Potential export of soluble reactive phosphorus from a coastal wetland in a cold-temperate lagoon system: Buffer capacities of macrophytes and impact on phytoplankton

M Berthold; S Karstens; U Buczko; R Schumann

doi:10.1016/j.scitotenv.2017.10.244

Potential export of soluble reactive phosphorus from a coastal wetland in a cold-temperate lagoon system: Buffer capacities of macrophytes and impact on phytoplankton

Sci Total Environ. 2018 Mar:616-617:46-54. doi: 10.1016/j.scitotenv.2017.10.244. Epub 2017 Nov 3.

Authors

M Berthold¹, S Karstens², U Buczko³, R Schumann⁴

Affiliations

¹ University of Rostock, Applied Ecology and Phycology, Biological Station Zingst, Mühlenstraße, 2718374 Zingst, Germany. Electronic address: maximilian.berthold@uni-rostock.de.
² EUCC - Coastal Union Germany, Technologiezentrum Warnemünde, Friedrich-Barnewitz-Straße 3, 18119 Rostock, Germany; University of Rostock, Landscape Ecology and Site Evaluation, Justus-von-Liebig-Weg 6, 18059 Rostock, Germany.
³ University of Rostock, Landscape Ecology and Site Evaluation, Justus-von-Liebig-Weg 6, 18059 Rostock, Germany.
⁴ University of Rostock, Applied Ecology and Phycology, Biological Station Zingst, Mühlenstraße, 2718374 Zingst, Germany.

PMID: 29107778
DOI: 10.1016/j.scitotenv.2017.10.244

Abstract

The main pathways for phosphorus flux from land to sea are particle-associated (erosion) and dissolved runoff (rivers, groundwater, and agricultural drainage systems). These pathways can act as diffused sources for aquatic systems and support primary production, therefore, counteracting the efforts aimed at reducing phosphorus input from point sources such as sewage treatment plants. Phosphorus supports primary production in the water column and can elevate phytoplankton and macrophyte growth. Coastal wetlands with emerged (Phragmites australis) and submerged (Stuckenia pectinata and Chara sp.) macrophytes can affect phosphorus fluxes in the land-water transitional zone. The macrophytes have the potential to act as a buffer for phosphorus run-off. The aim of this study was to determine the phosphorus stocks in the transitional land-sea zone of a cold temperate lagoon at the southern Baltic Sea. Phosphorus in macrophytes, water samples, and phytoplankton growth were analyzed along a gradient moving away from the wetland. The phosphorus stocks in the above ground biomass of the Phragmites plants were the highest at the end of August and with more than 8000mgPm^-2 in the interior zone of the wetland, threefold the amount of P in Phragmites plant tissue at the wetland fringe. The submerged macrophytes stored only 300mgPm^-2, close to the wetland. Concentrations of soluble reactive phosphorus in the water column were higher in the zones of emerged macrophytes than in the zones of submerged macrophytes and decreased along the land-sea transect. Phytoplankton could grow proximal to the wetland during all seasons, but not further away. This study indicates that macrophytes can act as phosphorus sinks. However, short-term releases of phosphate within the Phragmites wetland have the potential to lead to phytoplankton growth. Phytoplankton can use these nutrient pulses either immediately or later, and support high biomass and turbidity within the system.

Keywords: Phosphorus; Phragmites; Phytoplankton growth; Submerged macrophytes; Wetland.

MeSH terms

Biomass
Germany
Phosphorus / analysis*
Phytoplankton / physiology*
Poaceae / physiology*
Wetlands*

Substances

Phosphorus