Your search keyword '"Coursolle, Carole"' showing total 2 results

1. Late-summer carbon fluxes from Canadian forests and peatlands along an east–west continental transect.

Author

Coursolle, Carole, Margolis, Hank A., Barr, Alan G., Black, T. Andrew, Amiro, Brian D., McCaughey, J. Harry, Flanagan, Lawrence B., Lafleur, Peter M., Roulet, Nigel T., Bourque, Charles P.-A., Arain, M. Altaf, Wofsy, Steven C., Dunn, Allison, Morgenstern, Kai, Orchansky, Alberto L., Bernier, Pierre Y., Chen, Jing M., Kidston, Joe, Saigusa, Nobuko, and Hedstrom, Newell

Subjects

*BIOTIC communities, *FORESTS & forestry, *CONIFERS, *SHRUBS, *FENS

Abstract

Net ecosystem productivity (NEP) during August 2003 was measured by using eddy covariance above 17 forest and 3 peatland sites along an east–west continental-scale transect in Canada. Measured sites included recently disturbed stands, young forest stands, intermediate-aged conifer stands, mature deciduous stands, mature conifer stands, fens, and an open shrub bog. Diurnal courses of NEP showed strong coherence within the different ecosystem categories. Recently disturbed sites showed the weakest diurnal cycle; and intermediate-aged conifers, the strongest. The western treed fen had a more pronounced diurnal pattern than the eastern shrub bog or the Saskatchewan patterned fen. All but three sites were clearly afternoon C sinks. Ecosystem respiration was highest for the young fire sites. The intermediate-aged conifer sites had the highest maximum NEP (NEPmax) and gross ecosystem productivity (GEPmax), attaining rates that would be consistent with the presence of a strong terrestrial C sink in regions where these types of forest are common. These results support the idea that large-scale C cycle modeling activities would benefit from information on the age-class distribution and disturbance types within larger grid cells. Light use efficiency followed a pattern similar to that of NEPmax and GEPmax. Four of the five recently disturbed sites and all three of the peatland sites had low water use efficiencies. [ABSTRACT FROM AUTHOR]

Published

2006

2. Simulated root freezing in the nursery: effects on the growth and physiology of containerized boreal conifer seedlings after outplanting.

Author

Dumais, Daniel, Coursolle, Carole, Bigras, Francine J., and Margolis, Hank A.

Subjects

*PLANT roots, *CONIFERS, *LEAVES

Abstract

Examines the effects of induced root freezing on the growth and physiology of boreal conifer seedlings. Decrease of stomatal conductance; Reduction in nitrogen concentration of current-year foliage; Indication of reduced in annual height increment of white spruce.

Published

2002