GEMAS: Geochemical distribution of Mg in agricultural soil of Europe

Agricultural soil (Ap-horizon, 0–20 cm) samples were collected from 33 European countries as part of the GEMAS (GEochemical Mapping of Agricultural and grazing land Soil) soil-mapping project. The Mg data derived from total concentrations (XRF) and two acid digestion methods, aqua regia (AR) and Mob...

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Published in:Journal of Geochemical Exploration
Main Authors: Negrel P., Ladenberger A., Reimann C., Birke M., Demetriades A., Sadeghi M., Albanese S., Andersson M., Baritz R., Batista M. J., Bel-lan A., Cicchella D., De Vivo B., De Vos W., Dinelli E., Duris M., Dusza-Dobek A., Eklund M., Ernstsen V., Filzmoser P., Flem B., Flight D. M. A., Forrester S., Fuchs M., Fugedi U., Gilucis A., Gosar M., Gregorauskiene V., De Groot W., Gulan A., Halamic J., Haslinger E., Hayoz P., Hoffmann R., Hoogewerff J., Hrvatovic H., Husnjak S., Janik L., Jordan G., Kaminari M., Kirby J., Kivisilla J., Klos V., Krone F., Kwecko P., Kuti L., Lima A., Locutura J., Lucivjansky D. P., Mann A., Mackovych D., Matschullat J., McLaughlin M., Malyuk B. I., Maquil R., Meuli R. G., Mol G., O'Connor P., Oorts R. K., Ottesen R. T., Pasieczna A., Petersell W., Pfleiderer S., Ponavic M., Pramuka S., Prazeres C., Rauch U., Radusinovic S., Salpeteur I., Scanlon R., Schedl A., Scheib A. J., Schoeters I., Sefcik P., Sellersjo E., Skopljak F., Slaninka I., Sorsa A., Srvkota R., Stafilov T., Tarvainen T., Trendavilov V., Valera P., Verougstraete V., Vidojevic D., Zissimos A., Zomeni Z.
Other Authors: Batista M.J., Flight D.M.A., Lucivjansky D.P.
Format: Article in Journal/Newspaper
Language:English
Published: 2021
Subjects:
Mineralogy
Parent material
Partial extraction
Total concentration
Weathering
Fennoscandia
Online Access:https://hdl.handle.net/11585/795460
https://doi.org/10.1016/j.gexplo.2020.106706
id ftunibolognairis:oai:cris.unibo.it:11585/795460
record_format openpolar
institution Open Polar
collection IRIS Università degli Studi di Bologna (CRIS - Current Research Information System)
op_collection_id ftunibolognairis
language English
topic Mineralogy
Parent material
Partial extraction
Total concentration
Weathering
spellingShingle Mineralogy
Parent material
Partial extraction
Total concentration
Weathering
Negrel P.
Ladenberger A.
Reimann C.
Birke M.
Demetriades A.
Sadeghi M.
Albanese S.
Andersson M.
Baritz R.
Batista M. J.
Bel-lan A.
Cicchella D.
De Vivo B.
De Vos W.
Dinelli E.
Duris M.
Dusza-Dobek A.
Eklund M.
Ernstsen V.
Filzmoser P.
Flem B.
Flight D. M. A.
Forrester S.
Fuchs M.
Fugedi U.
Gilucis A.
Gosar M.
Gregorauskiene V.
De Groot W.
Gulan A.
Halamic J.
Haslinger E.
Hayoz P.
Hoffmann R.
Hoogewerff J.
Hrvatovic H.
Husnjak S.
Janik L.
Jordan G.
Kaminari M.
Kirby J.
Kivisilla J.
Klos V.
Krone F.
Kwecko P.
Kuti L.
Lima A.
Locutura J.
Lucivjansky D. P.
Mann A.
Mackovych D.
Matschullat J.
McLaughlin M.
Malyuk B. I.
Maquil R.
Meuli R. G.
Mol G.
O'Connor P.
Oorts R. K.
Ottesen R. T.
Pasieczna A.
Petersell W.
Pfleiderer S.
Ponavic M.
Pramuka S.
Prazeres C.
Rauch U.
Radusinovic S.
Salpeteur I.
Scanlon R.
Schedl A.
Scheib A. J.
Schoeters I.
Sefcik P.
Sellersjo E.
Skopljak F.
Slaninka I.
Sorsa A.
Srvkota R.
Stafilov T.
Tarvainen T.
Trendavilov V.
Valera P.
Verougstraete V.
Vidojevic D.
Zissimos A.
Zomeni Z.
GEMAS: Geochemical distribution of Mg in agricultural soil of Europe
topic_facet Mineralogy
Parent material
Partial extraction
Total concentration
Weathering
description Agricultural soil (Ap-horizon, 0–20 cm) samples were collected from 33 European countries as part of the GEMAS (GEochemical Mapping of Agricultural and grazing land Soil) soil-mapping project. The Mg data derived from total concentrations (XRF) and two acid digestion methods, aqua regia (AR) and Mobile Metal Ion (MMI®), were used to provide an overview of its spatial distribution in soil at the continental-scale. Magnesium is one of the most abundant elements in the Earth's crust and essential nutrient for plants and animals and its presence in soil is, therefore, important for soil quality evaluation. In this study, the geochemical behaviour of Mg in European agricultural soil was investigated in relation to a variety of soil parent materials, climatic zones, and landscapes. The chemical composition of soil reflects mostly the primary mineralogy of the source bedrock, and the superimposed effects of pre- and post-depositional chemical weathering, controlled by element mobility and formation of secondary phases such as clays. Low Mg concentrations in agricultural soil occur in regions with quartz-rich glacial sediments (Poland, Baltic States, N. Germany), and in soil developed on quartz-rich sandstone parent materials (e.g., central Sweden). High Mg concentrations occur in soil developed over mafic lithologies such as ophiolite belts and in carbonate-rich regions, including karst areas. The maximum extent of the last glaciation is well defined by a Mg concentration break, which is marked by low Mg concentrations in Fennoscandia and north-central Europe, and high Mg concentrations in Mediterranean region. Lithology of parent materials seems to play a key role in the Mg nutritional status of agricultural soil at the European scale. Influence from agricultural practice and use of fertilisers appears to be subordinate. Comparison of the continental-scale spatial distribution of Mg in agricultural soil by using the results from three analytical methods (XRF, AR and MMI®) provides complementary information about Mg ...
author2 Negrel P.
Ladenberger A.
Reimann C.
Birke M.
Demetriades A.
Sadeghi M.
Albanese S.
Andersson M.
Baritz R.
Batista M.J.
Bel-lan A.
Cicchella D.
De Vivo B.
De Vos W.
Dinelli E.
Duris M.
Dusza-Dobek A.
Eklund M.
Ernstsen V.
Filzmoser P.
Flem B.
Flight D.M.A.
Forrester S.
Fuchs M.
Fugedi U.
Gilucis A.
Gosar M.
Gregorauskiene V.
De Groot W.
Gulan A.
Halamic J.
Haslinger E.
Hayoz P.
Hoffmann R.
Hoogewerff J.
Hrvatovic H.
Husnjak S.
Janik L.
Jordan G.
Kaminari M.
Kirby J.
Kivisilla J.
Klos V.
Krone F.
Kwecko P.
Kuti L.
Lima A.
Locutura J.
Lucivjansky D.P.
Mann A.
format Article in Journal/Newspaper
author Negrel P.
Ladenberger A.
Reimann C.
Birke M.
Demetriades A.
Sadeghi M.
Albanese S.
Andersson M.
Baritz R.
Batista M. J.
Bel-lan A.
Cicchella D.
De Vivo B.
De Vos W.
Dinelli E.
Duris M.
Dusza-Dobek A.
Eklund M.
Ernstsen V.
Filzmoser P.
Flem B.
Flight D. M. A.
Forrester S.
Fuchs M.
Fugedi U.
Gilucis A.
Gosar M.
Gregorauskiene V.
De Groot W.
Gulan A.
Halamic J.
Haslinger E.
Hayoz P.
Hoffmann R.
Hoogewerff J.
Hrvatovic H.
Husnjak S.
Janik L.
Jordan G.
Kaminari M.
Kirby J.
Kivisilla J.
Klos V.
Krone F.
Kwecko P.
Kuti L.
Lima A.
Locutura J.
Lucivjansky D. P.
Mann A.
Mackovych D.
Matschullat J.
McLaughlin M.
Malyuk B. I.
Maquil R.
Meuli R. G.
Mol G.
O'Connor P.
Oorts R. K.
Ottesen R. T.
Pasieczna A.
Petersell W.
Pfleiderer S.
Ponavic M.
Pramuka S.
Prazeres C.
Rauch U.
Radusinovic S.
Salpeteur I.
Scanlon R.
Schedl A.
Scheib A. J.
Schoeters I.
Sefcik P.
Sellersjo E.
Skopljak F.
Slaninka I.
Sorsa A.
Srvkota R.
Stafilov T.
Tarvainen T.
Trendavilov V.
Valera P.
Verougstraete V.
Vidojevic D.
Zissimos A.
Zomeni Z.
author_facet Negrel P.
Ladenberger A.
Reimann C.
Birke M.
Demetriades A.
Sadeghi M.
Albanese S.
Andersson M.
Baritz R.
Batista M. J.
Bel-lan A.
Cicchella D.
De Vivo B.
De Vos W.
Dinelli E.
Duris M.
Dusza-Dobek A.
Eklund M.
Ernstsen V.
Filzmoser P.
Flem B.
Flight D. M. A.
Forrester S.
Fuchs M.
Fugedi U.
Gilucis A.
Gosar M.
Gregorauskiene V.
De Groot W.
Gulan A.
Halamic J.
Haslinger E.
Hayoz P.
Hoffmann R.
Hoogewerff J.
Hrvatovic H.
Husnjak S.
Janik L.
Jordan G.
Kaminari M.
Kirby J.
Kivisilla J.
Klos V.
Krone F.
Kwecko P.
Kuti L.
Lima A.
Locutura J.
Lucivjansky D. P.
Mann A.
Mackovych D.
Matschullat J.
McLaughlin M.
Malyuk B. I.
Maquil R.
Meuli R. G.
Mol G.
O'Connor P.
Oorts R. K.
Ottesen R. T.
Pasieczna A.
Petersell W.
Pfleiderer S.
Ponavic M.
Pramuka S.
Prazeres C.
Rauch U.
Radusinovic S.
Salpeteur I.
Scanlon R.
Schedl A.
Scheib A. J.
Schoeters I.
Sefcik P.
Sellersjo E.
Skopljak F.
Slaninka I.
Sorsa A.
Srvkota R.
Stafilov T.
Tarvainen T.
Trendavilov V.
Valera P.
Verougstraete V.
Vidojevic D.
Zissimos A.
Zomeni Z.
author_sort Negrel P.
title GEMAS: Geochemical distribution of Mg in agricultural soil of Europe
title_short GEMAS: Geochemical distribution of Mg in agricultural soil of Europe
title_full GEMAS: Geochemical distribution of Mg in agricultural soil of Europe
title_fullStr GEMAS: Geochemical distribution of Mg in agricultural soil of Europe
title_full_unstemmed GEMAS: Geochemical distribution of Mg in agricultural soil of Europe
title_sort gemas: geochemical distribution of mg in agricultural soil of europe
publishDate 2021
url https://hdl.handle.net/11585/795460
https://doi.org/10.1016/j.gexplo.2020.106706
genre Fennoscandia
genre_facet Fennoscandia
op_relation info:eu-repo/semantics/altIdentifier/wos/WOS:000606624100002
volume:221
firstpage:1
lastpage:15
numberofpages:15
journal:JOURNAL OF GEOCHEMICAL EXPLORATION
https://hdl.handle.net/11585/795460
doi:10.1016/j.gexplo.2020.106706
info:eu-repo/semantics/altIdentifier/scopus/2-s2.0-85098149243
op_doi https://doi.org/10.1016/j.gexplo.2020.106706
container_title Journal of Geochemical Exploration
container_volume 221
container_start_page 106706
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spelling ftunibolognairis:oai:cris.unibo.it:11585/795460 2024-04-14T08:11:27+00:00 GEMAS: Geochemical distribution of Mg in agricultural soil of Europe Negrel P. Ladenberger A. Reimann C. Birke M. Demetriades A. Sadeghi M. Albanese S. Andersson M. Baritz R. Batista M. J. Bel-lan A. Cicchella D. De Vivo B. De Vos W. Dinelli E. Duris M. Dusza-Dobek A. Eklund M. Ernstsen V. Filzmoser P. Flem B. Flight D. M. A. Forrester S. Fuchs M. Fugedi U. Gilucis A. Gosar M. Gregorauskiene V. De Groot W. Gulan A. Halamic J. Haslinger E. Hayoz P. Hoffmann R. Hoogewerff J. Hrvatovic H. Husnjak S. Janik L. Jordan G. Kaminari M. Kirby J. Kivisilla J. Klos V. Krone F. Kwecko P. Kuti L. Lima A. Locutura J. Lucivjansky D. P. Mann A. Mackovych D. Matschullat J. McLaughlin M. Malyuk B. I. Maquil R. Meuli R. G. Mol G. O'Connor P. Oorts R. K. Ottesen R. T. Pasieczna A. Petersell W. Pfleiderer S. Ponavic M. Pramuka S. Prazeres C. Rauch U. Radusinovic S. Salpeteur I. Scanlon R. Schedl A. Scheib A. J. Schoeters I. Sefcik P. Sellersjo E. Skopljak F. Slaninka I. Sorsa A. Srvkota R. Stafilov T. Tarvainen T. Trendavilov V. Valera P. Verougstraete V. Vidojevic D. Zissimos A. Zomeni Z. Negrel P. Ladenberger A. Reimann C. Birke M. Demetriades A. Sadeghi M. Albanese S. Andersson M. Baritz R. Batista M.J. Bel-lan A. Cicchella D. De Vivo B. De Vos W. Dinelli E. Duris M. Dusza-Dobek A. Eklund M. Ernstsen V. Filzmoser P. Flem B. Flight D.M.A. Forrester S. Fuchs M. Fugedi U. Gilucis A. Gosar M. Gregorauskiene V. De Groot W. Gulan A. Halamic J. Haslinger E. Hayoz P. Hoffmann R. Hoogewerff J. Hrvatovic H. Husnjak S. Janik L. Jordan G. Kaminari M. Kirby J. Kivisilla J. Klos V. Krone F. Kwecko P. Kuti L. Lima A. Locutura J. Lucivjansky D.P. Mann A. 2021 STAMPA https://hdl.handle.net/11585/795460 https://doi.org/10.1016/j.gexplo.2020.106706 eng eng info:eu-repo/semantics/altIdentifier/wos/WOS:000606624100002 volume:221 firstpage:1 lastpage:15 numberofpages:15 journal:JOURNAL OF GEOCHEMICAL EXPLORATION https://hdl.handle.net/11585/795460 doi:10.1016/j.gexplo.2020.106706 info:eu-repo/semantics/altIdentifier/scopus/2-s2.0-85098149243 Mineralogy Parent material Partial extraction Total concentration Weathering info:eu-repo/semantics/article 2021 ftunibolognairis https://doi.org/10.1016/j.gexplo.2020.106706 2024-03-21T18:32:22Z Agricultural soil (Ap-horizon, 0–20 cm) samples were collected from 33 European countries as part of the GEMAS (GEochemical Mapping of Agricultural and grazing land Soil) soil-mapping project. The Mg data derived from total concentrations (XRF) and two acid digestion methods, aqua regia (AR) and Mobile Metal Ion (MMI®), were used to provide an overview of its spatial distribution in soil at the continental-scale. Magnesium is one of the most abundant elements in the Earth's crust and essential nutrient for plants and animals and its presence in soil is, therefore, important for soil quality evaluation. In this study, the geochemical behaviour of Mg in European agricultural soil was investigated in relation to a variety of soil parent materials, climatic zones, and landscapes. The chemical composition of soil reflects mostly the primary mineralogy of the source bedrock, and the superimposed effects of pre- and post-depositional chemical weathering, controlled by element mobility and formation of secondary phases such as clays. Low Mg concentrations in agricultural soil occur in regions with quartz-rich glacial sediments (Poland, Baltic States, N. Germany), and in soil developed on quartz-rich sandstone parent materials (e.g., central Sweden). High Mg concentrations occur in soil developed over mafic lithologies such as ophiolite belts and in carbonate-rich regions, including karst areas. The maximum extent of the last glaciation is well defined by a Mg concentration break, which is marked by low Mg concentrations in Fennoscandia and north-central Europe, and high Mg concentrations in Mediterranean region. Lithology of parent materials seems to play a key role in the Mg nutritional status of agricultural soil at the European scale. Influence from agricultural practice and use of fertilisers appears to be subordinate. Comparison of the continental-scale spatial distribution of Mg in agricultural soil by using the results from three analytical methods (XRF, AR and MMI®) provides complementary information about Mg ... Article in Journal/Newspaper Fennoscandia IRIS Università degli Studi di Bologna (CRIS - Current Research Information System) Journal of Geochemical Exploration 221 106706

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