Coupling a Forest Growth Model with a Soil Carbon Simulator

Dolschak, Klaus; Jandl, Robert; Ledermann, Thomas

doi:10.5772/56268

Cited by 4 publications

(6 citation statements)

References 39 publications

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“…The growth simulator yielded for each tree the characteristics "tree species", "stem height", "stem diameter", "stem volume" and the annotation whether the tree remained in the stand, was extracted, or had died off. The procedure of creating the input file for Yasso07 is described in detail [38,39].…”

Section: Simulation Of the Soil Carbon Poolmentioning

confidence: 99%

Strategies for Climate-Smart Forest Management in Austria

Jandl

Ledermann

Kindermann

et al. 2018

Forests

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We simulated Austrian forests under different sustainable management scenarios. A reference scenario was compared to scenarios focusing on the provision of bioenergy, enhancing the delivery of wood products, and reduced harvesting rates. The standing stock of the stem biomass, carbon in stems, and the soil carbon pool were calculated for the period 2010–2100. We used the forest growth model Câldis and the soil carbon model Yasso07. The wood demand of all scenarios could be satisfied within the simulation period. The reference scenario led to a small decrease of the stem biomass. Scenarios aiming at a supply of more timber decreased the standing stock to a greater extent. Emphasizing the production of bioenergy was successful for several decades but ultimately exhausted the available resources for fuel wood. Lower harvesting rates reduced the standing stock of coniferous and increased the standing stock of deciduous forests. The soil carbon pool was marginally changed by different management strategies. We conclude that the production of long-living wood products is the preferred implementation of climate-smart forestry. The accumulation of carbon in the standing biomass is risky in the case of disturbances. The production of bioenergy is suitable as a byproduct of high value forest products.

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Section: Simulation Of the Soil Carbon Poolmentioning

confidence: 99%

Strategies for Climate-Smart Forest Management in Austria

Jandl

Ledermann

Kindermann

et al. 2018

Forests

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“…Taking the output of the model into a soil carbon simulation model as described in [15] shows again a strong climate effect. The dotted lines representing the B1 scenario with less warming is in several cases the scenario that enables the soils to build up a larger carbon stock.…”

Section: Climate Change Impactsmentioning

confidence: 99%

“…By means of a forest productivity model the future development of forests in the Carinthian part of the case study area was assessed. The used models Caldis and Yasso07 are described in [15]. The modeling exercise included the growth assessment of different tree species under the two climate scenarios A1B and B1 as provided by the IPCC [6].…”

Section: Climate Change Impactsmentioning

confidence: 99%

Case Study Carinthia / Slovenia – Productive Forests Affected by Climate Change

Jandl¹,

Breznikar²,

Lekše³

et al. 2013

Management Strategies to Adapt Alpine Space Forests to Climate Change Risks

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“…The output of CÂLDIS is the "diameter at breast height" (dbh) [cm] and the "height" (h) [m] of individual trees. From these data, the volume and mass of stems were estimated (Ledermann and Neumann 2006;Dolschak et al 2013). The mass of needles and leaves, branches, and roots was calculated with biomass expansion functions (Eckmüllner 2006;Wirth et al 2004;Ledermann and Neumann 2006;Helmisaari et al 2002;Offenthaler and Hochbichler 2006).…”

Section: Simulating Forest Growth and The Soil Organic Carbon Poolmentioning

confidence: 99%

“…The output is the total soil organic carbon pool. From the standing stock of individual compartments of the tree biomass, the carbon fluxes into the soil were estimated (Dolschak et al 2013). Although soil erosion on steep slopes is a common phenomenon, it is not reflected in the soil carbon simulation (Lal and Pimentel 2008).…”

Section: Simulating Forest Growth and The Soil Organic Carbon Poolmentioning

confidence: 99%

Future management options for cembran pine forests close to the alpine timberline

Jandl¹,

Jandl

Schindlbacher

2018

Annals of Forest Science

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• Key message High-elevation forests in the Alps protect infrastructure and human lives against natural hazards such as rockfall, flooding, and avalanches. Routinely performed silvicultural interventions maintain the required stand structure but are not commercially viable in remote forests due to high operational costs. Financial subsidies for the management of high-elevation protection forests are an efficient strategy to ensure sustainable forest cover. • Context Presently, many high-elevation forests in the Alps are managed in order to ensure the provision of ecosystem services with emphasis on the minimization of natural hazards. • Aims We studied the possible economic performance of a high-elevation protection forest from an owner's perspective. We investigated whether the increase in productivity due to climate change and a favorable market for the dominating cembran pine (Pinus cembra L.) are sufficient for profitable timber production in protection forests. Keywords Growth modeling • Soil carbon pool • Climate change • Mountain forest • Forest management costs Handling Editor: Andreas Bolte Contributions of the co-authors NJ performed the economical analysis and co-wrote the manuscript. RJ conceived the experiment, participated in field work and data analysis, and co-wrote the manuscript. AS participated in data analyzing and interpretation and co-wrote the manuscript. This article is part of the topical collection on Forest Adaptation and Restoration under Global Change Extended author information available on the last page of the article.

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Coupling a Forest Growth Model with a Soil Carbon Simulator

Cited by 4 publications

References 39 publications

Strategies for Climate-Smart Forest Management in Austria

Strategies for Climate-Smart Forest Management in Austria

Case Study Carinthia / Slovenia – Productive Forests Affected by Climate Change

Future management options for cembran pine forests close to the alpine timberline

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