Res. Agr. Eng., 2005, 51(1):7-12 | DOI: 10.17221/4895-RAE

The reed canary grass (Phalaris arundinacea L.) cultivated for energy utilization

Z. Strašil, V. Váňa, M. Káš
Research Institute of Crop Production, Prague-Ruzyně, Czech Republic

The reed canary grass as a source of energy was tested in field experiments on small plots at three different sites in 1996-2003. The effects of soil and weather conditions, different times of harvest (July, November, March) and different doses of nitrogen fertilization (0, 30, 60 kg/ha) on yields of phytomass were investigated. The effects of the harvest time on the water content in harvested phytomass, loss of phytomass in different harvest period and the content of basic nutrients and heavy metals in plants were all specified. The influence of the year, site and N fertilization on yields of phytomass of the reed canary grass was highly significant. The reed canary grass responded positively to increasing doses of nitrogen by the increase of yields of phytomass. On the averages of years and sites, the N application dose of 30 kg/ha increased dry phytomass yields of the reed canary grass harvested in November by 14.6% (1.08 t/ha). The higher dosage of N 60 kg/ha increased yields of phytomass of the reed canary grass at all sites by 32.8% (2.08 t/ha) on average in contrast with variants without fertilization. By the dose of N 60 kg/ha, the dry above-ground phytomass harvested in autumn was 10.04 t/ha in Ruzyně, 8.27 t/ha in Lukavec and 6.94 t/hain Chomutov on average over the whole period. The later times of harvest resulted in a decrease of the average yield of phytomass (8.41 t/ha in July, 8.00 t/ha in November and 6.04 t/ha in March) and the average water content (64.3% - 45.2% - 21.5%); on the contrary, energy value of phytomass increased (16.93 GJ/t - 17.02 GJ/t - 17.19 GJ/t). The average content of ash in plants varied from 6.5% in Lukavec to 9.31% in Chomutov. The content of heavy metals in plants never exceeded the highest permissible values set in the Czech Republic for food and feed purposes.

Keywords: reed canary grass; yields of phytomass; energy yield; N fertilization; times of harvest; content of nutrients; content of heavy metals

Published: March 31, 2005  Show citation

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Strašil Z, Váňa V, Káš M. The reed canary grass (Phalaris arundinacea L.) cultivated for energy utilization. Res. Agr. Eng. 2005;51(1):7-12. doi: 10.17221/4895-RAE.
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    References

    1. BURVALL J., 1997. Influence of harvest time and soil type on fuel duality in reed canary grass (Phalaris arundinacea L.). Biomass and Bioenergy, 12: 149-154. Go to original source...
    2. BURVALL J., HEDMAN B., 1998. Perennial Rhizomatous Grass - The Delayed Harvest Systems Improves Fuel Characteristics for Reed Canary Grass. In: Proc. of the International Conference held in Braunschweig, Germany, June 1997. London, JAMES & JAMES Ltd (eds.): 916-918.
    3. KATTERER T., ANDREN O., PETTERSSON R., 1998. Growth and nitrogen dynamics of reed canary grass (Phalaris arundinacea L.) subjected to daily fertilization and irrigation in the field. Field and Crops Research, 55: 153-164. Go to original source...
    4. LANDSTRÖM S., LOMAKKA L., ANDERSSON S., 1996. Harvest in spring improves yield and quality of reed canary grass as a bioenergy crop. Biomass and Bioenergy, 11: 333-341. Go to original source...
    5. LANDSTRŐM S., OLSSON R., 1998. Perennial rhizomatous grasses. Cultivation experiments with reed canary grass for bioenergy in Sveden. In: Proc. of the International ConferJAMES & JAMES Ltd. (eds.): 942-944.
    6. MORTENSEN J., 1998. Yield and chemical composition of reed canary grass (Phalaris arundinaceae) populations in autumn and spring. In: Proc. of the International Conference held in Braunschweig, Germany, June 1997. London, JAMES & JAMES Ltd. (eds.): 951-954.
    7. PAHKALA K., 2001. Non-wood plants as raw material for pulp and paper. [Thesis.] Agricultural and Food Science in Finland, 10: Suppl. 1: 101. Go to original source...
    8. PAHKALA K., MELA T., 1998. Farming methods and quality of reed canary grass grown for paper raw material. In: Proc. of the International Conference held in Braunschweig, Germany, June 1997. London, JAMES & JAMES Ltd. (eds.): 997-1000.
    9. STRAŠIL Z., 2000. Ekonomická analýza vybraných energetických rostlin určených pro spalování. In: Sbor. Technika a technologie pro nepotravinářské využití půdy a její udržování v klidu. TECHAGRO 2000, Brno-výstaviště: 17-22.
    10. STRUZHKINA T.M., 2002. Phalaris arundinacea, a valuable fodder crop for the Kamchatka region. Kormoproizvodstvo, No. 8: 11-15.

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