Direct and Indirect Effects of Soil Pollution by Lignite Mining
Abstract Lignite mining and processing has caused a pronounced impact both directly and indirectly on soils and ecosystems across large areas of the former GDR. We studied soils of pine forest ecosystems at sites affected by severe alkaline dust and sulphur deposition, stemming from lignite fired po...
Ausführliche Beschreibung
Autor*in: |
Schaaf, Wolfgang [verfasserIn] |
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Format: |
Artikel |
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Sprache: |
Englisch |
Erschienen: |
2006 |
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Schlagwörter: |
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Anmerkung: |
© Springer Science+Business Media, Inc. 2006 |
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Übergeordnetes Werk: |
Enthalten in: Water, air & soil pollution / Focus - Kluwer Academic Publishers, 2001, 6(2006), 3-4 vom: 03. Mai, Seite 353-364 |
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Übergeordnetes Werk: |
volume:6 ; year:2006 ; number:3-4 ; day:03 ; month:05 ; pages:353-364 |
Links: |
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DOI / URN: |
10.1007/s11267-005-9028-8 |
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Katalog-ID: |
OLC2062125259 |
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520 | |a Abstract Lignite mining and processing has caused a pronounced impact both directly and indirectly on soils and ecosystems across large areas of the former GDR. We studied soils of pine forest ecosystems at sites affected by severe alkaline dust and sulphur deposition, stemming from lignite fired power plant emission, and at dumped sites from lignite mining. In this paper we summarize our main results and evaluate the long-term impact of lignite mining and combustion on the environment. The pine ecosystems on naturally developed soils show a clear effect of deposition history along a former deposition gradient with distinct changes in chemical properties of organic surface layers and mineral soil as well as in element turnover and cycling rates. Afforested sites on mining dumps are directly affected by the composition of the dumped substrates. Over a large area (800 $ km^{2} $) these substrates are dominated by Tertiary sediments with varying amounts of lignitic particles and pyrite that result in phytotoxic site conditions (pH < 3, high salt and metal contents). High amelioration doses of liming material (up to 200 t $ ha^{−1} $) were applied for restoration purposes. We studied the development of these sites over a period of 60 years using a false-time series approach. Beside the extreme soil conditions, element budgets of these sites are characterized by very high element release rates over decades caused by pyrite oxidation and primary mineral weathering. | ||
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10.1007/s11267-005-9028-8 doi (DE-627)OLC2062125259 (DE-He213)s11267-005-9028-8-p DE-627 ger DE-627 rakwb eng 570 333.7 VZ 12 21 ssgn BIODIV DE-30 fid 43.50$jUmweltbelastungen bkl Schaaf, Wolfgang verfasserin aut Direct and Indirect Effects of Soil Pollution by Lignite Mining 2006 Text txt rdacontent ohne Hilfsmittel zu benutzen n rdamedia Band nc rdacarrier © Springer Science+Business Media, Inc. 2006 Abstract Lignite mining and processing has caused a pronounced impact both directly and indirectly on soils and ecosystems across large areas of the former GDR. We studied soils of pine forest ecosystems at sites affected by severe alkaline dust and sulphur deposition, stemming from lignite fired power plant emission, and at dumped sites from lignite mining. In this paper we summarize our main results and evaluate the long-term impact of lignite mining and combustion on the environment. The pine ecosystems on naturally developed soils show a clear effect of deposition history along a former deposition gradient with distinct changes in chemical properties of organic surface layers and mineral soil as well as in element turnover and cycling rates. Afforested sites on mining dumps are directly affected by the composition of the dumped substrates. Over a large area (800 $ km^{2} $) these substrates are dominated by Tertiary sediments with varying amounts of lignitic particles and pyrite that result in phytotoxic site conditions (pH < 3, high salt and metal contents). High amelioration doses of liming material (up to 200 t $ ha^{−1} $) were applied for restoration purposes. We studied the development of these sites over a period of 60 years using a false-time series approach. Beside the extreme soil conditions, element budgets of these sites are characterized by very high element release rates over decades caused by pyrite oxidation and primary mineral weathering. atmogenic pollution deposition disturbance element budgets element stores forest ecosystems mine soil pyrite restoration Scots pine Hüttl, Reinhard F. aut Enthalten in Water, air & soil pollution / Focus Kluwer Academic Publishers, 2001 6(2006), 3-4 vom: 03. Mai, Seite 353-364 (DE-627)330078380 (DE-600)2048822-1 (DE-576)515650463 0049-6979 nnns volume:6 year:2006 number:3-4 day:03 month:05 pages:353-364 https://doi.org/10.1007/s11267-005-9028-8 lizenzpflichtig Volltext GBV_USEFLAG_A SYSFLAG_A GBV_OLC FID-BIODIV SSG-OLC-FOR SSG-OLC-IBL GBV_ILN_70 GBV_ILN_4082 GBV_ILN_4219 43.50$jUmweltbelastungen VZ 106416782 (DE-625)106416782 AR 6 2006 3-4 03 05 353-364 |
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Direct and Indirect Effects of Soil Pollution by Lignite Mining |
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Direct and Indirect Effects of Soil Pollution by Lignite Mining |
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Schaaf, Wolfgang |
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Schaaf, Wolfgang Hüttl, Reinhard F. |
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direct and indirect effects of soil pollution by lignite mining |
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Direct and Indirect Effects of Soil Pollution by Lignite Mining |
abstract |
Abstract Lignite mining and processing has caused a pronounced impact both directly and indirectly on soils and ecosystems across large areas of the former GDR. We studied soils of pine forest ecosystems at sites affected by severe alkaline dust and sulphur deposition, stemming from lignite fired power plant emission, and at dumped sites from lignite mining. In this paper we summarize our main results and evaluate the long-term impact of lignite mining and combustion on the environment. The pine ecosystems on naturally developed soils show a clear effect of deposition history along a former deposition gradient with distinct changes in chemical properties of organic surface layers and mineral soil as well as in element turnover and cycling rates. Afforested sites on mining dumps are directly affected by the composition of the dumped substrates. Over a large area (800 $ km^{2} $) these substrates are dominated by Tertiary sediments with varying amounts of lignitic particles and pyrite that result in phytotoxic site conditions (pH < 3, high salt and metal contents). High amelioration doses of liming material (up to 200 t $ ha^{−1} $) were applied for restoration purposes. We studied the development of these sites over a period of 60 years using a false-time series approach. Beside the extreme soil conditions, element budgets of these sites are characterized by very high element release rates over decades caused by pyrite oxidation and primary mineral weathering. © Springer Science+Business Media, Inc. 2006 |
abstractGer |
Abstract Lignite mining and processing has caused a pronounced impact both directly and indirectly on soils and ecosystems across large areas of the former GDR. We studied soils of pine forest ecosystems at sites affected by severe alkaline dust and sulphur deposition, stemming from lignite fired power plant emission, and at dumped sites from lignite mining. In this paper we summarize our main results and evaluate the long-term impact of lignite mining and combustion on the environment. The pine ecosystems on naturally developed soils show a clear effect of deposition history along a former deposition gradient with distinct changes in chemical properties of organic surface layers and mineral soil as well as in element turnover and cycling rates. Afforested sites on mining dumps are directly affected by the composition of the dumped substrates. Over a large area (800 $ km^{2} $) these substrates are dominated by Tertiary sediments with varying amounts of lignitic particles and pyrite that result in phytotoxic site conditions (pH < 3, high salt and metal contents). High amelioration doses of liming material (up to 200 t $ ha^{−1} $) were applied for restoration purposes. We studied the development of these sites over a period of 60 years using a false-time series approach. Beside the extreme soil conditions, element budgets of these sites are characterized by very high element release rates over decades caused by pyrite oxidation and primary mineral weathering. © Springer Science+Business Media, Inc. 2006 |
abstract_unstemmed |
Abstract Lignite mining and processing has caused a pronounced impact both directly and indirectly on soils and ecosystems across large areas of the former GDR. We studied soils of pine forest ecosystems at sites affected by severe alkaline dust and sulphur deposition, stemming from lignite fired power plant emission, and at dumped sites from lignite mining. In this paper we summarize our main results and evaluate the long-term impact of lignite mining and combustion on the environment. The pine ecosystems on naturally developed soils show a clear effect of deposition history along a former deposition gradient with distinct changes in chemical properties of organic surface layers and mineral soil as well as in element turnover and cycling rates. Afforested sites on mining dumps are directly affected by the composition of the dumped substrates. Over a large area (800 $ km^{2} $) these substrates are dominated by Tertiary sediments with varying amounts of lignitic particles and pyrite that result in phytotoxic site conditions (pH < 3, high salt and metal contents). High amelioration doses of liming material (up to 200 t $ ha^{−1} $) were applied for restoration purposes. We studied the development of these sites over a period of 60 years using a false-time series approach. Beside the extreme soil conditions, element budgets of these sites are characterized by very high element release rates over decades caused by pyrite oxidation and primary mineral weathering. © Springer Science+Business Media, Inc. 2006 |
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Direct and Indirect Effects of Soil Pollution by Lignite Mining |
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