Håkan Rydin
Håkan Rydin
Bestätigte E-Mail-Adresse bei ebc.uu.se - Startseite
Zitiert von
Zitiert von
The biology of peatlands, 2e
H Rydin, JK Jeglum, KD Bennett
Oxford university press, 2013
Peatlands and the carbon cycle: from local processes to global implications–a synthesis
J Limpens, F Berendse, C Blodau, JG Canadell, C Freeman, J Holden, ...
Biogeosciences 5 (5), 1475-1491, 2008
Atmospheric nitrogen deposition promotes carbon loss from peat bogs
L Bragazza, C Freeman, T Jones, H Rydin, J Limpens, N Fenner, T Ellis, ...
Proceedings of the National Academy of Sciences 103 (51), 19386-19389, 2006
Raised atmospheric CO2 levels and increased N deposition cause shifts in plant species composition and production in Sphagnum bogs
F Berendse, N Van Breemen, HÅ Rydin, A Buttler, M Heijmans, ...
Global Change Biology 7 (5), 591-598, 2001
Competition and coexistence in plant communities
J Bengtsson, T Fagerström, H Rydin
Trends in Ecology & Evolution 9 (7), 246-250, 1994
Spatial occurrence and colonisations in patch‐tracking metapopulations: local conditions versus dispersal
T Snäll, PJ Ribeiro Jr, H Rydin
Oikos 103 (3), 566-578, 2003
Response of photosynthesis of Sphagnum species from contrasting microhabitats to tissue water content and repeated desiccation
B Schipperges, H Rydin
New Phytologist 140 (4), 677-684, 1998
Nitrogen fertilization reduces Sphagnum production in bog communities
U Gunnarsson, H Rydin
New phytologist 147 (3), 527-537, 2000
Nutritional constraints in ombrotrophic Sphagnum plants under increasing atmospheric nitrogen deposition in Europe
L Bragazza, T Tahvanainen, L Kutnar, H Rydin, J Limpens, M Hájek, ...
New Phytologist 163 (3), 609-616, 2004
Effect of water level on desiccation of Sphagnum in relation to surrounding Sphagna
H Rydin
Oikos, 374-379, 1985
Nitrogen concentration and δ15N signature of ombrotrophic Sphagnum mosses at different N deposition levels in Europe
L Bragazza, J Limpens, R Gerdol, P Grosvernier, M Hájek, T Hájek, ...
Global Change Biology 11 (1), 106-114, 2005
Dynamics or constancy in Sphagnum dominated mire ecosystems? A 40‐year study
U Gunnarsson, N Malmer, H Rydin
Ecography 25 (6), 685-704, 2002
Colonization–extinction dynamics of an epiphyte metapopulation in a dynamic landscape
T Snäll, J Ehrlén, H Rydin
Ecology 86 (1), 106-115, 2005
Tolerance of Sphagnum to water level
H Rydin, AJS McDonald
Journal of Bryology 13 (4), 571-578, 1985
Transport of carbon and phosphorus compounds about Sphagnum
H Rydin, RS Clymo
Proceedings of the Royal Society of London. B. Biological Sciences 237 (1286 …, 1989
Species richness patterns and metapopulation processes–evidence from epiphyte communities in boreo‐nemoral forests
S Löbel, T Snäll, H Rydin
Ecography 29 (2), 169-182, 2006
Metapopulation processes in epiphytes inferred from patterns of regional distribution and local abundance in fragmented forest landscapes
S Löbel, T Snäll, H Rydin
Journal of Ecology 94 (4), 856-868, 2006
Competition and niche separation in Sphagnum
H Rydin
Canadian Journal of Botany 64 (8), 1817-1824, 1986
Mechanisms of interactions among Sphagnum species along water-level gradients
H Rydin
Adv Bryol 5, 153-185, 1993
7. Mires
H Rydin, H Sjörs, M Löfroth
Swedish Plant Geography, Acta Phytogeographica Suecica. Svenska …, 1999
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