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Ökad hydrodiversitet för att främja avrinningsområdens klimatresiliens (EcoDiver)

Nilsson, Erik LU ; Zhang, Linus Tielin LU orcid ; Persson, Magnus LU ; Wörman, Anders and Riml, Joakim (2024)
Abstract
This report presents our research project EcoDiver, funded by the Swedish Environmental Protection Agency. The project was conducted as a collaboration between Lund University and the Royal Institute of Technology (KTH).
The main thesis has been hydrodiversity, where the diversity of hydrological units, such as wetlands, lakes, rivers and groundwater, within a catchment area interact and affect the catchment's ability to cope with climate change, such as increased precipitation, drought and temperature variations by providing various ecosystem services.
The project studied the hydrological functions of wetlands, such as regulating flow during floods and droughts, and their role in climate adaptation. The project has used... (More)
This report presents our research project EcoDiver, funded by the Swedish Environmental Protection Agency. The project was conducted as a collaboration between Lund University and the Royal Institute of Technology (KTH).
The main thesis has been hydrodiversity, where the diversity of hydrological units, such as wetlands, lakes, rivers and groundwater, within a catchment area interact and affect the catchment's ability to cope with climate change, such as increased precipitation, drought and temperature variations by providing various ecosystem services.
The project studied the hydrological functions of wetlands, such as regulating flow during floods and droughts, and their role in climate adaptation. The project has used hydrological models, field measurements and laboratory analysis to investigate how wetlands affect water quality, water balance and biodiversity in river basins.
The project has also developed methods and tools for model-based decision support and for measuring and optimizing wetland ecosystem services, which are the benefits that wetlands provide to the environment and society. The project has used economic, social and ecological indicators to evaluate the contribution of wetlands to, among other things, carbon dioxide uptake, treatment of polluted water, erosion control, recreation and education.
The project has based its research on five case studies of different wetland types in Scania. These case studies have been chosen to represent different hydrogeological conditions, wetland sizes, restoration measures and landscape contexts.
The project has also disseminated its knowledge to various stakeholders, through seminars, workshops, publications, and collaborations. The project has involved researchers, authorities, municipalities, university students, landowners, and schools in dialogue and collaboration on the importance and potential of wetlands for environmental management.
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Abstract (Swedish)
Mångfalden av våtmarker, vattendrag, sjöar och grundvatten samverkar i ett större perspektiv inom ett avrinningsområde. Funktioner som är sammankopplade och beroende av varandra. En holistisk förståelse av våtmarker utgår från att vi tar hänsyn till alla delar. En funktion forskarna i denna rapport benämner hydrodiversitet.

Forskarna har undersökt hur stor nyttan är ur ett hydrologiskt och ekonomiskt perspektiv, hur system kan skapas som optimerar den nyttan och hur våtmarkers hydrologiska ekosystemtjänster kan förändras av ett förändrat klimat.

Även om forskarna påvisar att sammanhängande hydrologiska system har andra nyttor än att just vara hydrologiskt utjämnande, har det övergripande syftet varit att utveckla... (More)
Mångfalden av våtmarker, vattendrag, sjöar och grundvatten samverkar i ett större perspektiv inom ett avrinningsområde. Funktioner som är sammankopplade och beroende av varandra. En holistisk förståelse av våtmarker utgår från att vi tar hänsyn till alla delar. En funktion forskarna i denna rapport benämner hydrodiversitet.

Forskarna har undersökt hur stor nyttan är ur ett hydrologiskt och ekonomiskt perspektiv, hur system kan skapas som optimerar den nyttan och hur våtmarkers hydrologiska ekosystemtjänster kan förändras av ett förändrat klimat.

Även om forskarna påvisar att sammanhängande hydrologiska system har andra nyttor än att just vara hydrologiskt utjämnande, har det övergripande syftet varit att utveckla beslutsstödverktyg som ska hjälpa beslutsfattare att identifiera optimala platser och strategier för våtmarksförvaltning.

Projektet har finansierats med medel från Naturvårdsverkets miljöforskningsanslag som finansierar forskning till stöd för Naturvårdsverkets och Havs- och vattenmyndighetens kunskapsbehov. (Less)
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author
; ; ; and
organization
alternative title
EnhanCing hydrODIVERsity for improving catchment based climate resilience (EcoDiver)
publishing date
type
Book/Report
publication status
published
subject
pages
49 pages
publisher
Naturvårdsverket
ISBN
978-91-620-7149-3
language
Swedish
LU publication?
yes
id
6cb68062-2ff4-4506-851d-7a34e1ffb9ef
alternative location
https://www.naturvardsverket.se/publikationer/7100/978-91-620-7149-3/
date added to LUP
2025-01-18 14:37:24
date last changed
2025-04-04 13:54:47
@techreport{6cb68062-2ff4-4506-851d-7a34e1ffb9ef,
  abstract     = {{This report presents our research project EcoDiver, funded by the Swedish Environmental Protection Agency. The project was conducted as a collaboration between Lund University and the Royal Institute of Technology (KTH).<br/>The main thesis has been hydrodiversity, where the diversity of hydrological units, such as wetlands, lakes, rivers and groundwater, within a catchment area interact and affect the catchment's ability to cope with climate change, such as increased precipitation, drought and temperature variations by providing various ecosystem services.<br/>The project studied the hydrological functions of wetlands, such as regulating flow during floods and droughts, and their role in climate adaptation. The project has used hydrological models, field measurements and laboratory analysis to investigate how wetlands affect water quality, water balance and biodiversity in river basins.<br/>The project has also developed methods and tools for model-based decision support and for measuring and optimizing wetland ecosystem services, which are the benefits that wetlands provide to the environment and society. The project has used economic, social and ecological indicators to evaluate the contribution of wetlands to, among other things, carbon dioxide uptake, treatment of polluted water, erosion control, recreation and education.<br/>The project has based its research on five case studies of different wetland types in Scania. These case studies have been chosen to represent different hydrogeological conditions, wetland sizes, restoration measures and landscape contexts.<br/>The project has also disseminated its knowledge to various stakeholders, through seminars, workshops, publications, and collaborations. The project has involved researchers, authorities, municipalities, university students, landowners, and schools in dialogue and collaboration on the importance and potential of wetlands for environmental management.<br/>}},
  author       = {{Nilsson, Erik and Zhang, Linus Tielin and Persson, Magnus and Wörman, Anders and Riml, Joakim}},
  institution  = {{Naturvårdsverket}},
  isbn         = {{978-91-620-7149-3}},
  language     = {{swe}},
  month        = {{06}},
  title        = {{Ökad hydrodiversitet för att främja avrinningsområdens klimatresiliens (EcoDiver)}},
  url          = {{https://www.naturvardsverket.se/publikationer/7100/978-91-620-7149-3/}},
  year         = {{2024}},
}