Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
FARMER, A. M.
BATES, J. W.
and
BELL, J. N. B.
1991.
Seasonal variations in acidic pollutant inputs and their effects on the chemistry of stemflow, bark and epiphyte tissues in three oak* woodlands in N.W. Britain.
New Phytologist,
Vol. 118,
Issue. 3,
p.
441.
Farmer, A. M.
Bates, J. W.
and
Bell, J. N. B.
1991.
Comparisons of three woodland sites in NW Britain differing in richness of the epiphytic Lobarion pulmonariae community and levels of wet acidic deposition.
Ecography,
Vol. 14,
Issue. 2,
p.
85.
Jahns, H. M.
1992.
Progress in Botany.
p.
341.
Nilsson, Sven G.
1992.
Ecological Principles of Nature Conservation.
p.
373.
Nilsson, Sven G.
and
Ericson, Lars
1992.
Ecological Principles of Nature Conservation.
p.
71.
Peterson, Eric B.
and
McCune, B.
2001.
Diversity and succession of epiphytic macrolichen communities in low‐elevation managed conifer forests in Western Oregon.
Journal of Vegetation Science,
Vol. 12,
Issue. 4,
p.
511.
Richardson, David H. S.
and
Cameron, Robert P.
2004.
CYANOLICHENS: THEIR RESPONSE TO POLLUTION AND POSSIBLE MANAGEMENT STRATEGIES FOR THEIR CONSERVATION IN NORTHEASTERN NORTH AMERICA.
Northeastern Naturalist,
Vol. 11,
Issue. 1,
p.
1.
Cameron, Robert P.
Neily, Thomas
and
Richardson, David H. S.
2007.
Macrolichen Indicators of Air Quality for Nova Scotia.
Northeastern Naturalist,
Vol. 14,
Issue. 1,
p.
1.
Hauck, Markus
Jürgens, Sascha-René
Brinkmann, Martin
and
Herminghaus, Stephan
2008.
Surface Hydrophobicity Causes SO2 Tolerance in Lichens.
Annals of Botany,
Vol. 101,
Issue. 4,
p.
531.
Asplund, Johan
Johansson, Otilia
Nybakken, Line
Palmqvist, Kristin
and
Gauslaa, Yngvar
2010.
Simulated nitrogen deposition influences gastropod grazing in lichens.
Écoscience,
Vol. 17,
Issue. 1,
p.
83.
Asplund, Johan
Larsson, Per
Vatne, Steinar
and
Gauslaa, Yngvar
2010.
Gastropod grazing shapes the vertical distribution of epiphytic lichens in forest canopies.
Journal of Ecology,
Vol. 98,
Issue. 1,
p.
218.
Campbell, Jocelyn
Bengtson, Per
Fredeen, Arthur L.
Coxson, Darwyn S.
and
Prescott, Cindy E.
2013.
Does exogenous carbon extend the realized niche of canopy lichens? Evidence from sub‐boreal forests in British Columbia.
Ecology,
Vol. 94,
Issue. 5,
p.
1186.
Moore, O.
and
Crawley, M. J.
2014.
Effects of red deer exclusion on the corticolous and terricolous cryptogam community of Atlantic woodland.
Forestry: An International Journal of Forest Research,
Vol. 87,
Issue. 5,
p.
618.
Merinero, Sonia
Rubio‐Salcedo, Marta
Aragón, Gregorio
and
Martínez, Isabel
2014.
Environmental factors that drive the distribution and abundance of a threatened cyanolichen in Southern Europe: A multi‐scale approach.
American Journal of Botany,
Vol. 101,
Issue. 11,
p.
1876.
Prieto, Maria
Romera, Lidia
Merinero, Sonia
Aragón, Gregorio
and
Martínez, Isabel
2015.
Development and characterization of fungal specific microsatellite markers in the lichenLobarina scrobiculata(Lobariaceae, Ascomycota).
The Lichenologist,
Vol. 47,
Issue. 3,
p.
183.
Pykälä, Juha
2019.
Habitat loss and deterioration explain the disappearance of populations of threatened vascular plants, bryophytes and lichens in a hemiboreal landscape.
Global Ecology and Conservation,
Vol. 18,
Issue. ,
p.
e00610.
Lewis, Christopher J.
2020.
CHECKLIST OF THE LICHENS AND ALLIED FUNGI OF FRONTENAC PROVINCIAL PARK, ONTARIO.
Rhodora,
Vol. 121,
Issue. 988,
p.
248.
Gauslaa, Yngvar
Mikulec, Maja Maslać
and
Solhaug, Knut Asbjørn
2021.
Short-term growth experiments – A tool for quantifying lichen fitness across different mineral settings.
Flora,
Vol. 282,
Issue. ,
p.
151900.