Yıl: 2020 Cilt: 44 Sayı: 2 Sayfa Aralığı: 169 - 179 Metin Dili: İngilizce DOI: 10.3906/tar-1902-13 İndeks Tarihi: 30-04-2020

Spruce bark beetles as a biological waste that can be processed in a biogas plant

Öz:
Biogas plays an important role in reducing the amount of biowaste that is converted to methane which is usable by multiplepathways in the energy sector. Bark beetles are among the most important pests of spruce forests in Europe. Principal measures ofmanaging bark beetle populations include trapping them with pheromone traps. Biomass of bark beetles collected by the traps constitutesa waste of forest resources that could potentially be processed in biogas plants. The aim of this study was to provide information aboutthe trapping of bark beetles by pheromone traps in Tatra National Park during 2005–2018 and to verify the energy potential of acombination of liquid digestate and bark beetle biomass collected by pheromone traps. The bark beetle biomass is a seasonal smallvolume nitrogen-rich material which could be processed at agricultural biogas plants. The biochemical methane potential batch testperformed at 40 °C showed a high degree of digestion of milled beetles within 40 days, with a methane production of 0.242 Nm3 perkilogram of total solids (TS). The single-stage low-solids mesophilic fed-batch anaerobic digestion of untreated beetles was carriedout in a lab-scale rotary drum reactor. Within 52 days, the average organic loading rate was 1.019 kg VS m–3 day–1, where VS stands forvolatile solids. The specific biogas and methane production reached 0.218 Nm3 kg–1 TS and 0.140 Nm3 kg–1 TS,respectively. The cuticlesof the beetle bodies were not obviously disturbed by the fermentation process. The digestate was quite rich in nitrogen, but the otherelement contents did not differ too much from fertilizer made from manure or phytomass.
Anahtar Kelime:

Konular: Ziraat Mühendisliği
Belge Türü: Makale Makale Türü: Araştırma Makalesi Erişim Türü: Erişime Açık
  • Anderbrant O, Schlyter F, Birgersson G (1985). Intraspecific competition affecting parents and offspring in the bark beetle Ips typographus. Oikos 45 (1): 89-98.
  • ASTM Committee D-5 on Coal and Coke. D7582-15 Standard Test Methods for Proximate Analysis of Coal and Coke by Macro Thermogravimetric Analysis. West Conshohocken, PA, USA: ASTM International.
  • Bednarz BM, Kacprzyk M (2012). The weight-volume method of Ips typographus L. (Coleoptera: Scolytidae) sex determination. URL: https://www.researchgate.net/publication/260980333_The_ weight-volume_method_of_Ips_typographus_L_Coleoptera_ Scolytine_sex_determination [accessed 12 November 2018].
  • Bentz BJ, Jönsson AM (2015). Modelling bark beetle responses to climate change. In: Vega F, Hofstetter R (editors). Bark Beetles: Biology and Ecology of Native and Invasive Species. Elsevier: London, UK, pp. 543-549.
  • Christiansen E, Waring RH, Berryman AA (1987). Resistance of conifers to bark beetle attack: searching for general relationships. Forest ecology and management 22(1-2): 89-106. doi:10.1016/0378-1127(87)90098-3
  • EN ISO 11734:1998 Water quality -- Evaluation of the “ultimate” anaerobic biodegradability of organic compounds in digested sludge -- Method by measurement of the biogas production, http://www.iso.org.
  • EN 15933:2012 Sludge, treated biowaste and soil – Determination of pH.
  • EN 15934:2012 Sludge, treated biowaste and soil – Calculation of dry matter fraction after determination of residue or water content.
  • EN 15935:2012 Sludge, treated biowaste and soil – Determination of loss on ignition.
  • EN 15104:2011 Solid biofuels – Determination of total content of carbon, hydrogen and nitrogen – instrumental methods.
  • EN 15936:2012 Sludge, treated biowaste, soil and waste – Determination of total organic carbon (TOC) by dry combustion.
  • EN 14918:2009 Solid biofuels – Determination of calorific value.
  • Facoli M, Stergulc F (2004). Ips typographus (L.) pheromone trapping in south Alps: spring catches determine damage thresholds. Journal of Applied Entomology 128 (4): 307-311. doi:10.1111/ j.1439-0418.2004.00848.x
  • Franklin AJ, Gregoire JC (1999). Flight behaviour of Ips typographus L. (Col., Scolytidae) in an environment without pheromones. Annals of Forest Science 56: 591-598.
  • Galko J, Nikolov Ch, Kunca A, Vakula J, Gubka A et al. (2016). Effectiveness of pheromone traps for the European spruce bark beetle: a comparative study of four commercial products and two new models. Central European Forestry Journal 62 (4): 207–215. doi:10.1515/forj-2016-0027
  • Havašová M, Ferenčík J, Jakuš R (2017). Interactions between windthrow, bark beetles and forest management in the Tatra national parks. Forest Ecology and Management 391: 349-361. doi:10.1016/j.foreco.2017.01.009
  • Helland IS, Hoff JM, Anderbrant O (1984). Attraction of bark beetles (Coleoptera: Scolytidae) to a pheromone trap. Journal of Chemical Ecology 10 (5): 723-752. doi:10.1007/BF00988539
  • Jeger M, Bragard C, Caffier D, Candresse T (2017). Pest categorisation of Ips typographus. EFSA Journal 15: 4881. doi:10.2903/j. efsa.2017.4881
  • Kacprzyk M, Bednarz B (2015). The possibilities of six-toothed bark beetle (Pityogenes chalcographus L.) (Coleoptera: Scolytinae) sex identification based on adults’ biometric characteristics. Journal of the Entomological Research Society 20 (3): 71-82.
  • Kolb ET, Fettig JC, Bentz B, Ayers PM (2016). Effects of Drought on Forests and Rangelands in the United States: A Comprehensive Science Synthesis. Vose JM, Clark JS, Luce CHH, PatelWeynand T (editors). Washington, DC, USA: US Department of Agriculture, Forest Service, Washington Office. pp. 113-132. doi:10.2737/WO-GTR-93b
  • Lindelöw A, Schroeder M (2001). Spruce bark beetle, Ips typographus (L.), in Sweden: monitoring and risk assessment. Journal of Forest Science 47: 40-42.
  • Lossie U, Pütz P (2008). Targeted control of biogas plants with the help of FOS/TAC. Practice Report Hach-Lange. URL: www. hach-lange.com [accessed 28 January 2016].
  • Meyer AKP, Ehimen EA, Holm-Nielsen JB (2017). Future European biogas: Animal manure, straw and grass potentials for a sustainable European biogas production. Biomass and Bioenergy 111: 154-164. doi:10.1016/j.biombioe.2017.05.013
  • Nikolov C, Konôpka B, Kajba M, Galko J, Kunca A et al. (2014). Postdisaster forest management and bark beetle outbreak in Tatra National Park, Slovakia. Mountain Research and Development 34 (4): 326-336. doi:10.1659/MRD-JOURNAL-D-13-00017.1
  • Richards BK, Cummings RJ, White TE, Jewell WJ (1991). Methods for kinetic analysis of methane fermentation in high solids biomass digesters. Biomass and Bioenergy 1 (2): 65-73. doi:10.1016/0961-9534(91)90028-B
  • Vakula J, Galko J, Gubka A (2017). Výskyt škodlivých činiteľov v lesoch Slovenska v roku 2016 a prognóza ich vývoja na rok 2017. Národné lesnícke centrum – Lesnícky výskumny ústav, Zvolen, 22-25 (in Slovak).
  • VDI 4630 (2006). Fermentation of organic materials. Characterisation of the substrates, sampling, collection of material data, fermentation tests. Verlag des Vereins Deutscher Ingenieure, Düsseldorf, 92.
  • Zahradník P, Knížek M, Kapitola P (1995). Zpětné odchyty lýkožroutů smrkových (Ips typographus L.). Kůrovci v lesích ČR, Písek, pp. 25-36 (in Czech).
  • Zahradník P, Knížek M (2007). Lesní ochranná služba. Lýkožrout smrkový Ips typographus (L.) Lesnická práce 4/2007. URL: http://www.silvarium.cz/images/letaky-los/2007/2007_ lykozrout_smrkovy.pdf [accessed 31 October 2018].
  • Zauner E, Kűnzel U (1986). Methane production from ensilaged plant material. Biomass 10 (3): 207-223. doi:10.1016/0144- 4565(86)90054-5
  • Zumr V (1990). Migrace lykožrouta smrkového Ips typographus (L.) (Coleoptera, Scolytidae) ve smrkových porostech. [The migration of spruce bark beetle Ips typographus (L.) (Coleoptera, Scolytidae) in spruce stands.] Lesnictví 36: 449- 455.
  • Zumr V (1991). The behaviour of the spruce bark beetle Ips typographus (L.) ČSAZV Lesnictví 37: 669-675.
  • Zumr V (1992). Dispersal of the spruce bark beetle Ips typographus (L.) (Col., Scolytidae) in spruce woods. Journal of applied entomology 114: 348-352.
  • Wermelinger B (2004). Ecology and management of the spruce bark beetle Ips typographus—a review of recent research. Forest Ecology and Management 202 (1-3): 67–82. doi:10.1016/j. foreco.2004.07.018
  • Weslien J, Lindelöw A (1990). Recapture of marked spruce bark beetles (Ips typographus) in pheromone traps using area-wide mass trapping. Canadian Journal of Forest Research 20: 1786- 1790.
APA RUSÍN J, MUDRONČEKOVÁ S, BARTA M, CHAMRÁDOVÁ K (2020). Spruce bark beetles as a biological waste that can be processed in a biogas plant. , 169 - 179. 10.3906/tar-1902-13
Chicago RUSÍN Jiří,MUDRONČEKOVÁ Silvia,BARTA Marek,CHAMRÁDOVÁ Kateřina Spruce bark beetles as a biological waste that can be processed in a biogas plant. (2020): 169 - 179. 10.3906/tar-1902-13
MLA RUSÍN Jiří,MUDRONČEKOVÁ Silvia,BARTA Marek,CHAMRÁDOVÁ Kateřina Spruce bark beetles as a biological waste that can be processed in a biogas plant. , 2020, ss.169 - 179. 10.3906/tar-1902-13
AMA RUSÍN J,MUDRONČEKOVÁ S,BARTA M,CHAMRÁDOVÁ K Spruce bark beetles as a biological waste that can be processed in a biogas plant. . 2020; 169 - 179. 10.3906/tar-1902-13
Vancouver RUSÍN J,MUDRONČEKOVÁ S,BARTA M,CHAMRÁDOVÁ K Spruce bark beetles as a biological waste that can be processed in a biogas plant. . 2020; 169 - 179. 10.3906/tar-1902-13
IEEE RUSÍN J,MUDRONČEKOVÁ S,BARTA M,CHAMRÁDOVÁ K "Spruce bark beetles as a biological waste that can be processed in a biogas plant." , ss.169 - 179, 2020. 10.3906/tar-1902-13
ISNAD RUSÍN, Jiří vd. "Spruce bark beetles as a biological waste that can be processed in a biogas plant". (2020), 169-179. https://doi.org/10.3906/tar-1902-13
APA RUSÍN J, MUDRONČEKOVÁ S, BARTA M, CHAMRÁDOVÁ K (2020). Spruce bark beetles as a biological waste that can be processed in a biogas plant. Turkish Journal of Agriculture and Forestry, 44(2), 169 - 179. 10.3906/tar-1902-13
Chicago RUSÍN Jiří,MUDRONČEKOVÁ Silvia,BARTA Marek,CHAMRÁDOVÁ Kateřina Spruce bark beetles as a biological waste that can be processed in a biogas plant. Turkish Journal of Agriculture and Forestry 44, no.2 (2020): 169 - 179. 10.3906/tar-1902-13
MLA RUSÍN Jiří,MUDRONČEKOVÁ Silvia,BARTA Marek,CHAMRÁDOVÁ Kateřina Spruce bark beetles as a biological waste that can be processed in a biogas plant. Turkish Journal of Agriculture and Forestry, vol.44, no.2, 2020, ss.169 - 179. 10.3906/tar-1902-13
AMA RUSÍN J,MUDRONČEKOVÁ S,BARTA M,CHAMRÁDOVÁ K Spruce bark beetles as a biological waste that can be processed in a biogas plant. Turkish Journal of Agriculture and Forestry. 2020; 44(2): 169 - 179. 10.3906/tar-1902-13
Vancouver RUSÍN J,MUDRONČEKOVÁ S,BARTA M,CHAMRÁDOVÁ K Spruce bark beetles as a biological waste that can be processed in a biogas plant. Turkish Journal of Agriculture and Forestry. 2020; 44(2): 169 - 179. 10.3906/tar-1902-13
IEEE RUSÍN J,MUDRONČEKOVÁ S,BARTA M,CHAMRÁDOVÁ K "Spruce bark beetles as a biological waste that can be processed in a biogas plant." Turkish Journal of Agriculture and Forestry, 44, ss.169 - 179, 2020. 10.3906/tar-1902-13
ISNAD RUSÍN, Jiří vd. "Spruce bark beetles as a biological waste that can be processed in a biogas plant". Turkish Journal of Agriculture and Forestry 44/2 (2020), 169-179. https://doi.org/10.3906/tar-1902-13