M
Martina A. Doblin
Researcher at University of Technology, Sydney
Publications - 141
Citations - 5021
Martina A. Doblin is an academic researcher from University of Technology, Sydney. The author has contributed to research in topics: Phytoplankton & Algal bloom. The author has an hindex of 37, co-authored 134 publications receiving 4181 citations. Previous affiliations of Martina A. Doblin include University of Tasmania & Hobart Corporation.
Papers
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Impact of light limitation on seagrasses
TL;DR: A series of conceptual models are presented describing the factors driving the light climate and seagrass responses under current and future conditions, with special attention on the deepest edge of the meadow.
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Potential microbial bioinvasions via ships' ballast water, sediment, and biofilm.
TL;DR: Using temperature tolerance as a measure of survivability and the temperature difference between ballast-water samples and the water into which the ballast water was discharged, it is estimated 56% of microorganisms could survive in the lower Chesapeake Bay.
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Food Web Pathway Determines How Selenium Affects Aquatic Ecosystems: A San Francisco Bay Case Study
TL;DR: It is shown that a combination of food web structure and the physiology of trace element accumulation explain why some species in San Francisco Bay are threatened by a relatively low level of selenium contamination and some are not.
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Improved quantitative real‐time PCR assays for enumeration of harmful algal species in field samples using an exogenous DNA reference standard
Kathryn J. Coyne,Sara M. Handy,Elif Demir,Edward B. Whereat,David A. Hutchins,Kevin J. Portune,Martina A. Doblin,S. Craig Cary +7 more
TL;DR: This investigation demonstrates that the comparative Ct method with an exogenous DNA reference standard provides both accurate and reproducible quantification of HAB species in environmental samples.
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Growth and biomass stimulation of the toxic dinoflagellate Gymnodinium catenatum (Graham) by dissolved organic substances
TL;DR: The outcome of DOM–nutrient interactions on algal growth is variable, and depends on the composition and amount of DOM, the concentration of nutrients in solution and the species- or strain-specific cellular nutrient requirements.