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W2754441825 endingPage "79" @default.
W2754441825 startingPage "69" @default.
W2754441825 abstract "Coastal ecosystems are subjected to global and local environmental stressors, including increased atmospheric carbon dioxide (CO2) (and subsequent ocean acidification) and nutrient loading. Here, we tested how two common macroalgal species in the Northwest Atlantic (Ulva spp. and Fucus vesiculosus Linneaus) respond to the combination of increased CO2 and nutrient loading. We utilized two levels of pCO2 with two levels of nutrients in a full factorial design, testing the growth rates and tissue quality of Ulva and Fucus grown for 21 days in monoculture and biculture. We found that the opportunistic, fast-growing Ulva exhibited increased growth rates under high pCO2 and high nutrients, with growth rates increasing three-fold above Ulva grown in ambient pCO2 and ambient nutrients. By contrast, Fucus growth rates were not impacted by either environmental factor. Both species exhibited a decline in carbon to nitrogen ratios (C:N) with elevated nutrients, but pCO2 concentration did not alter tissue quality in either species. Species grown in biculture exhibited similar growth rates to those in monoculture conditions, but Fucus C:N increased significantly when grown with Ulva, indicating an effect of the presence of Ulva on Fucus. Our results suggest that the combination of ocean acidification and nutrients will enhance abundance of opportunistic algal species in coastal systems and will likely drive macroalgal community shifts, based on species-specific responses to future conditions." @default.
W2754441825 created "2017-09-25" @default.
W2754441825 creator A5039829297 @default.
W2754441825 creator A5049454756 @default.
W2754441825 date "2017-10-01" @default.
W2754441825 modified "2023-10-18" @default.
W2754441825 title "Divergent responses in growth and nutritional quality of coastal macroalgae to the combination of increased pCO2 and nutrients" @default.
W2754441825 cites W1503832382 @default.
W2754441825 cites W1517019831 @default.
W2754441825 cites W1533044961 @default.
W2754441825 cites W1584946794 @default.
W2754441825 cites W1781915299 @default.
W2754441825 cites W1955409050 @default.
W2754441825 cites W1965012188 @default.
W2754441825 cites W1970782434 @default.
W2754441825 cites W1977918184 @default.
W2754441825 cites W1985441995 @default.
W2754441825 cites W1985711374 @default.
W2754441825 cites W1987804058 @default.
W2754441825 cites W1989457454 @default.
W2754441825 cites W1990180789 @default.
W2754441825 cites W1990857976 @default.
W2754441825 cites W1992607952 @default.
W2754441825 cites W1996677610 @default.
W2754441825 cites W1997970800 @default.
W2754441825 cites W2000079999 @default.
W2754441825 cites W2001973444 @default.
W2754441825 cites W2007207706 @default.
W2754441825 cites W2007241824 @default.
W2754441825 cites W2008103688 @default.
W2754441825 cites W2023109433 @default.
W2754441825 cites W2026351579 @default.
W2754441825 cites W2027005365 @default.
W2754441825 cites W2029840347 @default.
W2754441825 cites W2031175736 @default.
W2754441825 cites W2037518628 @default.
W2754441825 cites W2037520401 @default.
W2754441825 cites W2040823492 @default.
W2754441825 cites W2042585316 @default.
W2754441825 cites W2045410088 @default.
W2754441825 cites W2050816571 @default.
W2754441825 cites W2052566554 @default.
W2754441825 cites W2052965901 @default.
W2754441825 cites W2053289748 @default.
W2754441825 cites W2054653365 @default.
W2754441825 cites W2055890936 @default.
W2754441825 cites W2057087476 @default.
W2754441825 cites W2058958815 @default.
W2754441825 cites W2068614597 @default.
W2754441825 cites W2072271489 @default.
W2754441825 cites W2073580565 @default.
W2754441825 cites W2075150504 @default.
W2754441825 cites W2079850235 @default.
W2754441825 cites W2086583420 @default.
W2754441825 cites W2088057657 @default.
W2754441825 cites W2088635555 @default.
W2754441825 cites W2090157291 @default.
W2754441825 cites W2091978184 @default.
W2754441825 cites W2093776458 @default.
W2754441825 cites W2094731681 @default.
W2754441825 cites W2095807316 @default.
W2754441825 cites W2096086077 @default.
W2754441825 cites W2100451536 @default.
W2754441825 cites W2105082791 @default.
W2754441825 cites W2106734123 @default.
W2754441825 cites W2111991332 @default.
W2754441825 cites W2113172218 @default.
W2754441825 cites W2117203497 @default.
W2754441825 cites W2118428443 @default.
W2754441825 cites W2122532121 @default.
W2754441825 cites W2123920115 @default.
W2754441825 cites W2125776675 @default.
W2754441825 cites W2129450594 @default.
W2754441825 cites W2130571652 @default.
W2754441825 cites W2132791458 @default.
W2754441825 cites W2135376093 @default.
W2754441825 cites W2136203568 @default.
W2754441825 cites W2144920118 @default.
W2754441825 cites W2152529977 @default.
W2754441825 cites W2153100309 @default.
W2754441825 cites W2165835114 @default.
W2754441825 cites W2171252376 @default.
W2754441825 cites W2259349023 @default.
W2754441825 cites W2337855906 @default.
W2754441825 cites W2346738140 @default.
W2754441825 cites W2381312249 @default.
W2754441825 cites W2480403043 @default.
W2754441825 cites W2525069055 @default.
W2754441825 cites W2742239172 @default.
W2754441825 cites W4244375302 @default.
W2754441825 doi "https://doi.org/10.1016/j.marenvres.2017.09.003" @default.
W2754441825 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/28943069" @default.
W2754441825 hasPublicationYear "2017" @default.
W2754441825 type Work @default.
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