Scots Pine Needles as Bioindicators in Determining the Aerial Distribution Pattern of Sulphur Emissions around Industrial Plants
In this study, the Scots pine (Pinus sylvestris L.) C
needles (i.e. the current-year-needles) were used as bioindicators in
determining the aerial distribution pattern of sulphur emissions
around industrial point sources at Kemi, Northern Finland. The
average sulphur concentration in the C needles was 897 mg/kg
(d.w.), with a standard deviation of 118 mg/kg (d.w.) and range 740 –
1350 mg/kg (d.w.). According to results in this study, Scots pine
needles (Pinus sylvestris L.) appear to be an ideal bioindicators for
identifying atmospheric sulphur pollution derived from industrial
plants and can complement the information provided by plant
mapping studies around industrial plants.
[1] J. Poikolainen, "Mosses, epiphytic lichens and tree bark as biomonitors
for air pollutants - specifically for heavy metals in regional surveys,"
Doctoral Thesis. Acta Universitatis Ouluensis, A 421. Oulu University
Press, Oulu, Finland, 2004.
[2] K. Ots, and V. Reisner, "Scots pine (Pinus sylvestris L.) and its habitat in
Muraka bog under the influence of wastes from the Narva power plants
(North-East Estonia)," Proc. Estonian Acad. Sci. Biol. Ecol., vol. 55, pp.
137-148, 2006.
[3] P. Rautio, and S. Huttunen, "Total vs. internal element concentrations in
Scots pine needles along a sulphur and metal pollution," Environ.
Pollut., vol. 122, pp. 273-289, 2003.
[4] A. Laamanen, and R. Lahdes, "Observations on sulphur content of pine
needles from the environment of point and area sources," Work Environ.
Health, vol. 6, pp. 41-43, 1969.
[5] R. Pöykiö, H. Nurmesniemi, V.A. Kivilinna, and J. Hietala, "Long-term
changes in sulphur concentrations in Scots pine (Pinus sylvestris L.)
needles in the area around pulp and paper mills at Kemi, Northern
Finland," J. Int. Environmental Application & Science, vol. 5, pp. 9-16,
2010.
[6] R. Pöykiö, V.A. Kivilinna, and H. Nurmesniemi, "Pine needles (Pinus
sylvestris L.) as a bioindicator of sodium and calcium deposition in the
area around pulp and paper mills at Kemi, Northern Finland," Chemija,
vol. 21, pp. 42-47, 2010.
[7] R. Pöykiö, and H. Torvela, "Pine needles (Pinus sylvestris L.) as a
bioindicator of sulphur and heavy metal deposition in the area around a
pulp and paper mill complex at Kemi, Northern Finland." Inter. J.
Environ. Anal. Chem., vol. 79, pp. 143-154, 2001.
[8] A. Tammilehto, S. Hamari, "Männynneulasten rikkipitoisuus- ja
vaurioselvitys Kemissä ja Keminmaassa vuonna 2009", Lapin
Vesitutkimus Oy, 2009 (in Finnish).
[9] R. C. Eagan, P. V. Hobbs, and L. F. Radke, "Particle emissions from a
large kraft paper mill and their effects on the microstructure of warm
clouds", J. Appl. Meteorol., vol. 13, pp. 535-552, 1974.
[10] J. C.M. Bordado, and J. F.P. Gomes, "Atmospheric emissions of kraft
pulp mills", Chem. Eng. Proc., vol. 41, pp. 667-671, 2002.
[11] A. Tohka, and N. Karvosenoja, "Final particle emissions and emission
reduction potential in Finnish industrial processes", Report of Finnish
Institute 21/2006. Edita Prima Ltd., Helsinki, 2006.
[12] A. J. Lindroos, J. Derome, K. Derome, and M. Lindgren, "Trends in
sulphate deposition on the forest and forest floor and defoliation degree
in 16 intensively studied forest stands in Finland during 1996-2003,"
Boreal Env. Res., vol. 11, pp. 451-461, 2006.
[13] R. Pöykiö, H. Nurmesniemi, J. Hietala, P. Parvinen, P. Per├ñm├ñki, and K.
Wieczorek-Ciurowa, "Scots pine (Pinus sylvestris L.) needles as
bioindicators in determining the distribution pattern of aerial sulphur
emissions from industrial plants at Kemi, Northern Finland," 15th
International Conference on Heavy Metals in the Environment. 19 -
23th September 2010, Gdansk, Poland, Proceedings, pp. 972-974, 2010.
[14] J. L. Innes, "Influence of air pollution on the foliar nutrition of conifers
in Great Britain", Environ. Pollut., vol. 88, pp. 183-192, 1995.
[15] P. Rautio, S. Huttunen, and J. Lamppu, "Seasonal foliar chemistry of
Northern Scots pines under sulphur and heavy metal pollution,"
Chemosphere, vol. 37, pp. 271-287, 1998.
[1] J. Poikolainen, "Mosses, epiphytic lichens and tree bark as biomonitors
for air pollutants - specifically for heavy metals in regional surveys,"
Doctoral Thesis. Acta Universitatis Ouluensis, A 421. Oulu University
Press, Oulu, Finland, 2004.
[2] K. Ots, and V. Reisner, "Scots pine (Pinus sylvestris L.) and its habitat in
Muraka bog under the influence of wastes from the Narva power plants
(North-East Estonia)," Proc. Estonian Acad. Sci. Biol. Ecol., vol. 55, pp.
137-148, 2006.
[3] P. Rautio, and S. Huttunen, "Total vs. internal element concentrations in
Scots pine needles along a sulphur and metal pollution," Environ.
Pollut., vol. 122, pp. 273-289, 2003.
[4] A. Laamanen, and R. Lahdes, "Observations on sulphur content of pine
needles from the environment of point and area sources," Work Environ.
Health, vol. 6, pp. 41-43, 1969.
[5] R. Pöykiö, H. Nurmesniemi, V.A. Kivilinna, and J. Hietala, "Long-term
changes in sulphur concentrations in Scots pine (Pinus sylvestris L.)
needles in the area around pulp and paper mills at Kemi, Northern
Finland," J. Int. Environmental Application & Science, vol. 5, pp. 9-16,
2010.
[6] R. Pöykiö, V.A. Kivilinna, and H. Nurmesniemi, "Pine needles (Pinus
sylvestris L.) as a bioindicator of sodium and calcium deposition in the
area around pulp and paper mills at Kemi, Northern Finland," Chemija,
vol. 21, pp. 42-47, 2010.
[7] R. Pöykiö, and H. Torvela, "Pine needles (Pinus sylvestris L.) as a
bioindicator of sulphur and heavy metal deposition in the area around a
pulp and paper mill complex at Kemi, Northern Finland." Inter. J.
Environ. Anal. Chem., vol. 79, pp. 143-154, 2001.
[8] A. Tammilehto, S. Hamari, "Männynneulasten rikkipitoisuus- ja
vaurioselvitys Kemissä ja Keminmaassa vuonna 2009", Lapin
Vesitutkimus Oy, 2009 (in Finnish).
[9] R. C. Eagan, P. V. Hobbs, and L. F. Radke, "Particle emissions from a
large kraft paper mill and their effects on the microstructure of warm
clouds", J. Appl. Meteorol., vol. 13, pp. 535-552, 1974.
[10] J. C.M. Bordado, and J. F.P. Gomes, "Atmospheric emissions of kraft
pulp mills", Chem. Eng. Proc., vol. 41, pp. 667-671, 2002.
[11] A. Tohka, and N. Karvosenoja, "Final particle emissions and emission
reduction potential in Finnish industrial processes", Report of Finnish
Institute 21/2006. Edita Prima Ltd., Helsinki, 2006.
[12] A. J. Lindroos, J. Derome, K. Derome, and M. Lindgren, "Trends in
sulphate deposition on the forest and forest floor and defoliation degree
in 16 intensively studied forest stands in Finland during 1996-2003,"
Boreal Env. Res., vol. 11, pp. 451-461, 2006.
[13] R. Pöykiö, H. Nurmesniemi, J. Hietala, P. Parvinen, P. Per├ñm├ñki, and K.
Wieczorek-Ciurowa, "Scots pine (Pinus sylvestris L.) needles as
bioindicators in determining the distribution pattern of aerial sulphur
emissions from industrial plants at Kemi, Northern Finland," 15th
International Conference on Heavy Metals in the Environment. 19 -
23th September 2010, Gdansk, Poland, Proceedings, pp. 972-974, 2010.
[14] J. L. Innes, "Influence of air pollution on the foliar nutrition of conifers
in Great Britain", Environ. Pollut., vol. 88, pp. 183-192, 1995.
[15] P. Rautio, S. Huttunen, and J. Lamppu, "Seasonal foliar chemistry of
Northern Scots pines under sulphur and heavy metal pollution,"
Chemosphere, vol. 37, pp. 271-287, 1998.
@article{"International Journal of Earth, Energy and Environmental Sciences:59311", author = "Risto Pöykiö and Jari Hietala and Hannu Nurmesniemi", title = "Scots Pine Needles as Bioindicators in Determining the Aerial Distribution Pattern of Sulphur Emissions around Industrial Plants", abstract = "In this study, the Scots pine (Pinus sylvestris L.) C
needles (i.e. the current-year-needles) were used as bioindicators in
determining the aerial distribution pattern of sulphur emissions
around industrial point sources at Kemi, Northern Finland. The
average sulphur concentration in the C needles was 897 mg/kg
(d.w.), with a standard deviation of 118 mg/kg (d.w.) and range 740 –
1350 mg/kg (d.w.). According to results in this study, Scots pine
needles (Pinus sylvestris L.) appear to be an ideal bioindicators for
identifying atmospheric sulphur pollution derived from industrial
plants and can complement the information provided by plant
mapping studies around industrial plants.", keywords = "Emission, Sulphur, Scots Pine, Pinus sylvestris", volume = "4", number = "8", pages = "364-4", }
