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Growth and stomatal responses of sugar maple in irrigated and non-irrigated landfill cover soil

Gilman, E.F. / Leone, I.A. / Flower, F.B.

AbstractIrrigation increased sugar maple (Acer saccharum Marsh.) growth and nitrogen content and reduced leaf diffusive resistance on a completed landfill site but not on an adjacent non-landfill control area. Even with irrigation, growth on the landfill was lower than in either the irrigated or non-irrigated control. Lower growth was associated with elevated soil CO2 concentration and lower O2 and soil moisture content. The soil gas atmosphere explained variation in leaf diffusive resistance on the landfill plot whereas air temperature, relative humidity and wind movement were correlated with resistance on the control.

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Growth and stomatal responses of sugar maple in irrigated and non-irrigated landfill cover soil

Gilman, E.F. / Leone, I.A. / Flower, F.B.

AbstractIrrigation increased sugar maple (Acer saccharum Marsh.) growth and nitrogen content and reduced leaf diffusive resistance on a completed landfill site but not on an adjacent non-landfill control area. Even with irrigation, growth on the landfill was lower than in either the irrigated or non-irrigated control. Lower growth was associated with elevated soil CO2 concentration and lower O2 and soil moisture content. The soil gas atmosphere explained variation in leaf diffusive resistance on the landfill plot whereas air temperature, relative humidity and wind movement were correlated with resistance on the control.

Growth and stomatal responses of sugar maple in irrigated and non-irrigated landfill cover soil

Gilman, E.F. / Leone, I.A. / Flower, F.B.

AbstractIrrigation increased sugar maple (Acer saccharum Marsh.) growth and nitrogen content and reduced leaf diffusive resistance on a completed landfill site but not on an adjacent non-landfill control area. Even with irrigation, growth on the landfill was lower than in either the irrigated or non-irrigated control. Lower growth was associated with elevated soil CO2 concentration and lower O2 and soil moisture content. The soil gas atmosphere explained variation in leaf diffusive resistance on the landfill plot whereas air temperature, relative humidity and wind movement were correlated with resistance on the control.

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Title:

Growth and stomatal responses of sugar maple in irrigated and non-irrigated landfill cover soil

Contributors:

Gilman, E.F. (author) / Leone, I.A. (author) / Flower, F.B. (author)

Published in:

Landscape and Urban Planning ; 17 ; 215-220

Publication date:

1988-05-15

Size:

6 pages

ISSN:

DOI:

https://doi.org/10.1016/0169-2046(89)90010-8

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

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