Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by Crossref.
Batty, K
Bates, J W
and
Bell, J NB
2003.
A transplant experiment on the factors preventing lichen colonization of oak bark in southeast England under declining SO2 pollution.
Canadian Journal of Botany,
Vol. 81,
Issue. 5,
p.
439.
Jovan, Sarah
and
McCune, Bruce
2004.
Regional Variation in Epiphytic Macrolichen Communities in Northern and Central California Forests.
The Bryologist,
Vol. 107,
Issue. 3,
p.
328.
Jovan, Sarah
and
McCune, Bruce
2005.
AIR-QUALITY BIOINDICATION IN THE GREATER CENTRAL VALLEY OF CALIFORNIA, WITH EPIPHYTIC MACROLICHEN COMMUNITIES.
Ecological Applications,
Vol. 15,
Issue. 5,
p.
1712.
MITCHELL, R.J.
TRUSCOT, A.M.
LEITH, I.D.
CAPE, J.N.
VAN DIJK, N.
TANG, Y.S.
FOWLER, D.
and
SUTTON, M.A.
2005.
A study of the epiphytic communities of Atlantic oak woods along an atmospheric nitrogen deposition gradient.
Journal of Ecology,
Vol. 93,
Issue. 3,
p.
482.
Pirintsos, S.A.
Munzi, S.
Loppi, S.
and
Kotzabasis, K.
2009.
Do polyamines alter the sensitivity of lichens to nitrogen stress?.
Ecotoxicology and Environmental Safety,
Vol. 72,
Issue. 5,
p.
1331.
Zarabska, Daria
2009.
Oak lichens and their use in bioindication studies.
Forest Research Papers,
Vol. 70,
Issue. 4,
p.
419.
Purvis, Ole William
2010.
Ecology of Industrial Pollution.
p.
41.
Aragón, Gregorio
López, Rubén
and
Martínez, Isabel
2010.
Effects of Mediterranean dehesa management on epiphytic lichens.
Science of The Total Environment,
Vol. 409,
Issue. 1,
p.
116.
Ellis, C. J.
and
Yahr, R.
2011.
Climate Change, Ecology and Systematics.
p.
457.
Ellis, Christopher J.
Yahr, Rebecca
and
Coppins, Brian J.
2011.
Archaeobotanical evidence for a massive loss of epiphyte species richness during industrialization in southern England.
Proceedings of the Royal Society B: Biological Sciences,
Vol. 278,
Issue. 1724,
p.
3482.
Ashmore, Mike
2013.
Pollution: Causes, Effects and Control.
p.
268.
Seed, Lindsay
Wolseley, Pat
Gosling, Laura
Davies, Linda
and
Power, Sally A.
2013.
Modelling relationships between lichen bioindicators, air quality and climate on a national scale: Results from the UK OPAL air survey.
Environmental Pollution,
Vol. 182,
Issue. ,
p.
437.
YAHR, Rebecca
COPPINS, Brian J.
and
ELLIS, Christopher J.
2014.
Quantifying the loss of lichen epiphyte diversity from the pre-industrial Exmoor landscape (south-west England).
The Lichenologist,
Vol. 46,
Issue. 5,
p.
711.
Ellis, Christopher J.
Eaton, Sally
Theodoropoulos, Marios
Coppins, Brian J.
Seaward, Mark R.D.
and
Simkin, Janet
2014.
Response of epiphytic lichens to 21st Century climate change and tree disease scenarios.
Biological Conservation,
Vol. 180,
Issue. ,
p.
153.
Ellis, Christopher J.
2015.
Ancient woodland indicators signal the climate change risk for dispersal-limited species.
Ecological Indicators,
Vol. 53,
Issue. ,
p.
106.
GARRIDO-BENAVENT, Isaac
LLOP, Esteve
and
GÓMEZ-BOLEA, Antonio
2015.
The effect of agriculture management and fire on epiphytic lichens on holm oak trees in the eastern Iberian Peninsula.
The Lichenologist,
Vol. 47,
Issue. 1,
p.
59.
Prasad, Nupoor
Semwal, Manoj
and
Roy, P. S.
2015.
Recent Advances in Lichenology.
p.
151.
Sujetovienė, Gintarė
2015.
Recent Advances in Lichenology.
p.
87.
Leuschner, Christoph
and
Ellenberg, Heinz
2017.
Ecology of Central European Forests.
p.
729.
Degtjarenko, Polina
Matos, Paula
Marmor, Liis
Branquinho, Cristina
and
Randlane, Tiina
2018.
Functional traits of epiphytic lichens respond to alkaline dust pollution.
Fungal Ecology,
Vol. 36,
Issue. ,
p.
81.