Use of Long-Term Vegetation Census Data to Inform Restoration Methods and Processes of Community Ecology on a Barrier Island

In the Gulf of Mexico, barrier islands absorb the majority of the wind and wave action from storms, resulting in modification of dune morphology and vegetation dynamics. Understanding changes in dune vegetation in response to storms can identify the ecological processes occurring in these areas as w...

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Other Authors: Gornish, Elise S. (authoraut)
Format: Others
Language:English
English
Published: Florida State University
Subjects:
Online Access:http://purl.flvc.org/fsu/fd/FSU_migr_etd-4106
id ndltd-fsu.edu-oai-fsu.digital.flvc.org-fsu_182299
record_format oai_dc
collection NDLTD
language English
English
format Others
sources NDLTD
topic Earth sciences
spellingShingle Earth sciences
Use of Long-Term Vegetation Census Data to Inform Restoration Methods and Processes of Community Ecology on a Barrier Island
description In the Gulf of Mexico, barrier islands absorb the majority of the wind and wave action from storms, resulting in modification of dune morphology and vegetation dynamics. Understanding changes in dune vegetation in response to storms can identify the ecological processes occurring in these areas as well as help predict future effects of tropical storms. Since 1999, T. Miller of Florida State University has been collecting data describing the dynamics of dune vegetation on St. George Island. These long-term census data provide an opportunity to investigate the ecology of dune ecosystems. I analyzed this ten-year data set to quantify how vegetation responds to major storms and determine which dune species would be most useful for restoring damaged coastal areas. This approach was tested using six plant species that were identified by T. Miller as particularly robust to the effects of storms. I conducted a transplant experiment with these six species across dune microhabitats and quantified transplant survival and growth over time in each habitat. Results suggest that, while several of these species have significant potential for restoration use, the habitat from which a transplant species originates is not a good indicator of its success in different habitats. Further, it appears that transplants encourage succession on degraded habitat. I explored the potential to extrapolate this restoration technique to a broader group of landscapes using GIS and aerial images to characterize vegetation change over time on St. George Island and compared these data with long-term census data. Additionally, I investigated if remote sensing could be used to identify locations that were similar to St. George in the distribution of dune habitats and the effects of storms across these areas. Results suggest that remote sensing approaches can be useful for a subset of habitat and species types on barrier islands. Lastly, I used estimates of plant growth in good and bad years from the long-term data to build a model that describes succession in dune habitats. The model can be used to identify how dune communities might respond to a change in storm frequency. The model predicts that an increasing frequency of storms will result in plant species turnover in each dune community with the foredune community expressing the most dramatic changes. === A Thesis submitted to the Department of Biological Science in partial fulfillment of the requirements for the degree of Master of Science. === Summer Semester, 2009. === May 19, 2009. === Hurricane, Barrier island, Coastal restoration, Climate change === Includes bibliographical references. === Thomas Edward Miller, Professor Directing Thesis; Alice Winn, Committee Member; Austin Mast, Committee Member; Nora Underwood, Committee Member; Jeff Chanton, Committee Member.
author2 Gornish, Elise S. (authoraut)
author_facet Gornish, Elise S. (authoraut)
title Use of Long-Term Vegetation Census Data to Inform Restoration Methods and Processes of Community Ecology on a Barrier Island
title_short Use of Long-Term Vegetation Census Data to Inform Restoration Methods and Processes of Community Ecology on a Barrier Island
title_full Use of Long-Term Vegetation Census Data to Inform Restoration Methods and Processes of Community Ecology on a Barrier Island
title_fullStr Use of Long-Term Vegetation Census Data to Inform Restoration Methods and Processes of Community Ecology on a Barrier Island
title_full_unstemmed Use of Long-Term Vegetation Census Data to Inform Restoration Methods and Processes of Community Ecology on a Barrier Island
title_sort use of long-term vegetation census data to inform restoration methods and processes of community ecology on a barrier island
publisher Florida State University
url http://purl.flvc.org/fsu/fd/FSU_migr_etd-4106
_version_ 1719319257489080320
spelling ndltd-fsu.edu-oai-fsu.digital.flvc.org-fsu_1822992020-06-13T03:07:12Z Use of Long-Term Vegetation Census Data to Inform Restoration Methods and Processes of Community Ecology on a Barrier Island Gornish, Elise S. (authoraut) Miller, Thomas Edward (professor directing thesis) Winn, Alice (committee member) Mast, Austin (committee member) Underwood, Nora (committee member) Chanton, Jeff (committee member) Department of Biological Science (degree granting department) Florida State University (degree granting institution) Text text Florida State University Florida State University English eng 1 online resource computer application/pdf In the Gulf of Mexico, barrier islands absorb the majority of the wind and wave action from storms, resulting in modification of dune morphology and vegetation dynamics. Understanding changes in dune vegetation in response to storms can identify the ecological processes occurring in these areas as well as help predict future effects of tropical storms. Since 1999, T. Miller of Florida State University has been collecting data describing the dynamics of dune vegetation on St. George Island. These long-term census data provide an opportunity to investigate the ecology of dune ecosystems. I analyzed this ten-year data set to quantify how vegetation responds to major storms and determine which dune species would be most useful for restoring damaged coastal areas. This approach was tested using six plant species that were identified by T. Miller as particularly robust to the effects of storms. I conducted a transplant experiment with these six species across dune microhabitats and quantified transplant survival and growth over time in each habitat. Results suggest that, while several of these species have significant potential for restoration use, the habitat from which a transplant species originates is not a good indicator of its success in different habitats. Further, it appears that transplants encourage succession on degraded habitat. I explored the potential to extrapolate this restoration technique to a broader group of landscapes using GIS and aerial images to characterize vegetation change over time on St. George Island and compared these data with long-term census data. Additionally, I investigated if remote sensing could be used to identify locations that were similar to St. George in the distribution of dune habitats and the effects of storms across these areas. Results suggest that remote sensing approaches can be useful for a subset of habitat and species types on barrier islands. Lastly, I used estimates of plant growth in good and bad years from the long-term data to build a model that describes succession in dune habitats. The model can be used to identify how dune communities might respond to a change in storm frequency. The model predicts that an increasing frequency of storms will result in plant species turnover in each dune community with the foredune community expressing the most dramatic changes. A Thesis submitted to the Department of Biological Science in partial fulfillment of the requirements for the degree of Master of Science. Summer Semester, 2009. May 19, 2009. Hurricane, Barrier island, Coastal restoration, Climate change Includes bibliographical references. Thomas Edward Miller, Professor Directing Thesis; Alice Winn, Committee Member; Austin Mast, Committee Member; Nora Underwood, Committee Member; Jeff Chanton, Committee Member. Earth sciences FSU_migr_etd-4106 http://purl.flvc.org/fsu/fd/FSU_migr_etd-4106 This Item is protected by copyright and/or related rights. You are free to use this Item in any way that is permitted by the copyright and related rights legislation that applies to your use. For other uses you need to obtain permission from the rights-holder(s). The copyright in theses and dissertations completed at Florida State University is held by the students who author them. http://diginole.lib.fsu.edu/islandora/object/fsu%3A182299/datastream/TN/view/Use%20of%20Long-Term%20Vegetation%20Census%20Data%20to%20Inform%20Restoration%20Methods%20and%20Processes%20of%20Community%20Ecology%20on%20a%20Barrier%20Island.jpg