Effects of Liquid Pig Manure on Growth of Potato, Soil Chemical Properties and Infiltration Water Quality

Kang, Ho-Jun; Yang, Sang-Ho; Lee, Shin-Chan

doi:10.7745/kjssf.2011.44.6.1130

Cited by 11 publications

(3 citation statements)

References 13 publications

(1 reference statement)

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…이렇게 토양이 다양하다 보니 그곳에서 재배하는 작물들의 특성도 틀리며 생육과 재배방법도 달라지게 된다. 그렇지만 제주지역 내 화산회토와 비화산회토양간 비교실험은 유기물원을 항온 배양했을 때 온도 가 토양미생물체 량과 효소활성 및 PLFA함량에 미치는 영향 (Joa et al, 2009)이나 감자재배시에 돈분액비를 시용하였을 때 감 자의 생산성, 토양화학성 및 침투수의 특성에 미치는 영향 (Kang et al, 2011) 하여 pH meter(Orion Star A211, Thermo Scientific, UK)를 이용해 측정하였다. 전기전도도는 pH와 동일하게 제조된 시료를 전기전도도계(Orion Star A329, Thermo Scientific, UK)를 이용하여 측정하였다.…”

Section: 서 언unclassified

See 1 more Smart Citation

Comparison of the Chemical Properties of Soil and the Main Components of the Southern Ecotype Garlic Cultivar Cultivated in the Volcanic or Nonvolcanic Ash Soil of Jeju Island

Kim,

2016

HST

View full text Add to dashboard Cite

In this study, we analyzed and compared the constituents of Southern ecotype garlic cultivars, Namdo and Daeseo garlic, cultivated in volcanic and non-volcanic ash soil in Jeju Island and compared the soil properties in these regions. The volcanic ash soil in which Namdo garlic grew had higher electrical conductivity and more available sulfur, whereas the volcanic ash soil in which Daeseo garlic was cultivated had a higher amount of organic matter and total nitrogen. Also, non-volcanic ash soil in which Namdo garlic was cultivated had higher levels of available phosphorous. Namdo garlic cultivated in volcanic ash soil had high levels of total soluble solids and a high allicin content and Daeseo garlic exhibited a higher reducing sugar content. Furthermore, amongst the macroelements found in garlic grown on Jeju Island, potassium was highest, followed by sulfur, magnesium, calcium, and sodium. Iron was the most abundant micronutrient, followed by zinc, manganese, and copper. These results will be of interest to farmers aiming to cultivate high-quality garlic.

show abstract

Section: 서 언unclassified

“…Lee et al(1983)은 화산회토양은 비화산회토양에 비하여 유기물함량이 많고 반대로 유효인산함량이 낮다고 하였으며 본 연구결과에서도 비슷한 결과값을 보였다. 그러나 Kang et al(2011) Lee et al(1983) 은 밭의 경우 et al, 2015a).…”

Section: 통계분석unclassified

Comparison of the Chemical Properties of Soil and the Main Components of the Southern Ecotype Garlic Cultivar Cultivated in the Volcanic or Nonvolcanic Ash Soil of Jeju Island

Kim,

2016

HST

View full text Add to dashboard Cite

show abstract

“…대표적인 세가지 질소원 중 화학질소비료는 대기중에 존재하는 N 2 가스를 Harber-Bosch 공정을 거쳐 제조하고 있으 며, 축산활동으로 생긴 가축분뇨는 축분, 돈분, 계분 등이 있으며 유기물은 작물 수확 후에 토양으로 환원된 작물체, 유 기질 퇴비 및 유박 등이 있다. 가축분뇨 중 돼지분뇨의 총질소 함량은 0.17%(Kang et al, 2011)로 보고되었고 돈분액 비인 경우 화학비료의 일부 또는 전체를 대체 사용 가능하다고도 하였다(Jensen et al, 2000;Park et al, 2011). 이러한 세가지 질소원은 물리적으로는 판별이 매우 용이하나 세가지 질소원을 토양에 시비하여 토양미생물에 의해 질소 무기 화작용이 일어나 작물이 사용할 수 있는 암모니아태질소와 질산태질소로 변화하게 되면 세가지 질소원을 화학적으로 구별하기는 매우 어렵다.…”

unclassified

Effects of Nitrogen Source on Corn (Zea mays L.) and Leached Water Using Stable Nitrogen Isotope

Kim

Lim

Lee

2018

Korean J. Soil. Sci. Fert.

View full text Add to dashboard Cite

The objective of this study was to evaluate nitrogen (N) source tracing using N stable isotope on corn (Zea mays L.) and leached water. Five nitrogen treatments were control (No nitrogen), 2 chemical N fertilizer (urea and slow released nitrogen (SRN), 1 cattle nitrogen manure (CM), and 1 oil cake from rapeseed (Brassica napus L.) after oil extraction. N rate was 200 kg N ha -1 . The experiment was designed by a completely randomized block design with four replications. Lysimeter was filled with 4 kg of soil and corn was planted. Plant samples were collected at a growth stage of V6 and analyzed for total N and δ 15 N. Water samples were collected every week and analyzed for nitrate-N and δ 15 N. In this study, total N content at a growth stage of V6 corn plant ranged from 0.56% to 4.07%. N content was 0.56% for the control, 0.57% for the CM, 3.16% for the SRN, 3.19% for the oil cake, and 4.07% for the urea treatment. δ 15 N value at a growth stage of V6 corn plant ranged from 0.098‰ to -3.453‰. δ 15 N value in corn plant was -3.453‰ for the SRN treatment, -0.213‰ for the urea, 0.098‰ for the control, 2.935‰ for the oil cake, and 5.563‰ for the CM. Nitrate-N concentration in leached water was the lowest under control, followed by CM, SRM, oil cake, and nitrate-N concentration in leached was the highest under urea treatment. These results suggest different N mineralization from diverse N sources. Averagedδ 15 N isotope value in leached water changed from negative to positive. Averagedδ 15 N isotope under chemical N fertilizers such as urea and SRN was -16‰ and -15.0‰, respectively at the 5 th week. Averagedδ 15 N isotope values for all N treatments changed during the experiment. These results indicate that δ 15 N isotope technique can be used for leached water samples to differentiate N sources. However, further research is needed to clarify the exact timing of sampling based on different N sources.

show abstract

Effect on the Growth of Chinese Cabbage and Chemical Composition of the Liquid Piggery Slurry Digested Anaerobically in Biogas Plant

Jeong¹,

Bak²,

Roh³

et al. 2014

Journal of Animal Environmental Science

View full text Add to dashboard Cite

Effects of Liquid Pig Manure on Growth of Potato, Soil Chemical Properties and Infiltration Water Quality

Cited by 11 publications

References 13 publications

Comparison of the Chemical Properties of Soil and the Main Components of the Southern Ecotype Garlic Cultivar Cultivated in the Volcanic or Nonvolcanic Ash Soil of Jeju Island

Comparison of the Chemical Properties of Soil and the Main Components of the Southern Ecotype Garlic Cultivar Cultivated in the Volcanic or Nonvolcanic Ash Soil of Jeju Island

Effects of Nitrogen Source on Corn (Zea mays L.) and Leached Water Using Stable Nitrogen Isotope

Effect on the Growth of Chinese Cabbage and Chemical Composition of the Liquid Piggery Slurry Digested Anaerobically in Biogas Plant

Contact Info

Product

Resources

About