• Korean Journal of Fisheries and Aquatic Sciences
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• v.14 no.1
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• pp.43-46
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• 1981

The ratio of the eatable flesh taken from the filefish and its chemical components were investigated from March 1980 to February 1981 and the results are as follows :1. The ratio of the eatable flesh taken from the fish was low during March to June and high during July to December. 2. The moisture content was $81.4-82.0\%$ during March to June, $77.5-80.1\%$ during July to December and $79.4-81.4\%$ during January to February. 3. The protein content was $15.4-15.7\%$ during March to June, $17.0-19.9\%$ during July to December and $16.1-17.0\%$ during January to February. 4. The Lipid content was $0.31-0.41\%$ during March to January, $0.46-0.84\%$ during July to January and $0.43\%$ during February. 5. The carbohydrate content was $0.3-0.4\%$ during March to July, $0.5-0.7\%$ during August to January and $0.3\%$ during February. In conclusion, the ratios of the eatable flesh taken from the filefish and its protein content were highest during July to December in one year.

• Korean Journal of Fisheries and Aquatic Sciences
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• v.17 no.6
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• pp.536-542
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• 1984

Fish eggs and larvae in the western waters of Korea are surveyed during the periods from February to August in 1982. Six species of eggs and forty-two species of larvae are occurred in the survey area. The dominant species occurred during the study periods are Ammodytes personatus, Enedrias sp., Engraulis japonica, Callionymus sp., Gobiidae, etc. Major spawning month and ground of each species are estimated from the data, i.e., occurrence month and abundance of eggs and larvae by survey month and area, as well as the optimum water temperature and salinity for spawning.

• Proceedings of the Plant Resources Society of Korea Conference
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• 2019.04a
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• pp.96-96
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• 2019

쌈용과 장아찌로 많이 이용하며 다양한 효능을 가진 곰취(Ligularia fischeri)의 신품종 중에 항산화 활성이 높은 것으로 밝혀진 '쌈마니' 품종에 대하여 좀 더 구제적인 항산화 활성을 알아보기 위하여 재배지역 및 수확시기별 항산화 성분 및 생리활성 정도를 비교 분석하여 지역별 적정 수확시기를 구명하고자 본 연구를 수행하였다. 시료는 2018년 4월 18일부터 2018년 7월 9일 까지 20일 간격으로 4회에 걸쳐 고랭지인 고령지농업연구소 대관령시험포장과 평난지인 강릉시험포장에서 수확하였으며 모두 동결 건조하여 분말형태로 갈아 실험에 사용하였다. 분석결과 '쌈마니' 품종의 지역 및 수확시기별 수율은 유사하였으며 총페놀 함량은 평난지에서는 5월 9일이 264.7mg GAE/g로 가장 높았고 그다음이 5월 29일, 6월 19일, 4월 18일 순이었다. 대체적으로 5월에 높았으며 고랭지에서도 초기 생산보다는 중기 생산기인 6월 18일에 총페놀 함량이 274.4mg GAE/g로 가장 높았고 그다음이 7월 9일, 5월 28일, 5월 10일 순이었다. 총플라보노이드 함량도 같은 경향으로 평난지에서는 5월 9일에 76.0mg QE/g로 가장 높았으며 그다음이 5월 29일, 6월 19일, 4월 18일 순이었으며 고랭지에서는 6월 18일에 66.5mg QE/g으로 가장 높았고 그다음이 7월 9일, 5월 28일, 5월 10일 순이었다. 재배지역 및 수확시기별 DPPH 활성산소 제거능에서도 평난지에서는 5월 9일과 5월 29일에 효과적이었으며 고랭지에서는 6월 18일에 효과가 있는 것으로 나타나 너무 이른 시기나 늦어지면 활성이 떨어지는 것으로 생각된다. 또한 환원력에 있어서도 평난지에서는 $1,000{\mu}g/m{\ell}$의 농도에서 5월 9일, 5월 29일, 6월 19일에 높은 경향을 나타냈으며 고랭지에서는 6월 18일에 높게 나타났다. 이러한 결과로 볼 때, 쌈마니 품종은 평난지에서는 5월, 고랭지에서는 6월에 수확하는 것이 항산화 활성이 높은 것으로 사료되었다.

• Journal of Sericultural and Entomological Science
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• v.15 no.2
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• pp.68.2-68
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• 1973

1. 오갈병은 전국에 분포하고 최근지역에 따라 3∼4배씩 매년 발생이 급증한다. 2. 마름무늬 매미충은 1년 3세대 발생하며 1세대가 5월중순-7월초순이고 2세대가 7월중순-8월중순이며 3세대는 8월하순부터 10월초까지였다. 3. 마름무늬 매미충 산란은 가지의 하부에 산란하는 것이 많다. 4. 마름무늬 매미 충 월동란은 4월 24일에 안점기에 달하고 5월 5일부터 부화 시작한다.

• 주택과사람들
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• s.16
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• pp.28-31
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• 1991

1. 2/4분기중 전국의 건축허가면적은 전년동기에 비하여 6.4$\%$가 감소하여, 1/4분기에 전년동기대비 12.3$\%$증가한 것에 비해 현저한 감소현상을 나타낸 바, 이는 건축허가제한 강화조치에 기인하는 것으로 보인다. 건축허가면적은 1월과 2월에 전년동기대비 각각 28.9$\%$, 18.4$\%$의 증가를 나타내었으나, 3월들어 1.1$\%$가 감소하면서 감소세로 돌아선 이후, 4월, 5월, 6월에 각각 0.2$\%$, 16.4$\%$, 0.6$\%$의 감소를 나타내면서 지속적 감소추세를 보이고 있다. 특히 6월의 경우 감소추세가 둔화된 사유는 ''90.5.15 건축허가제한조치에 따라 ''90년의 허가면적 자체가 대폭 감소한 데 기인한다. 2. 2/4분기중 허가면적을 용도별로 보면 주거용 건축이 5.6$\%$ 감소하였으며, 상업용은 17.1$\%$의 감소를 보였으나, 공업용은 제조업 분야의 시설투자활성화 영향으로 13.6$\%$의 증가율을 나타내고 있다. 3. 이와 같은 허가면적의 감소추세는 허가제한 강화조치에 따라 하반기에도 지속될 것으로 보인다.

• KOREAN JOURNAL OF CROP SCIENCE
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• v.30 no.4
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• pp.398-404
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• 1985

This study was conducted to define the seasonal differences in the morphological characteristics, the photosynthetic abilities and the dark respirations of the 4-year old ginseng leaves. Chlorophyll-a content in the ginseng leaf was significantly decreased at September than at June but content of chlorophyll-b was not showed seasonal difference. At June, the amounts of chlorophyll a and b in the ginseng leaves grown in the back row were rather abundant than those grown in the front row, but no significant differencies were detected between rows at September. The estimated optimum light intensity for the photosynthesis of ginseng leaves was higher at June than at September and higher in the front row than the back row but was significantly decreased by air temperature above 25$^{\circ}C$. The light compensation point was elevated in higher temperature and at September than June. The amount of photosynthesis was significantly increased in the ginseng plant grown in the front row than the back row at June but the reverse was significant at September. The highest photosynthesis was observed in temperature range of 20 - 25$^{\circ}C$ at June and range of 15 -20$^{\circ}C$ at September. The optimum temperature range of photosynthesis was 21$^{\circ}C$ to 25$^{\circ}C$ at June and 14$^{\circ}C$ to 21$^{\circ}C$ at September, and that was higher in the back row than the front row. High temperature significantly stimulated the dark respiration of ginseng leaves and the respiratory quotients(Q$\_$10/) of the ginseng leaves showed a significant seasonal variation.

• Korean Journal of Fisheries and Aquatic Sciences
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• v.8 no.4
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• pp.234-241
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• 1975

Reproductive cycle of Haliotis discus hannai Ino was studied based on the samples which were collected in Yeosu area from January, 1973 to December, 1974. Particular emphasis was paid on the seasonal variation of gonad maturity factor, coefficieot of gonad maturity, fatnesss, and relationship of gonad weight to growth of the abalone. seasonal fluctuation of water temperature and induction of artificial spawnings were also checked. The abalone of this area spawns twice a year: spring spawning(early May-late July) and Autumn spawning(early September-late November). peak spawning occurs from late May to middle of June for spring spawning: it occurs from late September to early November for Autumn spawning. Gonad maturity factor was closely related to the spawning seasons. For the spring spawning Gonad maturity factor reached to its maximum value as 18.84 in April; for the Autumn spawning it reached to its maximum value as 22.65 in September. Annual minimum value was 12.65 in January. Annual maximum values of coefficient of gonad maturity were 44.10 in May and 49.05 in September and the annual minimum was 10.09 in January. Fatnesswas highest in July as 0.221 and it was lowest in October as 0.1058. Ratios of shell length to gonad weight were formulated as follows : $$In\;September\;GW=0.000003710SL^{3.7860}$$ $$In\;January\;GW=0.000021198SL^{2.8564}$$ $$Annual\;mean\;GW=0.00000005013SL^{4.2273}$$ Relations of total weight to gonad weight were formulated as follows : In September GW=0.1918TW-4.9231 In January GW=0.0992TW-0.1759 Annual maan GW=0.1568UW-3.5256.

• Journal of The Korean Society of Grassland and Forage Science
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• v.32 no.2
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• pp.109-116
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• 2012

This study was carried out to determine the forage quality, production, and regrowth of Phragmites communis as a native grass according to growth stages. Experiment 1 was conducted in Ansan from May 2009 to April 2010 (7 stages), and experiment 2 was conducted in Cheonan from May to November 2011 (10 stages). In experiment 1, forage quality decreased rapidly with advance of growth from May. When harvested on late May, July, September and April of the following year, the contents of crude protein were 7.7%, 4.6%, 3.7%, and 2.2%, respectively. Relative feed value (RFV) were 80.2, 65.1, 61.8 and 52.8, and lignin contents were 7.1%, 9.9%, 12.0%, and 13.2%, respectively. In experiment 2, significantly higher forage yields were observed when harvested from late June to mid July. On the other hand, forage quality decreased with delayed harvest as was in experiment 1. Good regrowth of Phragmites communis was observed when harvested earlier than in August. When harvested on late May, June, July, August, September, October and November, the dry matter (DM) yields were 7,329 kg/ha, 12,527 kg, 9,593 kg, 8,279 kg, 7,649 kg, 5,822 kg and 5,540 kg, and in vitro digestible DM (IVDDM) yields were 3,924 kg/ha, 5,264 kg, 4,273 kg, 3,322 kg, 3,352 kg, 2,195 kg and 1,887 kg, respectively. Forage quality grades of Phragmites communis were 4th grade in May, 5th grade from June to Sept., and 6th grade in Oct., Nov., or in Apr. of the following year. However, all regrown Phragmites communis ranked the 4th in quality. In conclusion, we recommend that Phragmites communis should be harvested from late June to mid July (no later than the end of July) to obtain good forage quality with digestible nutrient contents greater than rice straw. Regrowth of Phragmites communis was poor, and more than 70% of annual forage yields were out of the first harvest. Therefore, we recommend only one harvesting per year for good regrowth and stable production of Phragmites communis.

• Korean Journal of Fisheries and Aquatic Sciences
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• v.33 no.5
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• pp.431-438
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• 2000

To clarify the annual reproductive cycle in a rockfish, Sebastes schlegeli, monthly changes in gonadosomatic index (GSI), hepatosomatic index (HSI) and histological feature of gonads and plasma levels of sex steroid hormones ($estradiol-l7{\beta},\;17{\alpha},\;20{\beta}-dihydroxy-4-pregnen-3-one,\;testosterone\;and\;11-ketotestosterone$) were investigated. The annual reproductive cycle in females could be divided into 5 periods as follows: 1) recovery period (June to September): serum level of $estradiol-l7{\beta}$ increased gradually; 2) vitellogenesis period (Septemer to february) : vitellogenic oocytes were obsewed, GSI sustained high value, and serum level of $estradiol-l7{\beta}$ increased; 3) gestation period (February-April): developing larva showed in the ovary, and serum levels of $17{\alpha},\;20{\beta}-dihydroxy-4-pregnen-3-one$ and testosterone increased; 4) partrition period (April to May) : larva were delivered, and value of GSI and serum levels of hormones decreased rapidly; 5) resting period (May to June) : value of GSI and serum levels of $estradiol-l7{\beta}$ and testosterone remained low. The annual reproductive cycle in males could be divided into 6 periods; 1) early maturation period (April to June): value of GSI and serum levels of hormones incresed gradually, cyst of spermatogonia incresed in number, and a small number of cyst of spermatocyte was observed; 2) mid-maturation perid (June to September); value of GSI and serum levels of hormones increased, and germ cells in many cysts were undergoing active sperrnatogenesis; 3) late maturation period (September to November) : value of GSI and serum levels of hormones remained high and spermatozoa were released into the lumina of the seminal lobules; 3) spermatozoa dischaging period (Nobember to December) : the lumina of the seminal lobules were enlarged and filled with mature spermatozoa; 4) degeneration period (December to Februauy)i value of GSI decresed and cyst of spermatocyte were decresed in number; 5) resting period (December to April) : no histological changes of testes were observed, and value of GSI and serum levels of hormones remained low. In November, the lumina of the seminal lobules were filled with mature spermatozoa and sperm masses were present in the ovarian cavity. Thus, copulation in this species occurred in November and December.

• Asian Journal of Turfgrass Science
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• v.18 no.4
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• pp.179-191
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• 2004

This study was conducted to find out the effect of sodding and seeding time and rate of seed mixtures on the establishment of cool-season turfgrasses by evaluating the turf coverage rates for two years. In fall planting, the required establishment period of full coverage($100\%$) was 1.5 months with a rolled turf sodding(Kentucky bluegrass $100\%$, Kentucky bluegrass $80\%$+perennial ryegrass $20\%$). The $100\%$ turf establishment was achieved in 7 months with Perennial ryegrass $100\%$, and 7.5 months by seeding with Kentucky bluegrass $100\%$(KB 100), Kentucky bluegrass $80\%$+perennial ryegrass $20\%$(KB80+PR20), Kentucky bluegrass $70\%$+perennial ryegrass $30\%$(KB70+PR30). In spring planting, the establishment periods far sod with KB 100 or KB80+PR20 were taken one month. However, in the case of seeding, the establishment periods were 3 months, 3.5 months, 3.5 months and 4 months with PR100, KB80+PR20, KB70+PR30, and KB 100, respectively Comparing the turf establishment vigor between fall and spring planting, the vigor was higher In spring planting than in fall planting in both sodding and . seeding. In the case of spring planting, the most proper time for turf establishment was tested on April, May, and June trials. The effect was significant in establishment vigor. The result showed highest on April planting. On May and June trials, establishment vigors were decreased gradually As the mixture rate of PR increased, ryegrass, establishment vigor was decreased with the rates. These results indicated that perennial ryegrass has relatively less tolerant to summer heat than Kentucky bluegrass. Number of shoots in 95 days after seeding was higher in KB100 by 16,600 per $m^2$ than in PR100 by 12,400 per $m^2$, while the lowest number showed in KB50+PR50 by 3,300 per $m^2$. Those in KB80:PR20, KB70:PR30 were 6,700 and 4,900 per $m^2$, respectively. The ratios of tillers according to mixture rates between Kentucky bluegrass and perennial ryegrass were KB80:PR20=87:13, KB70:PR30=78:22, and KB50:PR50=48:52. According to results in this study, Ideal seeding time might be spring (April) than in fall (September), and proper mixture rate was $80\%$ of Kentucky bluegrass with $20\%$ of perennial ryegrass.