Photosynthesis (Net CO2 Exchange Rate) References
Acer rubrum L. [Red Maple]


Briggs, G.M., Jurik, T.W. and Gate, D.M. 1986. Non-stomatal limitation of CO2 assimilation in three tree species during natural drought conditions. Physiologia Plantarum 66: 521-526.

DeLucia, E.H. and Thomas, R.B. 2000. Photosynthetic responses to CO2 enrichment of four hardwood species in a forest understory. Oecologia 122: 11-19.

Edwards, N.T. and Norby, R.J. 1999. Below-ground respiratory responses of sugar maple and red maple saplings to atmospheric CO2 enrichment and elevated air temperature. Plant and Soil 206: 85-97.

Groninger, J.W., Seiler, J.R., Zedaker, S.M. and Berrang, P.C. 1996. Effects of CO2 concentration and water availability on growth and gas exchange in greenhouse-grown miniature stands of Loblolly Pine and Red Maple. Functional Ecology 10: 708-716.

Kubiske, M.E. and Pregitzer, K.S. 1996. Effects of elevated CO2 and light availability on the photosynthetic light response of trees of contrasting shade tolerance. Tree Physiology 16: 351-358.

Kubiske, M.E. and Pregitzer, K.S. 1997. Ecophysiological responses to simulated canopy gaps of two tree species of contrasting shade tolerance in elevated CO2. Functional Ecology 11: 24-32.

Springer, C.J., DeLucia, E.H. and Thomas, R.B. 2005. Relationships between net photosynthesis and foliar nitrogen concentrations in a loblolly pine forest ecosystem grown in elevated atmospheric carbon dioxide. Tree Physiology 25: 385-394.

Springer, C.J. and Thomas, R.B. 2007. Photosynthetic responses of forest understory tree species to long-term exposure to elevated carbon dioxide concentration at the Duke Forest FACE experiment. Tree Physiology 27: 25-32.


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