http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
Development of Organic Material Recommendation System for Organic Rice Using Linear Programming
Cho-Rong Lee,Sang-Min Lee,Hyun Young Hwang,Jae-Hoon Shin,Jung-Hun Ok,Hong-Shik Nam,Jung-Lai Cho,Kwang-Su Kim,Nan-Hee An 한국토양비료학회 2021 한국토양비료학회지 Vol.54 No.4
Fertilizer recommendation system (FRS) is a useful method for environmentally friendly agriculture. However, the conventional FRS does not deal with organic materials such as green manure and oilcake, which used for domestic organic farming. In this study, we developed an organic material recommendation system (OMRS) using linear programming. This procedure calculates the amount of organic material that maximizes the fertilizer effect under constraints such as N input range and C/N ratio. A combination of two organic materials, including green manure etc., is considered. The procedure was tested in the R statistic program using lp_solve, a library for the mixed integer linear programming solver. Application of this model increased rice yield index than standard rate of fertilizer. This program was also implemented to Korea Soil Information System. This system will be useful for farmers to make decisions that meet their specific needs, such as organic resources, crop nutrient requirements, and environmental regulatory policies.
Cho-Rong Lee,Kwang-Lai Park,Jeong-Lai Cho,Yura Oh,Sang-Min Lee,Nan-Hee An 한국토양비료학회 2020 한국토양비료학회지 Vol.53 No.2
Soil phosphate accumulation has been problems in some organic farmlands in Korea. This study was conducted to solubilize the accumulated phosphate in organic upland soils using green manure mixtures as substitute for chemical materials (EDTA etc.). We investigated the effects of barley-hairy vetch mixtures on the productivity of biomass and nutrient and the solubilization of soil phosphate. Treatments were barley single (B), hairy vetch single (H), mixtures of B and H at the ratio of 2:1 (B2H1), 1:1 (B1H1), 1:2 (B1H2), and control (CON). Green manures were cultivated on phosphate accumulated soils (>1,000 mg Lancaster P₂O₅ kg<SUP>-1</SUP>) for 3 years. Mixtures were more effective for stable production of yields and nutrient than B or H, because dry matter yields of green manures were more variable in B and H single. The quality of B as green manure improved in mixtures, because the C/N ratio of B in mixture increased less than B single. In addition, H was effective for phosphate solubilization, as water soluble phosphate contents of H single (2017 and 2019) and mixtures (2019) were significantly higher than B single (2017 and 2019) and CON (2019) despite of phosphate uptake by green manures. Therefore, barley-hairy vetch mixtures could be useful considering green manure productivity and phosphate solubilization in phosphate accumulated upland soils.
Lee, Cho Rong,Kim, Changman,Song, Young Eun,Im, Hyeonsung,Oh, You-Kwan,Park, Sunghoon,Kim, Jung Rae Elsevier 2018 Bioresource technology Vol.259 No.-
<P><B>Abstract</B></P> <P>The biological conversion of carbon monoxide (CO) has been highlighted for the development of a C1 gas biorefinery process. Despite this, the toxicity and low reducing equivalent of CO uptake make biological conversion difficult. The use of synthetic co-cultures is an alternative way of enhancing the performance of CO bioconversion. This study evaluated a synthetic co-culture consisting of <I>Citrobacter amalonaticus</I> Y19 and <I>Sporomusa ovata</I> for acetate production from CO. In this consortium, the CO<SUB>2</SUB> and H<SUB>2</SUB> produced by the water-gas shift reaction of <I>C. amalonaticus</I> Y19, were utilized further by <I>S. ovata</I>. Higher acetate production was achieved in the co-culture system compared to the monoculture counterparts. Furthermore, syntrophic cooperation via various reducing equivalent carriers provided new insights into the synergistic metabolic benefits with a toxic and refractory substrate, such as CO. This study also suggests an appropriate model for examining the syntrophic interaction between microbial species in a mixed community.</P> <P><B>Highlights</B></P> <P> <UL> <LI> Co-culture of <I>C. amalonaticus</I> Y19 and <I>S. ovata</I> was examined using CO as substrate. </LI> <LI> CO was converted to CO<SUB>2</SUB> and H<SUB>2</SUB> by Y19, then metabolized by ovata. </LI> <LI> Co-culture presented better CO consumption and acetate production than mono-culture. </LI> <LI> The addition of HNQ as mediator improves conversion of CO to acetate. </LI> </UL> </P> <P><B>Graphical abstract</B></P> <P>[DISPLAY OMISSION]</P>
Lee, Seung-Yup,Lee, Donghwan,Nam, Cho Rong,Kim, Da Yea,Park, Sera,Kwon, Jun-Gun,Kweon, Yong-Sil,Lee, Youngjo,Kim, Dai Jin,Choi, Jung-Seok AKADEMIRI KIRDO 2018 JOURNAL OF BEHAVIOURAL ADDICTIONS Vol.7 No.2
<P><B>Background and objectives</B></P><P>The ubiquitous Internet connections by smartphones weakened the traditional boundaries between computers and mobile phones. We sought to explore whether smartphone-related problems differ from those of computer use according to gender using latent class analysis (LCA).</P><P><B>Methods</B></P><P>After informed consents, 555 Korean middle-school students completed surveys on gaming, Internet use, and smartphone usage patterns. They also completed various psychosocial instruments. LCA was performed for the whole group and by gender. In addition to ANOVA and χ<SUP>2</SUP> tests, post-hoc tests were conducted to examine differences among the LCA subgroups.</P><P><B>Results</B></P><P>In the whole group (<I>n</I> = 555), four subtypes were identified: dual-problem users (49.5%), problematic Internet users (7.7%), problematic smartphone users (32.1%), and “healthy” users (10.6%). Dual-problem users scored highest for addictive behaviors and other psychopathologies. The gender-stratified LCA revealed three subtypes for each gender. With dual-problem and healthy subgroup as common, problematic Internet subgroup was classified in the males, whereas problematic smartphone subgroup was classified in the females in the gender-stratified LCA. Thus, distinct patterns were observed according to gender with higher proportion of dual-problem present in males. While gaming was associated with problematic Internet use in males, aggression and impulsivity demonstrated associations with problematic smartphone use in females.</P><P><B>Conclusions</B></P><P>An increase in the number of digital media-related problems was associated with worse outcomes in various psychosocial scales. Gaming may play a crucial role in males solely displaying Internet-related problems. The heightened impulsivity and aggression seen in our female problematic smartphone users requires further research.</P>
Cho-Rong Lee,Yura Oh,Kwang-Lai Park,Jeong-Lai Cho,Nan-Hee An,Sang-Min Lee 한국토양비료학회 2020 한국토양비료학회지 Vol.53 No.3
Phosphorus (P) easily accumulates in farmland soil due to their high affinity to cations and clay, and thus their use efficiency of crop is low. Green manure-maize rotation system might be an efficient measure to reduce P accumulation in organic farmland by improving P uptake of crops. This study was conducted to investigatethe effects of green manure-maize rotation on P uptake of maize and excess P removal in organic upland soils. Maize mono cropping and green manure-maize rotation systems (barley (B), hairy vetch (H), mixture of B and H) were established in organic farmland, and the experiments were conducted for 2 years without additional nutrients application. Green manure had a significant impact on maize grain production. Maize P uptake increased with the increased rate of hairy vetch seeding. Water soluble P content in soil was further reduced in green manure-maize rotation systems compared to the mono cropping. The results suggest that green manure-maize rotation system (except barley) without nutrient supplement increases P uptake of maizeand thus decreases soil P accumulation.
The Fate of <SUP>15</SUP>N-labeled Organic Materials Applied to Chinese Cabbages Cropping System
Cho-Rong Lee,Yura Oh,Bi-Na Song,Jung A Jung,Jeong-Lai Cho,Sang-Min Lee,Nan-Hee An 한국토양비료학회 2020 한국토양비료학회지 Vol.53 No.1
Nitrogen added to farmland is used to plants or remains in soil, or is lost to environment. We incorporated <SUP>15</SUP>N-labeled materials (Chemical fertilizer (CF), green manure (GM), livestock compost (LC), GM+LC, and oil cake (OC) to soil and cultivated Chinese cabbages (Brassica rapa subsp. pekinensis) and analyzed the <SUP>15</SUP>N recovery of crop and soil to investigate the fate of nitrogen. The results follow. The <SUP>15</SUP>Ncrop recovery of chemical fertilizer (CF) was the highest, and that of organic materials differed by type. The <SUP>15</SUP>Nsoil recovery of CF was the lowest, and that of organic materials was 3 - 6 times higher than CF. The <SUP>15</SUP>Nloss was not significantly difference between CF and organic materials (except GM+LC). As results, despite of the same amount of nitrogen input, there was the difference in plant uptake and soil residue between organic materials and CF. Nitrogen of CF is used to Chinese cabbages more than organic materials, however most of the remaining nitrogen is estimated to be lost to the environment. Therefore, CF might be hard to occur residual effect in the next cropping season. In organic materials, nitrogen is less used to Chinese cabbages than CF, but remains in soil more than CF. Therefore, organic materials might be useful for improving soil fertility and have a residual effect in the next cropping season. We suggest that these properties of organic materials should be taken into account in calculating the amount of applied fertilizer in organic farming where mainly organic materials are used. Moreover, it is necessary to investigate the cumulative and residual effects of continuous input of the same organic materials.
Cho-Rong Lee,Yura Oh,Jung A Jung,Sang-Min Lee,Nan-Hee An 한국토양비료학회 2020 한국토양비료학회지 Vol.53 No.4
Nitrogen (N) supply from organic materials (OM) takes more time than chemical fertilizer (CF), because mineralization of organic N requires microbial conversion. Most organic N applied to soil remains into SOM. It might have a greater residual effect than CF on soil fertility and crop nutrient uptake and influence on N fate. Residual organic N might have influence on soil fertility and nutrient uptake of crop by depending on N cycling in soil. This study investigated the residual effect of <SUP>15</SUP>N-labeled organic materials on Chinese cabbage N uptake and soil N. <SUP>15</SUP>N-labeled organic materials at rate of 456 ㎏ N/ha applied with green manure (GM), livestock compost (LC), GM+LC, oil cake (OC), and CF into wagner pot (1/2000a) for Chinese cabbage cultivation. During continuous crop cultivation (Sep. 2018 to Mar, 2020), <SUP>15</SUP>N-labeled Chinese cabbage and soil was analyzed by using stable isotope elemental analyzer. Organic materials and chemical fertilizer were higher N uptake in Chinese cabbage than in the control at first cropping season. However, N uptake of Chinese cabbage under continuous cultivation was significantly increased 35-72% at organic material treatments compared to the control. Also, <SUP>15</SUP>N-labeled soil was significantly high at the treatments applied with GM, LC, and GM+LC, but was not at OC and CF treatment. In conclusion, organic materials (especially GM, LC, and GM+LC) had a greater N residual effect on Chinese cabbage and soil than chemical fertilizer.