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Publication DateGeoderma, ISSN 0016-7061, 06/2016, Volume 271, pp. 50 - 62
Higher solute input due to stemflow infiltration causes enhanced soil acidification near the tree base. Infiltration-driven alteration of chemical soil...
Soil water repellency | Spectral variance analysis | X-ray photoelectron spectroscopy | Element composition | Geostatistics | TEMPORAL VARIABILITY | DECIDUOUS FOREST | DISSOLVED ORGANIC-CARBON | PREFERENTIAL FLOW PATHS | SOIL SCIENCE | SOLUTION CHEMISTRY | ATMOSPHERIC DEPOSITION | SANDY SOILS | CONIFEROUS FOREST | GROUNDWATER SOLUTE CONCENTRATIONS | FAGUS-SYLVATICA | Oxalic acid | Soil moisture | Analysis | Soil acidity | X-ray spectroscopy | Oxalates | Soil acidification | Sulfates | Forest soils | Trees | Forests | Aluminum | Samples | Beech | Infiltration | Statistical methods | Soil (material)
Soil water repellency | Spectral variance analysis | X-ray photoelectron spectroscopy | Element composition | Geostatistics | TEMPORAL VARIABILITY | DECIDUOUS FOREST | DISSOLVED ORGANIC-CARBON | PREFERENTIAL FLOW PATHS | SOIL SCIENCE | SOLUTION CHEMISTRY | ATMOSPHERIC DEPOSITION | SANDY SOILS | CONIFEROUS FOREST | GROUNDWATER SOLUTE CONCENTRATIONS | FAGUS-SYLVATICA | Oxalic acid | Soil moisture | Analysis | Soil acidity | X-ray spectroscopy | Oxalates | Soil acidification | Sulfates | Forest soils | Trees | Forests | Aluminum | Samples | Beech | Infiltration | Statistical methods | Soil (material)
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Loading RightsEcological Modelling, ISSN 0304-3800, 02/2017, Volume 345, pp. 125 - 139
A soil food web (FW) based approach to modelling the contribution of soil micro- and mesofauna to the formation of soil organic matter (SOM) was developed as...
Available nitrogen | Parameters for SOM modelling | Soil food webs | Faunal excrement | Heterotrophic respiration | Forest soil | Necromass | Carbon sequestration | LITTER DECOMPOSITION | CARBON | N-P STOICHIOMETRY | NITROGEN MINERALIZATION | CLASSIFICATION | GLOBAL CHANGE | PLANT LITTER | MICROBIAL BIOMASS | COMMUNITY STRUCTURE | ECOLOGY | Soils | Models | Algorithms | Carbon content | Analysis | Soil microbiology | Forest soils | Fungi | Byproducts | Bacteria | Soil improvement | Mathematical models | Formations | Soil dynamics | Respiration
Available nitrogen | Parameters for SOM modelling | Soil food webs | Faunal excrement | Heterotrophic respiration | Forest soil | Necromass | Carbon sequestration | LITTER DECOMPOSITION | CARBON | N-P STOICHIOMETRY | NITROGEN MINERALIZATION | CLASSIFICATION | GLOBAL CHANGE | PLANT LITTER | MICROBIAL BIOMASS | COMMUNITY STRUCTURE | ECOLOGY | Soils | Models | Algorithms | Carbon content | Analysis | Soil microbiology | Forest soils | Fungi | Byproducts | Bacteria | Soil improvement | Mathematical models | Formations | Soil dynamics | Respiration
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Loading RightsEnvironmental Pollution, ISSN 0269-7491, 06/2014, Volume 189, pp. 98 - 110
This review provides a summary of studies analysing metal concentrations in soils and soil solution at European roadsides. The data collected during 27 studies...
Soil solution concentration | Heavy metal pattern | Roadside soils | Europe | Highway | DEICING SALTS | STORM WATER | HEAVY-METALS | POLYCYCLIC AROMATIC-HYDROCARBONS | TRACE-METALS | ORGANIC-MATTER | 1ST FLUSH | HIGHWAY RUNOFF | ENVIRONMENTAL SCIENCES | TRAFFIC VOLUME | FOREST SOIL | Environmental Monitoring | Environmental Pollution - statistics & numerical data | Transportation - statistics & numerical data | Soil - chemistry | Metals, Heavy - analysis | Soil Pollutants - analysis | Water, Underground | Soil pollution | Sandy soils | Degassing of metals | Metals | Environmental protection
Soil solution concentration | Heavy metal pattern | Roadside soils | Europe | Highway | DEICING SALTS | STORM WATER | HEAVY-METALS | POLYCYCLIC AROMATIC-HYDROCARBONS | TRACE-METALS | ORGANIC-MATTER | 1ST FLUSH | HIGHWAY RUNOFF | ENVIRONMENTAL SCIENCES | TRAFFIC VOLUME | FOREST SOIL | Environmental Monitoring | Environmental Pollution - statistics & numerical data | Transportation - statistics & numerical data | Soil - chemistry | Metals, Heavy - analysis | Soil Pollutants - analysis | Water, Underground | Soil pollution | Sandy soils | Degassing of metals | Metals | Environmental protection
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Loading RightsPlant and Soil, ISSN 0032-079X, 3/2014, Volume 376, Issue 1/2, pp. 327 - 335
Aims Stable isotopes of oxygen and hydrogen are often used to determine plant water uptake depths. We investigated whether and to what extend soil moisture,...
Soil samples | Soil water content | Soil depth | Soil water | Soil composition | Water uptake | Clay soils | Carbonates | Isotopes | Forest soils | Life Sciences | Water | Clay | Soil | Carbonate | Plant Physiology | Ecology | Plant Sciences | Soil Science & Conservation | AGRONOMY | FRACTIONATION | TROPICAL FOREST | PLANT SCIENCES | OXYGEN | SOIL SCIENCE | VACUUM EXTRACTION | TOO | UNCERTAINTY | PLANTS | Soil research | Plant-soil relationships | Research | Plant-water relationships | Soil moisture | Soils | Carbon | Moisture
Soil samples | Soil water content | Soil depth | Soil water | Soil composition | Water uptake | Clay soils | Carbonates | Isotopes | Forest soils | Life Sciences | Water | Clay | Soil | Carbonate | Plant Physiology | Ecology | Plant Sciences | Soil Science & Conservation | AGRONOMY | FRACTIONATION | TROPICAL FOREST | PLANT SCIENCES | OXYGEN | SOIL SCIENCE | VACUUM EXTRACTION | TOO | UNCERTAINTY | PLANTS | Soil research | Plant-soil relationships | Research | Plant-water relationships | Soil moisture | Soils | Carbon | Moisture
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Loading RightsPlant and Soil, ISSN 0032-079X, 1/2011, Volume 338, Issue 1/2, pp. 143 - 158
Despite their low carbon (C) content, most subsoil horizons contribute to more than half of the total soil C stocks, and therefore need to be considered in the...
Soil biochemistry | Agricultural soils | Soil horizons | Subsoil | Soil organic matter | Acid soils | Organic soils | Soil organic carbon | Grassland soils | Forest soils | Life Sciences | Organic matter | Ecology | Plant Physiology | Chemical composition | Plant Sciences | Soil Science & Conservation | Carbon stabilization | FINE-ROOT PRODUCTION | AGRONOMY | PREFERENTIAL FLOW PATHS | FRACTIONATION METHODS | C-13 NATURAL-ABUNDANCE | PLANT SCIENCES | SOIL SCIENCE | ACID FOREST SOILS | LAND-USE CHANGE | MODELING CARBON TURNOVER | SUBSOIL HORIZONS | VERTICAL-DISTRIBUTION | GRASSLAND SOILS | Soil structure | Soil microbiology | Carbon cycle | Soil sciences | Decomposition | Biomass | Soil microorganisms
Soil biochemistry | Agricultural soils | Soil horizons | Subsoil | Soil organic matter | Acid soils | Organic soils | Soil organic carbon | Grassland soils | Forest soils | Life Sciences | Organic matter | Ecology | Plant Physiology | Chemical composition | Plant Sciences | Soil Science & Conservation | Carbon stabilization | FINE-ROOT PRODUCTION | AGRONOMY | PREFERENTIAL FLOW PATHS | FRACTIONATION METHODS | C-13 NATURAL-ABUNDANCE | PLANT SCIENCES | SOIL SCIENCE | ACID FOREST SOILS | LAND-USE CHANGE | MODELING CARBON TURNOVER | SUBSOIL HORIZONS | VERTICAL-DISTRIBUTION | GRASSLAND SOILS | Soil structure | Soil microbiology | Carbon cycle | Soil sciences | Decomposition | Biomass | Soil microorganisms
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Loading Rights2006, ISBN 1845930320, x, 280
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Plant and Soil, ISSN 0032-079X, 1/2013, Volume 362, Issue 1/2, pp. 389 - 417
Background Oxidation-reduction and acid-base reactions are essential for the maintenance of all living organisms. However, redox potential (Eh) has received...
Soil biochemistry | Agricultural soils | Soil microorganisms | Soil organic matter | Soil water | REVIEW ARTICLE | Acid soils | Plants | Soil pollution | Organic soils | Forest soils | Life Sciences | Rhizosphere | Cell homeostasis | Nutrients | Plant Physiology | Ecology | ‘ideal’ soil | Plant Sciences | Soil Science & Conservation | Soil resistivity | 'ideal' soil | LYMANTRIA-DISPAR | AGRONOMY | ACID SULFATE SOILS | PLANT SCIENCES | ELECTRICAL-RESISTIVITY | SCLEROTIAL DIFFERENTIATION | SOIL SCIENCE | GYPSY-MOTH LEPIDOPTERA | FILAMENTOUS PHYTOPATHOGENIC FUNGI | IDEAL SOIL | GENE-EXPRESSION | AGRICULTURAL SOILS | OXIDATION-REDUCTION POTENTIALS | Physiological aspects | Automobile drivers | Hydrogen-ion concentration | Agricultural conservation | Soil microbiology | Soil sciences | Plant biology | Homeostasis | Cellular biology | Agronomy
Soil biochemistry | Agricultural soils | Soil microorganisms | Soil organic matter | Soil water | REVIEW ARTICLE | Acid soils | Plants | Soil pollution | Organic soils | Forest soils | Life Sciences | Rhizosphere | Cell homeostasis | Nutrients | Plant Physiology | Ecology | ‘ideal’ soil | Plant Sciences | Soil Science & Conservation | Soil resistivity | 'ideal' soil | LYMANTRIA-DISPAR | AGRONOMY | ACID SULFATE SOILS | PLANT SCIENCES | ELECTRICAL-RESISTIVITY | SCLEROTIAL DIFFERENTIATION | SOIL SCIENCE | GYPSY-MOTH LEPIDOPTERA | FILAMENTOUS PHYTOPATHOGENIC FUNGI | IDEAL SOIL | GENE-EXPRESSION | AGRICULTURAL SOILS | OXIDATION-REDUCTION POTENTIALS | Physiological aspects | Automobile drivers | Hydrogen-ion concentration | Agricultural conservation | Soil microbiology | Soil sciences | Plant biology | Homeostasis | Cellular biology | Agronomy
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Loading Rights2003, ISBN 0851995934, xii, 437
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1996, ISBN 354060927X, xi, 313
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1980, ISBN 354090453X, Volume 37., xx, 377
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