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D4.1: Description of Developed Wetland Technologies : WP4 Nutrient Recovery from Streams

Chioggia, Francesco ; Lavrnić, Stevo ; Grigatti, Marco ; Toscano, Attilio ; Antonioni, Chiara ; Cavazza, Francesco ; Larsson, Rolf LU ; Zhang, Linus LU orcid ; Canga, Eriona and Schabschneider, Helmut , et al. (2023)
Abstract
Wetland technologies applied on a farm level can be a useful solution
for sustainable water management in the agricultural setting since
they can influence water quantity and quality. WATERAGRI has tested
different types of wetlands in three European countries - Italy, Austria
and Sweden, covering different climate and geographical zones.
The tests involved full-scale, pilot scale and prototype systems, which
are highly relevant to the project objectives. The results have shown a high capacity of farm wetlands and drainage layers for nutrient and contaminant removal from agricultural runoff. Moreover, these systems can be used for growing crops, and biomass produced that way might be used for energy... (More)
Wetland technologies applied on a farm level can be a useful solution
for sustainable water management in the agricultural setting since
they can influence water quantity and quality. WATERAGRI has tested
different types of wetlands in three European countries - Italy, Austria
and Sweden, covering different climate and geographical zones.
The tests involved full-scale, pilot scale and prototype systems, which
are highly relevant to the project objectives. The results have shown a high capacity of farm wetlands and drainage layers for nutrient and contaminant removal from agricultural runoff. Moreover, these systems can be used for growing crops, and biomass produced that way might be used for energy production or as a soil amendment, increasing the circularity of agricultural production. Finally, wetland system performance can be enhanced through the
use of biochar (e.g. for nutrient adsorption) or better aeration conditions (e.g. increase in removal processes), and these aspects were also assessed an (Less)
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organization
publishing date
type
Book/Report
publication status
published
subject
pages
58 pages
publisher
WATERAGRI
language
English
LU publication?
yes
id
e9a21374-6013-46a8-aab6-8d1420bbf074
alternative location
https://wateragri.eu/wp-content/uploads/2023/09/D4.1.pdf
date added to LUP
2025-02-20 21:51:16
date last changed
2025-04-04 14:44:20
@techreport{e9a21374-6013-46a8-aab6-8d1420bbf074,
  abstract     = {{Wetland technologies applied on a farm level can be a useful solution <br/>for sustainable water management in the agricultural setting since <br/>they can influence water quantity and quality. WATERAGRI has tested <br/>different types of wetlands in three European countries - Italy, Austria <br/>and Sweden, covering different climate and geographical zones.  <br/>The tests involved full-scale, pilot scale and prototype systems, which <br/>are highly relevant to the project objectives. The results have shown a high capacity of farm wetlands and drainage layers for nutrient and contaminant removal from agricultural runoff. Moreover, these systems can be used for growing crops, and biomass produced that way might be used for energy production or as a soil amendment, increasing the circularity of agricultural production. Finally, wetland system performance can be enhanced through the <br/>use of biochar (e.g. for nutrient adsorption) or better aeration conditions (e.g. increase in removal processes), and these aspects were also assessed an}},
  author       = {{Chioggia, Francesco and Lavrnić, Stevo and Grigatti, Marco and Toscano, Attilio and Antonioni, Chiara and Cavazza, Francesco and Larsson, Rolf and Zhang, Linus and Canga, Eriona and Schabschneider, Helmut and Luketina, Igor and Kisser, Johannes}},
  institution  = {{WATERAGRI}},
  language     = {{eng}},
  title        = {{D4.1: Description of Developed Wetland Technologies : WP4 Nutrient Recovery from Streams}},
  url          = {{https://wateragri.eu/wp-content/uploads/2023/09/D4.1.pdf}},
  year         = {{2023}},
}