Evidence of grazer control on nitrogen fixation by eelgrass epiphytes in a temperate coastal bay

Evidence of grazer control on nitrogen fixation by eelgrass epiphytes in a temperate coastal bay

In this study, we present data to support the hypothesis that removal of epiphytes by grazers is an important control of nitrogen fixation in temperate seagrass meadows during the summer. Previous work in West Falmouth Harbor, Massachusetts, USA, found highest rates of epiphytic nitrogen fixation in...

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Bibliographic Details
Published in:Marine ecology. Progress series (Halstenbek) Vol. 526; pp. 11 - 19
Main Authors: Reynolds, Laura K., Marino, Roxanne, Muth, Meredith F., McLenaghan, Natalie, Hayn, Melanie, Tyler, Anna Christina, McGlathery, Karen J., Howarth, Robert W.
Format: Journal Article
Language:English
Published: Inter-Research 22-04-2015
Subjects:
Marine
ANW, USA, Massachusetts
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Summary:In this study, we present data to support the hypothesis that removal of epiphytes by grazers is an important control of nitrogen fixation in temperate seagrass meadows during the summer. Previous work in West Falmouth Harbor, Massachusetts, USA, found highest rates of epiphytic nitrogen fixation in the part of the harbor (Snug Harbor) with the greatest nitrogen load and the lowest phosphate concentrations, a somewhat paradoxical result suggesting that biogeochemical controls are not the major factor regulating this nitrogen fixation. Here we report that the density of invertebrate grazers on epiphytic algae (predominantly Bittiolum alternatum) was least in Snug Harbor, where nitrogen fixation rates were greatest. Reciprocal transplant experiments showed that seagrass shoots transplanted into Snug Harbor from the part of the harbor (Outer Harbor) where external nitrogen loading was lower but grazer densities were 4-fold higher, had a more than 5-fold increase in epiphytic nitrogen fixation after a 12 d incubation period. Shoots transplanted from Snug Harbor to Outer Harbor showed a large, rapid reduction in epiphytic nitrogen fixation rates after only 6 d, likely due to consumption of epiphytes. Our results suggest that trophic control is a potentially important determinant of epiphytic nitrogen fixation rates in temperate seagrass meadows.
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ISSN:0171-8630
1616-1599
DOI:10.3354/meps11234