Wetland extent tools for SDG 6.6.1 reporting from the Satellite-based Wetland Observation Service (SWOS)
Weise K.; Höfer R.; Franke J.; Guelmami A.; Simonson W.; Muro J.; O'Connor B.; Strauch A.; Flink S.; Eberle J.; Mino E.; Thulin S.; Philipson P.; van Valkengoed E.; Truckenbrodt J.; Zander F.; Sánchez A.; Schröder C.; Thonfeld F.; Fitoka E.; Scott E.; Ling M.; Schwarz M.; Kunz I.; Thürmer G.; Plasmeijer A.; Hilarides L.
Date Issued2020
Other AbstractWetlands are the most fragile and threatened ecosystems worldwide, and also one of the most rapidly declining. At the same time wetlands are typically biodiversity hotspots and provide a range of valuable ecosystem services, such as water supply and purification, disaster risk reduction, climate change adaptation, and carbon sequestration. Pressures on wetlands are likely to further intensify in the coming decades due to increased global demand for land and water, and due to climate change. Stakeholders at all levels of governance have to be involved to slow, stop and reverse these processes. However, the information they need on wetland extent, their ecological character, and their ecosystem services is often scattered, sparse and difficult to find and access. The freely available Sentinel satellite data of the Copernicus Programme, as well as the Landsat archive, provide a comprehensive basis to map and inventory wetland areas (extent), to derive information on the ecological status, as well as long- and short-term trends in wetland characteristics. However, making use of these Earth Observation (EO) resources for robust and standardized wetland monitoring requires expert knowledge on often complex data processing techniques, which impedes practical implementation. In this respect, the Satellite-based Wetland Observation Service (SWOS), a Horizon 2020 funded project ( has developed and made disseminated monitoring approaches based on EO data, specifically designed for less experienced satellite data users. The SWOS monitoring tools aim at assisting countries in conducting national wetland inventories for their Sustainable Development Goals (SDG) reporting and monitoring obligations, and additionally facilitates other monitoring obligations such as those required by the Ramsar Convention and supports decision-making in local conservation activities. The four main components of the SWOS approach are: map and indicator production; software development; capacity building; and initializing the GEO Wetlands Community Portal. Wetland managers and data analysists from more than fifty wetland sites and river basins across Europe, the Middle East, and Africa investigated the benefits and limitations of this EO-based wetland mapping and monitoring approach. We describe research that applies the SWOS tools to test their potential for the mapping of wetlands in a case study based in Albania, and show its effectiveness to derive metrics relevant to the monitoring of SDG indicator 6.6.1. © 2020 Elsevier Inc.
enkeywordsCopernicus; Ramsar reporting; SDG reporting; Sentinel; Wetland decline; Wetland management and monitoring
scopus keywordsBiodiversity; Climate change; Data handling; Decision making; Ecosystems; Mapping; Monitoring; Orbits; Satellites; Software design; Water supply; Carbon sequestration; Climate change adaptation; Disaster risk reductions; Earth observations; Ecological character; Ecosystem services; Local conservation; Monitoring approach; Wetlands; biodiversity; bioindicator; climate change; conservation management; data processing; decision making; demand analysis; ecosystem service; governance approach; river basin; satellite altimetry; satellite data; Sentinel; stakeholder; Sustainable Development Goal; terrestrial ecosystem; wetland; Africa; Albania; Middle East
journalRemote Sensing of Environment
Document Type期刊论文
AffiliationJena-Optronik GmbH, Otto-Eppenstein-Straße 3, Jena, 07745, Germany; RSS - Remote Sensing Solutions GmbH, Dingolfinger Str. 9, München, 81673, Germany; Research Institute for the Conservation of Mediterranean Wetlands of the Tour du Valat, Le Sambuc, Arles, 13200, France; UN Environment Programme World Conservation Monitoring Centre, 219 Huntingdon Road, Cambridge, CB3 0DL, United Kingdom; Center for Remote Sensing of Land Surfaces (ZFL), University of Bonn, Genscherallee 3, Bonn, 53113, Germany; Wetlands International, P.O. Box 471, AL Wageningen, 6700, Netherlands; Friedrich-Schiller University, Jena, Remote Sensing Section, Jena, 07743, Germany; U.T. SEMIDE/EMWIS T.U, BP23, Sophia Antipolis, 06901, France; Brockmann Geomatics Sweden AB Torshamnsgatan 39, Kista, SE-164 40, Sweden; TerraSphere Imaging & GIS B.V. Keizersgracht 125-127, CJ Amsterdam, 1015, Netherlands; ETC-UMA, Edificio de Investigación Ada Byron C\Arquitecto Francisco Peñalosa, Málaga, 29010, Spain; German Remote Sensing Data Center (DFD),...
Recommended Citation
GB/T 7714
Weise K.,Höfer R.,Franke J.,et al. Wetland extent tools for SDG 6.6.1 reporting from the Satellite-based Wetland Observation Service (SWOS)[J],2020,247.
APA Weise K..,Höfer R..,Franke J..,Guelmami A..,Simonson W..,...&Hilarides L..(2020).Wetland extent tools for SDG 6.6.1 reporting from the Satellite-based Wetland Observation Service (SWOS).Remote Sensing of Environment,247.
MLA Weise K.,et al."Wetland extent tools for SDG 6.6.1 reporting from the Satellite-based Wetland Observation Service (SWOS)".Remote Sensing of Environment 247(2020).
Files in This Item:
There are no files associated with this item.
Related Services
Recommend this item
Export to Endnote
Google Scholar
Similar articles in Google Scholar
[Weise K.]'s Articles
[Höfer R.]'s Articles
[Franke J.]'s Articles
Baidu academic
Similar articles in Baidu academic
[Weise K.]'s Articles
[Höfer R.]'s Articles
[Franke J.]'s Articles
Bing Scholar
Similar articles in Bing Scholar
[Weise K.]'s Articles
[Höfer R.]'s Articles
[Franke J.]'s Articles
Terms of Use
No data!
Social Bookmark/Share

Items in the repository are protected by copyright, with all rights reserved, unless otherwise indicated.