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Daquiado, Aileen Rose,Kim, Tae Young,Lee, Yong Bok Korean Society of Soil Science and Fertilizer 2013 한국토양비료학회지 Vol.46 No.6
Understanding the microbial community structure of agricultural soils is important for better soil management in order to improve soil quality. Phospholipid fatty acid analysis has been popularly used in determining the microbial community structure in different ecosystems. The microbial community structure of paddy soil under long-term fertilizer treatments was investigated after 45 years using PLFA analysis. Treatments were control (no fertilization, Con), compost (COM), NPK, NPK+compost (NPKC), PK, NK, and NP. Soil chemical properties were mainly affected by the addition of compost and inorganic P fertilizer. Total nitrogen and organic matter contents were significantly higher in treatments with compost while available $P_2O_5$ and exchangeable calcium were significantly higher in treatments with added inorganic P fertilizer. It was found that microbial communities were responsive to the different fertilizer treatments. PLFA results showed that the soils were dominated by gram-negative bacteria, followed by the actinomycetes, then gram-positive bacteria, and fungi. Principal component analysis of the soil chemical properties and PLFA composition proved to be a more reliable tool because it was more responsive to the changes in soil chemical properties.
Pyrosequencing analysis of bacterial community diversity in long-term fertilized paddy field soil
Daquiado, A.R.,Kuppusamy, S.,Kim, S.Y.,Kim, J.H.,Yoon, Y.E.,Kim, P.J.,Oh, S.H.,Kwak, Y.S.,Lee, Y.B. Elsevier Science B. V 2016 Applied soil ecology Vol.108 No.-
Analysis of soil bacterial community and its diversity in conditions of intensive fertilization using high-throughput sequencing in paddy field soil has to date, not been extensive. Using 454 pyrosequencing of 16S rRNA genes, the current study investigated how bacterial succession changed under seven different fertilizer regimes (NP, NK, PK, NPK, compost, NPK+compost and unfertilized) in a 45-year old paddy field trial. Of the selected treatment variables the application of compost best enhanced soil fertility. Unexpectedly, long-term fertilization had no significant effects on soil microbial structure in paddy soils. The bacterial communities were dominated by Proteobacteria and Chloroflexi. Actinobacteria and Firmicutes were substantially abundant in the compost and NPK+compost treatments. Our findings highlight the fact that organic fertilizer amendment activates diverse groups of Gram-positive microorganisms when compared to conventionally used chemical fertilizers. Abundance of Rhizobiales that directly influences rice growth through symbiosis or indirectly through nutrient cycling, and Methylococcales that combat greenhouse gas (methane) emissions, were high in treatments that received compost, in comparison to inorganic fertilizer amended and unfertilized treatments. Consequently, the application of long-term organic fertilizer has a reasonable and beneficial impact on the bacterial community inhabiting the soil, and can lead to a good crop yield.
Daquiado, A.R.,Cho, K.M.,Kim, T.Y.,Kim, S.C.,Chang, H.H.,Lee, Y.B. Academic Press 2014 Anaerobe Vol.27 No.-
The diversity of methanogenic archaea associated with Korean Hanwoo cattle was analyzed using mcrA gene sequences from samples of rumen fluid (RF), rectal dung (RD), and barn floor manure (BFM). The predominant species were Methanobrevibacter ruminantium in RF and BFM(63.6% and 62.4%, respectively) and Methanocorpusculum labreanum in RD (53.2%).
Aileen Rose Daquiado,Tae Young Kim,Yong Bok Lee 한국토양비료학회 2013 한국토양비료학회지 Vol.46 No.6
Understanding the microbial community structure of agricultural soils is important for better soil management in order to improve soil quality. Phospholipid fatty acid analysis has been popularly used in determining the microbial community structure in different ecosystems. The microbial community structure of paddy soil under long-term fertilizer treatments was investigated after 45 years using PLFA analysis. Treatments were control (no fertilization, Con), compost (COM), NPK, NPK+compost (NPKC), PK, NK, and NP. Soil chemical properties were mainly affected by the addition of compost and inorganic P fertilizer. Total nitrogen and organic matter contents were significantly higher in treatments with compost while available P₂O? and exchangeable calcium were significantly higher in treatments with added inorganic P fertilizer. It was found that microbial communities were responsive to the different fertilizer treatments. PLFA results showed that the soils were dominated by gram-negative bacteria, followed by the actinomycetes, then gram-positive bacteria, and fungi. Principal component analysis of the soil chemical properties and PLFA composition proved to be a more reliable tool because it was more responsive to the changes in soil chemical properties.
녹비작물 무 환원-벼 작부체계에서 질소와 인산수지 평가
김태영 ( Tae Young Kim ),아일린 ( Aileen Rose Daquiado ),파리둘 ( Faridul Alam ),이용복 ( Yong Bok Lee ) 한국환경농학회 2012 한국환경농학회지 Vol.31 No.4
BACKGROUND: The nutrient balance in Korea during 1985-2006 had continually increased and maintained the highest levels among OECD countries. The use of green manure crops such as barley and hairy vetch is common practice for reducing chemical fertilizer application and maintaining soil fertility. However, green manure crops can also be used as a livestock feeding material which may reduce nutrient balance in the national scale. We calculated nitrogen and phosphate balance under green manure-rice cultivating system where all green manure was removed and used for feeding livestock. METHODS AND RESULTS: The barley and hairy vetch grown in pure stands or in mixtures with different sowing rates were tested for rice cultivation without chemical fertilization. The conventional fertilization (NPK) for rice cultivation was selected to compare nutrient balance with green manure-rice cultivation. Nitrogen and phosphate balance were calculated according to the surface balance method of the PARCOM guidelines. Total aboveground biomass of mixture (barley and hairy vetch) was higher compared to that of pure barley or hairy vetch. Among the mixture with barley and hairy vetch, the highest aboveground biomass was observed in B75H25 (barley 75%+hairy vetch 25%). The nitrogen and phosphate balance in the B75H25 mixture was-104 kg N/ha and-50.3 kg P/ha, respectively. CONCLUSION(S): The barley and hairy vetch mixture proved to be a very effective strategy for biomass production of green manure. The amount of nitrogen and phosphate fertilizer to be applied is estimated to be 104 kg N/ha and 50.3 kg P/ha in order to maintain soil fertility if all green manure and rice straw were removed from rice field for livestock feeding.
단보 : 녹비작물 환원에 따른 벼 재배지 인산수지 평가
김태영 ( Tae Young Kim ),아일린 ( Aileen Rose Daquiado ),파리둘 ( Faridul Alam ),김필주 ( Pil Joo Kim ),이용복 ( Yong Bok Lee ) 한국환경농학회 2012 한국환경농학회지 Vol.31 No.4
BACKGROUND: In Korea, green manure has been cultivated for reducing chemical fertilizer application, maintaining soil fertility, and feeding livestock in winter season. We evaluated the phosphate balance under green manure-rice cultivating system with different removal rates of green manure for maintaining soil fertility. METHODS AND RESULTS: The barley and hairy vetch mixture was selected as the green manure in this study. The barley and hairy vetch was sowed at a rate of 135 and 23 kg/ha, respectively, without fertilizer application. Total aboveground biomass was 12000 (barley: 5400 kg/ha, hairy vetch: 6600 kg/ha) kg/ha, and these green manure were incorporated with different input rates before rice planting. The input rates of green manure in this study were 0 (NPK+0%), 25 (NPK+25%), 50 (NPK+50%), 75 (NPK+75%) and 100 % (NPK+100) and the standard fertilization (NPK) without green manure cultivation. All treatments were applied with standard fertilizer (N-P-K: 90-19.6-48.3 kg/ha) before rice planting. The highest rice yield was observed in NPK+50% which was 20% higher compared with NPK. The phosphate balance with different incorporation rates of green manure was-104.0,-76.8,-52.9,-27.4, and 6.0 kg/ha for NPK+0%, NPK+25%, NPK+50%, NPK+75%, and NPK+100%, respectively. CONCLUSION(S): The use of green manure for livestock feeding in green manure-rice cropping systems could remove a huge amount of phosphate. This cropping system strongly requires phosphate application before green manure seeding for maintaining soil fertility.