Annual Colloquium. Kent Cambridge Corporation.

Ridolfi M, Fauveau ML, Label P, Garrec JP, Dreyer E.1996. Responses to water stress in an ABA-unresponsive hybrid poplar (Populus koreanaxtrichocarpa cv. Peace). New Phytologist 134, 445–454.

Teskey RO.1997. Combined effects of elevated CO2 and air temperature on carbon assimilation of Pinus taeda trees. Plant, Cell and Environment 20, 373–380.

Van de Water PK, Leavitt SW, Betancourt JL.1994. Trends in stomatal density and 13C/12C ratios of Pinus flexilus needles during the last glacial–interglacial cycle. Science 264, 239–243.

Wagner DH.1981. Pohlstoffe, a good wetting agent for briophytes. The Bryologist 84, 253.

Woodward FI, Bazzaz FA.1988. The response of stomatal density to CO2 partial pressure. Journal of Experimental Botany 39, 1771–1781.

Weyers JDB, Johnson LG.1985. Accurate estimation of stomatal aperture from silicon impressions. New Phytologist 101, 109–111.

rating: 7.00 from 3 votes | updated on: 23 Oct 2006 | views: 13610 |

Rate article: