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References (67)
-
AJP Smolders, JGM Roelofs (1996)
The roles of internal iron hydroxide precipitation, sulphide toxicity and oxidizing ability in the survival of Statiotes aloides roots at different iron concentrations in sediment pore waterNew Phytol., 133
-
MJ Swift, OW Heal, JM Anderson (1979)
Decomposition in Terrestrial Ecosystems -
BB Jørgensen (1982)
Mineralization of organic matter in the sea bed-the role of sulphate reductionNature, 296
-
B Boström (1988)
Exchange of phosphorus across the sediment-water interfaceHydrobiologia, 170
-
JI Sperber (1958)
Release of phosphate from soil minerals by hydrogen sulphideNature, 181
-
T. Brock (1985)
The effects of the season and of water chemistry on the decomposition of Nymphaea alba L.; Weight loss and pyrolysis mass spectrometry of the particulate matterAquat. Bot., 22
-
R Bobbink, M Hornung, JGM Roelofs (1998)
The effects of airborne nitrogen pollutants on species diversity in natural and semi-natural European vegetationJ. Ecol., 86
-
VL McKinley, JR Vestal (1982)
Effects of acid on plant litter decomposition in an arctic lakeAppl. Environ. Microbiol., 43
-
AC Redfield (1958)
Biological control of chemical factors in the environmentAm. Sci., 46
-
RH Kemmers (1996)
Using humus forms to monitor processesLandschap, 13
-
NF Caraco, JJ Cole, GE Likens (1989)
Evidence for sulphate-controlled phosphorus release from sediments of aquatic systemsNature, 341
-
JGM Roelofs (1991)
Inlet of alkaline river water into peaty lowlands: effects on water quality and Stratiotes aloides L. standsAquat. Bot., 39
-
W Einsele (1936)
Arch. Hydrobiol., 29
-
MM Brinson (1977)
Decomposition and Nutrient Exchange of Litter in an Alluvial Swamp ForestEcology, 58
-
LPM Lamers (2001)
Tackling Some Biogeochemical Questions in Peatlands -
SPJ Van Delft (1999)
Humus profile degradation as influenced by decreasing earthworm activityPedobiologia, 43
-
R Bobbink (1998)
The effects of air-borne nitrogen pollutants on species diversity in natural and semi-natural European vegetationJ. Ecol., 86
-
CJ Kok (1991)
Verh. Internat. Verein Limnol., 24
-
AC Redfield (1958)
Am. Sci., 46
-
MM Brinson (1977)
Decomposition and nutrient exchange of litter in an alluvial swamp forestEcology, 58
-
C Potvin (1990)
The Statistical Analysis of Ecophysiological Response Curves Obtained from Experiments Involving Repeated MeasuresEcology, 71
-
T. Brock, JJ Boon, BGP Paffen (1985)
The effects of the season and water chemistry in the decomposition of Nymphaea alba L.: Weight loss and pyrolysis mass spectrometry of the particulate matterAquat. Bot., 22
-
JAAR Schuurkes, AJ Kempers, CJ Kok (1988)
Aspects of biochemical sulphur conversions in sediments of a shallow soft water lakeJ. Freshwater Ecol., 4
-
AJP Smolders (1995)
Prevention of sulphide accumulation and phosphate mobilization by the addition of iron(II) chloride to a reduced sediment: an enclosure experimentFreshwater Biol., 34
-
H Ellenberg (1988)
Vegetation ecology of Central Europe -
(1989)
SAS/STAT Users Guide, Version 6 -
JGM Roelofs (1986)
The effect of airborne sulphur and nitrogen deposition on aquatic and terrestrial heathland vegetationExperientia, 42
-
VL McKinley (1982)
Effects of Acid on Plant Litter Decomposition in an Arctic LakeAppl. Environ. Microbiol., 43
-
C Potvin, MJ Lechowicz, S Tardif (1990)
The statistical analysis of ecophysiological response curves obtained from experiments involving repeated measuresEcology, 71
-
TW Walker (1965)
Experimental Pedeology -
JGM Roelofs (1991)
Inlet of alkaline river water into peaty lowlands: effects on water quality and on Stratiotes aloides standsAquat. Bot., 39
-
WH Patrick, RA Khalid (1974)
Phosphate release and sorption by soils and sediments: effect of aerobic and anaerobic conditionsScience, 186
-
JAAR Schuurkes (1988)
Aspects of Biochemical Sulphur Conversions in Sediments of a Shallow Soft Water LakeJ. Freshwater Ecol., 4
-
B Boström, JM Andersen, S Fleischer, M Jansson (1988)
Exchange of phosphorus across the sediment-water interfaceHydrobiologia, 170
-
AJP Smolders, JGM Roelofs (1993)
Sulphate mediated iron limitation and eutrophication in aquatic ecosystemsAquat. Bot., 46
-
Towards a Taxonomic Classification of Humus Forms
-
LPM Lamers (1998)
Acidification of Freshwater Wetlands: Combined Effects of Non-Airborne Sulfur Pollution and DesiccationWater, Air, Soil Pollut., 105
-
W Ohle (1954)
Vom Wasser, 21
-
W Einsele (1936)
Ñber die Beziehungen des Eisenkreislaufs zum Phosphatkreislauf im eutrophen SeeArch. Hydrobiol., 29
-
HK Goering, PJ Van Soest (1972)
Agriculture Handbook -
B Beltman (2000)
Internal eutrophication in peat soils through competition between chloride and sulphate with phosphate for binding sitesBiogeochemistry, 50
-
JGM Roelofs (1986)
The effect of airborne sulphur and nitrogen deposition on aquatic and terrestrial heathland vegetationExperientia, 42
-
JI Sperber (1958)
Release of Phosphate from Soil Minerals by Hydrogen SulphideNature, 181
-
B Beltman, TG Rouwenhorst, MB Van Kerkhoven, T Van der Krift, JTA Verhoeven (2000)
Internal eutrophication in peat soils through competition between chloride and sulphate with phosphate for binding sitesBiogeochemistry, 50
-
D Pegtel (1983)
Ecological aspects of a nutrient-deficient wet grassland (Cirsio-Molinietum)Verh. Ges. Ökol., X
-
SPJ Van Delft, JCY Marinissen, WAM Didden (1999)
Humus profile degradation as influenced by decreasing earthworm activityPedobiologia, 43
-
JG Vermeer (1986)
The effect of nutrient addition and lowering of the water table on shoot biomass and species composition of a wet grassland community (Cirsio-Molinietum Siss. et de Vries, 1942)Act. Oecol., 7
-
CAJ Appelo, D Postma (1993)
Geochemistry, Groundwater and Pollution -
BB Jørgensen (1982)
Mineralization of organic matter in the sea bed—the role of sulphate reductionNature, 296
-
LPM Lamers (1998)
Sulfate-Induced Eutrophication and Phytotoxicity in Freshwater WetlandsEnviron. Sci. Technol., 32
-
NF Caraco (1989)
Evidence for sulphate-controlled phosphorus release from sediments of aquatic systemsNature, 341
-
LPM Lamers, SME Van Roozendaal, JGM Roelofs (1998)
Acidification of freshwater wetlands: combined effects of non-airborne sulfur pollution and desiccationWater, Air, Soil Pollut., 105
-
RH Kemmers (1996)
Landschap, 13
-
CJ Kok, BJ Van de Laar (1991)
Influence of pH and buffering capacity on the decomposition of Nymphaea alba L. detritus in laboratory experiments: a possible explanation for the inhibition of decomposition at low alkalinityVerh. Internat. Verein Limnol., 24
-
D Pegtel (1983)
Verh. Ges. Ökol., X
-
H Van Dam (1988)
Acidification of three moorland pools in The Netherlands by acid precipitation and extreme drought periods over seven decadesFreshwater Biol., 20
-
AJP Smolders (1996)
The roles of internal iron hydroxide precipitation, sulphide toxicity and oxidizing ability in the survival of Stratiotes aloides roots at different iron concentrations in sediment pore waterNew Phytol., 133
-
JG Vermeer (1986)
Act. Oecol., 7
-
W Ohle (1954)
Sulfat als ‘Katalysator’ des limnischen StoffkreislaufesVom Wasser, 21
-
AJP Smolders (1993)
Sulphate-mediated iron limitation and eutrophication in aquatic ecosystemsAquat. Bot., 46
-
MJ Swift (1979)
Decomposition in Terrestrial Ecosystems -
LPM Lamers, HBM Tomassen, JGM Roelofs (1998)
Sulfate-induced eutrophication and phytotoxicity in freshwater wetlandsEnviron. Sci. Technol., 32
-
H Van Dam (1988)
Acidification of three moorland pools in The Netherlands by acid precipitation and extreme drought periods over seven decadesFreshwater Biol., 20
-
AJP Smolders, RC Nijboer, JGM Roelofs (1995)
Prevention of sulphide accumulation and phosphate mobilization by the addition of iron(II)chloride to a reduced sediment: an enclosure experimentFreshwater Biol., 34
-
B Boström, M Jansson, C Forsberg (1982)
Phosphorus release from lake sedimentsArch. Hydrobiol., 18
-
WH Patrick (1974)
Phosphate Release and Sorption by Soils and Sediments: Effect of Aerobic and Anaerobic ConditionsScience, 186
-
EA Paul, FE Clark (1989)
Soil microbiology and biochemistry
- Publisher
- Springer Journals
- Copyright
- Copyright © 2001 by Kluwer Academic Publishers
- Subject
- Geosciences; Biogeosciences; Ecosystems; Environmental Chemistry; Life Sciences, general
- ISSN
- 0168-2563
- eISSN
- 1573-515X
- DOI
- 10.1023/A:1010629319168
- Publisher site
- See Article on Publisher Site
Abstract
Sulphate (SO4 2-)reduction rates are generally low in freshwater wetlands and are regulated by the scarce availability of the ion. Increased concentrations of this electron acceptor due to sulphur (S) pollution of groundwater and surface water may, however, lead to high SO4 2- reduction rates now regulated by the availability of appropriate electron donors. Due to variations in this availability,the response to S pollution (e.g. from surface water or groundwater) is expected to differ between soils. This hypothesis was tested inlaboratory mesocosm experiments by comparing two wetland soil types with distinctly different humus profiles: a Hydromoder and a Rhizomull type. In the first type, expected to have a higher availability of degradable soil organic matter (SOM), SO4 2-availability appeared to be rate limiting for SO4 2- reduction. In the Rhizomullsoils, in contrast, the electron acceptor did not limit SO4 2- reduction rates at higher concentrations. These differences in response could not, however, be attributed to differences in the various SOM fractions or in SOM densities. Eutrophication and free sulphide accumulation, two major biogeochemical problems caused by SO4 2- pollution, occurred in both types. The absolute extent of phosphorus mobilisation was determined by the concentration of this element in the soil (C/Pratio), while the level of sulphide accumulation was governed by the concentration of dissolved iron in the pore water. It was therefore concluded that neither the humus profile nor the concentrations of different SOM fractions in the soils are reliable indicators for the sensitivity of wetland types to S pollution.
Journal
Biogeochemistry – Springer Journals
Published: Oct 19, 2004