Geoderma, 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)
Journal Article
Ecological 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
Journal Article
Environmental 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
Journal Article
Plant 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
Journal Article
Plant 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
Journal Article
2006, ISBN 1845930320, x, 280
Book
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
Journal Article
2003, ISBN 0851995934, xii, 437
Book
1996, ISBN 354060927X, xi, 313
Book
2008, 1. Aufl., ISBN 1402066759, v, 287
This book is designed to assist the civil and geotechnical engineer, geomorphologist, forester, landscape architect or ecologist in choosing ecotechnological...
Soil stabilization | Soil-binding plants | Slopes (Soil mechanics) | Stability | Biology, life sciences | Geotechnical Engineering | Landscape Ecology | Forestry | Environment | Soil Science & Conservation | Environmental Management | Plant Ecology
Soil stabilization | Soil-binding plants | Slopes (Soil mechanics) | Stability | Biology, life sciences | Geotechnical Engineering | Landscape Ecology | Forestry | Environment | Soil Science & Conservation | Environmental Management | Plant Ecology
Book