K.J. Meiwes scite author profile

Using a flux-balance approach, the S budget of two heavily polluted beech (Fagussylvatica L.) forest ecosystems growing on acid and calcareous soil substrates was investigated. Total S deposition (dry and wet fall) at both sites was large (2.3 and 3.2 kequiv.•ha−1•year−1 at the calcareous and acidic beech forest sites, respectively). The contribution of dry deposition to the total S deposition in both stands was significant; dry deposition of S exceeded the deposition of S even in bulk precipitation. The atmospheric input of S exceeded, at both sites, the forest S requirements by 6–7 times. Consequently, at the acidic beech forest site, phytotoxins like Al3+ (2 kequiv.•ha−1•year−1) were released with seepage water, neutralizing the acid input. At the calcareous beech forest site, leaching of huge amounts of Ca2+ (15 kequiv.•ha−1•year−1) and HCO3− (12 kequiv.•ha−1•year−1) was significant enough to offset the effects of acid precipitation. About 20% of the atmospheric S input in both beech stands accumulated in the vegetation. The S input–output balance in the acidic beech forest indicated a slight tendency towards S accumulation in the soil in the form of AlOHSO4. The S budget in the calcareous beech forest stand was more or less balanced.

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K.J. Meiwes

Long-Term Changes in Water and Soil Chemistry in Spruce and Beech Forests, Solling, Germany

Sulfur inputs and outputs for two European beech forests growing on different soil substrates

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