Received: 27-09-2021
Accepted: 05-04-2022
DOI:
Views
Downloads
How to Cite:
Effects of Wood Vinegar in Crop Cultivation: A Review
,
Phan Thi Thuy
1
,
Nguyen Thi Ai Nghia
1
Keywords
Wood vinegar, crop yield, pesticide, fertilizer use efficiency
Abstract
Wood vinegar is produced fromagricultural and forestry byproducts pyrolysis such as waste from woodandbamboo, rice straw, husks, sugarcane bagasse and corn-cob. Wood vinegar consistsof more than 200 water-soluble chemicalcompounds, 80-90%water and 10-20% organic chemicalcompounds: organicacid, alkane, phenolic, alcohol and ester. Thus, wood vinegar has a powerful antioxidant and antimicrobial activity as well as anti-inflammatory agent, anti-fungal drug, pest control and natural plant growth promotion. This review article sums up the rolesof wood vinegar in crop cultivation such as promotingcropgrowth andyield, enhancing the use efficiency of chemical fertilizersand pesticides, stimulating germination, improvingsoil health and manure quality,and eradicating weed.Therefore, wood vinegar can be considered to be a potential material for sustainable agricultural development in Vietnam.
References
Agoncillo E.S. (2018). Vegetable seed germination enhancement using different levels of pyroligneous Acid (PA). Journal of Biology, Agriculture and Healthcare. 2(8): 14-18.
AraújoE., Pimenta A.S., FeijóF.M.C.,Castro R.V.O., FasciottiM., MonteiroT.V.C&Lima K.M.G. (2018). Antibacterial and antifungal activities of pyroligneous acid from wood of Eucalyptus urograndis and Mimosa tenuiflora. Journal of Applied Microbiology. 1(24): 85-96.
Crepier J., Le M.A., Charon N., Albrieux F., Duchene P.&Heinisch S. (2018). Ultra-high performance supercritical uid chromatography hyphenated to atmospheric pressure chemical ionization high resolution mass spectrometry for thecharacterization of fast pyrolysis bio-oils. Journal of chromatographyB. 186: 38-46.
Cyren M.R., Souliya S.,Lamuel O.M.,Kyung C.,Tae K.S.&SangC.L. (2007).Effects of mixed Appication of wood vinegar and herbiside on weed control, yields and quality of rice (Oryza Stiva L.).KoreanofJournal CropScience. 52(4): 387-392.
DemirbaşA. (2002).Partly chemical analysis of liquid fraction of ash pyrolysis products from biomass in the presence of sodium carbonate.Energy Conversion and Management. 43(14): 1801-1809.
GrewalA., Abey L., Gunupuru L.R.(2018). Production, prospects and potential application of pyroligneous acid in agriculture. Journal of Analytical and applied pyrolysis.135: 152-159.
HagnerM.,Penttinen O., Kari T.&Setälä H. (2013). The effects of biochar, wood vinegar and plants on glyphosate leaching and degradation. European Journal of Soil Biology. 58: 1-7.
Hagner M., Tiilikkala M., Lindqvist I., NiemeläK., WikbergH., Källi A.& Rasa K.(2018). Performanceof liquids from slow pyrolysis and hydrothermal carbonization in plant protection. Waste and Biomass Valorization. 11: 1005-1016.
Jose T.T & Machito M. (2016). Effects of pyroligneous acid to growth and yield of soybeans (Glycine max). International Journal of Environmental and Rural Development. 1(7): 50-54.
Juan L.A., JuanB., Maria T.M., Leonor N., Sergio G., José L.M. &Manuel P. (2020). Composition, ageing and herbicidal properties of wood vinegar obtained through fast biomass pyrolysis. Journal of Energies.13(10): 1-17.
Jun M.,Zhi-ming Y., Wen-qiangW &Qing-liW. (2006). Preliminary study of application effect of bamboo vinegar onvegetable growth. Forestry Studies in China. 8(3): 43-47.
Kim J., Choi J., Kim T., Kim S&Cho K. (2001).Isolation and identification of herbicidal substances from wood vinegars.Korean Journal of Weed Science.2: 357-364.
Koç I., YardimE.N., Akca M.O.& Namli A. (2018). Impact of pesticides and wood vinagar, used in wtheat agro-ecosystems, on the soil enzyme activities. Fresenius Environmental Bulletin. 4(27): 2442-2448
Koç I., ÖðünE., Namli A., Mendeş M., Pinar S.M., Cig F.& Yadim E.N. (2019a). A Study of the effects of wood vinegar on weeds and cultivated plant in wheat in Agro-Ecosystem. Fresenius EnvironmentalBulletin. 4(28): 2747-2753.
Koç I., ÖðünE., Namli A., Mendeş M., KutluE.&YardimE.N.(2019b).The effects of wood vinegar on some soil microorganisms.Applied Ecology and Environmental Research.17(2):2437-2447.
Lashari M.S., Liu Y., Li L., Pan W., Fu J., Pan G., Zheng J., Zheng J., Zhang X.&Yu X. (2013).Effects of amendment of biochar-manure compost in conjunction with pyroligneous solution on soil quality and wheat yield of a salt-stressed cropland from Central China Great Plain.Field Crops Research. 144: 113-118.
Lee J.U., Hong J.H., Chang K.W.& Hwuang J.Y. (2005). Effect of pyroligneous acid liquor on the maturity of pig manure compost. Korean Journal of Soil Science and Fertilizer. 2(38): 101-107.
Lee J.K., Park H.J., Cha S.J., Kwwon S.J.& Park J.H. (2021). Effect of pyroligneous acid on soil urease, amidase, and nitrogen use efficiency by Chinese cabbage (Brassica campestrisvar.Pekinensis). Environmental Pollution. 291: 118-132.
Lindqvist I., Lindqvist B.&Tiilikkala K. (2010).Birch tar oil is an e ective mollusc repellent: field and laboratory experiments using Arianta arbustorum(gastropoda: helicidae) and Arion lusitanicus(gastropoda: arionidae).Agriculturaland Food Science. 19: 1-12.
Ling L., Xiaoping G., Shuqi W., Lei L., Yang Z.&Guanhong L. (2018). Effects of wood vinegar on properties and mechanism of heavy metal competitive adsorption on secondary fermentation based composts. Ecotoxicology and Environmental Safety. 150:270-279.
Liu Y.M., Wang X.X., Wang X.F.& Zhang J. (2012). Effect of pyroligneous acids on seed germination of Protea cynaroides.Journal of Zhejiang Forestry Science and Technology. 4(12): 51-53.
Lu H., Lashari M. S., Liu X., Ji H., Zheng J., Kibue G.W., Joseph S.& Pan G.(2015). Changes in soil microbial community structure and enzyme activity with amendment of biochar-manure compost and pyroligneous solution in a saline soil from Central China. European Journal of Soil Biology. 70: 67-76
Ma X.H., Wei Q., Zhang S.S., Shi L., Zhao Z. (2011). Islattion and bioactivities of oganic acids and phenols from walnut shell pyroligneous acid. Journal of Analytical and applied pyrolysis. 2(91): 338-343.
Maliang H., Tang H., Lin H., Cheng A.& Ma J. (2020). Influence of high-dose continuous applications of pyroligneous acids on soil health assessed based on pH, moisture content and three hydrolases. Envirinmental Science and Pollution Research. 3(27): 15426-15439.
Masum S., Malek M., Mandal M., Haque M&Akther Z. (2013).Influence of plant extracted pyroligneous acid on transplanted aman rice. Journal of Experimtmenof Bioscience. 4(2): 31-34.
Mmojieje J.&Hornung A. (2015).The potential application of pyroligeneous acid in the UK agriculture industry. Journal of Crop Improvement. 29: 228-246.
Mohan D., Pittman C.U. & SteeleP.H. (2006a). Pyrolysis of wood/biomass for bio-oil: a critical review. Energy and Fuels. 20(3):848-889.
Mohan D., Pittman C.U.&Steele P.H.(2006b). Pyrolysis of wood/biomass for bio-oil: a critical review.Energy and Fuels. 20:848-889.
Mu J.,UeharaT.&Furuno T.(2003).Effect of bamboo vinegaron regulation of germination and radicle growth of seed plants. Journalof Wood Science. 49:262-270.
Mungkunkamchao T., Kesmala T., Pimratch S., Toomsan, B., & Jothityangkoon D. (2013). Wood vinegar and fermented bioextracts: Natural products to enhance growth and yield of tomato (Solanum lycopersicumL.).Scientica Horticulturae.154:66-72
Nguyễn Hồng Phong & Nguyễn Xuân Hòa (2019). Đánh giá hiệu quả diệt tuyến trùng của sản phẩm giấm gỗ biffaen trong phòng thí nghiệm. Tạp chí Khoa học và Công nghệ Nông nghiệp Việt Nam. 1(98): 108-112.
OramahiH.A., Yoshimura T. (2013). Antifungal and antitermitic activities of wood vinegar form Vitex pubescensVahl. Journal Wood Science. 59: 344-350.
Pan J., Cao F.& Zhang W. (2010). Effects of gingko wood vinegar on crops seed. Seed. 29: 29-44.
Pangnakorn U., Kanlaya S & Kuntha C. (2011). Efficiency of wood vinegar and extracts from some medicinal plants on insect control. Advancesin Environmental Biology.5(2):477-482.
Seo P.D., Ultra V.U., Rubenecia M.R.U.& Lee S.C. (2015). Influence of herbicides-pyroligneous acids mixtures on some soil properties, growth and grain quality of paddy rice. International Journal Agriculture and Biology.3917: 499-506.
StadenJ.V.,Neville A. C; Brown A.K., Jäger A.K; Jonshon T.A. (2000). Smoke as a germination cue. Plant Species Biology. 15: 167-178.
Steiner C., Das K.C., Garcia M., FörsterB.& ZechW. (2008). Charcoal and smoke extract stimulate the soil microbial community in a highly weathered xanthic Ferralsol. Pedobiologia. 51(5):359-366.
Theapparat Y., Chandunpai A., & Faroongsarng D. (2018). Physiochemistry and utilization of wood vinegar from carbonization of tropical biomass waste. In Tropical Forests-New Edition; In Tech: London, UK.
Tổng cục Thống kê (2020). Niên giám thống kê. Nhà xuất bản Thống kê. tr. 515-578.
Wei Q., Ma X&DongJ.(2010a). Preparation, chemical constituents and antimicrobial activity ofpyroligneousacids from walnut tree branches. Journal of Analytical and Applied Pyrolysis. 87(1): 24-28.
Wei Q., Ma X., Zhao Z., Zhang S&Liu S. (2010b). Antioxidant activities and chemical proles of pyroligneous acids from walnut shell. Journal of Analytical and Applied Pyrolysis. 2(88): 149-154
Zhang Q.,Chang J.,Wang T&Xu Y.(2007). Reviewofbiomasspyrolysisoilpropertiesand upgrading research. Energy Conversion andManagement. 48(1): 87-92.
Zhou Y., Li Y.M., Zhang R. Zeng L. & Dabuxilatu (2019).The effect of biochar and pyroligneous on the composting process of phosphorus tailings and activating phosphorus. Jounral of Yunnan Agricultural University. 3(34): 509-515.
Zulkarami B.,Ashrafuzzaman M., Husni M.&Ismail M.R.(2011). Effect of pyroligneous acid on growth, yield and quality improvement of rock melon in soilless culture.AustralianJournal of Crop Science. 5(12): 1508-1514.