Effects of Past Sulfur Deposition on the Soil Microbial Biomass at Spruce Forest Sites

Julich, Dorit; Julich, Stefan; Feger, Karl-Heinz; Klauder, Tobias; Zethof, Jeroen H. T.

doi:10.3390/soilsystems8020037

Soil Systems

2024

DOI: 10.3390/soilsystems8020037

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Effects of Past Sulfur Deposition on the Soil Microbial Biomass at Spruce Forest Sites

Dorit Julich,

Stefan Julich,

Karl-Heinz Feger

et al.

Abstract: During the last decades, forest soils in Central Europe recovered from former sulfur and acid deposition. As external S input into forests has strongly decreased and legacy S pools in the soils are diminishing, internal S cycling through mineralization will increasingly become important for ecosystem nutrition. However, it is not known how microbial biomass is affected by the S pool change in the formerly S surplus soils. Here, we present data on the status quo of C, N, and S in microbial biomass in relation t… Show more

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2024

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Cited by 1 publication

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Legacy effect of 25 years reduced atmospheric sulphur deposition on spruce tree nutrition

Zethof,

Julich,

Feger

et al. 2024

J. Plant Nutr. Soil Sci.

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BackgroundSince the mid‐1990s, sulphur (S) pollution was drastically reduced in Central Europe. Over time, this has led to a distinct reduction in S availability for Norway spruce (Picea abies Karst.), which is still the most important timber species in Central European forestries.AimsDetermination of the Norway spruce nutritional status of former strongly affected areas by S pollution (Saxony) with different degrees of liming by assessing their foliar element contents and comparing them to regions remote from historical high S deposition.MethodsSites were selected based on levels of S deposition in the 1970–1990s with historical high deposition in Saxony (NE Germany), low deposition at Schluchsee (SW Germany) and Davos (Switzerland) as a clean air reference. Needles were sampled in late autumn 2019/2020 and elemental contents determined. Additional historical data on foliar S contents were available.ResultsHistorical data showed a clear decrease in foliar S contents in the Saxonian sites over the last 25 years, independent of liming. No difference between all study sites was found in the most recent sampling, whereas S together with other macronutrients strongly indicates deficiencies for forest growth and health.ConclusionsAfter 25 years of reduced S deposition, S nutrition became low for Norway spruce trees in Saxony, whereas soil parent material determines the overall tree nutritional status with respect to other nutrients. As such, no difference between sites with historical high, low or no S deposition was found. Further studies should focus on the mineralization of organic S in the topsoil to understand if S is effectively recycled within the forest ecosystem and on the effect of other diminishing nutrients such as Mg and P.

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Legacy effect of 25 years reduced atmospheric sulphur deposition on spruce tree nutrition

Zethof,

Julich,

Feger

et al. 2024

J. Plant Nutr. Soil Sci.

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show abstract

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Effects of Past Sulfur Deposition on the Soil Microbial Biomass at Spruce Forest Sites

Cited by 1 publication

References 37 publications

Legacy effect of 25 years reduced atmospheric sulphur deposition on spruce tree nutrition

Legacy effect of 25 years reduced atmospheric sulphur deposition on spruce tree nutrition

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