Oxygen and Nutrient Exchanges at the Sediment-Water Interface: a Global Synthesis and Critique of Estuarine and Coastal Data

Oxygen and Nutrient Exchanges at the Sediment-Water Interface: a Global Synthesis and Critique of Estuarine and Coastal Data

Estuarine and coastal marine sediment-water fluxes are considered to be important ecological features, but a global-scale assessment has yet to be developed. Goals of this work were to assemble a global-scale database of net sediment-water flux measurements, examine measurement techniques, character...

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Bibliographic Details
Published in:Estuaries and coasts Vol. 41; no. 2; pp. 301 - 333
Main Authors: Boynton, W. R., Ceballos, M. A. C., Bailey, E. M., Hodgkins, C. L. S., Humphrey, J. L., Testa, J. M.
Format: Journal Article
Language:English
Published: New York Springer Science+Business Media 01-03-2018
Springer US
Springer Nature B.V
Subjects:
Annual variations
Brackishwater environment
Climate change
Coastal ecology
Coastal environments
Coastal Sciences
Coastal waters
Data
Demand
Earth and Environmental Science
Ecological monitoring
Ecology
Ecosystem assessment
Ecosystems
EDITORS' CHOICE
Environment
Environmental Management
Estuaries
Estuarine environments
Fluctuations
Fluxes
Freshwater & Marine Ecology
Geographical distribution
Latitude
Marine sediments
Measurement techniques
Metabolism
Mineral nutrients
Mud-water interfaces
Nutrient loading
Organic matter
Phytoplankton
Primary production
Sediment
Sediment-water interface
Sediments
Temperature effects
Time series
Tropical climate
Variability
Water and Health
Water depth
Sediment oxygen consumption
Sediment-water nutrient exchanges
Estuarine nutrient dynamics
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Summary:Estuarine and coastal marine sediment-water fluxes are considered to be important ecological features, but a global-scale assessment has yet to be developed. Goals of this work were to assemble a global-scale database of net sediment-water flux measurements, examine measurement techniques, characterize the geographic distribution and magnitude of sediment fluxes, explore the data for controls on sediment flux magnitude, and assess the importance of sediment fluxes in ecosystem-level metabolism and primary production. We examined 480 peer-reviewed sources and found sediment flux data for 167 estuarine and coastal systems. Most measurements were made in North America, Europe, and Australia. Fluxes varied widely among systems, some by several orders of magnitude. Inter-annual variability within sites was less than an order of magnitude but time series flux data to evaluate this were rare. However, limited time series data exhibited large and rapid responses to decreased external nutrient loading rates, climate change effects (possible temperature effects), and variability in trophic conditions. Comparative analyses indicated organic matter supply to sediments set the upper limits of flux magnitude, with other factors playing secondary roles. Two metrics were developed to assess ecosystem-level importance of sediment-water fluxes. Sediments represented 30% or more of depth-integrated rates of aerobic system respiration at depths of <10 m. An annual phytoplankton production data set was used to estimate N and P demand; sediments supplied an average of 15-32% of N and 17-100% of P demand and, in some cases, was as large or larger than external nutrient inputs. The percent of demand supplied by sediments was highest in temperate latitudes and lower in high and tropical latitudes.
ISSN:1559-2723
1559-2731
DOI:10.1007/s12237-017-0275-5