Influence of Different Factors on Productivity of Reed Growths
DOI:
https://doi.org/10.17770/etr2013vol1.801Keywords:
Common reed, reed yield, productivity of reed bedsAbstract
The study shows results of research on reed productivity and on factors influencing this productivity. The research was performed during winter period from 2010 until 2012 in 23 natural and artificial water bodies of Latvia. The author of this study analyzed indexes of reed growth productivity and found regularities that statistically significantly (p less then 0,05) explain changes of reed productivity in water bodies depending on individual reed growing conditions in each water body. It is established that the productivity of reed growth depends on the amount of nutrients in the water of water body and that this productivity rises if the total concentration of nitrogen and phosphorus in the water is increased. The reed productivity is lower in clearer water. This parameter may be used in order to evaluate the amount of extractable biomass. The coherence is characterized by statistically significant (p less then 0,05) regression equation.Downloads
References
Latvijas Republikas prognožu dokuments par atjaunojamo energoresursu īpatsvara bruto enerģijas galapatēriņā līdz 2020. gadam sasniegšanu atbilstoši Direktīvas 2009/28/EK 4. panta 3. punktam.(2009), 1.-9. lpp. [tiešsaiste][28.01.2012] Pieejams: http://www.em.gov.lv/images/modules/items/EM_291209_forecast %281%29.pdf
Biomasas izmantošanas ilgtspējības kritēriju pielietošana un pasākumu izstrāde (2009) Adamovičs A., Dubrovskis V., Plūme I. u.c. Valsts SIA „Vides projekti”, Rīga, 16-38. lpp. [3] Tahir M., Casler M.D., Moore K.J., Brummer C. (2011) Biomass Yield and Quality of Reed Canarygrass under Five Harvest Management Systems for Bioenergy Production. In: Bioenerg. Res. 4, p.111–119.
Schafer W. (2012) Fibre crops for energy production and energy saving. In: Proceedings of the international scientific conference Renewable energy and energy efficiency, Jelgava, p.7-12.
Bassam N.El. (1998) Energy plant species. Their use and impact on environment and development. In:James and James(Science publisher) London, p.1-98.
Enerģētisko augu audzēšana un izmantošana (2007) Adamovičs A.,Agapovs J., Aršanica A. u. c. Valsts SIA „Vides projekti”, Rīga, 43-133. lpp.
Jansone B., Rancane S., Berzins P., Stesele V. (2012) Reed canary grass (Phalaris arundinacea L.) in natural biocenosis of Latvia, research experiments and production fields. In: Proceedings of the international scientific conference Renewable energy and energy efficiency, Jelgava, p.61-65.
Poiša L., Adamovičs A., Strikauska S. (2012) Factors affecting the carbon content in reed canary-grass (Phalaris arundinacea L.) used for producing burning material in Latvia, In: Grassland Science in Europe, Vol. 17, p.390-392.
Jankauskiene Z., Gruzdeviene E. (2012) Industrial hemp- a promising source for biomass production. In: Proceedings of the international scientific conference Renewable energy and energy efficiency, Jelgava, p.13-18.
Пойша Л., Адамович А., Страмкале В. (2010) Конопля (Cannabis sativa L.) как растение для биомассы. In: Proceedings of the international scientific conference “Human and nature safety”, Part 2, Kaunas, p. 132 – 135.
Poiša L., Adamovičs A., Stramkale V., Komlajeva L. (2010)(b) Eļļas lini atjaunojamās enerģijas iegūšanai. No: Latgales Tautsaimniecības pētījumi (Latgale National Economy research, Journal of Social Sciences). Nr. 1 (2), 291 – 299. lpp.
Komlajeva Ļ., Adamovičs A. (2012) Evaluation of flax (linum usitatissimum L. )quality parameters for bioenergy production. In: Proceedings of the 11th international scientific conference “Engineering for rural development”, May 24.-25., Jelgava, Latvia p. 490-494.
Jansone I, Gaile Z. (2012(a)) Ziemāju salmu izmantošana apkurei. Zinātniski praktiskās konferences „Zinātne Latvijas lauksaimniecības nākotnei: pārtika, lopbarība, šķiedra un enerģija” raksti, LLU Jelgava, 42-47. lpp.
Belicka I., Miglāne V., Jansone Z. (2009) Vasarāju graudaugu sugu piemērotība siltumenerģijas ražošanai. No: Vide.Tehnoloģija. Resursi. VII starptautiskās zinātniski praktiskās konferences materiāli, Rēzeknes Augstskola, 24.-31.lpp.
Able K., Ragan S. (2000) Effects of common reed (Phragmites australis) invasion on marsh surface macrofauna: response of fishes and decapod crustaceans.In: Estuaries 23(5), p.633–646.
Farnsworth E.J., Meyerson L.A. (1999) Species composition and inter-annual dynamics of a freshwater tidal plant community following removal of the invasive grass, Phragmites australis. In: Biological Invasions 1, p. 115–127.
Keller B. (2000) Plant diversity in Lythrum, Phragmites and Typha marshes, Massachusetts, USA. In: Wetl Ecol Manage 8, p.391– 401.
Brix H., Sorrel B.K., Lorenzen B. (2001) Are Phragmitesdominated wetlands a net source or net sink of greenhouse gases? In: Aquatic Botany 69, p.313–324.
Duan X.,Wang X., Ouyang Z. (2009) Influence of Common Reed (Phragmites australis) on CH4 Production and Transport in Wetlands: Results from Single-Plant Laboratory Eksperiments. In: Water Air Soil Pollut 197, p.185–191.
Slepetys J., Kadziuliene Z., Sarunaite L., Tilvikiene V., Kryzeviciene A. (2012) biomass potential of plants grown for bioenergy production. In: Proceedings of the international scientific conference Renewable energy and energy efficiency, Jelgava, p.66-72.
Bastlova D.,Bastl M., Čižkova H.,Kvet J. (2006) Plasticity of Lythrum salicaria and Phragmites australis growth characteristics across a European geographical gradient, In: Hydrobiologia 570, p.237–242.
Reed up on Reed (2007) Ikkonen I., Roosaluste E., Pitkanen T.at.al. Southwest Finland regional Environment centre, Turku 2007., p. 5-115.
Madison M., Soosaar K., Mauring T., Mander U. (2009) The biomass and nutrient and heavy metal content of cattails and reeds inwastewater treatment wetlands for the production of construction material in Estonia. In: Desalination 247, p.123-128.
Доспехов Б. А. (1985) Методика полевого опыта. Агропромиздат, Москва, 351 с.
Latvijas ezeru datubāze (2013)- [tiešsaiste][ 17.01.2013] Pieejams: http://www.ezeri.lv/database/AdvancedSearch
Sanderson, M.A., Adler, P.R. (2008) Perennial Forages as Second Generation Bioenergy Crops. In: International Journal of Molecular Sciences, 9 (5), p. 768-788, [tiešsaiste] (25.01.2010.)Pieejams:http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2635706/
Windham L., Lathrop L. (1999)Effects of Phragmites australis (Common Reed) Invasion on Aboveground Biomass and Soil Properties in Brackish Tidal Marsh of the Mullica River, New Jersey. In: Estuaries Vol. 22, No. 4, p. 927-935. [28] Торохова O.H., Глухов А.З., Арешков М.А., Агурова И.В. (2009) Изменчивость морфометрических параметров тросника обыкновенного и рогоза узколистного в искусственных водоемах промишленной зоны г. Горловки. б: Промышленная ботаника. 2009, вып. 9, cт. 82.
Romero J.A., Brix H., Comin F.A. (1999) Interactive effects of N and P on growth, nutrient allocation and NH4 uptake kinetics by Phragmites australis. In: Aquatic Botany 64, p. 369–380.
Meuleman A., Beekman J., Verhoeven T. (2002) Nutrient retention and nutrient-use efficiency in Phragmites australis stands after wasterwater application. In: Wetlands, Vol. 22, No.4 p.712-721.
EWN-2 :Lake quality data, LVĢMC monitoringa dati, [tiešsaiste] (25.02.2013.) Pieejams: http://cdr.eionet. europa. eu/lv/eea/ewn2.