Effects of silicate weathering and lessivage on K-content in forest soils derived from Pleistocene sediments

Stefan Dultz

doi:10.1002/1522-2624(200006)163:3<299::AID-JPLN299>3.0.CO;2-F

Details

Originalsprache	Englisch
Seiten (von - bis)	299-305
Seitenumfang	7
Fachzeitschrift	Journal of Plant Nutrition and Soil Science
Jahrgang	163
Ausgabenummer	3
Publikationsstatus	Veröffentlicht - 2000

Abstract

The potassium (K) content of soils developed from Pleistocene calcareous till, glacial sand and loess in NW Germany was investigated in order to characterize stores of K in feldspars (K_feldspar) and mica/illite (K_mica/illite) as well as changes as a function of soil depth. From each horizon, up to seven sand, six silt and three clay fractions were separated. K_feldspar and K_mica/illite were quantified by means of chemical composition and estimation by IR-spectroscopy. On account of distinct differences in mineralogical composition between different particle size fractions, K-content of the bulk soil < 2000 (im and the proportion of K_mica/illite and K_feldspar are clearly related to grain size distribution of the sample. Generally, the K-content of particle size fractions of a soil derived from calcareous till is significantly higher than that of a soil from glacial sands. K_mica/illite of clay and silt fractions increases with depth, reflecting greater mica/illite weathering at the soil surface, whereas K_feldspar shows no noticeable change. Illite accumulates by lessivage in Bt horizons. On a whole-soil basis, the Bt horizons of Luvisols derived from loess and calcareous till contain more K_mica/illite than either the A or the C horizons. By comparing the K-content in the different particle size fractions with soil depth, the highest rate of change is found for soils derived from glacial sand. Gains in K in the silt fractions of soils from calcareous till and glacial sand result from weathering of feldspar sand grains. Additionally, decomposition of feldspar-containing rock fragments of gravel size, and aeolian sedimentation, may also have contributed to these gains.

ASJC Scopus Sachgebiete

Agrar- und Biowissenschaften (insg.)
Bodenkunde
Agrar- und Biowissenschaften (insg.)
Pflanzenkunde

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Effects of silicate weathering and lessivage on K-content in forest soils derived from Pleistocene sediments. / Dultz, Stefan.
in: Journal of Plant Nutrition and Soil Science, Jahrgang 163, Nr. 3, 2000, S. 299-305.

Publikation: Beitrag in Fachzeitschrift › Artikel › Forschung › Peer-Review

Dultz, S 2000, 'Effects of silicate weathering and lessivage on K-content in forest soils derived from Pleistocene sediments', Journal of Plant Nutrition and Soil Science, Jg. 163, Nr. 3, S. 299-305. https://doi.org/10.1002/1522-2624(200006)163:3<299::AID-JPLN299>3.0.CO;2-F

Dultz, S. (2000). Effects of silicate weathering and lessivage on K-content in forest soils derived from Pleistocene sediments. Journal of Plant Nutrition and Soil Science, 163(3), 299-305. https://doi.org/10.1002/1522-2624(200006)163:3<299::AID-JPLN299>3.0.CO;2-F

Dultz S. Effects of silicate weathering and lessivage on K-content in forest soils derived from Pleistocene sediments. Journal of Plant Nutrition and Soil Science. 2000;163(3):299-305. doi: 10.1002/1522-2624(200006)163:3<299::AID-JPLN299>3.0.CO;2-F

Dultz, Stefan. / Effects of silicate weathering and lessivage on K-content in forest soils derived from Pleistocene sediments. in: Journal of Plant Nutrition and Soil Science. 2000 ; Jahrgang 163, Nr. 3. S. 299-305.

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abstract = "The potassium (K) content of soils developed from Pleistocene calcareous till, glacial sand and loess in NW Germany was investigated in order to characterize stores of K in feldspars (Kfeldspar) and mica/illite (Kmica/illite) as well as changes as a function of soil depth. From each horizon, up to seven sand, six silt and three clay fractions were separated. Kfeldspar and Kmica/illite were quantified by means of chemical composition and estimation by IR-spectroscopy. On account of distinct differences in mineralogical composition between different particle size fractions, K-content of the bulk soil < 2000 (im and the proportion of Kmica/illite and Kfeldspar are clearly related to grain size distribution of the sample. Generally, the K-content of particle size fractions of a soil derived from calcareous till is significantly higher than that of a soil from glacial sands. Kmica/illite of clay and silt fractions increases with depth, reflecting greater mica/illite weathering at the soil surface, whereas Kfeldspar shows no noticeable change. Illite accumulates by lessivage in Bt horizons. On a whole-soil basis, the Bt horizons of Luvisols derived from loess and calcareous till contain more Kmica/illite than either the A or the C horizons. By comparing the K-content in the different particle size fractions with soil depth, the highest rate of change is found for soils derived from glacial sand. Gains in K in the silt fractions of soils from calcareous till and glacial sand result from weathering of feldspar sand grains. Additionally, decomposition of feldspar-containing rock fragments of gravel size, and aeolian sedimentation, may also have contributed to these gains.",

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AU - Dultz, Stefan

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N2 - The potassium (K) content of soils developed from Pleistocene calcareous till, glacial sand and loess in NW Germany was investigated in order to characterize stores of K in feldspars (Kfeldspar) and mica/illite (Kmica/illite) as well as changes as a function of soil depth. From each horizon, up to seven sand, six silt and three clay fractions were separated. Kfeldspar and Kmica/illite were quantified by means of chemical composition and estimation by IR-spectroscopy. On account of distinct differences in mineralogical composition between different particle size fractions, K-content of the bulk soil < 2000 (im and the proportion of Kmica/illite and Kfeldspar are clearly related to grain size distribution of the sample. Generally, the K-content of particle size fractions of a soil derived from calcareous till is significantly higher than that of a soil from glacial sands. Kmica/illite of clay and silt fractions increases with depth, reflecting greater mica/illite weathering at the soil surface, whereas Kfeldspar shows no noticeable change. Illite accumulates by lessivage in Bt horizons. On a whole-soil basis, the Bt horizons of Luvisols derived from loess and calcareous till contain more Kmica/illite than either the A or the C horizons. By comparing the K-content in the different particle size fractions with soil depth, the highest rate of change is found for soils derived from glacial sand. Gains in K in the silt fractions of soils from calcareous till and glacial sand result from weathering of feldspar sand grains. Additionally, decomposition of feldspar-containing rock fragments of gravel size, and aeolian sedimentation, may also have contributed to these gains.

AB - The potassium (K) content of soils developed from Pleistocene calcareous till, glacial sand and loess in NW Germany was investigated in order to characterize stores of K in feldspars (Kfeldspar) and mica/illite (Kmica/illite) as well as changes as a function of soil depth. From each horizon, up to seven sand, six silt and three clay fractions were separated. Kfeldspar and Kmica/illite were quantified by means of chemical composition and estimation by IR-spectroscopy. On account of distinct differences in mineralogical composition between different particle size fractions, K-content of the bulk soil < 2000 (im and the proportion of Kmica/illite and Kfeldspar are clearly related to grain size distribution of the sample. Generally, the K-content of particle size fractions of a soil derived from calcareous till is significantly higher than that of a soil from glacial sands. Kmica/illite of clay and silt fractions increases with depth, reflecting greater mica/illite weathering at the soil surface, whereas Kfeldspar shows no noticeable change. Illite accumulates by lessivage in Bt horizons. On a whole-soil basis, the Bt horizons of Luvisols derived from loess and calcareous till contain more Kmica/illite than either the A or the C horizons. By comparing the K-content in the different particle size fractions with soil depth, the highest rate of change is found for soils derived from glacial sand. Gains in K in the silt fractions of soils from calcareous till and glacial sand result from weathering of feldspar sand grains. Additionally, decomposition of feldspar-containing rock fragments of gravel size, and aeolian sedimentation, may also have contributed to these gains.

KW - Forest soils

KW - Lessivage

KW - Pleistocene sediments

KW - Potassium

KW - Silicate weathering

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DO - 10.1002/1522-2624(200006)163:3<299::AID-JPLN299>3.0.CO;2-F

M3 - Article

AN - SCOPUS:0141582320

VL - 163

SP - 299

EP - 305

JO - Journal of Plant Nutrition and Soil Science

JF - Journal of Plant Nutrition and Soil Science

SN - 1436-8730

IS - 3

ER -

Research@Leibniz University

Effects of silicate weathering and lessivage on K-content in forest soils derived from Pleistocene sediments

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