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Aids for the conservation of Great Lakes Coastal marshes: the development of a macrophyte index and novel sampling protocol

<p> Wetlands are a valuable resource, providing many ecosystem services, but
unfortunately, coastal wetlands in the Great lakes are under threat from human
development, including water quality impairment, introduction of exotic invasive species
as well as physical damage such as dredging, draining, and filling in of wetland habitat.
These actions have a negative impact on the native flora and fauna in wetlands, making
wetland conservation and important topic. </p> <p> Wetland macrophytes play a vital role within wetlands, not only providing food for water fowl, migratory birds, fish, and mammals, but also providing the physical structure that is necessary for fish spawning, and they provide habitat for
macroinvertebrates and zoobenthos. Different macrophyte species have been found to be
associated with varying water quality conditions, and because of this wetland
macrophytes are useful indicators of water quality conditions. I have developed a
Wetland Macrophyte Index (WMI) using 127 wetlands throughout all five Great Lakes
(Chapter 1 ), which relates plant species presence/absence data to water quality conditions,
making it a useful indicator of fish habitat. The WMI was validated using historical data
from two wetlands from before and after a remedial action plan was put in place and also
it was successfully applied to two Canadian National Parks. </p> <p> Information on the presence/absence of wetland macrophytes can be a very important tool in wetland conservation, but, unfortunately, there is no standard method for sampling macrophytes. In the second chapter I will compare two common macrophyte sampling methods (grid and transect) to a novel method (stratified) in six wetlands (three pristine and three degraded). The stratified method has proven to be beneficial for determining the macrophyte biodiversity within a wetland because more species, more unique species, and more rare species were found with the stratified method compared to
the grid and transect methods. </p> / Thesis / Master of Science (MSc)

Identiferoai:union.ndltd.org:mcmaster.ca/oai:macsphere.mcmaster.ca:11375/21673
Date04 1900
CreatorsCroft, Melanie
ContributorsChow-Fraser, Patricia, Biology
Source SetsMcMaster University
LanguageEnglish
Detected LanguageEnglish

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