Swen Hentschel scite author profile

Swen Hentschel

2Publications

6Citation Statements Received

4Citation Statements Given

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Nordwestdeutsche Forstliche Versuchsanstalt

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Coupled forest growth-hydrology modelling as an instrument for the assessment of effects of forest management on hydrology in forested catchments

et al. 2011

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Abstract. The type and intensity of forest management directly influences regional catchment hydrology. Future forest management must optimise the effects of its practices to achieve sustainable management. With scenario analysis of forestry practices, the effects of different forest utilisation strategies on the hydrology of forested catchments can be temporally and spatially quantified. The approach adopted in this study necessitated the development of an interactive system for the spatially distributed modelling of hydrology in relation to forest stand development. Consequently, a forest growth model was used to simulate stand development assuming various forest management activities. Selected simulated forest growth parameters were entered into the hydrological model to simulate water fluxes under different conditions of forest structure. The approach enables the spatially differentiated quantification of changes in the water regime (e.g. increased evapotranspiration). The results of hydrological simulations in the study area, the Oker catchment (northern Harz Mountains), show that forests contribute to the protection of water systems because they have a balancing effect on the hydrological regime. As scenario simulations also suggest, however, forestry practices can also lead to substantial changes in water budgets of forested catchments. The preservation of the hydrological services of forests requires a sustainable and long-term forest conversion on the basis of current management directives for near natural silviculture. Management strategies on basis of moderate harvesting regimes are preferred because of their limited impact on the water budget.

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Ergebnisse der Bodenuntersuchungen

Evers¹,

Buresch²,

Hentschel³

et al. 2022

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Die BZE des Landes Sachsen-Anhalt mit dem systematischen 8 x 8 km Rasternetz erfasst alle flächenhaft wichtigen Standorts-oder Bestockungseinheiten (BZE I-Bericht, FORSTLICHE LANDESANSTALT SACHSEN-ANHALT 1998). Die prozentualen Baumartengruppenanteile in der BZE-Stichprobe decken sich relativ gut mit den Angaben für den Gesamtwald in Sachsen-Anhalt. Dabei sind die Kiefern-und Eichenbestände in der BZE-Stichprobe leicht unterrepräsentiert, die Buchen und sonstigen Nadelbäume (Küstentanne) überrepräsentiert. Die Fichtenbestände sind jeweils in beiden Verteilungen mit 15 % identisch. Auch die Altersstruktur wird im BZE I-Bericht als ausreichend gut mit der BZE repräsentiert angegeben. Hinsichtlich der Verteilung nach Klimafeuchte und Nährkraftstufen und vor allem deren Kombinationen deckt die BZE knapp 70 % der durch die Standortskartierung erfassten Stamm-Standortsformen ab. Dies liegt in der hohen standörtlichen und klimatischen Vielfalt des Landes Sachsen-Anhalt begründet, zumal auch der Großteil der Standortskonstellation nur geringe Flächenanteile aufweist. Als Fazit werden im BZE I-Bericht nur die häufigeren Bodenformen als ausreichend repräsentativ erfasst für Sachsen-Anhalts kartierte Waldstandorte angesehen.Im Folgenden wird die Repräsentativität des Stichprobennetzes der BZE II hinsichtlich der vorkommenden Substratgruppen und Trophiestufen in Sachsen-Anhalt geprüft.

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Swen Hentschel

Coupled forest growth-hydrology modelling as an instrument for the assessment of effects of forest management on hydrology in forested catchments

Ergebnisse der Bodenuntersuchungen

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