• 한국작물학회:학술대회논문집
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• 한국작물학회 2017년도 9th Asian Crop Science Association conference
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• pp.245-245
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• 2017

Heavy metal pollution of agricultural soils affects land productivity and has impact on the quality of surrounding ecosystem. Soil microbial community parameters are used as reliable indices for assessing quality of agricultural lands under metal stress. This study investigated bacterial community structure of polluted and undisturbed paddy soils to elucidate soil factors that are related to alteration of bacterial communities under conditions of metal pollution. No obvious differences in the richness or diversity of bacterial communities were observed between samples from polluted and control areas. The bacterial communities of three locations were distinct from one another, and each location possessed distinctive set of bacterial phylotypes. The abundances of several phyla and genera differed significantly between study locations. Variation of bacterial community was mostly related to soil general properties at phylum level while at finer taxonomic levels concentrations of arsenic and lead were significant factors. According to results of bacterial community functional prediction, the soil bacterial communities of metal polluted locations were characterized by more abundant DNA replication and repair, translation, transcription and nucleotide metabolism pathway enzymes while amino acid and lipid metabolism as well as xenobiotic biodegradation potential was reduced.Our results suggest that the soil microbial communities had adapted to the elevated metal concentrations in the polluted soils as evidenced by changes in relative abundances of particular groups of microorganisms at different taxonomic resolution levels, and by altered functional potential of the microbial communities.

• 한국작물학회:학술대회논문집
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• 한국작물학회 2017년도 9th Asian Crop Science Association conference
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• pp.244-244
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• 2017

Soil salinity due to accumulation of salts particularly sodium chloride affects agricultural lands and their vegetation. Generally, rice is a moderately sensitive plant with some cultivars with varying tolerance to salinity. Though there are physiological differences between salt-sensitive and salt-tolerant rice cultivars, both are still affected especially during high salinity and prolonged exposure. This also ultimately affects their indigenous bacterial endophytes particularly those that inhabit the rice seed endosphere. This study investigates the dynamic structure of seed bacterial endophytes of salt-sensitive and tolerant rice cultivars grown in different levels of soil salinity. Endophytic bacterial diversity was studied Terminal-Restriction Fragment Length Polymorphism (T-RFLP) analysis. Results revealed a very interesting pattern of diversity and shifts in community structure of bacterial endophytes in the rice seeds. There is a general decrease in diversity for the salt-sensitive rice cultivar, IR29 as soil salinity increases. For the salt-tolerant cultivars, IC32 and IC37, diversity interestingly increased at moderate salinity then decreased at high soil salinity. The patterns of community structure is also strikingly different for the salt-sensitive and salt-tolerant rice cultivars. IR29 has a more even distribution of abundance, but under soil salinity, the community shifted where Curtobacterium, Pantoea, Flavobacterium and Microbacterium become the more dominant bacterial communities. For IC32 and IC37, the dominant bacterial groups under normal stress conditions were also the dominant bacterial groups during salt stress conditions. Their seed bacterial community is dominated by endophytes belonging to Microbacterium, Flavobacterium, Pantoea, Kosakonia and Enterobacter. Stenotrophomonas and Xanthomonas have not changed in terms of abundance under different salinity stress level in the salt-sensitive and salt-tolerant rice cultivars. This study showed that soil salinity greatly influenced the seed bacterial communities of rice seeds irrespective of their physiological tolerance to salinity.

• 한국작물학회지
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• 제43권2호
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• pp.113-119
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• 1998

Spatial patterns of soil temperature on sloping lands are related to the amount of solar irradiance at the surface. Since soil temperature is a critical determinant of many biological processes occurring in the soil, an accurate prediction of soil temperature distribution could be beneficial to agricultural and environmental management. However, at least two problems are identified in soil temperature prediction over natural sloped surfaces. One is the complexity of converting solar irradiances to corresponding soil temperatures, and the other, if the first problem could be solved, is the difficulty in handling large volumes of geo-spatial data. Recent developments in geographic information systems (GIS) provide the opportunity and tools to spatially organize and effectively manage data for modeling. In this paper, a simple model for conversion of solar irradiance to soil temperature is developed within a GIS environment. The irradiance-temperature conversion model is based on a geophysical variable consisting of daily short- and long-wave radiation components calculated for any slope. The short-wave component is scaled to accommodate a simplified surface energy balance expression. Linear regression equations are derived for 10 and 50 cm soil temperatures by using this variable as a single determinant and based on a long term observation data set from a horizontal location. Extendability of these equations to sloped surfaces is tested by comparing the calculated data with the monthly mean soil temperature data observed in Iowa and at 12 locations near the Tennessee - Kentucky border with various slope and aspect factors. Calculated soil temperature variations agreed well with the observed data. Finally, this method is applied to a simulation study of daily mean soil temperatures over sloped corn fields on a 30 m by 30 m resolution. The outputs reveal potential effects of topography including shading by neighboring terrain as well as the slope and aspect of the land itself on the soil temperature.

• 한국토양비료학회지
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• 제46권6호
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• pp.426-433
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• 2013

This study was aimed to classify soil desalination area for cultivation using NDVI (Normalized difference vegetation index) of high-resolution satellite image because the soil salinity affects the change of plant community in reclaimed lands. We measured the soil salinity and NDVI at 28 sites in the Saemangeum reclaimed land in June 2013. In halophyte and non-vegetation sites, no relation was found between NDVI and soil salinity. In glycophyte sites, however, we found that the soil salinity was below 0.1% and NDVI ranged from 0.11 to 0.57 which was greater than the other sites. So, we could distinguish the glycophyte sites from the halophyte sites and non-vegetation, and classify the area that soil salinty was below 0.1%. This technique could save the time and labor to measure the soil salinity in large area for agricultural utilization.

• 한국멀티미디어학회논문지
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• 제19권12호
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• pp.1970-1980
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• 2016

The problem of food deficiency is a major discouragement to many low-income developing countries. Most of these countries experience constant danger of hunger, malnutrition and diseases as they are unable to maintain their food supplies mainly due to lack of arable lands and modern crop, livestock and fishery production technologies. In addition, the pollutants resulting from the secondary industries are becoming another serious issue in their food problems. The pollutants mixed in the sands blowing from the mainland China and the toxic waters flowing in the farm land form the industrialized zones are some of the examples. The Vertical Farm, or Plant Factory, proposed in this study could be the best alternative food production system for them. Vertical farm is an efficient food production system that yields relatively a large volume of food materials without environmental risks. The system does not require a large open space and manpower and can minimize the possibility of infiltration of pollutants. This research describes a basic model of the system focusing on determining the optimal sites for it based on the meteorological data concentrating on the atmospheric pollutants. The types and volume of pollutants are analyzed and identified through the big data obtained, followed by visualization of analysis results and their comparisons for better understanding.

• 한국지역사회생활과학회:학술대회논문집
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• 한국지역사회생활과학회 2009년도 추계학술대회
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• pp.91-91
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• 2009

Pulses are an annual leguminous crop yielding from one to twelve grains or seeds. This study was used eight pulses except for green beans. We evaluated the chemical characteristics of these raw pulses produced in Korea. The nutritional and functional contents such as moisture, carbohydrate, crude protein, crude lipid, ash, dietary fiber, minerals(Ca, P, Fe, Na, and K), vitamins (A, E, C, B groups, folic acid, and niacin), total polyphenol, carotenoid, and flavonoid containing isoflavone were investigated. As a results, all raw samples were shown the high levels of almost nutritional contents (especially, protein, fats, and fat-soluble vitamins). In addition, yellow soybeans, red bean, and kidney bean were high the contents of total polyphenol. Of the functional contents, three lands of the yellow soybeans were shown the high flavonoid. This study represent much to provide the fundamental nutrition and function data in pulses because they have significant nutritional and health advantages for humans.

• 한국농공학회논문집
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• 제63권3호
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• pp.35-45
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• 2021

Digestate or slurry produced from anaerobic digestion is mostly applied to crop lands for its disposal and recovering nutrients. However, minimizing nitrogen losses following field application of the digestate is important for maximizing the plant's nitrogen uptake and reducing environmental concerns. This study was conducted to assess the effects of three different biogas digestate application techniques (sawdust mixed with digestate (SSD), the hole application method (HA), and digestate injected in the soil (SD)) on nitrate leaching potential in the soil. A pot laboratory experiment was conducted at room temperature of 25 ± 2 ℃ for 107 days. The experimental results showed that sawdust application method turned out to be appropriate for quick immobilization of surplus N in the form of microbial biomass N, reflecting its lower total nitrogen and NH₄-N contents and low pH. The NH₄-N and total nitrogen fate in the soil fertilized with manure showed no statistically significant (p > 0.05) differences between the different methods applied during the incubation time under room temperature. In contrast, NO₃-N concentration indicates significant reduction in sawdust treatment (p < 0.05) compared to the control and other application methods. However, the soil sawdust mixed with digestate was more effective than the other methods, because of the cumulative labile carbon contents of the amendment, which implies soil net N immobilization.

• 한국자원식물학회지
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• 제33권1호
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• pp.15-23
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• 2020

고랭지 농업(해발고도 400 m이상)은 주로 해발고도가 높은 산지의 경사지에서 이루어지고 있고, 대부분 작물 재배기간이 5월부터 9월까지(5개월)로 짧아, 나머지 7개월은 토양 피복이 이루어지지 않은 상태로 있어 토양유실 가능성이 높다. 이러한 문제점을 개선하기 위해 본 연구에서 고랭지 경사도 55% 라이시미터(Lysimeter)에서 경관성이 높은 구절초를 식재하여 토양유실 저감 효과를 규명하였다. 관행구로 나지(Control, TC) 대비 식재 밀도에 따라 구절초 적은 그룹(T1, 40주), 구절초 많은 그룹(T2, 70주)로 하여 총 3처리를 두었다. 구절초의 재배기간(6-10월) 피복율을 조사한 결과 대조구인 나지상태인 TC는 0%의 피복율인데 반해 구절초 식재한 T1 처리구는 43-59%의 피복율을 보였으며, T2 처리구는 63-81%로 경사지 토양을 피복시키는 효과가 가장 좋았다. 재배기간 평균기온의 5개월 평균은 평균기온범위는 16.1℃로 나타났으며 강우량은 1207.9 mm로 나타났다. 재배기간 동안 평균적인 지표유출량 경감 효과는 TC 처리 대비 구절초 피복처리구인 T1 처리구는 71%, T2처리구는 76%로 우수하였다. 또한, 토양유실량의 경우 TC보다 T1처리구의 경우 84%, 재색밀도가 높은 T2 처리구의 경우 98%의 토양유실 감소효과를 보였다. 따라서, 고랭지 경사지에 영년생 자원식물 중 경관성이 뛰어난 구절초를 식재함으로서 경사지 토양유실을 경감시킬 수 있고, 부가가치가 높은 고소득작물로 활용 가능할 것으로 기대된다.

• 한국토양비료학회지
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• 제42권6호
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• pp.415-422
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• 2009

간척조성지에서 녹비 사료작물의 연중 재배기술개발을 위하여 화옹간척지, 이원간척지 및 영산강간척지에 시험포장을 설치하여 하계 녹비 사료작물인 수단그라스, 세스바니아, 제주재래피의 후작으로 동계 녹비 사료작물인 보리, 호밀 및 귀리를 공시하여 시험재배하였다. 토양염농도와 공간변이성은 이원간척지와 화옹간척지가 시험작물의 고사나 생육저해를 유발할 정도로 매우 높은 반면에 영산강간척지는 작물의 생육저해를 유발하지 않을 정도로 매우 낮았다. 시험작물의 파종 후 출현개체수는 염농도의 증가에 따라 로그함수적으로 감소하여 최고 출현개체수의 50%로 감소하는 EC($dS\;m^{-1}$)가 보리 6.5, 호밀과 귀리 5.1로 추정되어 토양염농도가 평균 $6dS\;m^{-1}$을 초과할 경우 맥류의 출현이 크게 감소하였다. 시험작물의 수량은 염농도의 증가에 따라 로그함수적으로 감소하여 청예수량이 50% 이상 감수되는 염농도($dS\;m^{-1}$)는 보리 4.9, 호밀 6.2, 귀리 6.0으로 추정되고, 건물수량은 보리 5.5, 호밀 6.2, 귀리 5.8로 추정되며, 종실수량은 보리 5.6, 호밀 5.8, 귀리 5.7로 추정되어 동작 맥류재배를 위해서는 적어도 $6dS\;m^{-1}$ 이하로 염농도가 관리되어야 할 것으로 생각되었다. 이원과 화옹간척지는 염농도가 $10dS\;m^{-1}$ 이상으로 높아서 출현부진과 생육저해 및 고사가 많아서 수확이 불가능하였으나 영산강간척지는 염농도가 $6.17dS\; m^{-1}$ 이하로 유지되어 염에 의한 피해가 발생하지 않아서 청예수량($kg\;10a^{-1}$)은 호밀 1,479, 귀리 1,328, 보리 1,582이었고, 건물수량($kg \;10a^{-1}$)은 호밀 689, 귀리 683, 보리 701이었으며, 종실수량($kg \;10a^{-1}$)은 보리가 395, 호밀이 164, 귀리가 325를 얻었다.

• 식물병연구
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• 제25권3호
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• pp.108-113
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• 2019

북한의 작물 생산성은 남한에 비하여 월등히 낮다. 이러한 이유 중 하나는 취약한 병 관리에 있다. 북한은 농경지의 약 30%가 논으로 이루어져 있다. 벼 도열병과 벼 흰잎마름병은 북한 벼 재배 시 각각 가장 중요한 곰팡이 병 및 세균 병이다. 본 연구에서는 벼 도열병균과 벼 흰잎마름병균에 대한 7개 북한 벼 품종의 병 저항성 반응을 시험하였다. 남한에서 분리한 18개 벼 도열병균에 대한 7개 벼 품종의 반응은 다소 다르게 나타났다. 7개 벼 품종 중 길주1호는 KI 혹은 KJ 레이스에 관계없이 남한에서 분리한 벼 도열병균 18개 균주 모두에 매우 저항성을 보였다. 평도5호는 남한에서 분리한 벼 도열병균 15개 균주에 대하여 감수성 반응을 보였다. 반면, 벼 흰잎마름병균에 대한 북한 벼 품종의 병 저항성 반응은 벼 도열병균에 대한 반응과 차이를 보였다. 길주1호는 K1 레이스인 KXO42와 K2 레이스인 KXO90에 대하여 높은 감수성을 보였고, 평도5호는 K1 레이스인 KXO85와 K3 레이스인 KXO19에 완전한 저항성을 보였다. 평양21호는 K1 레이스 모두에 완전한 저항성을 보였고, 원산69호는 KXO85를 제외한 모든 벼 흰잎마름병균에 감수성을 보였다. 이 연구는 향후 남북 농업 협력을 통하여 북한 벼 품종을 남한에 도입 시 두 병원균에 대한 북한 벼 품종의 저항성 반응 검정 및 벼 품종 육성에 중요한 기본 자료가 될 것이다.