Light environment's influence on understory sugar maple survival at and north of the current range limit.

Sorry, the full text of this article is not available in Huskie Commons. Please click on the alternative location to access it. 131 p. Sugar maple seedlings at the boreal/deciduous ecotone exist at a physiological limit. This limit is associated with low light conditions that suppress the growth of...

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Main Author: Kwit, Matthew Casey.
Other Authors: Advisers: David Goldblum; Lesley S. Rigg.
Language:unknown
Published: Northern Illinois University.Geography. 2010
Subjects:
Biology
Ecology
Geography
Agriculture
Forestry and Wildlife
Sugar maple Habitat Ontario
Forest ecology Ontario
Taiga ecology Ontario
Ecotones Ontario
taiga
Online Access:http://commons.lib.niu.edu/handle/10843/12340
http://hdl.handle.net/10843/12340
id ftnorthillinuni:oai:commons.lib.niu.edu:10843/12340
record_format openpolar
spelling ftnorthillinuni:oai:commons.lib.niu.edu:10843/12340 2023-05-15T18:31:00+02:00 Light environment's influence on understory sugar maple survival at and north of the current range limit. Kwit, Matthew Casey. Advisers: David Goldblum; Lesley S. Rigg. 2010. http://commons.lib.niu.edu/handle/10843/12340 http://hdl.handle.net/10843/12340 unknown Northern Illinois University.Geography. Masters Abstracts International, Volume: 48-05, page: 2701. 9781124023687 http://commons.lib.niu.edu/handle/10843/12340 http://hdl.handle.net/10843/12340 Biology Ecology Geography Agriculture Forestry and Wildlife Sugar maple Habitat Ontario Forest ecology Ontario Taiga ecology Ontario Ecotones Ontario 2010 ftnorthillinuni 2020-09-22T08:46:05Z Sorry, the full text of this article is not available in Huskie Commons. Please click on the alternative location to access it. 131 p. Sugar maple seedlings at the boreal/deciduous ecotone exist at a physiological limit. This limit is associated with low light conditions that suppress the growth of individuals. We modeled seasonal carbon assimilation by applying understory light data to light response curves. The modeled seasonal carbon gain demonstrates that seedlings gain very little carbon during the summer while the canopy is closed. Instead, seedlings rely on early spring canopy avoidance to capture a disproportionately high amount of carbon; with 80.6% of a seedling's carbon gain occurring in the first 15 days of the season. To further evaluate the importance of this gain we experimentally eliminated high spring light levels by shading seedling plots with 90% shade cloth and recorded the mortality rates for the 2009 growing season. In just one growing season, mortality rates were significantly different under each treatment, with 36% mortality recorded in control plots and 50% mortality recorded in shade plots. These two results were further tested under three unique overstory conditions that sugar maples will likely regenerate under in the future. The three overstories were: (1) sugar maple dominant, (2) sugar maple/conifer mixed, and (3) conifer dominant. Light response curves were produced and light levels were recorded for each of these locations. The mixed and boreal sites had reduced carbon budgets due to a lack of avoidance gains. This reduction in carbon gain will likely reduce survivorship, limit sugar maples' ability to develop in the boreal forest, and slow the northward migration of sugar maple at its range limit in northern Ontario. Other/Unknown Material taiga Northern Illinois University (NIU): Huskie Commons Repository
institution Open Polar
collection Northern Illinois University (NIU): Huskie Commons Repository
op_collection_id ftnorthillinuni
language unknown
topic Biology
Ecology
Geography
Agriculture
Forestry and Wildlife
Sugar maple Habitat Ontario
Forest ecology Ontario
Taiga ecology Ontario
Ecotones Ontario
spellingShingle Biology
Ecology
Geography
Agriculture
Forestry and Wildlife
Sugar maple Habitat Ontario
Forest ecology Ontario
Taiga ecology Ontario
Ecotones Ontario
Kwit, Matthew Casey.
Light environment's influence on understory sugar maple survival at and north of the current range limit.
topic_facet Biology
Ecology
Geography
Agriculture
Forestry and Wildlife
Sugar maple Habitat Ontario
Forest ecology Ontario
Taiga ecology Ontario
Ecotones Ontario
description Sorry, the full text of this article is not available in Huskie Commons. Please click on the alternative location to access it. 131 p. Sugar maple seedlings at the boreal/deciduous ecotone exist at a physiological limit. This limit is associated with low light conditions that suppress the growth of individuals. We modeled seasonal carbon assimilation by applying understory light data to light response curves. The modeled seasonal carbon gain demonstrates that seedlings gain very little carbon during the summer while the canopy is closed. Instead, seedlings rely on early spring canopy avoidance to capture a disproportionately high amount of carbon; with 80.6% of a seedling's carbon gain occurring in the first 15 days of the season. To further evaluate the importance of this gain we experimentally eliminated high spring light levels by shading seedling plots with 90% shade cloth and recorded the mortality rates for the 2009 growing season. In just one growing season, mortality rates were significantly different under each treatment, with 36% mortality recorded in control plots and 50% mortality recorded in shade plots. These two results were further tested under three unique overstory conditions that sugar maples will likely regenerate under in the future. The three overstories were: (1) sugar maple dominant, (2) sugar maple/conifer mixed, and (3) conifer dominant. Light response curves were produced and light levels were recorded for each of these locations. The mixed and boreal sites had reduced carbon budgets due to a lack of avoidance gains. This reduction in carbon gain will likely reduce survivorship, limit sugar maples' ability to develop in the boreal forest, and slow the northward migration of sugar maple at its range limit in northern Ontario.
author2 Advisers: David Goldblum; Lesley S. Rigg.
author Kwit, Matthew Casey.
author_facet Kwit, Matthew Casey.
author_sort Kwit, Matthew Casey.
title Light environment's influence on understory sugar maple survival at and north of the current range limit.
title_short Light environment's influence on understory sugar maple survival at and north of the current range limit.
title_full Light environment's influence on understory sugar maple survival at and north of the current range limit.
title_fullStr Light environment's influence on understory sugar maple survival at and north of the current range limit.
title_full_unstemmed Light environment's influence on understory sugar maple survival at and north of the current range limit.
title_sort light environment's influence on understory sugar maple survival at and north of the current range limit.
publisher Northern Illinois University.Geography.
publishDate 2010
url http://commons.lib.niu.edu/handle/10843/12340
http://hdl.handle.net/10843/12340
genre taiga
genre_facet taiga
op_relation Masters Abstracts International, Volume: 48-05, page: 2701.
9781124023687
http://commons.lib.niu.edu/handle/10843/12340
http://hdl.handle.net/10843/12340
_version_ 1766214642867109888

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