Soil-to-plant transfer of fallout caesium and strontium in Austrian lowland and Alpine pastures

Michael Gastberger; Friedrich Steinhäusler; Martin Gerzabek; Herbert Lettner; Alexander Hubmer

Soil-to-plant transfer of fallout caesium and strontium in Austrian lowland and Alpine pastures

Michael Gastberger
, Friedrich Steinhäusler
, Martin Gerzabek
, Herbert Lettner
, Alexander Hubmer

Paris Lodron University of Salzburg

Research output: Contribution to journal › Article › peer-review

Abstract

The areal contamination, the depth distributions in the soil and the soil-to-plant transferfactors were determined for `Cs and '°Sr at four Austrian pastures. Two of these are intensively used lowland pastures at about 500 m above sea level. and the other two are Alpine pastures at 1600 and 1300 m. At the latter, the vertical migration velocity in the soil is slower and the soil-to-plant transfer is significantly higher than at the lowland pastures (for both nuchdes). A strong positive correlation exists between the `3'Cs and e"Sr soil-to-plant transfers, indicating that some of the parameters typical of Alpine environments have a similar effect an the plant uptake of these fallout nuclides, c.g. low biological activity in the soil and short vegetation periods.

Original language	English
Pages (from-to)	217-233
Number of pages	17
Journal	Journal of Environmental Radioactivity
Publication status	Published - 2002

Research Field

Not defined

Keywords

Soil to plant transfer
Caesium 137
Strontium
Alpine
Soils

Cite this

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title = "Soil-to-plant transfer of fallout caesium and strontium in Austrian lowland and Alpine pastures",

abstract = "The areal contamination, the depth distributions in the soil and the soil-to-plant transferfactors were determined for `Cs and '°Sr at four Austrian pastures. Two of these are intensively used lowland pastures at about 500 m above sea level. and the other two are Alpine pastures at 1600 and 1300 m. At the latter, the vertical migration velocity in the soil is slower and the soil-to-plant transfer is significantly higher than at the lowland pastures (for both nuchdes). A strong positive correlation exists between the `3'Cs and e{"}Sr soil-to-plant transfers, indicating that some of the parameters typical of Alpine environments have a similar effect an the plant uptake of these fallout nuclides, c.g. low biological activity in the soil and short vegetation periods.",

keywords = "Soil to plant transfer, Caesium 137, Strontium, Alpine, Soils, Soil to plant transfer, Caesium 137, Strontium, Alpine, Soils",

author = "Michael Gastberger and Friedrich Steinh{\"a}usler and Martin Gerzabek and Herbert Lettner and Alexander Hubmer",

year = "2002",

language = "English",

pages = "217--233",

journal = "Journal of Environmental Radioactivity",

issn = "0265-931X",

publisher = "Elsevier Ltd.",

}

TY - JOUR

T1 - Soil-to-plant transfer of fallout caesium and strontium in Austrian lowland and Alpine pastures

AU - Gastberger, Michael

AU - Steinhäusler, Friedrich

AU - Gerzabek , Martin

AU - Lettner, Herbert

AU - Hubmer, Alexander

PY - 2002

Y1 - 2002

N2 - The areal contamination, the depth distributions in the soil and the soil-to-plant transferfactors were determined for `Cs and '°Sr at four Austrian pastures. Two of these are intensively used lowland pastures at about 500 m above sea level. and the other two are Alpine pastures at 1600 and 1300 m. At the latter, the vertical migration velocity in the soil is slower and the soil-to-plant transfer is significantly higher than at the lowland pastures (for both nuchdes). A strong positive correlation exists between the `3'Cs and e"Sr soil-to-plant transfers, indicating that some of the parameters typical of Alpine environments have a similar effect an the plant uptake of these fallout nuclides, c.g. low biological activity in the soil and short vegetation periods.

AB - The areal contamination, the depth distributions in the soil and the soil-to-plant transferfactors were determined for `Cs and '°Sr at four Austrian pastures. Two of these are intensively used lowland pastures at about 500 m above sea level. and the other two are Alpine pastures at 1600 and 1300 m. At the latter, the vertical migration velocity in the soil is slower and the soil-to-plant transfer is significantly higher than at the lowland pastures (for both nuchdes). A strong positive correlation exists between the `3'Cs and e"Sr soil-to-plant transfers, indicating that some of the parameters typical of Alpine environments have a similar effect an the plant uptake of these fallout nuclides, c.g. low biological activity in the soil and short vegetation periods.

KW - Soil to plant transfer

KW - Caesium 137

KW - Strontium

KW - Alpine

KW - Soils

KW - Soil to plant transfer

KW - Caesium 137

KW - Strontium

KW - Alpine

KW - Soils

M3 - Article

SN - 0265-931X

SP - 217

EP - 233

JO - Journal of Environmental Radioactivity

JF - Journal of Environmental Radioactivity

ER -

Soil-to-plant transfer of fallout caesium and strontium in Austrian lowland and Alpine pastures

Abstract

Research Field

Keywords

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