Combined nutrient and macroalgae loads lead to response in seagrass indicator properties

Excess nutrients are potential factors that drive phase shifts from seagrasses to macroalgae. We carried out a manipulative field experiment to study the effects of macroalgae Ulva pertusa loading and nutrient addition to the water column on the nitrogen (N) and carbon (C) contents (i.e., fast indic...

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Published in:Marine pollution bulletin Vol. 106; no. 1-2; pp. 174 - 182
Main Authors: Han, Qiuying, Soissons, Laura M., Bouma, Tjeerd J., van Katwijk, Marieke M., Liu, Dongyan
Format: Journal Article
Language:English
Published: England Elsevier Ltd 15.05.2016
Subjects:
belowground biomass
Biomass
carbon
carbon nitrogen ratio
Environmental Monitoring
Eutrophication
field experimentation
macroalgae
Macroalgae suffocation
Marine
monitoring
nitrogen
Nitrogen - analysis
nutrients
Phosphorus - analysis
pollution load
seagrasses
Seagrass–macroalgae interactions
Seaweed - growth & development
Ulva
Ulva pertusa
Water Pollutants - analysis
water pollution
Zostera marina
Zosteraceae - physiology
Zostera marina
Ulva pertusa
Seagrass–macroalgae interactions
Eutrophication
Macroalgae suffocation
ISSN:0025-326X, 1879-3363, 1879-3363
Online Access:Get full text
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Summary:Excess nutrients are potential factors that drive phase shifts from seagrasses to macroalgae. We carried out a manipulative field experiment to study the effects of macroalgae Ulva pertusa loading and nutrient addition to the water column on the nitrogen (N) and carbon (C) contents (i.e., fast indicators) as well as on the morphology and structure (i.e., slow indicators) of Zostera marina. Our results showed rapid impact of increased macroalgae and nutrient load on Z. marina C/N ratios. Also, macroalgae addition resulted in a trend of decreasing belowground biomass of seagrasses, and nutrient load significantly decreased above to belowground biomass ratio. Although some morphological/structural variables showed relatively fast responses, the effects of short-term disturbance by macroalgae and nutrients were less often significant than on physiological variables. Monitoring of seagrass physiological indicators may allow for early detection of eutrophication, which may initiate timely management interventions to avert seagrass loss. •Two type indicators are used to evaluate the response of seagrasses to macroalgae cover and nutrients.•Zostera marina C/N ratios rapidly response to increased macroalgae and nutrient load.•Macroalgae shading results in a trend of decreasing belowground biomass of seagrasses.•Nutrient load significantly decreases above to belowground biomass ratio.•Seagrasses monitoring should include physiological indicators to allow for early detection of eutrophication.
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ISSN:0025-326X
1879-3363
1879-3363
DOI:10.1016/j.marpolbul.2016.03.004