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Effect of different biochar formulations on the growth of cherry tomatoes

  • Lee, Jae-Han (Department of Bio-environmental Chemistry, Chungnam National University) ;
  • Luyima, Deogratius (Department of Bio-environmental Chemistry, Chungnam National University) ;
  • Ahn, Ji-Young (Department of Bio-environmental Chemistry, Chungnam National University) ;
  • Park, Seong-Yong (Department of Bio-environmental Chemistry, Chungnam National University) ;
  • Choi, Bong-Su (National Institute of Biological Resources) ;
  • Oh, Taek-Keun (Department of Bio-environmental Chemistry, Chungnam National University) ;
  • Lee, Chang-Hoon (Department of Fruit Tree, National College of Agriculture and Fisheries)
  • 투고 : 2019.09.04
  • 심사 : 2019.10.30
  • 발행 : 2019.12.31

초록

Biochar is a solid carbon material made by pyrolyzing a biomass under limited oxygen conditions. Biochar has been reported to confer various benefits, such as increased soil productivity, pollutant absorption, and reduced greenhouse gas. In this study, oak pyrolyzed at 600℃ for 3 hours was either powdered or pelleted. Each of the biochar types was added to the soil at a rate of 2%. The control did not receive any biochar while a combination of the biochar and NPK treatment (biochar 2% + NPK) was also included. The cherry tomatoes were grown in greenhouse pots for 50 days to compare the growth characteristics of the different treatments. The cherry tomato with the powdered biochar 2% + NPK treatment had the heaviest plant fresh shoot weight of 276.4 g and the highest chlorophyll content of 59.3 SPAD. The control had the lightest plant fresh shoot weight of 44.2 g and a chlorophyll content of 26.5 SPAD. Both forms of biochar affected the chemical properties of the soil, increased the pH, electrical conductivity, available phosphate, total carbon and total nitrogen and positively influenced the cherry tomato growth and productivity. From the above results, therefore, both biochar forms are suited for use as soil amendments.

키워드

참고문헌

  1. Ahmad M, Lee SS, Dou X, Mohan D, Sung JK, Yang JE. 2012. Effects of pyrolysis temperature on soybean stover- and peanut shell-derived biochar properties and TCE adsorption in water. Bioresource Technology 118:536-544. https://doi.org/10.1016/j.biortech.2012.05.042
  2. Bird MI, Wurster CM, de Paula Silva PH, Bass AM, Nys R. 2011. Algal biochar - production and properties. Bioresource Technol 102:1886-1891. https://doi.org/10.1016/j.biortech.2010.07.106
  3. Cantrell KB, Hunt PG, Uchimiya M, Novak JM, Ro KS. 2012. Impact of pyrolysis temperature and manure source on physicochemical characteristics of biochar. Bioresource Technology 107:419-428. https://doi.org/10.1016/j.biortech.2011.11.084
  4. Cao X, Harris W. 2010. Properties of dairy-manure-derived biochar pertinent to its potential use in remediation. Bioresource Technology 101:5222-5228. https://doi.org/10.1016/j.biortech.2010.02.052
  5. Choi EJ, Lee JH, Jeong HC, Kim SH, Lim JS, Lee DK, Oh TK. 2017. Analysis of research trends in methane emissions from rice paddies in Korea. Korean Journal of Agricultural Science 44:463-476. [in Korean] https://doi.org/10.7744/KJOAS.20170055
  6. Choi IW, Kim JH, Lee SH, Lee JK, Seo DC, Cho JS. 2016. Adsorption characteristics of Cd, Cu, Pb and Zn from Aqueous solutions onto reed biochar. Korean Society of Soil Sciences and Fertilizer 49:489-494. [in Korean]
  7. Choi SK. 2003. The effect of activated charcoal on growth and yield in Bupleurum falcatum. The Plant Resources Society of Korea 16:130-133. [in Korean]
  8. Hong SD, Kim KI, Park HT, Kang SS. 2001. Relationship between leaf chlorophyll reading value and soil N-supplying capability for tomato in green house. Korean Journal of Soil Science and Fertilizer 34:85-91. [in Korean]
  9. Jeong SH. 2013. Effects of biochar derived from agricultural and forest residues on carbon sequestration and soil quality, M.S dissertation, Kangwon National Univ., Chuncheon, Korea. [In Korean]
  10. Jung SH. 2014. Effects of biochar derived from agricultural and forest residue on carbon sequestration and soil quality. Master dissertation, Kangwon National Univ., Chuncheon, Korea. [in Korean]
  11. Kang YI, Roh MY, Kwon JK, Park KS, Cho MW, Lee SY, Lee IB, Kang NJ. 2010. Changes of tomato growth and soil chemical properties as affected by soil pH and nitrogen fertilizers. Korean Journal of Environmental Agriculture 29:328-335. [in Korean] https://doi.org/10.5338/KJEA.2010.29.4.328
  12. Kim DY, Cho KG, Bak IT, Yoo GY. 2014. Changes in crop yield and CH4 emission from rice paddy soils applied with biochar and slow-release fertilizer. Koran Journal of Environmental Biology 32:327-334. https://doi.org/10.11626/KJEB.2014.32.4.327
  13. Kim HW, Bae SY, Lee JY. 2013. A study on the removal of heavy metals in soil by sewage sludge biochar. Journal of Soil and Groundwater Environment 18:58-64. [in Korean] https://doi.org/10.7857/JSGE.2013.18.3.058
  14. Kim JS, Cho MS. 2009. Quality changes of immature green cherry tomato pickles with different concentration of soy sauce and soaking temperature during storage. Journal of the Korean Society of Food Culture 24:295-307. [in Korean]
  15. KOSTAT. 2017. Crop production survey: Vegetable production (fruit vegetables). Accessed in http://kosis.kr/statisticsList/statisticsListIndex.do?menuId=M_01_01&vwcd=MT_ZTITLE&parmTabId=M_01_01&parentId=F.1;F1.2;F1H.3;#SelectStatsBoxDiv on 28 June 2019.
  16. Lee DW, Kim BR. 2001. Effect of carbonized wastewoods on soil improvement. Journal of Korea Forestry Energy 20:1-5. [in Korean]
  17. Lee JH, Seong CJ, Kang SS, Lee HC, Kim SH, Lim JS, Kim JH, Yoo JH, Park JH, Oh TK. 2018a. Effect of different types of biochar on the growth of Chinese cabbage (Brassica chinensis). Korean Journal of Agricultural Science 45:197-203. [in Korean] https://doi.org/10.7744/KJOAS.20180033
  18. Lee JH, Sung JK, Kim SH, Lee HC, Lee YK, Lim JS, Yoo JH, Kim JH, Park JH, Shinogi Y. Oh TK. 2018b. Effect of bead–form biochar as soil amendment. Journal of the Faculty of Agriculture, Kyushu University 63:405-409. https://doi.org/10.5109/1955662
  19. Lee YM. 2004. Tomato. Kimyoungsa, Seoul, Korea. [in Korean]
  20. Lehmann J. 2007. A handful of carbon. Nature 447:143-144. https://doi.org/10.1038/447143a
  21. Lim JE, Kim HW, Jeong SH, Lee SS, Yang JE, Kim KH, Ok YS. 2014. Characterization of burcucumber biochar and its potential as an adsorbent for veterinary antibiotics in water. Journal of Applied Biological Chemistry 57:65-72. https://doi.org/10.3839/jabc.2014.011
  22. NAAS (National Institute of Agricutural Sciences). 2010. Recommendation of the amount of fertilizer for crops. RDA, Jeonju, Korea. [in Korean]
  23. NAAS (National Institute of Agricutural Sciences). 2012. Research and analysis criteria for crops. RDA, Jeonju, Korea. [in Korean]
  24. Oh TK, Lee JH, Kim SH, Lee HC. 2017. Effect of biochar application on growth of Chinese cabbage (Brassica chinensis). Korean Journal of Agricultural Science 44:359-365. [in Korean] https://doi.org/10.7744/kjoas.20170039
  25. Oh TK, Shinogi Y, Lee SJ, Choi BS. 2014. Utilization of biochar impregnated with anaerobically digested slurry as slow-release fertilizer. Journal of Plant Nutrition and Soil Science 177:97-103. https://doi.org/10.1002/jpln.201200487
  26. Park GR, Jang HA, Jo SH, Park Y, Oh SK, Nam M. 2018. Development of SNP marker set for marker-assisted backcrossing (MABC) in cultivating tomato varieties. Korean Journal of Agricultural Science 45:385-400. [in Korean] https://doi.org/10.7744/KJOAS.20180061
  27. Seo JM, An JY, Park BB, Han SH, Youn WB, Aung A, Dao HTT, Cho MS. 2019. The effects of additive biomaterials and their mixed-ratios in growing medium on the growth of Quercus serrata container seedlings. Korean Journal of Agricultural Science 46:93-102. [in Korean] https://doi.org/10.7744/KJOAS.20180093
  28. Sohi SP. 2012. Carbon storage with benefits. Science 338:1034-1035. https://doi.org/10.1126/science.1225987
  29. Tanaka S. 1963. Fundamental study on wood carbonization. Bulletin of Experimental Forest of Hokkaido University 17.
  30. Zhang W, Sharma BK, Rajagopalan N. 2010. Using biochar as a soil amendment for sustainable agriculture. Submitted to the Sustainable Agriculture Grant Program Illinois Department of Agriculture.