• 한국토양비료학회지
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• 제33권5호
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• pp.340-346
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• 2000

본 실험은 질소 시비 수준 0, 80, 160, $240kg\;ha^{-1}$에 따른 율무 1호 품종의 생육 특성, 조곡 수량, 질소축적 및 수확 후 토양의 화학성분 변화를 조사하였다. 질소시비 수준이 증가될수록 출수, 개화기는 단축되었으나 개화기부터 수확기까지 소요되는 기간은 증가되어 파종에서 수확기까지 소요되는 기간은 0-5 일 증가되었다. 질소시비 수준이 증가할수록 간장, 주분얼경의 수, 착립부위고는 유의한 증가를 보였다 (P<0.05). 주간절수, 주간직경, 착립부위장은 유의한 차이가 없었다. 주간의 소수지경수, 주간의 착립절간은 유의한 증가가 있었으나 $80kg\;ha^{-1}$ 이상에서는 큰 차이가 없었다 (P<0.05) 조명나방 피해는 질소 $240kg\;ha^{-1}$ 처리구에서 30%로 높아 수량감소의 요인으로 작용하였다. 수량구성요소는 질소시비량과 비례하여 양호해지는 경향이었으나 주당립수는 질소시비량 $160kg\;ha^{-1}$ 구에서 가장 많아 조곡 수량이 $3,410kg\;ha^{-1}$로 최고 질소 시비수준인 $240kg\;ha^{-1}$구에 비해 $140kg\;ha^{-1}$ 많았다. 질소사용효율은 질소시비량이 증가할수록 감소하였다. 실험후 토양중 총 질소함량은 실험전에 비해 질소 0, $80kg\;ha^{-1}$ 구에서는 낮았으며 질소 160, $240kg\;ha^{-1}$ 구에서는 높았다.

• 한국토양비료학회지
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• 제15권1호
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• pp.16-33
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• 1982

The major problems of chemical fertilizer supply and consumption involved in price policies since the end of World War II in Korea and their solutions were extensively discussed. The period was divided into three sub-periods: 1946-1960, 1961-1967 and 1968 to present. Since 1968 when the operations of three large-scaled fertilizer plants: Yongnam Chemical Co., Chinhae Chemical Co. and Hankuk Fertilizer Co. were begun in full scale, the domestic supply of nitrogen and phosphate fertilizers were almost enough for the domestic demand. However, since 1976, when Namhae Chemical Co. was added to the production capacity, the fertilizer industry has been faced with the overproduction problem of nitrogen, and the high production cost due to high petroleum price, which gave financial difficulties. Several policy directions and alternative measures for solving the current problems were also suggested in this presentation.

• 한국환경농학회지
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• 제41권4호
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• pp.230-235
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• 2022

BACKGROUND: Ammonia gas emitted from nitrogen fertilizers applied in agricultural land is an environmental pollutant that catalyzes the formation of fine particulate matter (PM2.5). A significant portion (12-18%) of nitrogen fertilizer input for crop cultivation is emitted to the atmosphere as ammonia gas, a loss form of nitrogen fertilizer in agricultural land. The widely practiced method for fertilizer use in agricultural fields involves spraying the fertilizers on the surface of farmlands and mixing those with the soils through such means as rotary work. To test the potential reduction of ammonia emission by nitrogen fertilizers from the soil surface, we have added N, P, and K at 2 g each to the glass greenhouse soil, and the ammonia emission was analyzed. METHODS AND RESULTS: The treatment consisted of non-fertilization, surface spray (conventional fertilization), and soil depth spray at 10, 15, 20, 25, and 30 cm. Ammonia was collected using a self-manufactured vertical wind tunnel chamber, and it was quantified by the indophenol-blue method. As a result of analyzing ammonia emission after fertilizer treatments by soil depth, ammonia was emitted by the surface spray treatment immediately after spraying the fertilizer in the paddy soil, with no ammonia emission occurring at a soil depth of 10 cm to 30 cm. In the upland soil, ammonia was emitted by the surface spray treatment after 2 days of treatment, and there was no ammonia emission at a soil depth of 15 cm to 30 cm. Lettuce and Chinese cabbage treated with fertilizer at depths of 20 cm and 30 cm showed increases of fresh weight and nutrient and potassium contents. CONCLUSION(S): In conclusion, rather than the current fertilization method of spraying and mixing the fertilizers on the soil surface, deep placement of the nitrogen fertilizer in the soil at 10 cm or more in paddy fields and 15 cm or more in upland fields was considered as a better fertilization method to reduce ammonia emission.

• 한국토양비료학회지
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• 제43권3호
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• pp.349-355
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• 2010

본 연구는 토양검정시비량에 준하는 비료량을 기준으로 그 처리량을 가감하여 점적관수로 관비하였을 경우 참외의 생육과 수량에 미치는 영향을 조사하고 참외의 생육단계별 양분흡수특성을 검토하여 관비재배 시에 생육단계별 참외 질소시비기준을 설정하고자 수행되었다. 이를 위하여 토양검정 질소시비량 ($N:P_2O_5:K_2O$=249:408:315 kg $ha^{-1}$)의 0배, 0.5배, 1.0배, 1.5배에 해당하는 질소량을 8회로 나누어 정식 후 10일 간격으로 관비하였다. 점적관비에 의한 참외 생육기간 중 참외의 생육, 수량 및 무기양분흡수 등을 조사하였다. 잎, 줄기 중 T-N의 함량은 정식 30일까지 증가한 후 점점 감소하는 경향을 보였고, 질소관비량이 증가할수록 T-N함량도 증가하는 경향을 볼 수 있었다. 질소관비량이 증가할수록 참외의 생체중과 질소흡수량은 증가하였지만 총수량 및 상품수량은 그렇지 않았다. 총수량과 상품수량은 검정시비 0.5배구에서 각각 44,550 kg $ha^{-1}$와 42,880 kg $ha^{-1}$로 가장 높았다. 또 상품과율도 0.5배구에서 95%로 가장 높았다. 결과적으로 과실의 총수량, 상품수량, 상품과율 등을 고려할 때, 검정시비 0.5배구에 해당하는 질소량의 관비가 참외의 생육 및 수량 증가에 가장 효과적인 것으로 판단된다.

• 한국토양비료학회지
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• 제25권4호
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• pp.378-386
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• 1992

Cowpea군(群) 두과작물(豆科作物)에 대한 땅콩근류균(根瘤菌) HCR-46의 근류형성능(根瘤形成能) 및 질소고정능(窒素固定能)을 검토(檢討)하고자 동부, 녹두, 팥, 땅콩에 무접종(無接種)+N : 0kg/10a, 무접종(無接種)+N : 6kg/10a, 접종(接種)+N : 0kg/10a, 접종(接種)+N : 6kg/10a, 접종(接種)+N : 12kg/10a로 처리(處理)하여 시험(試驗)한 결과(結果) 초기근류형성시기(初期根瘤形成時期)는 팥이 가장 빠르고 동부, 녹두, 땅콩순(順)이었으며 질소(窒素)를 증시(增施)할 수록 지연(遲延)되는 경향(傾向)이었다. 근류수(根瘤數)와 근류중(根瘤重)은 생육(生育)이 진행(進行)될 수록 증가(增加)하였고, 질소(窒素)를 증시(增施)할 경우 땅콩을 제외한 동부, 녹두, 팥에서 감소(減少)하였다. 건물생산량(乾物生産量)과 질소흡수량(窒素吸收量)은 균접종구(菌接種區)가 무접종구(無接種區)에 비(比)해 높았고 균접종시(菌接種時)는 질소무시용구(窒素無施用區)에 비(比)해 질소(窒素) 6kg/10a 시용구(施用區)가 높았다. 접종균(接種菌)에 의해 고정(固定)된 질소량(窒素量)은 파종후(播種後) 60일(日) 질소무시용구(窒素無施用區)의 동부, 녹두, 팥, 땅콩이 각각(各各) 39.32, 42.39, 28.07, 78.56mg/주(株) 이었고 질소(窒素)6kg/10a 시용구(施用區)에서는 각각(各各) 25.46, 24.97, 16.80, 47.65mg/주(株)로서 질소무시용구(窒素無施用區)가 질소(窒素)6kg/10a시용구(施用區)에 비(比)해 많아 균접종효과는 질소시용구(窒素施用區)보다는 무시용구(無施用區)에서 뚜렷했다.

• 한국작물학회지
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• 제50권1호
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• pp.16-21
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• 2005

This study was conducted to establish the elaborate nitrogen fertilization method to enhance N use efficiency in direct-seeded rice on flooded paddy. The nitrogen uptake by rice plants was insignificant until 25 days after seeding, and increased gradually thereafter. During this early growth stage, rice plants absorbed only the $4\%$ of basal applied N, while the $45\%$ of N fertilizer remained in the paddy soil. The absorption of basal N by rice plants was almost completed at 46 days after application. Nitrogen top-dressed at 5-leaf stage was well matched to crop nutrient demand, so it could be absorbed so actively in 8days after application. As a result, we could cut down the amount of N fertilizer to $36\%$ of the basal N level without significant difference in yield. Plant recoveries of fertilizer $^{15}N$ applied with different application timings were $7.8\%$ for basal, $9.4\%$ for 5-leaf stage, $17.1\%$ for tillering stage, and $23.4\%$ for panicle initiation stage, respectively. When urea was applied with nitrogen fertilization practice based on basal incorporation (BN), plant recovery of $^{15}N$ at harvest was $31.0\%$, which was originated from $13.7\%$ for grain, and $21.3\%$ of the fertilizer $^{15}N$ remained in the soil, and the rest could be uncounted. Plant recovery of fertilizer $^{15}N$ applied with nitrogen fertilization practice based on topdressing at 5-leaf stage (TN), where N rate was reduced by $18\%$ compared with BN, was $35.1\%$ (grain $15.6\%$), and $19.9\%$ of the fertilizer $^{15}N$ remained in the soil, and the rest could be uncounted. TN showed a higher $^{15}N$ recovery than BN because it was to apply N fertilizer at a time to well meet the demand of rice plant direct-seeded on flooded paddy. We concluded that TN would be the nitrogen fertilization method to enhance N use efficiency in direct-seeded rice on flooded paddy.

• 한국토양비료학회지
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• 제50권6호
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• pp.574-587
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• 2017

Excessive application of nitrogen (N) fertilizer to support switchgrass growth for bioenergy production may cause adverse environmental effects. The objective of this study was to determine optimum N application rate to increase biomass yield of switchgrass and to reduce adverse environmental effects related to N. Switchgrass was planted in May 2008 and biomass yield, N uses of switchgrass, nitrate ($NO_3$) leaching, and nitrous oxide ($N_2O$) emission were evaluated from 2010 through 2011. Total N removal significantly increased with N rate despite the fact that yield did not increased with above $56kg\;N\;ha^{-1}$ of N rate. Apparent nitrogen recoveries were 4.81 and 5.48% at 56 and $112kg\;N\;ha^{-1}$ of N rate, respectively. Nitrogen use efficiency decreased into half with increasing N rate from 56 to $112kg\;N\;ha^{-1}$. Nitrate leaching and $N_2O$ emission were related to N use of switchgrass. There was no significant difference of cumulative $NO_3$ leaching between 0 and $56kg\;N\;ha^{-1}$ but, it significantly increased at $112kg\;N\;ha^{-1}$. There was no significant difference of cumulative $N_2O$ emission among N rates in crest, but it significantly increased at $112kg\;N\;ha^{-1}$ in toe. Excessive N application rate (above $56kg\;N\;ha^{-1}$) beyond plant requirement could accelerate $NO_3$ leaching and $N_2O$ emission in switchgrass field. Overall, $56kg\;N\;ha^{-1}$ might be optimum N application rate in reducing economic waste on N fertilizer and adverse environmental impacts.

• 한국토양비료학회지
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• 제33권5호
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• pp.347-355
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• 2000

OECD농업/환경위원회 요청에 의하여 질소양분 균형지표 (Input-Output)설정을 위한 기초자료가 되는 비료소비량, 가축분생산량 생물적 질소고정량, 작물흡수량, 탈질량 및 작물부산물 회수량 등을 조사하였다. 질소균형지표는 1997기준, 탈질량을 포함할 경우와 포함하지 않을 때 각각 ha당 158kg, 211kg이었으나 OECD에서 요구하는 탈질량과 작물 부산물 회수량을 제외하는 경우는 250kg으로 산출되었다. 질소균형지표를 연도별로 비교해 보면 1985년 기준 $70{\sim}162kg\;ha^{-1}$에 비하여 1997년은 1.7~2.3배나 증가되었으며, 주요인은 가축분생산량 및 화학비료 소비량 증가와 경지면적 감소 때문이었다. 질소균형지표의 구성비율은 1997년을 기준으로 하여 질소의 Input에서 화학비료 59%, 가축분뇨 42%, 기타 5%이며 (가축분중 질소휘산량은 6%임), Output는 작물생산 73%, 부산물 회수량 23%, 목초생산 4%이였다. OECD사무국에서 검토한 자료(안)에 의하면 1995~1997년 기준 탈질량과 부산물회수를 통한 질소 질소제거량을 제외한 질소균형지표는 우리나라가 $253kg\;ha^{-1}$으로 네델란드의 $262kg\;ha^{-1}$ 다음으로 회원국중 두번째로 높으며, 일본은 $135kg\;ha^{-1}$이었다.

• 한국초지조사료학회지
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• 제20권2호
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• pp.131-138
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• 2000

This experiment was carried out during the period from September, 1997 to October, 1998 to determine the effect of fermented saw-dust pig manure (FSP) application on the herbage production on a mixed pasture in the Cheju brown volcanic ash soil. Split plot design (main plot: 3 nitrogen application levels of 0, 150 and 300 kgiha; sub plot: 4 pig sawdust manure levels of 0, 3, 6 and 12 tonha) was used. Plant height and dry matter yield increased significantly with an increase of nitrogen and FSP level. There was no difference in the botanical composition of grasses as affected by FSP application level, but herbage yields of grass species were increased by nitrogen application compared to that without nitrogen application. Botanical composition of white clover decreased with an increase of nitrogen application, but increased with an increase of FSP application level. Percentages of weeds were not affected by application rates of chemical nitrogen fertilizer and swine manure in the mixed species pasture. Nitrogen, phosphorus, and potassium contents of species in the pasture significantly increased with increasing application rates of nitrogen fertilizer. In conclusion, it would be an optimum to apply 150 kgha of inorganic chemical fertilizer and plus either 3 or 6 toniha of fermented swine manure with sawdust for optimum production of mixed pasture on Cheju Island. (Key words : Herbage production, Botanical composition, Morphology, Plant mineral contents)

• 한국토양비료학회지
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• 제4권2호
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• pp.161-166
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• 1971

1. 추락답(秋落畓)에 대(對)한 규산(珪酸), 질소(窒素) 및 가리(加里)의 증시효과는 현저하나 질소(窒素)는 수회(數回)로 나누어 분시(分施)하여야 한다. 2. 규산(珪酸)은 질소증시(窒素增施)의 효율을 높인다. 3. 질소(窒素)를 증시(增施)하면 주당수수(株當穗數)는 증가(增加)하나 등숙률(登熟率)이 현저히 감소(減少)된다. 질소증시(窒素增施)로 인(因)하여 감소된 등숙률(登熟率)은 가리증시(加里增施)로 높일 수 있다. 4. 규산시용(珪酸施用)은 추락도(秋落稻)의 등숙률(登熟率)과 수당립수(穗當粒數)를 증가(增加)시켰다. 5. 질소증시(窒素增施)는 식물체(植物體)의 질소함량(窒素含量)을 증가(增加)시키나 규산(珪酸) 및 가리(加里)의 함량(含量)은 감소(減少)되여 규산(珪酸)/질소(窒素) 및 가리(加里)/질소비(窒素比)가 낮아진다. 6. 추락답(秋落畓)에 질소(窒素)를 증시(增施)할 때에는 규산(珪酸) 및 가리(加里)도 함께 증시(增施)하여야 한다.