Historical Records of Stomatal Indicies in Quercus from the Southeastern U.S

Modeling atmospheric carbon dioxide concentration (pCO ) is critical to understanding the Carbon Cycle over geologic time. Recently, biological proxies have become commonly used including stomatal frequencies on leaves. An inverse relationship exists between epidermal stomata and the pCO under which...

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Main Author: Cantor, Bradford M.
Format: Text
Language:unknown
Published: Digital Commons @ Colby 2008
Subjects:
Oak
Southern states
Stomata
Atmospheric carbon dioxide
Environmental aspects
Geology
ice core
Online Access:https://digitalcommons.colby.edu/honorstheses/362
id ftcolbycollege:oai:digitalcommons.colby.edu:honorstheses-1375
record_format openpolar
spelling ftcolbycollege:oai:digitalcommons.colby.edu:honorstheses-1375 2023-07-30T04:04:10+02:00 Historical Records of Stomatal Indicies in Quercus from the Southeastern U.S Cantor, Bradford M. 2008-01-01T08:00:00Z https://digitalcommons.colby.edu/honorstheses/362 unknown Digital Commons @ Colby https://digitalcommons.colby.edu/honorstheses/362 Honors Theses Oak Southern states Stomata Atmospheric carbon dioxide Environmental aspects Geology text 2008 ftcolbycollege 2023-07-15T18:51:12Z Modeling atmospheric carbon dioxide concentration (pCO ) is critical to understanding the Carbon Cycle over geologic time. Recently, biological proxies have become commonly used including stomatal frequencies on leaves. An inverse relationship exists between epidermal stomata and the pCO under which the leaf grew and expanded; this provides a record of atmospheric gases as accurate as ice core data, another proxy, but at a higher temporal resolution. The two most commonly used leaf parameters are Stomatal Density (SD - # of stomata/unit area) and Stomatal Index (SI -the ratio between # stomata and total epidermal cells/unit area). However, stomatal frequencies have some limitations. A CO “ceiling” exists where plants stop responding to gas concentration in a linear fashion above a certain threshold. Additionally, transfer functions calibrated from extant plants do not always correspond to fossil equivalents. Another recent consideration is that taxonomically related plants may not exhibit similar growth responses under the same pCO conditions. To test this, 12 species of Oak (Quercus) were evaluated with respect to SD and SI over a 104 - year interval based on trees grown under a humid subtropical climate in Lee County, AL. Herbarium specimens dating from 1894 to the 1980s were used to supplement the historical record; a collection made during June 2007 extended the record to the present. Herbarium samples were taken from collections made in the same year, if available. Materials were cleared in chromic acid, mounted on slides, after where stomata and epidermal cells were counted using a Zeiss Axioskop and AxioVision software. Results appear to demonstrate that Oak species respond independently to pCO . Both sections of Quercus, white and red, have statistically different responses to pCO when results were compared. Some species, such as Q. laurifolia and Q. nigra, have similar responses over time, but all responses tested are statistically unique. Therefore, the present study suggests that approaches ... Text ice core Colby College: DigitalCommons@Colby
institution Open Polar
collection Colby College: DigitalCommons@Colby
op_collection_id ftcolbycollege
language unknown
topic Oak
Southern states
Stomata
Atmospheric carbon dioxide
Environmental aspects
Geology
spellingShingle Oak
Southern states
Stomata
Atmospheric carbon dioxide
Environmental aspects
Geology
Cantor, Bradford M.
Historical Records of Stomatal Indicies in Quercus from the Southeastern U.S
topic_facet Oak
Southern states
Stomata
Atmospheric carbon dioxide
Environmental aspects
Geology
description Modeling atmospheric carbon dioxide concentration (pCO ) is critical to understanding the Carbon Cycle over geologic time. Recently, biological proxies have become commonly used including stomatal frequencies on leaves. An inverse relationship exists between epidermal stomata and the pCO under which the leaf grew and expanded; this provides a record of atmospheric gases as accurate as ice core data, another proxy, but at a higher temporal resolution. The two most commonly used leaf parameters are Stomatal Density (SD - # of stomata/unit area) and Stomatal Index (SI -the ratio between # stomata and total epidermal cells/unit area). However, stomatal frequencies have some limitations. A CO “ceiling” exists where plants stop responding to gas concentration in a linear fashion above a certain threshold. Additionally, transfer functions calibrated from extant plants do not always correspond to fossil equivalents. Another recent consideration is that taxonomically related plants may not exhibit similar growth responses under the same pCO conditions. To test this, 12 species of Oak (Quercus) were evaluated with respect to SD and SI over a 104 - year interval based on trees grown under a humid subtropical climate in Lee County, AL. Herbarium specimens dating from 1894 to the 1980s were used to supplement the historical record; a collection made during June 2007 extended the record to the present. Herbarium samples were taken from collections made in the same year, if available. Materials were cleared in chromic acid, mounted on slides, after where stomata and epidermal cells were counted using a Zeiss Axioskop and AxioVision software. Results appear to demonstrate that Oak species respond independently to pCO . Both sections of Quercus, white and red, have statistically different responses to pCO when results were compared. Some species, such as Q. laurifolia and Q. nigra, have similar responses over time, but all responses tested are statistically unique. Therefore, the present study suggests that approaches ...
format Text
author Cantor, Bradford M.
author_facet Cantor, Bradford M.
author_sort Cantor, Bradford M.
title Historical Records of Stomatal Indicies in Quercus from the Southeastern U.S
title_short Historical Records of Stomatal Indicies in Quercus from the Southeastern U.S
title_full Historical Records of Stomatal Indicies in Quercus from the Southeastern U.S
title_fullStr Historical Records of Stomatal Indicies in Quercus from the Southeastern U.S
title_full_unstemmed Historical Records of Stomatal Indicies in Quercus from the Southeastern U.S
title_sort historical records of stomatal indicies in quercus from the southeastern u.s
publisher Digital Commons @ Colby
publishDate 2008
url https://digitalcommons.colby.edu/honorstheses/362
genre ice core
genre_facet ice core
op_source Honors Theses
op_relation https://digitalcommons.colby.edu/honorstheses/362
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