Experimental Evidence of Large Changes in Terrestrial Chlorine Cycling Following Altered Tree Species Composition

Experimental Evidence of Large Changes in Terrestrial Chlorine Cycling Following Altered Tree Species Composition

Organochlorine molecules (Clorg) are surprisingly abundant in soils and frequently exceed chloride (Cl–) levels. Despite the widespread abundance of Clorg and the common ability of microorganisms to produce Clorg, we lack fundamental knowledge about how overall chlorine cycling is regulated in fores...

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Published in:Environmental science & technology Vol. 49; no. 8; pp. 4921 - 4928
Main Authors: Montelius, Malin, Thiry, Yves, Marang, Laura, Ranger, Jacques, Cornelis, Jean-Thomas, Svensson, Teresia, Bastviken, David
Format: Journal Article Web Resource
Language:English
Published: United States American Chemical Society 21-04-2015
Subjects:
Biomass
Chlorine
Chlorine - analysis
Chlorine - pharmacokinetics
Ecosystem
Environmental sciences & ecology
Forests
France
Life Sciences
Microorganisms
Molecules
Nonnative species
Picea
Picea abies
Reforestation
Sciences de l’environnement & écologie
Sciences du vivant
Soil - chemistry
Species Specificity
Terrestrial ecosystems
Trees
Norway
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Summary:Organochlorine molecules (Clorg) are surprisingly abundant in soils and frequently exceed chloride (Cl–) levels. Despite the widespread abundance of Clorg and the common ability of microorganisms to produce Clorg, we lack fundamental knowledge about how overall chlorine cycling is regulated in forested ecosystems. Here we present data from a long-term reforestation experiment where native forest was cleared and replaced with five different tree species. Our results show that the abundance and residence times of Cl– and Clorg after 30 years were highly dependent on which tree species were planted on the nearby plots. Average Cl– and Clorg content in soil humus were higher, at experimental plots with coniferous trees than in those with deciduous trees. Plots with Norway spruce had the highest net accumulation of Cl– and Clorg over the experiment period, and showed a 10 and 4 times higher Cl– and Clorg storage (kg ha–1) in the biomass, respectively, and 7 and 9 times higher storage of Cl– and Clorg in the soil humus layer, compared to plots with oak. The results can explain why local soil chlorine levels are frequently independent of atmospheric deposition, and provide opportunities for improved modeling of chlorine distribution and cycling in terrestrial ecosystems.
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scopus-id:2-s2.0-84928404612
ISSN:0013-936X
1520-5851
1520-5851
DOI:10.1021/acs.est.5b00137