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Quantitative determination of lignin and prediction of gas yield using vibrational spectroscopy methods for Silphium perfoliatum
Project
Project code: JKI-ÖPV-08-1295
Contract period: 01.01.2015
- 31.12.2017
Purpose of research: Applied research
Keywords: bioenergetic production, plant breeding, qualitative analysis
As part of the FNR funded project 'Extension of cultivation of Silphium perfoliatum by optimization of the cultivation procedure, development of a practicable sowing technique and further breeding investigation' the aim of this subproject is the development of a vibrational spectroscopic method for the qualitative analysis of Silphium perfoliatum with regard to the gas yield in the subsequent bioenergetic production. Based on reference values of dry matter, raw ashes, acid detergent fibre (ADF) and lignin content, suitable calibration models should be developed for the analysis of dried and milled plant material. A transfer of these models to fresh plant tissue directly in the field will be aspired to provide a fast and non-desctructive tool for the determination of the optimal date of harvest with regard to a maximun gas yield in the bioenergetic processes.
Section overview
Subjects
- Crop Production
- Plant Breeding
- Specialised crops
- Renewable Resources
Framework programme
Funding programme
Excutive institution
Institute for Ecological Chemistry, Plant Analysis and Stored Products Protection (JKI-ÖPV)
Participating institutions
Funding institution
Project management agencies
Associated projects: Silphium perfoliatum
- Joint project: increasing the performance potential and competitiveness of the Mixed Silphie (Silphium perfoliatum) as an energy crop by Breeding and optimizing the cultivation method; Subproject 1: Genetic improvement of the performance potential
- Joint project: increasing the performance potential and competitiveness of the Mixed Silphie (Silphium perfoliatum) as an energy crop by Breeding and optimizing the cultivation method; Subproject 2: Optimizing the cultivation and provision of material