Poznámky redaktora
Depositionofatmosphericpollutantsonforests., Clarke, P., MIKKELSEN,T. 34, 855–869., 2013.
JOHNSTON, K. 63–70. Environmental
Pollution, Vol.,TIAN, H.
HOLLAND, A. Philosophical Transactions the Royal
Society Biological Sciences, Vol.
MÄÄTTÄ, A., HLAVATÝ, E. 23, 1603–1616.
HŮNOVÁ, I., ERISMAN, W., 2008., 2013. Detection tem-
poral trends atmospheric deposition inorganic nitrogen
and sulphate forests Europe., KRIVORUCHKO, K.
LÜ, C., MARCHETTO, A.-D.): Climate Change, Air Pollution and Global Challenges. Key Indicators Air Pollution
and Climate Change Impacts Forest Supersites. Atmospheric transport and deposition
of reactive nitrogen Europe. Philosophical Transactions the Royal Society
B: Biological Sciences, Vol., CAI, al. 93, 3–100.
MARŠÁK, J.
Environmental Pollution, Vol. 22,
s. Transformation the
nitrogen cycle: recent trends, questions and potential solu-
tions. Nitrogen and Climate Change., LUO, Y. RNDr.,
BUTTERBACH BAHL, al., HOWARTH, al., 1989., NEMITZ, E.Amsterdam:
Elsevier.,ZHANG,M., LUCAS,
N. 95, 363–374.,
2002.
FOWLER, D., KRAFT, P. 368, 20130165.
Atmospheric Chemistry and Physics, Vol., 2015., SHAW, R., ERISMAN, W. 320, 889–892., DRAGOSITS, U.
REIS,S.
HŮNOVÁ, I.
Edinburgh: Centre for Ecology and Hydrology. Integrovaný registr znečišťování životního
prostředí. Publication Air Quality, No.,
FIELD, 2003., VER-
HOEVEN, A., COŇKOVÁ, M., 2004., SCHNOOR, L., 2002., THIMONIER, A.
PAOLETTI, E.V. 38, 887–898.
VAN DEN BERG, L.,VER HOEF, J., SULZMAN, J., BARTNICKI, J.
PAULISSEN, C. 18., SCHLESINGER,W. New York: Oxford University Press.,
BOYER, W. 368, 20130126. Praha: MŽP., SHEPPARD, J. Praha: Ministerstvo zemědělství ČR.,SUTTON,M. Human impacts atmospheric precipita-
tion protected area Western Poland.,
SMART, M.
Global Biogeochemical Cycles, Vol. Oslo: Meteorologisk Instittut, EMEP/MSC-W., 2016. 15, 38–57. Nitrogen Deposition onto the United
States and Western Europe: Synthesis Observations and
Models. Pavel Sedlák, CSc., ARTZ, S.
WALDNER, P. 31. Spatial and temporal patterns nitrogen
deposition China: Synthesis observational data. 2008. 70,
s., LAMA-
RQUE, J., 2010., 2013., CAPONE, G., KURFÜRST, P. Introduction
to Applied Geostatistics., SKIBA, M. Helsinki: Finnish Meteorological Institute. Contribution occult precipitation sulphur deposi-
tion the Czech Republic. 150, 125–139.
MAZNOVÁ, J., 1989. Environmental Pollution, Vol. Zpráva stavu lesa lesního hospodářství České
republiky roce 2014. Am-
bient Air Quality and Deposition Trends Rural Stations
in the Czech Republic during 1993−2001. 426–435.,
2011.
MZe ČR, 2015. The Nitrogen Cycle
and its Influence the European Greenhouse Gas Balance. Excel template for calculation trends statistics of
annual time series., 1993.,
2009.
ISSAKS, H.W. 65, 247–259. Evidence for dif-
ferential effects reduced and oxidized nitrogen deposition
on vegetation independent nitrogen load. Erdkunde, Vol.
VET, R.
SAPEK, A.,
BEKUNDA, M., CAPE, N.,PINDER,R. Processes regulating nitric oxide emis-
sions from soils., 2004. Nitrogen
cycles: past, present, and future., MICHAELIS,A. Cambridge: Cambridge
University Press, 298–316., DUKES, S., SHAW, M., 2007., BRASWELL, H. Detecting trends annual values atmos-
pheric pollutants Mann-Kendall test and Sen´s slope esti-
mates., 2005.
Lektoři (Reviewers): prof. 302, 1512–1513., ANTTILA, P. The global nitrogen cycle the twenty-first century:
introduction., KURFÜRST, P. 63, 91–98. Environmental Pollution, Vol.A. 7657–7677.
LORENZ, M., RO, CH. Using ArcGIS Geostatistical Analyst., GRANKE, O.
Atmospheric Pollution Research, Vol. Souhrnná
zpráva rok 2013.
LOVETT, M. Science,
Vol.
(eds.
SUTTON, A. Ammonia Emissions from Non-Agricultural
Sources., 2014. Results long-
term observations: Concentrations, deposition and trends., RAVEN, A., 2014.
TOLASZ, al. 255 ISBN 978-80-86690-
26-1 (ČHMU).
GALLOWAY, N., BUJALSKÝ, L.13.,LIJIE,G. Praha: ČHMÚ,
Olomouc: Univerzita Palackého. S.114 Meteorologické Zprávy, 69, 2016
FOWLER, D., SUTTON, A.
Critical loads and their exceedances intensive forest moni-
toring sites Europe.A.-F. Effects reduced and oxidised
nitrogen rich-fen mosses: 4-year field experiment., Cudlín, P., IBROM,A., CAROU, S. 112, D22S05., NAGEL, H., BEIER, C. Atmospheric
Environment, Vol., FOWLER, D. 235–252.N.
HUNGATE, A., 2007. (Eds),
The European Nitrogen Assessment.
GALLOWAY, N. Meteo-
rologické zprávy, roč. 155,
s. Assessing the effect integrating eleva-
tion data into the estimation monthly precipitation Great
Britain. Reactive nitrogen atmospheric emission inventories. 247–265. N., BOBBINK, R.
SUTTON, A.
SIMPSON, D., RUOHO-AIROLA, T., MAZNOVÁ, J., BERGE, H.
WALNA, B.
Transboundary air pollution main pollutants (S, O3) and
PM 2010., UNSWORTH, H. In: Maty-
ssek, R., BOBBINK, al. Journal Hydrology, Vol. Science, Vol., ROBAT, A., ROGORA, al. In: Sutton, M.
. Polish Journal Environmental Studies, Vol., Tuovinen, J-P.
SUTTON, A. Nitrogen fix-
ation: anthropogenic enhancement environmental response. Challenges quan-
tifying biosphere-atmosphere exchange nitrogen species. Trendy atmosférické depoz-
ice síry, dusíku vodíkových iontů České republice., BEIER, C., 2007. Redlands:
Environmental Systems Research Institute. Helsinki: Finnish
Meteorological Institute., TOWNSEND, R. 778–787.
SALMI, T.,
LARSEN, al., DENTENER, J. 324,
s., NEMITZ, E.
PILEGAARD, K. ISSN 0026-1173., Mikkelsen, T., LEVY, H.
Canadian Journal Forest Research, Vol. Water,
Air and Soil Pollution, Vol.
LLOYD, D., TANG,Y. H. Ecological Applications, Vol., DEVRIES,W., OSTATNICKÁ, J.
DevelopmentsinEnvironmentalSciences,Vol. 184, 668–675. ISBN 978-80-244-1626-7 (UP).,
RNDr., 2014., 2001., HŮNOVÁ, I. Biogeochemistry, Vol. Jan Bednář, CSc.,
BUTTERBACH BAHL, al. Atmospheric
Deposition and Canopy Interactions Nitrogen Forests.,
2013. 153–226.
HŮNOVÁ, I., BLEE-
KER, al., AAS, W.,
SCHMITT, M. Atlas podnebí Česka.
GAUSS, M. Trends
in atmospheric deposition fluxes sulphur and nitrogen in
Czech forests. Atmospheric
Environment, Vol., SALMI, T., NYÍRI, STEENSEN, M., KLEIN, H., 2011., 2013.-U., 2016., PYLE, A., 1995., 2005. 227, No., MAZNOVÁ, J. global assessment precipitation chemistry
and deposition sulphur, nitrogen, sea salt, base cations,
organic acids, acidity and pH, and phosphorus., ŠANTROCH, J.,
2000., 2012. 308, 128–150.
et al., JONES, L. Journal
of Geophysical Research, Vol. Ammonia emissions from non-agricultural sources in
the Atmospheric Environment, Vol., 2011., LINDBERG, E. Atmospheric Environment,
Vol.Philosophical
Transactions the Royal Society London Vol., SRIVASTAVA, M. al.
GALLOWAY, N., LEVY
II, V. 208, 890–897
