[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.7745/KJSSF.2015.48.5.528

Effects of Continuous Application of Green Manures on Microbial Community in Paddy Soil

Kim, Sook-Jin (Crop Cultivation and Environment research Division, NICS, RDA)
Kim, Kwang Seop (Organic Agriculture Research Institute, Gyeongbuk Agricultural Research & Extension service)
Choi, Jong-Seo (Crop Cultivation and Environment research Division, NICS, RDA)
Kim, Min-Tae (Crop Cultivation and Environment research Division, NICS, RDA)
Lee, Yong Bok (Institute of Agriculture and Life Science, Gyeongsang National University)
Park, Ki-Do (Crop Cultivation and Environment research Division, NICS, RDA)
Hur, Seonggi (Crop Cultivation and Environment research Division, NICS, RDA)

Publication Information

Korean Journal of Soil Science and Fertilizer / v.48, no.5, 2015 , pp. 528-534 More about this Journal

Abstract

Green manure crops have been well recognized as the alternative for chemical fertilizer, especially N fertilizer, because of its positive effect on soil and the environment. Hairy vetch and green barley are the most popular crops for cultivation of rice in paddy field. This study was conducted to evaluate effects of hairy vetch and green barley on soil microbial community and chemical properties during short-term application (three years). For this study, treatments were composed of hairy vetch (Hv), green barley (Gb), hairy vetch + green barley (Hv+Gb), and chemical fertilizer without green manure crops (Con.). Hv+Gb treatment showed the highest microbial biomass among treatments. Principal component analysis (PCA) showed that PC1 (73.0 %) was affected by microbial biomass and PC2 (21.5 %) was affected by fungi, cy19:0/18: $1{\omega}7c$ (stress indicator). Combined treatment with hairy vetch and green barley could be more efficient than green manure crop treatment as well as chemical fertilizer treatment for improvement of soil microorganisms.

Keywords

Green manure; Hairy-vetch; Green barley; Microbial community; Paddy soil; PCA;

Citations & Related Records

Times Cited By KSCI : 12 (Citation Analysis)

Reference
Cited By KSCI

1	Aulakh M.S. and N.S. Pasricha. 1998. The effect of green manuring and fertilizer N application on enhancing crop productivity in mustard-rice rotation in semi-arid subtropical regions. Eur. J. Agron. 8:51-58. DOI
2	Aulakh M.S., T.S., Khera, John W. Doran and Kevin F. Bronson. 2001. Managing crop residue sith green manure, urea and tillage in a rice-wheat rotation Soil Sci. Soc. Am. J. 65:820-827. DOI
3	Bossio, D. and K.M. Scow, 1995. Impact of carbon and flooding on the metabolic deversity of microbial communities in soils. Appl. Environ. Microb. 61:4043-4050.
4	Bossio, D and K.M. Scow. 1998. Impacts of carbon and flooding on soil microbial communities: phospholipid fatty acid profiles and substrate utilization patterns. Microb. Ecol. 35:265-278. DOI
5	Campbell C.A., V.O. Biederbeck, R.P. Zentner and G.P. Lafond. 1991. Effect of crop rotations and cultural practices on soil organic matter, microbial biomass and respiration on a thin Black Chernozem. Can. J. Soil. Sci. 71:363-376. DOI
6	Carrera L.M., J.S Buyer., B. Vinyard,. A.A. Abdul-Baki, L.J. Sikora and J.R. Teasdale. 2007. Effects of cover crops, compost and manure amendments on soil microbial community structure in tomato production system. Appl. Soil Ecol. 37:247-255. DOI
7	Cho H.S., K.Y. Seong, T.S. Park, M.C. Seo, W.T. Jeon, W.H. Yang, H.W. Kang and H.J. Lee. 2012. Changes in carbon amount of soil and rice plant as influenced by the cultivation of different green manure crops. Korean J. Soil Sci. Fert. 45:1058-1064. DOI ScienceOn
8	Choi B.S., J.A. Jung, M.K. Oh, S.H.Jeon, H.G. Goh, Y.S. Ok and J.K. Sung. 2010. Effects of Green manure crops on improvement of chemical and biological properties in soil. Korean J. Soil Sci. Fert. 43:650-658.
9	Daquiado, A.R., T.Y. Kim, and Y.B. Lee. 2013. Microbial community structure of paddy soil under long-term fertilizer treatment using phospholipid fatty acid (PLFA) analysis. Korean J. Soil Sci. Fert. 46:474-481. DOI
10	Eo, J., S.B. Kang, K.C. Park, K.S. Han, and Y.K. Yi. 2010. Effects of cover plants on soil biota: A study in an apple orchard. Korean J. Environ. Agric. 29:287-292. DOI
11	Eo, J., J.M. Park and K.C. Park. 2015. Effects of cover crops on soil chemical properties and biota in a pear orchard. Korean J. Soil Sci. Fert. 48:15-21. DOI
12	Ferreira P.A.A., E. Girotto, G. Trentin, A.Miotto, G. W. de Melo, C. A. Ceretta, J. Kaminski, B.K. Frostegard, A., A. Tunlid and E. Baath. 1991. Microbial biomass measured as a total lipid phosphate in soils of different organic content. J. Microbiol. Methods. 14:151-163. DOI
13	Frostegard, A. and E. Baath. 1996. The use of phospholipid fatty acid analysis to estimate bacterial and fungal biomass in soil. Biol. Fertil. Soils. 22:59-65 DOI
14	Kim, C.G., J.H Seo, H.S. Jo, S.H Choi and S.J Kim. 2002. Effect of hairy vetch as green manure on rice cultivation. Korean J. Soil Sci. Fert. 35:169-174.
15	Jeon, W.T., K-Y. Seong, M.T. Kim, G.J. Oh, I-S. Oh and U.G. Kang. 2010. Changes of soil physical properties by glomalin concentration and rice yield using different green manure crops in paddy. Korean J. Soil Sci. Fert. 43:119-123.
16	Jeon, W.T., K.Y.Seong, M.T. Kim, I.S. Oh, B.S. Choi and U.G. Kang. 2011. Effect of biomass and N production by cultivation methods of leguminous and gramineae green manures on rice growth in central regions of Korea. Korean J. Soil Sci. Fert. 44:853-858. DOI ScienceOn
17	Kaur, A.A. Chaudhary, A. Kaur, R. Choudhary and R. Kaushik. 2005. Phospholipid fatty acid - A bioindicator of environment monitoring and assessment in soil ecosystem. Curr. Sci. India 89; 1103-1112.
18	Kim, E.S. and Y.H. Lee, 2011, Response of soil microbial communities to applications of green manures on paddy at an early rice-growing stage. Korean J. Soil Sci. Fert. 44: 221-227. DOI ScienceOn
19	Kim, J.G., K.B. Lee, D.B. Lee, S.B. Lee and S.Y. Na. 2004. Influence of liquid pig manure on rice growth and nutrient movement in paddy soil under different drainage conditions. Korean J. Soil Sci. Fert. 37:97-103.
20	Kim, M.K., Y.K. Sonn, H.Y. Weon, J.Y. Heo, J.S. Jeong,Y.J. Choi, S.D. Lee, H.Y. Shin, Y.S. Ok, and H.Y. Lee. 2015. Impacts of soil texture on microbial community of orchard soils in Gyeongnam province. Korean J. Soil Sci. Fert. 48:81-86. DOI
21	Kim T.Y., S.Y. Kim, F. Alam, and Y.B. Lee. 2013. Green manuring effect of pure and mixed barley-hairy vetch on rice production. Korean J. Environ. Agric. 32:268-272. DOI
22	MacRae R.J., and G.R. Mehuys. 1985. The effect of green manuring on the physical properties of temperate-area soils. Advan. Soil Sci. 3:71-94. DOI
23	Kivaisi A.K., H.J.M.O. Camp, H.J. Lubberding, J.J. Boon, and G.D. Vogels. 1990. Generation of soluble lignin-derived compounds during degradation of barley straw in an artificial rumen reactor. Appl. Microbiol. Biotechnol. 33:93-98. DOI
24	Lee, H.J., J.S. Lee and J.H. Seo. 2002Decomposition and N release of hairy vetch applied as a green manure and its effects on rice yield in paddy field. Korean J. Crop Sci. 47(2):134-141.
25	Li, W.H., C.B. Zhang, H.B. Jiang, G.R. Xin, and Z.Y. Yang. 2006. Changes in soil microbial community associated with invasion of the exotic weed. Mikaniamicrantha HBK. Plant Soil 281:309-324. DOI
26	Macdonald L.M., E. Paterson, L.A. Dawson and A.J.S. Mcdonald. 2004. Short-term effects of defoliation on the soil microbial community associated with two contrasting Lolium perenne cultivars. Soil Biol. Biochem. 36:489-498. DOI
27	Mandal U.K., G. Singh, U.S. Victor and K.L. Shrma. 2003. Green manuring: its effect on soil properties and crop growth under rice-wheat cropping system. Eur. J. Agron. 19:225-237. DOI
28	National Institute of Agricultural Science and Technology. 2000. Analysis method of soil and plant.
29	Neely, C.L., M.H. Beare Michael H., W.L. Hargrove, and D.C. Coleman. 1991. Relationships between fungal and bacterial substrate-induced respiration, biomass and plant residue decomposition. Soil Biol. Biochem.23:947-954. DOI
30	Park, K.C. and S.J. Kim. 2010. Changes of soil microbial phospholipid fatty acid as affected by red pepper cultivation and compost amendment. Korean J. Soil Sci. Fert. 43: 194-199.
31	Robinson C.A., R.M. Cruse and M. Ghaffarzadeh. 1996. Cropping system and nitrogen effects on mollisol organic carbon. Soil Sci. Soc. Am. J. 60:264-269. DOI
32	Peacock A.D., M.D. Mullen, D.B. Ringelberg, D.D. Tyler, D.B. Hedrick, P.M. Gale and D.C. White. 2001. Soil microbial community responses to dairy manure or ammonium nitrate applications. Soil Biol. Biochem. 33:1011-1019. DOI
33	Petersen, S.O., P.S. Frohne and A.C. Kennedy. 2002. Dynamics of a soil microbial community under spring wheat. Soil Sci. Soc. Am. J. 66:826-833. DOI
34	RDA. 2015. Nongsaro: Agricultural Technology Information. http://www.nongsaro.go.kr.
35	Seo, J.H., H.J. Lee, S.J. Kim and I.B. Hur. 1998. Nitrogen release from hairy vetch(Villosa roth) residue in relation to different tillage and plant growth stage. Korean J. Soil Sci. Fert. 31:137-142.
36	Stopes C., S. Millington and L. Woodward. 1996. Dry matter and nitrogen accumulation by three leguminous green manure species and the yield of a following wheat crop on an organic production system. Agric. Ecosyst. Environ. 57: 189-196. DOI ScienceOn
37	Tosti G, P. Benincasa, M. Farneselli, R. Pace, F. Tei, M. Guiducci and K. Thorup-Kristensen. 2012. Green manuring effect of pure and mixed barley-hairy vetch winter cover crops on maize and processing tomato N nutrition. Eur. J. Agron. 43:136-146. DOI ScienceOn
38	Zelles, L. 1999. Fatty acid patterns of phospholipids and lipopolysaccharides in the characterisation of microbial communities in soil: a review. Biol. Fertil. Soils 29:111-129. DOI
39	Zhang, Q.C., and G.H. Wang. 2006. Effect of different fertilization treatments on ecological characteristics of microorganism in paddy soil. J. Zhejiang Sci. A. 11:376-380.
40	Zhang, Q.C., G.H. Wang, and H.Y. Yao. 2007. Phospholipid fatty acid patterns of microbial communities in paddy soil under different fertilizer treatments. J. Environ. Sci. 19:55-59. DOI