| About || Editorial Board || Volumes || Manuscripts || Book Reviews || Contact || Copyright |
Spatial potential for paludicultures to reduce agricultural greenhouse gas emissions: an analytic tool Apr 08 2019 1 MB 725

Volume 25 Special Volume: Renewable Resources from Wet and Rewetted Peatlands (2019) Article 3

Spatial potential for paludicultures to reduce agricultural greenhouse gas emissions: an analytic tool

by A. Schlattmann and M. Rode

Published online: 08.04.2019

Summary

Following the recent international agreements on climate action, there is an urgent need to reduce agricultural greenhouse gas (GHG) emissions. Wet cultivation of peatlands (paludiculture) can combine low GHG emissions with productive use of the land, but methods for identifying suitable areas at regional and local scales are lacking. In this study we present a spatial assessment tool for two paludiculture species, namely Phragmites australis and Typha latifolia. This tool is built in a Geographic Information System (GIS) and is designed to perform a quantitative and qualitative analysis of the cultivation potential of land that is currently used for agriculture or peat extraction, within a defined geographical area. It uses a graded assessment process with a plot based analysis. A case study application shows that the tool can deliver first estimates of the potential cultivation area, but further research is needed to enhance its flexibility and scope of application. In its present form it may be used as a decision support instrument for specific sites.

Citation

Schlattmann, A. & Rode, M. (2019) Spatial potential for paludicultures to reduce agricultural greenhouse gas emissions: an analytic tool. Mires and Peat, 25(03), 1–14. (Online: http://www.mires-and-peat.net/pages/volumes/map25/map2503.php); doi: 10.19189/MaP.2017.OMB.324

Reviewers

IMCG and IPS acknowledge the work of the reviewers.

 

www.mires-and-peat.net
Key title: Mires and Peat
data protection | imprint

ISSN 1819-754X
Abbreviated key title: Mires Peat

Drucken
© 2023 Mires and Peat