[Adams K.L. (1990): Proposal for a 5-km2 mapping scheme for eastern England. – Bulletin of the British Bryological Society 55: 14-17.]Search in Google Scholar
[Adams K.L. & Preston C.D. (1992): Evidence for the effects of atmospheric pollution on bryophytes from national and local recording. In: Harding P.T. (ed.): Biological recording of changes in British wildlife, pp. 31-43, HMSO, London.]Search in Google Scholar
[Barkman J.J. (1958): Phytososiology and ecology of cryptogamic epiphytes. Van Gorcum, Assen.]Search in Google Scholar
[Basile A., Giordano S., Spagnuolo V., Alfano F. & Castaldo Cobianchi R. (1995): Effect of lead and colchicine on morphogenesis in protonemata of the moss Funaria hygrometrica. – Annals of Botany 76: 597-606.10.1006/anbo.1995.1137]Search in Google Scholar
[Bates J.W. (2008): Mineral nutrition and substratum ecology. In: Goffinet B. & Shaw A.J. (eds): Bryophyte biology; second edition, pp. 299-356, Cambridge University Press, Cambridge.10.1017/CBO9780511754807.009]Search in Google Scholar
[Bates J.W., Bell J.N.B. & Massara A.C. (2001): Loss of Lecanora conizaeoides and other fluctuations of epiphytes on oak in S.E. England over 21 years with declining SO2 concentrations. – Atmospheric Environment 35: 2557-2568.10.1016/S1352-2310(00)00402-7]Search in Google Scholar
[Bates J.W., Roy D.B. & Preston C.D. (2004): Occurrence of epiphytic bryophytes in a „tetrad” transect across southern Britain. 2. Analysis and modelling of epiphyte-environmental relationships. – Journal of Bryology 26: 181-197.10.1179/037366804X5288]Search in Google Scholar
[Bergkvist B., Folkeson L. & Berggren D. (1989): Fluxes of Cu, Zn, Pb, Cd, Cr, and Ni in temperate forest ecosystems. – Water, Air and Soil Pollution 47: 217-286.10.1007/BF00279328]Search in Google Scholar
[Brown D.H. (1982): Mineral nutrition. In: Smith A.J.E. (ed.): Bryophyte ecology, pp. 383-444, Chapman & Hall, London.10.1007/978-94-009-5891-3_11]Search in Google Scholar
[Brys T., Caputa Z., Wibigl J., Brys K. & Fortuniak K. (2003): Humidity gradients in urban environments on the example of Wroclaw, Sosnowiec and Lodz. In: Kłysik K., Oke T.R., Fortuniak K., Grimmond C.S.B. & Wibig J. (eds): Fifth International Conference on Urban Climate, 1-5 September 2003, Proceedings, 1: 41-45, Łódź, Poland.]Search in Google Scholar
[Degórska A., Gendolla T., Iwanek J., Karska L., Kobus D., Liana E., Mitosek G., Śnieżek T. & Toczko B. (2011): Zanieczyszczenie powietrza w Polsce w 2009 roku na tle wielolecia. Biblioteka Monitoringu Środowiska (Air pollution in Poland in 2009 against a background of last years). Inspekcja Ochrony Środowiska, Warszawa.]Search in Google Scholar
[Dudek S., Kuśmierek R. & Żarski J. (2008): Porównanie wybranych elementów meteorologicznych w Bydgoszczy i jej okolicy (Comparison of some meteorological factors in Bydgoszcz and surroundings). – Przegląd Naukowy Inżynieria i Kształtowanie Środowiska 18(1): 35-41.]Search in Google Scholar
[During H.J. (1992): Endangered bryophytes in Europe. – Tree 7.8: 253-255.10.1016/0169-5347(92)90169-C]Search in Google Scholar
[Dymytrova L. (2009): Epiphytic lichens and bryophytes as indicators of air pollution in Kyiv city (Ukraine). – Folia Cryptogamica Estonica 46: 33-44.]Search in Google Scholar
[Farmer A.M., Bates J.W. & Bell J.N.B. (1991): Seasonal variation in acidic pollutant inputs and their effects on the chemistry of stemflow, bark and epiphyte tissues in three oak (Quercus petraea) woodlands in N.W. Britain. – New Phytologist 118: 441-451.10.1111/j.1469-8137.1991.tb00026.x]Search in Google Scholar
[Fojcik B. (2011): Mosses of the Cracow-Częstochowa Upland in relations to anthropogenic transformations of the plant cover. Wydawnictwo Uniwersytetu Śląskiego, Katowice.]Search in Google Scholar
[Fojcik B. & Stebel A. (2001): Ecological and spatial structure of bryoflora of Katowice town. – Materiały Opracowania 5: 1-128. Centrum Dziedzictwa Przyrody Górnego Śląska, Katowice.]Search in Google Scholar
[Fudali E. (2011): Zmiany zachodzące współcześnie w brioflorze miast – na przykładzie parków Wrocławia (obserwacje z lat 2000, 2006 i 2011) (Contemporary changes in urban bryophytes; a case study of Wrocław parks carried out in 2000, 2006 and 2011). – Acta Botanica Silesiaca 6: 81-95.]Search in Google Scholar
[Fudali E. (2012): Recent tendencies in distribution of epiphytic bryophytes in urban areas: a Wrocław case study (South-West Poland). – Polish Botanical Journal 57(1): 231-241.]Search in Google Scholar
[Gilbert O.L. (1968): Bryophytes as indicators of air pollution in the Tyne Valley. – New Phytologist 67: 15-30.10.1111/j.1469-8137.1968.tb05450.x]Search in Google Scholar
[Gilbert O.L. (1969): The effect of SO2 on lichen and bryophytes around Newcastle upon Tyne. Air Pollution Proceedings of the first European Congress on the Influence of Air Pollution on Plants and Animals, pp. 223-235, Wageningen, Pudoc.]Search in Google Scholar
[Giordano S., Sorbo S., Adamo P., Basile A., Spagnuolo V. & Cobianchi R.C. (2004): Biodiversity and trace element content of epiphytic bryophytes in urban and extraurban sites of southern Italy. – Plant Ecology 170: 1-14.10.1023/B:VEGE.0000019025.36121.5d]Search in Google Scholar
[Glime J.M. (2007): Bryophyta Ecology. Volume 1. Physiological ecology. Ebook sponsored by Michigan Technological University and the International Association of Bryologist. Accessed on 14.05.2013. http://www.bryoecol.mtu.edu]Search in Google Scholar
[Govindapyari H., Leleeka M., Nivedita M. & Uniyal P.L. (2010): Bryophytes: indicators and monitoring agents of pollution. – NeBIO 1(1): 35-41.]Search in Google Scholar
[Gunn J., Keller W., Negusanti J., Potvin R., Beckett P. & Winterhalder K. (1995): Ecosystem recovery after emission reductions: Sudbury, Canada. – Water, Air and Soil Pollution 85: 1783-1788.10.1007/BF00477238]Search in Google Scholar
[Hallingbäck T. (1992): The effect of air pollution on mosses in southern Sweden. – Biological Conservation 59: 163-170.10.1016/0006-3207(92)90577-A]Search in Google Scholar
[Hazell P., Kellner O., Rydin H. & Gustafsson L. (1998): Presence and abundance of four epiphytic bryophytes in relation to density of aspen Populus tremula and other stand characteristics. – Forest Ecology and Management 107: 147-158.10.1016/S0378-1127(97)00330-7]Search in Google Scholar
[Kabata-Pendias A. & Pendias H. (1999): Pierwiastki śladowe w środowisku naturalnym (Trace elements in natural environment). Wydawnictwa Geologiczne, Warszawa.]Search in Google Scholar
[Kratzer A. (1937): Das Stadtklima. – Die Wissenschaft 90: 143.]Search in Google Scholar
[Krupińska I. (1976): Influence of lead tetraethyl on the growth of Funaria hygrometrica L. and Marchantia polymorpha L. – Acta Societatis Botanicorum Poloniae 45: 421-432.10.5586/4991]Search in Google Scholar
[Krzesłowska M., Pustelnik L. & Woźny A. (1994): Differentiated lead-induced inhibition of growth rate of Funaria hygrometrica Hedw. protonema. – Bulletin de la Société des Amis des Sciences et des Lettres de Poznan 30: 33-36.]Search in Google Scholar
[LeBlanc F. & De Sloover J. (1970): Relations between industrialization and the distribution and growth of epiphytic lichens and mosses in Montreal. – Canadian Journal of Botany 48: 1485-1496.10.1139/b70-224]Search in Google Scholar
[Longton R.E. (1997): Reproductive biology and life-history strategies. – Advances in Bryology 6: 65-101.]Search in Google Scholar
[Phillips E.A. (1951): The associations of bark-inhabiting bryophytes in Michigan. – Ecological Monographs 21: 301-316.10.2307/1948653]Search in Google Scholar
[Poikolainen J. (2004): Mosses, epiphytic lichens and tree bark as biomonitors for air pollutants – specifically for heavy metals in regional surveys. Oulu University Press, Oulu.]Search in Google Scholar
[Proctor M.C.F. & Tuba Z. (2002): Poikilohydry and homoihydry: antithesis or spectrum of possibilities. – New Phytologist 156: 327-349.10.1046/j.1469-8137.2002.00526.x]Search in Google Scholar
[Rao D.N. (1982): Responses of bryophytes to air pollution. In: Smith A.J.E. (ed.): Bryophyte ecology, pp. 445-571, Chapman & Hall, London – New York.10.1007/978-94-009-5891-3_12]Search in Google Scholar
[Robitaille G., LeBlanc F. & Rao D.N. (1977): Acid rain: a factor contributing to the paucity of epiphytic cryptogams in the vicinity of a copper smelter. – Revue Bryologique et Lichenologique 43: 53-66.]Search in Google Scholar
[Rose F. (1992): Temperate forest management: its effect on bryophyte and lichen floras and habitats. – In: Bates J.W. & Farmer A.M. (eds): Bryophytes and lichens in a changing environment, pp. 211-233, Clarendon Press, Oxford.]Search in Google Scholar
[Rydzak J. (1958): Influence of small towns on the lichen vegetation. Part VII. Discussion and general conclusions. – Annales Universitatis Mariae Curie-Skłodowska, sect. C 13: 275.]Search in Google Scholar
[Seaward H.R.D. (1979): Lower plants and the urban landscape. – Urban Ecology 4: 217-225.10.1016/0304-4009(79)90003-2]Search in Google Scholar
[Shaw J., Antonovics J. & Anderson L.E. (1987): Inter- and intraspecific variation of mosses in tolerance to copper and zinc. – Evolution 41(6): 1312-1325.]Search in Google Scholar
[Smith A.J.E. (1982): Epiphytes and epiliths. In: Smith A.J.E. (ed.): Bryophyte ecology, pp. 191-227, London, Chapman & Hall.10.1007/978-94-009-5891-3_7]Search in Google Scholar
[Stapper N.J., Franzen I., Gohrband S. & Frahm J.-P. (2000): Epiphyten kehren ins Ruhrgebiet zurück. Ergebnisse einer Moos- und Flechtenkartierung im Revier. – LÖBF-Mitteilungen 2: 12-21.]Search in Google Scholar
[Stebel A. (2010): Rediscovery of Orthotrichum rogeri Brid. (Bryophyta) in Poland. – Opole Scientific Society Nature Journal 43: 23-27.]Search in Google Scholar
[Vanderpoorten A. (1997): A bryological survey of the Brussels Capital Region (Belgium). – Scripta Botanica Belgica 14: 1-83.]Search in Google Scholar
[Vanderpoorten A. & Engels P. (2002): The effects of environmental variation on bryophytes at a regional scale. – Ecography 25: 513-522.10.1034/j.1600-0587.2002.250501.x]Search in Google Scholar
[Wiklund K. & Rydin H. (2004): Ecophysiological constrains on spore establishment in bryophytes. – Functional Ecology 18: 907-913.10.1111/j.0269-8463.2004.00906.x]Search in Google Scholar
[Zechmeister H.G. & Hohenwallner D. (2006): A comparison of biomonitoring methods for the estimation of atmospheric pollutants in an industrial town in Austria. – Environmental Monitoring and Assessment 117: 245-259.10.1007/s10661-006-0991-y16917710]Search in Google Scholar
[Zot G. & Vollrath B. (2003): The epiphyte vegetation of the palm Socratea exorrhiza – correlations with tree size, tree age and bryophyte cover. – Journal of Tropical Ecology 19: 81-90.10.1017/S0266467403003092]Search in Google Scholar