Access the full text.
Sign up today, get DeepDyve free for 14 days.
G. Gaudig, H. Joosten, D. Kamermann (2008)
GROWING GROWING MEDIA: PROMISES OF SPHAGNUM BIOMASS
C. Chirino, S. Campeau, L. Rochefort (2006)
Sphagnum establishment on bare peat: The importance of climatic variability and Sphagnum species richness, 9
H. Rydin, A. McDonald (1985)
Tolerance of Sphagnum to water levelJournal of Bryology, 13
J-P Frahm, W Frey (2004)
Moosflora
J. Laine, H. Vasander, R. Laiho (1995)
Long-Term Effects of Water Level Drawdown on the Vegetation of Drained Pine Mires in Southern FinlandJournal of Applied Ecology, 32
B. Robroek, J. Ruijven, M. Schouten, Angela Breeuwer, P. Crushell, F. Berendse, J. Limpens (2009)
Sphagnum re-introduction in degraded peatlands: The effects of aggregation, species identity and water tableBasic and Applied Ecology, 10
P. Crushell, A. Smolders, M. Schouten, J. Roelofs, G. Wirdum (2009)
The origin and development of a minerotrophic soak on an Irish raised bog: an interpretation of depth profiles of hydrochemistry and peat chemistryThe Holocene, 19
B. Wheeler (1996)
Restoration of temperate wetlands.Journal of Ecology, 84
(2008)
Northern peatlands, greenhouse gas exchange and climate change
Angela Breeuwer, M. Heijmans, Maurits Gleichman, B. Robroek, F. Berendse (2009)
Response of Sphagnum species mixtures to increased temperature and nitrogen availabilityPlant Ecology, 204
A. Grootjans, R. Diggelen, J. Bakker (2006)
RESTORATION OF MIRES AND WET GRASSLANDS
(1998)
Peatland Restoration and Reclamation
(2005)
Die Bedeutung Projektbegleitender Erfolgskontrollen bei der Revitalisierung eines Regenmoores durch wasserbauliche Maßnahmen
L. Rochefort, R. Gauthier, D. Lequéré (1995)
Sphagnum regeneration. Toward an optimisation of bog restoration
S. Glatzel, I. Forbrich, C. Krüger, S. Lemke, G. Gerold (2008)
Small scale controls of greenhouse gas release under elevated N deposition rates in a restoring peat bog in NW GermanyBiogeosciences, 5
(1950)
Die ökologische und geographische Determination des Hochmoores als ‘‘Steppe’
E Gorham, JA Janssens (1992)
Concepts of fen and bog reexamined in relation to bryophyte cover and the acidity of surface watersActa Societatis Botanicorum Poloniae, 61
C. Blodau (2002)
Carbon cycling in peatlands A review of processes and controlsEnvironmental Reviews, 10
Kevin Erwin (2009)
Wetlands and global climate change: the role of wetland restoration in a changing worldWetlands Ecology and Management, 17
J Braun-Blanquet (1964)
Pflanzensoziologie
(1849)
Naturgeschichtliche Bemerkungen über das zwischen dem Trebel - und Recknitzthale gelegene Moor
H. Ellenberg, H. Weber, R. Düll, V. Wirth, W. Werner, D. Paulißen (1992)
Zeigerwerte von Pflanzen in Mitteleuropa
N. Breemen (1995)
How Sphagnum bogs down other plants.Trends in Ecology and Evolution, 10
H. Ingram (1978)
SOIL LAYERS IN MIRES: FUNCTION AND TERMINOLOGYEuropean Journal of Soil Science, 29
RS Clymo, PM Hayward (1982)
Bryophyte Ecology
(2003)
Mechanisms behind restoration of small bog ecosystems in a cover sand landscape
J. Bengtsson, T. Fagerström, H. Rydin (1994)
Competition and coexistence in plant communities.Trends in ecology & evolution, 9 7
J. Augustin, W. Merbach, Wilhelm Schmidt, E. Reining (1996)
Effect of changing temperature and water table on trace gas emission from minerotrophic mires, 70
S. Howie, P. Whitfield, R. Hebda, T. Munson, R. Dakin, J. Jeglum (2009)
Water Table and Vegetation Response to Ditch Blocking: Restoration of a Raised Bog in Southwestern British ColumbiaCanadian Water Resources Journal / Revue canadienne des ressources hydriques, 34
(1995)
Re-establishment of a Sphagnum dominated flora on cut-over lowland raised bogs
J. Waddington, L. Rochefort, S. Campeau (2003)
Sphagnum production and decomposition in a restored cutover peatlandWetlands Ecology and Management, 11
(1963)
Zur Durchlässigkeit der Moorböden
E. Gorham, L. Rochefort (2003)
Peatland restoration: A brief assessment with special reference to Sphagnum bogsWetlands Ecology and Management, 11
M. Hiraoka (1982)
Water movement in mirelands: K. E. Ivanov Academic Press, London, 1981, £24.60Advances in Water Resources, 5
N. Roulet (2000)
Peatlands, carbon storage, greenhouse gases, and the Kyoto Protocol: Prospects and significance for CanadaWetlands, 20
(1960)
Über den unterirdischen Abfluß aus Mooren
Dan Thompson, J. Waddington (2008)
Sphagnum under pressure: towards an ecohydrological approach to examining Sphagnum productivityEcohydrology, 1
(1963)
Beitrag zur Entwicklungsgeschichte des Grenztales und seine Beziehung zur Litorinatransgression
A. Smolders, H. Tomassen, M. Mullekom, L. Lamers, J. Roelofs (2003)
Mechanisms involved in the re-establishment of Sphagnum-dominated vegetation in rewetted bog remnantsWetlands Ecology and Management, 11
Axel Precker, M. Krbetschek (1996)
Die Regenmoore Mecklenburg-Vorpommerns-Erste Auswertungen der Untersuchungen zum Regenmoor-Schutzprogramm des Landes Mecklenburg-Vorpommern, 26
H. Rydin (1985)
Effect of water level on desiccation of Sphagnum in relation to surrounding SphagnaOikos, 45
(2001)
Hat Aeshna subarctica ( Walker 1908 ) in Nordostdeutschland eine Überlebenschance ? Die Entwicklung von zweier Vorkommen im Vergleich zum gesamten Bestand in Mecklenburg - Vorpommern
B. Robroek, J. Limpens, Angela Breeuwer, P. Crushell, M. Schouten (2007)
Interspecific competition between Sphagnum mosses at different water tablesFunctional Ecology, 21
(2003)
NSG ‘‘Rauhes Moor’’ im Grenztal
M. Richert, O. Dietrich, D. Koppisch, S. Roth (2000)
The Influence of Rewetting on Vegetation Development and Decomposition in a Degraded FenRestoration Ecology, 8
F. Overbeck, Hilka Happach (1957)
Über das Wachstum und den Wasserhaushalt einiger HochmoorsphagnenFlora oder Allgemeine Botanische Zeitung, 144
R. Lindsay, P. Immirzi (1996)
An inventory of lowland raised bogs in Great Britain
R. Clymo, P. Hayward (1982)
The Ecology of Sphagnum
L. Rochefort, F. Quinty, S. Campeau, Kurt Johnson, T. Malterer (2003)
North American approach to the restoration of Sphagnum dominated peatlandsWetlands Ecology and Management, 11
M Strack, JM Waddington, M Turetsky, NT Roulet, KA Byrne (2008)
Peatlands and climate change
Angela Breeuwer, B. Robroek, J. Limpens, M. Heijmans, M. Schouten, F. Berendse (2009)
Decreased summer water table depth affects peatland vegetationBasic and Applied Ecology, 10
D. Vitt, N. Slack (1984)
Niche diversification of Sphagnum relative to environmental factors in northern Minnesota peatlandsBotany, 62
KE Ivanov (1981)
Water movement in mirelands
L Parkyn, RE Stoneman, HAP Ingram (1997)
Conserving Peatlands
H. Ingram (1982)
Size and shape in raised mire ecosystems: a geophysical modelNature, 297
(1989)
Zustand, Erhaltung und Regeneration der Hochmoore im Hohen Venn (Belgien)
Marcia Famous, Neale Taylor (2005)
Regeneration of Three Sphagnum speciesWetlands Ecology and Management, 13
W. Morgan-Jones (2005)
Characterisation of hydrological protection zones at the margins of designated lowland raised peat bog sites
(1995)
Time to regenerate: long term perspectives of raised-bog regeneration with special emphasis on paleoecological studies
F. Klötzli, A. Grootjans (2001)
Restoration of Natural and Semi‐Natural Wetland Systems in Central Europe: Progress and Predictability of DevelopmentsRestoration Ecology, 9
M Succow, H Joosten (2001)
Landschaftsökologische Moorkunde
H. Höper, J. Augustin, J. Cagampan, M. Drösler, L. Lundin, E. Moors, H. Vasander, J. Waddington, D. Wilson (2008)
Restoration of peatlands and greenhouse gas balances
R. Clymo (1978)
A Model of Peat Bog Growth
J. Pfadenhauer, A. Grootjans (1999)
Wetland restoration in Central Europe: aims and methodsApplied Vegetation Science, 2
G Gaudig, D Kamermann, H Joosten (2007)
Growing media: promises of Sphagnum biomassActa Hortic, 779
(2007)
Moorschutzkonzepte und - programme in Deutschland . Ein historischer und aktueller Überblick
W. Kotowski, R. Diggelen, J. Kleinke (1998)
Behaviour of wetland plant species along a moisture gradient in two geographically distant areas, 47
We investigated the changes of water level and vegetation in a restored cut-over raised bog in response to a hydrological protection zone established around the bog. The restoration began 1997 and techniques involved ditch blocking within and around the bog to stimulate a return to conditions of intact bog ecosystems. In order to monitor the rehabilitation of the raised bog, water levels and vegetation have been recorded since before restoration measures began. The monitoring is ongoing, but an assessment of 15 year’s data (1994–2008) is presented. A hydrological protection zone with continuous high water levels could be established around the raised bog which minimizes the runoff of precipitation. Shortly after the first measures, the water levels increased significantly at all dipwells. Parallel to the increasing water levels a vascular plant species assemblage and a diverse Sphagnum community developed. In particular Sphagnum fimbriatum, S. palustre, S. recurvum and S. squarrosum spread efficiently. The cover of trees decreased significantly because of high water levels and ongoing acidification by Sphagnum spp. The high water levels have stimulated the re-vegetation and the hydrology self-regulation of the acrotelm. The successful regeneration of the acrotelm particularly became apparent in years with below-average precipitations (e.g. 2008), when the water levels in the central parts of the raised bog did not fall back to the low level reached in previous years, which had also remarkably water deficits (e.g. 2003).
Wetlands Ecology and Management – Springer Journals
Published: Feb 5, 2011
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.