Zobrazeno 1 - 10
of 37
pro vyhledávání: '"M. Gosar"'
Autor:
Jordan, Gyozo, Petrik, Attila, De Vivo, Benedetto, Albanese, Stefano, Demetriades, Alecos, Sadeghi, Martiya, M. Andersson, R. Baritz, M. J. Batista, A. Bel-lan, M. Birke, D. Cicchella, W. De Vos, E. Dinelli, M. Ďuriš, A. Dusza-Dobek, O. A. Eggen, M. Eklund, V. Ernstsen, P. Filzmoser, D. M. A. Flight, S. Forrester, M. Fuchs, U. Fügedi, A. Gilucis, M. Gosar, V. Gregorauskiene, W. De Groot, A. Gulan, J. Halamić, E. Haslinger, P. Hayoz, R. Hoffmann, J. Hoogewerff, H. Hrvatovic, S. Husnjak, L. Janik, M. Kaminari, J. Kirby, V. Klos, F. Krone, P. Kwecko, L. Kuti, A. Ladenberger, A. Lima, J. Locutura, P. Lucivjansky, A. Mann, D. Mackovych, M. McLaughlin, B. I. Malyuk, R. Maquil, R. G. Meuli, G. Mol, P. Négrel, P. O'Connor, K. Oorts, R. T. Ottesen, A. Pasieczna, V. Petersell, S. Pfleiderer, M. Poňavič, C. Prazeres, U. Rauch, S. Radusinović, C. Reimann, I. Salpeteur, R. Scanlon, A. Schedl, A. Scheib, I. Schoeters, E. Sellersjö, I. Slaninka, J. M. Soriano-Disla, A. Šorša, R. Svrkota, T. Stafilov, T. Tarvainen, V. Trendavilov, P. Valera, V. Verougstraete, D. Vidojević and Z. Zomeni.
Publikováno v:
Journal of Geochemical Exploration. 186:143-157
This study demonstrates the use of digital image processing for the spatial pattern recognition and characterisation of Ni concentrations in topsoil in Europe. Moving average smoothing was applied to the TIN-interpolated grid model to suppress small
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::3efb032a26d57a433b7251a7032f873a
https://doi.org/10.1016/j.gexplo.2017.11.011
https://doi.org/10.1016/j.gexplo.2017.11.011
Autor:
Négrel, Philippe, Ladenberger, Anna, Reimann, Clemens, Birke, Manfred, Sadeghi, Martiya, The GEMAS Project Team: S. Albanese, M. Andersson, R. Baritz, M. J. Batista, A. Bel-lan, D. Cicchella, A. Demetriades, B. De Vivo, W. De Vos, E. Dinelli, M. Ďuriš, A. Dusza-Dobek, O. A. Eggen, M. Eklund, V. Ernstsen, P. Filzmoser, D. M. A. Flight, S. Forrester, M. Fuchs, U. Fügedi, A. Gilucis, M. Gosar, V. Gregorauskiene, W. De Groot, A. Gulan, J. Halamić, E. Haslinger, P. Hayoz, R. Hoffmann, J. Hoogewerff, H. Hrvatovic, S. Husnjak, L. Janik, G. Jordan, M. Kaminari, J. Kirby, J. Kivisilla, V. Klos, F. Krone, P. Kwećko, L. Kuti, A. Lima, J. Locutura, D. P. Lucivjansky, A. Mann, D. Mackovych, M. McLaughlin, B. I. Malyuk, R. Maquil, R. G. Meuli, G. Mol, P. O'Connor, R. K. Oorts, R. T. Ottesen, A. Pasieczna, W. Petersell, S. Pfleiderer, M. Poňavič, S. Pramuka, C. Prazeres, U. Rauch, S. Radusinović, I. Salpeteur, R. Scanlon, A. Schedl, A. J. Scheib, I. Schoeters, P. Šefčik, E Sellersjö, F. Skopljak, I. Slaninka, A. Šorša, R. Srvkota, T. Stafilov, T. Tarvainen, V. Trendavilov, P. Valera, V. Verougstraete, D. Vidojević, A. Zissimos and Z. Zomeni.
Publikováno v:
Chemical Geology
Chemical Geology, Elsevier, 2018, 479, pp.188-203. ⟨10.1016/j.chemgeo.2018.01.009⟩
Chemical Geology, Elsevier, 2018, 479, pp.188-203. ⟨10.1016/j.chemgeo.2018.01.009⟩
Agricultural soil (Ap-horizon, 0–20 cm) samples were collected from a large part of Europe (33 countries, 5.6 million km2) as part of the GEMAS (GEochemical Mapping of Agricultural and grazing land Soil) soil mapping project. The soil data have bee
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::94e808ba91b87d91e7c65dd2161c450d
Autor:
J. M. Soriano Disla, L. Janik, M. J. McLaughlin, S. Forrester, J. K. Kirby, C. Reimann, A. Arnoldussen, R. Baritz, M. J. Batista, A. Bel lan, M. Birke, D. Cicchella, A. Demetriades, E. Dinelli, W. De Vos, R. Dohrmann, M. Duris, A. Dusza Dobek, O. A. Eggen, M. Eklund, V. Ernstsen, P. Filzmoser, T. E. Finne, D. Flight, M. Fuchs, U. Fugedi, A. Gilucis, M. Gosar, V. Gregorauskiene, A. Gulan, J. Halamid, E. Haslinger, P. Hayoz, G. Hobiger, R. Hoffmann, J. Hoogewerff, H. Hrvatovic, S. Husnjak, C. C. Johnson, G. Jordan, J. Kivisilla, V. Klos, F. Krone, P. Kwecko, L. Kuti, A. Ladenberger, J. Locutura, P. Lucivjansky, D. Mackovych, B. I. Malyuk, R. Maquil, R. G. Meuli, N. Miosic, G. Mol, P. Négrel, P. O’Connor, K. Oorts, R. T. Ottesen, A. Pasieczna, V. Petersell, S. Pfleiderer, M. Ponˇavicˇ, C. Prazeres, U. Rauch, I. Salpeteur, A. Schedl, A. Scheib, I. Schoeters, P. Sefcik, E. Sellersjö, F. Skopljak, I. Slaninka, A. Šorša, R. Srvkota, T. Stafilov, T. Tarvainen, V. Trendavilov, P. Valera, V. Verougstraete, D. Vidojevid, A. M. Zissimos, Z. Zomeni, ALBANESE, STEFANO, DE VIVO, BENEDETTO, LIMA, ANNAMARIA
Publikováno v:
Applied Geochemistry. 39:33-42
The aim of this study was to develop partial least squares (PLS) models to predict the concentrations of 45 elements in soils extracted by the aqua regia (AR) method using diffuse reflectance Fourier Transform mid-infrared (MIR; 4000–500 cm−1) sp
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::391f523238d3ca71b728dc6ca4f4dad2
https://doi.org/10.1016/j.apgeochem.2013.09.015
https://doi.org/10.1016/j.apgeochem.2013.09.015
Autor:
Négrel, Philippe, Ladenberger, Anna, Reimann, Clemens, Birke, Manfred, Sadeghi, Martiya, The GEMAS Project Team: S. Albanese, M. Andersson, R. Baritz, M. J. Batista, A. Bel lan, D. Cicchella, A. Demetriades, B. De Vivo, W. De Vos, M. Duris, A. Dusza Dobek, O. A. Eggen, M. Eklund, V. Ernstsen, P. Filzmoser, D. M. A. Flight, S. Forrester, M. Fuchs, U. Fügedi, A. Gilucis, M. Gosar, V. Gregorauskiene, W. De Groot, A. Gulan, J. Halamic, E. Haslinger, P. Hayoz, R. Hoffmann, J. Hoogewerff, H. Hrvatovic, S. Husnjak, L. Janik, G. Jordan, M. Kaminari, J. Kirby, J. Kivisilla, V. Klos, F. Krone, P. Kwecko, L. Kuti, A. Lima, J. Locutura, D. P. Lucivjansky, A. Mann, D. Mackovych, M. McLaughlin, B. I. Malyuk, R. Maquil, R. G. Meuli, G. Mol, P. O'Connor, R. K. Oorts, R. T. Ottesen, A. Pasieczna, W. Petersell, S. Pfleiderer, M. Ponavic, S. Pramuka, C. Prazeres, U. Rauch, S. Radusinovic, I. Salpeteur, R. Scanlon, A. Schedl, A. J. Scheib, I. Schoeters, P. Sefcik, E. Sellersjo, F. Skopljak, I. Slaninka, A. Sorsa, R. Srvkota, T. Stafilov, T. Tarvainen, V. Trendavilov, P. Valera, V. Verougstraete, D. Vidojevic, A. Zissimos, Z. Zomeni, DINELLI, ENRICO
Publikováno v:
Applied Geochemistry
Applied Geochemistry, Elsevier, 2016, 72, pp.113-124. ⟨10.1016/j.apgeochem.2016.07.004⟩
Applied Geochemistry, Elsevier, 2016, 72, pp.113-124. ⟨10.1016/j.apgeochem.2016.07.004⟩
International audience; Agricultural soil (Ap-horizon, 0–20 cm) and grazing land soil (Gr-horizon, 0–10 cm) samples were collected from a large part of Europe (33 countries, 5.6 million km2) as part of the GEMAS (GEochemical Mapping of Agricultur
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::d1d0e16e282fe29354165db416bfe866
http://hdl.handle.net/11588/645230
http://hdl.handle.net/11588/645230
Autor:
Janik, Leslie J, Forrester, Sean T, Soriano Disla, José M, Kirby, Jason K, Mclaughlin, Michael J, Reimann, Clemens, The GEMAS Project Team [. . ., S. Albanese, M. Andersson, R. Baritz, M. J. Batista, A. Bel lan, M. Birke, D. Cicchella, A. Demetriades, B. De Vivo, W. De Vos, M. Ďuriš, A. Dusza Dobek, O. A. Eggen, M. Eklund, V. Ernstsen, P. Filzmoser, D. M. A. Flight, M. Fuchs, U. Fügedi, A. Gilucis, M. Gosar, V. Gregorauskiene, W. De Groot, A. Gulan, J. Halamić, E. Haslinger, P. Hayoz, R. Hoffmann, J. Hoogewerff, H. Hrvatovic, S. Husnjak, G. Jordan, M. Kaminari, V. Klos, F. Krone, P. Kwećko, L. Kuti, A. Ladenberger, A. Lima, J. Locutura, P. Lucivjansky, A. Mann, D. Mackovych, B. I. Malyuk, R. Maquil, R. G. Meuli, G. Mol, P. Négrel, P. O'Connor, K. Oorts, R. T. Ottesen, A. Pasieczna, W. Petersell, S. Pfleiderer, M. Poňavič, C. Prazeres, U. Rauch, S. Radusinović, M. Sadeghi, I. Salpeteur, R. Scanlon, A. Schedl, A. J. Scheib, I. Schoeters, E. Sellersjö, I. Slaninka, A. Šorša, R. Srvkota, T. Stafilov, T. Tarvainen, V. Trendavilov, P. Valera, V. Verougstraete, D. Vidojević, Z. Zomeni, DINELLI, ENRICO
Partial least squares regression (PLSR) models, using mid-infrared (MIR) diffuse reflectance Fourier-transformed (DRIFT) spectra, were used to predict distribution coefficient (Kd) values for selected added soluble metal cations (Ag(+), Co(2+), Cu(2+
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=pmid_dedup__::00cff8cba020b12b6007a1439d6ef0f0
http://hdl.handle.net/11585/543361
http://hdl.handle.net/11585/543361
Autor:
Janik, Leslie J, Forrester, Sean T, Soriano Disla, José M, Kirby, Jason K, Mclaughlin, Michael J, Reimann, Clemens, the GEMAS research group [. . ., S. Albanese, M. Andersson, R. Baritz, M. J. Batista, A. Bel lan, M. Birke, D. Cicchella, A. Demetriades, B. De Vivo, W. De Vos, M. _Duriš, A. Dusza Dobek, O. A. Eggen, M. Eklund, V. Ernstsen, P. Filzmoser, D. M. A. Flight, M. Fuchs, U. Fügedi, A. Gilucis, M. Gosar, V. Gregorauskiene, W. De Groot, A. Gulan, J. Halamić, E. Haslinger, P. Hayoz, R. Hoffmann, J. Hoogewerff, H. Hrvatovic, S. Husnjak, G. Jordan, M. Kaminari, V. Klos, F. Krone, P. Kwećko, L. Kuti, A. Ladenberger, A. Lima, J. Locutura, P. Lucivjansky, A. Mann, D. Mackovych, B. I. Malyuk, R. Maquil, R. G. Meuli, G. Mol, P. Négrel, P. O'Connor, K. Oorts, R. T. Ottesen, A. Pasieczna, W. Petersell, S. Pfleiderer, M. Poňnavić, C. Prazeres, U. Rauch, S. Radusinović, M. Sadeghi, I. Salpeteur, R. Scanlon, A. Schedl, A. J. Scheib, I. Schoeters, E. Sellersjö, I. Slaninka, A. Šorša, R. Srvkota, T. Stafilov, T. Tarvainen, V. Trendavilov, P. Valera, V. Verougstraete, D. Vidojević, Z. Z.o.m.e.n.i. , . . . ], DINELLI, ENRICO
The authors' aim was to develop rapid and inexpensive regression models for the prediction of partitioning coefficients (Kd), defined as the ratio of the total or surface-bound metal/metalloid concentration of the solid phase to the total concentrati
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=pmid_dedup__::c4d26dd1a9b2a51ba674a0db7bc72978
http://hdl.handle.net/11585/543362
http://hdl.handle.net/11585/543362
Autor:
R. Saaltink, J. Griffioen, G. Mol, M. Birke, C. Reimann, M. Andersson, A. Arnoldussen, R. Baritz, M. J. Batista, A. Bel lan, D. Cicchella, A. Demetriades, E. Dinelli, W. De Vos, M. Duris, A. Dusza Dobek, O. A. Eggen, M. Eklund, V. Ernstsen, K. Fabian, P. Filzmoser, T. E. Finne, B. Flem, D. Flight, S. Forrester, M. Fuchs, U. Fugedi, A. Gilucis, M. Gosar, V. Gregorauskiene, A. Gulan, J. Halamić, E. Haslinger, P. Hayoz, G. Hobiger, R. Hoffmann, J. Hoogewerff, H. Hrvatovic, S. Husnjak, L. Janik, C. C. Johnson, G. Jordan, J. Kirby, J. Kivisilla, V. Klos, F. Krone, P. Kwecko, L. Kuti, A. Ladenberger, J. Locutura, P. Lucivjansky, D. Mackovych, B. I. Malyuk, R. Maquil, M. McLaughlin, R. G. Meuli, N. Miosic, P. Négrel, P. O'Connor, K. Oorts, R. T. Ottesen, A. Pasieczna, V. Petersell, S. Pfleiderer, M. Poňaviĉ, C. Prazeres, U. Rauch, I. Salpeteur, A. Schedl, A. Scheib, I. Schoeters, P. Sefcik, E. Sellersjö, F. Skopljak, I. Slaninka, A. Šorša, R. Srvkota, T. Stafilov, T. Tarvainen, V. Trendavilov, P. Valera, V. Verougstraete, D. Vidojević, A. M. Zissimos, Z. Zomeni, ALBANESE, STEFANO, DE VIVO, BENEDETTO, LIMA, ANNAMARIA
Publikováno v:
Journal of Soils and Sediments. Springer
Journal of Soils and Sediments, 1, 14, 121-137
Journal of soils and sediments (Internet) 14 (2014): 121–137. doi:10.1007/s11368-013-0779-y
info:cnr-pdr/source/autori:Saaltink R.; Griffioen J.; Mol G.; Birke M./titolo:Geogenic and agricultural controls on the geochemical composition of European agricultural soils/doi:10.1007%2Fs11368-013-0779-y/rivista:Journal of soils and sediments (Internet)/anno:2014/pagina_da:121/pagina_a:137/intervallo_pagine:121–137/volume:14
Journal of Soils and Sediments 14 (2014) 1
Journal of Soils and Sediments, 14(1), 121-137
Journal of Soils and Sediments, 1, 14, 121-137
Journal of soils and sediments (Internet) 14 (2014): 121–137. doi:10.1007/s11368-013-0779-y
info:cnr-pdr/source/autori:Saaltink R.; Griffioen J.; Mol G.; Birke M./titolo:Geogenic and agricultural controls on the geochemical composition of European agricultural soils/doi:10.1007%2Fs11368-013-0779-y/rivista:Journal of soils and sediments (Internet)/anno:2014/pagina_da:121/pagina_a:137/intervallo_pagine:121–137/volume:14
Journal of Soils and Sediments 14 (2014) 1
Journal of Soils and Sediments, 14(1), 121-137
Purpose: Concern about the environmental impact of agriculture caused by intensification is growing as large amounts of nutrients and contaminants are introduced into the environment. The aim of this paper is to identify the geogenic and agricultural
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::ef8c694cde8adb886ea2676fda51006a
https://dspace.library.uu.nl/handle/1874/286857
https://dspace.library.uu.nl/handle/1874/286857
Autor:
M. Sadeghi, A. Ladenberger, M. Andersson, G. Morris, A. Arnoldussen, R. Baritz, M. J. Batista, A. Bel‐lan, M. Birke, D. Cicchella, A. Demetriades, E. Dinelli, W. De Vos, M. Duris, A. Dusza Dobek, O. A. Eggen, M. Eklund, V. Ernstsen, P. Filzmoser, T. E. Finne, D. Flight, S. Forrester, M. Fuchs, U. Fugedi, A. Gilucis, M. Gosar, V. Gregorauskiene, A. Gulan, J. Halamić, E. Haslinger, P. Hayoz, G. Hobiger, R. Hoffmann, J. Hoogewerff, H. Hrvatovic, S. Husnjak, L. Janik, C. C. Johnson, G. Jordan, J. Kirby, J. Kivisilla, V. Klos, F. Krone, P. Kwecko, L. Kuti, J. Locutura, P. Lucivjansky, D. Mackovych, B. I. Malyuk, R. Maquil, M. McLaughlin, R. G. Meuli, N. Miosic, G. Mol, P. Négrel, P. O'Connor, K. Oorts, R. T. Ottesen, A. Pasieczna, V. Petersell, S. Pfleiderer, M. Poňavič, C. Prazeres, U. Rauch, C. Reimann, I. Salpeteur, A. Schedl, A. Scheib, I. Schoeters, P. Sefcik, E. Sellersjö, F. Skopljak, I. Slaninka, A. Šorša, R. Srvkota, T. Stafilov, T. Tarvainen, V. Trendavilov, P. Valera, V. Verougstraete, D. Vidojević, A. M. Zissimos, Z. Z.o.m.e.n.i., PETROSINO, PAOLA, ALBANESE, STEFANO, LIMA, ANNAMARIA, DE VIVO, BENEDETTO
Ce, La and Y from agricultural (Ap) and grazing land (Gr) soils of Europe have been investigated using new geochemical data produced by the GEMAS (Geochemical mapping of agricultural and grazing land soils) project. Interpolated maps showing Ce, La,
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::90eff04c01609d5c6d150439c02d382e
http://hdl.handle.net/11588/568296
http://hdl.handle.net/11588/568296
Autor:
Soriano Disla J. M., Janik L., McLaughlin M. J., Forrester S., Kirby J., Reimann C., the EuroGeoSurvey GEMAS project team S. Albanese, M. Andersson, A. Arnoldussen, R. Baritz, M. J. Batista, A. Bel lan, M. Birke, D. Cicchella, A. Demetriades, B. De Vivo, W. De Vos, R. Dohrmann, M. Duris, A. Dusza Dobek, O. A. Eggen, M. Eklund, V. Ernstsen, P. Filzmoser, T. E. Finne, D. Flight, M. Fuchs, U. Fugedi, A. Gilucis, M. Gosar, V. Gregorauskiene, A. Gulan, J. Halamid, E. Haslinger, P. Hayoz, G. Hobiger, R. Hoffmann, J. Hoogewerff, H. Hrvatovic, S. Husnjak, C. C. Johnson, G. Jordan, J. Kivisilla, V. Klos, F. Krone, P. Kwecko, L. Kuti, A. Ladenberger, A. Lima, J. Locutura, P. Lucivjansky, D. Mackovych, B. I. Malyuk, R. Maquil, R. G. Meuli, N. Miosic, G. Mol, P. Négrel, P. O’Connor, K. Oorts, R. T. Ottesen, A. Pasieczna, V. Petersell, S. Pfleiderer, M. Ponhavic, C. Prazeres, U. Rauch, I. Salpeteur, A. Schedl, A. Scheib, I. Schoeters, P. Sefcik, E. Sellersjö, F. Skopljak, I. Slaninka, A. Šorša, R. Srvkota, T. Stafilov, T. Tarvainen, V. Trendavilov, P. Valera, V. Verougstraete, D. Vidojevid, A. M. Zissimos, Z. Zomeni, DINELLI, ENRICO
Publikováno v:
Applied geochemistry 29 (2013): 135–143. doi:10.1016/j.apgeochem.2012.11.005
info:cnr-pdr/source/autori:Soriano-Disla, J. M.; Janik, L.; McLaughlin, M. J.; Forrester, S.; Kirby, J.; Reimann, C./titolo:The use of diffuse reflectance mid-infrared spectroscopy for the prediction of the concentration of chemical elements estimated by X-ray fluorescence in agricultural and grazing European soils/doi:10.1016%2Fj.apgeochem.2012.11.005/rivista:Applied geochemistry/anno:2013/pagina_da:135/pagina_a:143/intervallo_pagine:135–143/volume:29
info:cnr-pdr/source/autori:Soriano-Disla, J. M.; Janik, L.; McLaughlin, M. J.; Forrester, S.; Kirby, J.; Reimann, C./titolo:The use of diffuse reflectance mid-infrared spectroscopy for the prediction of the concentration of chemical elements estimated by X-ray fluorescence in agricultural and grazing European soils/doi:10.1016%2Fj.apgeochem.2012.11.005/rivista:Applied geochemistry/anno:2013/pagina_da:135/pagina_a:143/intervallo_pagine:135–143/volume:29
The aim of this study was to develop partial least squares (PLS) models to predict the concentrations of 45 elements in soils extracted with aqua regia (AR) using mid-infrared (MIR) spectroscopy. A total of 4130 soils from the GEMAS European soil sam
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::1af924011c2e9c4b9a99272e8664b2ed
https://www.bib.irb.hr/628606
https://www.bib.irb.hr/628606
Autor:
Tarvainen T., Albanese S., Birke M., Poňavič M., Reimann C., the GEMAS Project Team M. Andersson, A. Arnoldussen, R. Baritz, M. J. Batista, A. Bel lan, D. Cicchella, A. Demetriades, B. De Vivo, W. De Vos, M. Duris, A. Dusza Dobek, O. A. Eggen, M. Eklund, V. Ernstsen, P. Filzmoser, T. E. Finne, D. Flight, S. Forrester, M. Fuchs, U. Fugedi, A. Gilucis, M. Gosar, V. Gregorauskiene, A. Gulan, J. Halamic, E. Haslinger, P. Hayoz, G. Hobiger, R. Hoffmann, J. Hoogewerff, H. Hrvatovic, S. Husnjak, L. Janik, C. C. Johnson, G. Jordan, J. Kirby, J. Kivisilla, V. Klos, F. Krone, P. Kwecko, L. Kuti, A. Ladenberger, A. Lima, J. Locutura, P. Lucivjansky, D. Mackovych, B. I. Malyuk, R. Maquil, M. J. McLaughlin, R. G. Meuli, N. Miosic, G. Mol, P. Négrel, P. O’Connor, K. Oorts, R. T. Ottesen, A. Pasieczna, V. Petersell, S. Pfleiderer, C. Prazeres, U. Rauch, Salpeteur, A. Schedl, A. Scheib, I. Schoeters, P. Sefcik, E. Sellersjö, F. Skopljak, I. Slaninka, A. Šorša, R. Srvkota, T. Stafilov, V. Trendavilov, P. Valera, V. Verougstraete, D. Vidojevic, A. M. Zissimos, Z. Zomeni, DINELLI, ENRICO
Publikováno v:
Applied geochemistry 28 (2013): 2–10. doi:10.1016/j.apgeochem.2012.10.005
info:cnr-pdr/source/autori:Tarvainen T.; Albanese S.; Birke M.; Ponavic M.; Reimann C.; Andersson M.; Arnoldussen A.; Baritz R.; Batista M.J.; Bel-Lan A.; Cicchella D.; Demetriades A.; De Vivo B.; Dinelli E.; De Vos W.; Duris M.; Dusza-Dobek A.; Eggen O.A.; Eklund M.; Ernstsen V.; Filzmoser P.; Finne T.E.; Flight D.; Forrester S.; Fuchs M.; Fugedi U.; Gilucis A.; Gosar M.; Gregorauskiene V.; Gulan A.; Halamic J.; Haslinger E.; Hayoz P.; Hobiger G.; Hoffmann R.; Hoogewerff J.; Hrvatovic H.; Husnjak S.; Janik L.; Johnson C.; Jordan G.; Kirby J.; Kivisilla J.; Klos V.; Krone F.; Kwecko P.; Kuti L.; Ladenberger A.; Lima A.; Locutura J.; Lucivjansky P.; Mackovych D.; Malyuk B.I.; Maquil R.; McLaughlin M.J.; Meuli R.G.; Miosic N.; Mol G.; Negrel P.; O'Connor P.; Oorts K.; Ottesen R.T.; Pasieczna A.; Petersell V.; Pfleiderer S.; Prazeres C.; Rauch U.; Salpeteur; Schedl A.; Scheib A.; Schoeters I.; Sefcik P.; Sellersjo E.; Skopljak F.; Slaninka I.; Sorsa A.; Srvkota R.; Stafilov T.; Trendavilov V.; Valera P.; Verougstraete V.; Vidojevic D.; Zissimos A.M.; Zomeni Z./titolo:Arsenic in agricultural and grazing land soils of Europe/doi:10.1016%2Fj.apgeochem.2012.10.005/rivista:Applied geochemistry/anno:2013/pagina_da:2/pagina_a:10/intervallo_pagine:2–10/volume:28
info:cnr-pdr/source/autori:Tarvainen T.; Albanese S.; Birke M.; Ponavic M.; Reimann C.; Andersson M.; Arnoldussen A.; Baritz R.; Batista M.J.; Bel-Lan A.; Cicchella D.; Demetriades A.; De Vivo B.; Dinelli E.; De Vos W.; Duris M.; Dusza-Dobek A.; Eggen O.A.; Eklund M.; Ernstsen V.; Filzmoser P.; Finne T.E.; Flight D.; Forrester S.; Fuchs M.; Fugedi U.; Gilucis A.; Gosar M.; Gregorauskiene V.; Gulan A.; Halamic J.; Haslinger E.; Hayoz P.; Hobiger G.; Hoffmann R.; Hoogewerff J.; Hrvatovic H.; Husnjak S.; Janik L.; Johnson C.; Jordan G.; Kirby J.; Kivisilla J.; Klos V.; Krone F.; Kwecko P.; Kuti L.; Ladenberger A.; Lima A.; Locutura J.; Lucivjansky P.; Mackovych D.; Malyuk B.I.; Maquil R.; McLaughlin M.J.; Meuli R.G.; Miosic N.; Mol G.; Negrel P.; O'Connor P.; Oorts K.; Ottesen R.T.; Pasieczna A.; Petersell V.; Pfleiderer S.; Prazeres C.; Rauch U.; Salpeteur; Schedl A.; Scheib A.; Schoeters I.; Sefcik P.; Sellersjo E.; Skopljak F.; Slaninka I.; Sorsa A.; Srvkota R.; Stafilov T.; Trendavilov V.; Valera P.; Verougstraete V.; Vidojevic D.; Zissimos A.M.; Zomeni Z./titolo:Arsenic in agricultural and grazing land soils of Europe/doi:10.1016%2Fj.apgeochem.2012.10.005/rivista:Applied geochemistry/anno:2013/pagina_da:2/pagina_a:10/intervallo_pagine:2–10/volume:28
Arsenic concentrations are reported for the
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::fe73c4e0bdb35d069bb328bb522080cf
http://hdl.handle.net/11588/535284
http://hdl.handle.net/11588/535284