4,510 research outputs found
Emma Bell Miles journal, 1908-1911
Journal authored by Walden's Ridge naturalist, artist, and author Emma Bell Miles from 1908 May 24 to 1911 April 25
Emma Bell Miles journal, 1911-1914
Journal authored by Walden's Ridge naturalist, artist, and author Emma Bell Miles from 1911 January 9 to 1914 May 3
Emma Bell Miles journal, 1915-1918
Journal authored by Walden's Ridge naturalist, artist, and author Emma Bell Miles from 1915 November 11 to 1918 August 8
Emma Bell Miles journal, 1915-1918
Journal authored by Walden's Ridge naturalist, artist, and author Emma Bell Miles from 1915 November 11 to 1918 August 8
Emma Bell Miles journal, 1911-1914
Journal authored by Walden's Ridge naturalist, artist, and author Emma Bell Miles from 1911 January 9 to 1914 May 3
Emma Bell Miles journal, 1908-1911
Journal authored by Walden's Ridge naturalist, artist, and author Emma Bell Miles from 1908 May 24 to 1911 April 25
Emma Bell Miles journal, 1915
Journal authored by Walden's Ridge naturalist, artist, and author Emma Bell Miles from 1915 June 15 to 1915 September 22. The journal also includes newspaper clippings of Miles' Fountain Square Conversation column authored for the Chattanooga News
Emma Bell Miles journal, 1915
Journal authored by Walden's Ridge naturalist, artist, and author Emma Bell Miles from 1915 June 15 to 1915 September 22. The journal also includes newspaper clippings of Miles' Fountain Square Conversation column authored for the Chattanooga News
The Emma Ornsby Griffith Memorial Garden in Old Salem, 1964.
The Emma Ornsby Griffith Memorial Garden in Old Salem, 1964. The garden was located behind the Miksch Tobacco Shop.WSJ 8-30-64 p.C17
Growth and Calcification of Reef-Building Coralline Algae and Their Response to Ocean Acidification
Coralline algae play a central role in tropical reef ecology helping to build and stabilise the reef framework. Due to their high Mg-calcite skeleton, coralline algae are also one of the most sensitive marine calcifying organisms to ocean acidification, and potential indicators for assessing the impacts of climate change. However, despite their importance in reef ecology, basic information on coralline algae, such as their growth and calcification rates, are relatively unknown. The reason for this scarcity of information is, in part, due to the lack of effective and efficient methods for obtaining these rates in the field, and the slow growth of coralline algae necessitating lengthy studies. Therefore, the aims of this study were to establish more effective methods to determine in situ growth and calcification rates of coralline algae, to determine baseline growth and calcification rates of a key reef-building coralline algae species on the Great Barrier Reef (GBR), and to investigate the effects future climate change scenarios may have on these growth rates.Thesis (PhD Doctorate)Doctor of Philosophy (PhD)Griffith School of EnvironmentScience, Environment, Engineering and TechnologyFull Tex
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