• 한국해양학회지
• /
• 제5권1호
• /
• pp.14-29
• /
• 1970

김의 성장과 품질에 대한 환경수질의 중요성은 다시 말할 필요가 없다 김 양식기에 있어서의 환경수질의 변동을 보기 위해 저자의 한 사람은 섬진강 및 낙동강 하구 김밭에 대해 이미 조사한 바 있거니와 이번에는 우리나라 유수의 김 생산지인 완도군하 김밭의 수질을 전보와 같은 방법으로 조사하였다. 조사지점으로서는 완도군 에서대체로 대표적 김밭이라 볼 수 있는 두 지점을 선정하여 1968년 10월부터 1969년 2월까지 매월 대조일에서의 수질변동을 조수의 일조기에 걸쳐 1시간마다 각 성분량을 측정하므로써 조사하였다.

• 한국식품과학회지
• /
• 제20권1호
• /
• pp.19-22
• /
• 1988

생 크릴근육 및 자비한 크릴근육에 이온화되어 있는 불소는 각각 총 불소함량이 70%, 49%이었으며 자비한 크릴근육의 총 불소함량이 생크릴근육에서 보다 높은 것으로 나타났다. 크릴근육의 가용성 단백질에 결합된 불소함량은 생크릴과 자비한 크릴 모두 pH4-6범위에서 높은 수준을 보였고 pH10 부근에서 가장 낮은 값을 보였다. 생 크릴근육의 가용성 단백질에 결합된 불소의 함량은 1가이온인 Na 염의 이온강도가 0.05, pH11일 때 약 8 ppm으로 감소되어 불소함량에 효과적인 조건인 것으로 조사되었다.

• 한국가금학회지
• /
• 제30권2호
• /
• pp.113-118
• /
• 2003

In this study, broilers were raised up to 6 weeks of age in a single room to determine if different levels of dietary protein or addition of aluminum sulfate[alum, $Al_2$(SO$_4$)$_3$ㆍ14$H_2O$] to the litter affected growth performance, production of ammonia(NH$_3$) and soluble phosphorus(SP) content of the litter.The experimental treatments consisted of six treatments in a 2x3 factorial arrangements: T$_1$＝23% protein ＋ 0.2% alum to litter; T$_2$＝21% protein ＋ 0.2% alum to litter; T$_3$＝19% protein ＋ 0.2% alum to litter; T$_4$＝23% protein ＋ no alum; T$_{5}$＝21% protein ＋ no alum; T$_{6}$＝19% protein ＋ no alum. For broiler performance, there was no effect of alum addition to the litter, but the dietary protein levels significantly affected feed intake from days 22 to 42(P<0.05) and day 0 to 42(P< 0.05), weight gain during all periods(P<0.05 or 0.01), and feed:gain from day 0 to 21(P<0.05) and day 0 to 42(P<0.05). Alum addition to the litter did not affect body weight at 21 and 42 days, but dietary protein levels has a significant effect on it at both 21(P<0.0l) and 42 days(P<0.05). Alum addition only affected ammonia production at weeks 3(P

• Journal of Animal Science and Technology
• /
• 제58권9호
• /
• pp.34.1-34.9
• /
• 2016

Background: By-products of pickled radish (BPR) are considered food waste. Approximately 300 g/kg of the total mass of raw materials becomes BPR. Production of pickled radish has grown continuously and is presently about 40,000 metric tons annually in Korea. The objective of the present study was thus to explore the possibility of using BPR as a ruminant feed ingredient. Results: BPR contained a large amount of moisture (more than 800 g/kg) and ash, and comprised mostly sodium (103 g/kg DM) and chloride (142 g/kg DM). On a dry matter basis, the crude protein (CP) and ether extract (EE) levels in BPR were 75 g/kg and 7 g/kg, respectively. The total digestible nutrient (TDN) level was 527 g/kg and the major portion of digestible nutrients was carbohydrate; 88 % organic matter (OM) was carbohydrate and 65 % of total carbohydrate was soluble or degradable fiber. The coefficient of variation (CV) of nutrient contents among production batches ranged from 4.65 to 33.83 %. The smallest CV was observed in OM, and the largest, in EE. The variation in CP content was relatively small (10.11 %). The storage stability test revealed that storage of BPR at $20^{\circ}C$ (room temperature) might not cause spoilage for 4 d, and possibly longer. If BPR is refrigerated, spoilage can be deferred for 21 d and longer. The in vitro ruminal fermentation study showed that substitution of annual ryegrass straw with BPR improved ruminal fermentation, as evidenced by an increase in VFA concentration, DM degradability, and total gas production. Conclusion: The major portion of nutrients in BPR is soluble or degradable fiber that can be easily fermented in the rumen without adverse effects, to provide energy to ruminant animals. Although its high sodium chloride content needs to be considered when formulating a ration, BPR can be successfully used as a feed ingredient in a ruminant diet, particularly if it is one component of a total mixed ration.

• Journal of Ginseng Research
• /
• 제14권2호
• /
• pp.317-331
• /
• 1990

Nitrogen compounds of Panax ginseng and their biological activities in plant and animal were reviewed. Major nitrogen combounds found in P. ginseng are free amino acids, Water soluble teins, insoluble proteins and peptides. Minor nitrogen compounds are dencichine. glycol)roteins. amines, alkaloides, methoxy or alkyl pyrazine derivatives. free nucleosides and nllrleir arid bases. 4-me- thymi-5-thiazoleethanol and pyroglutamic acid. The contents of total nitrogen and protein in root increased until 13 years old rvhich was the highest age tinder investigation. Soluble protein content increased With the root weight and was higher in xylem pith than cortex-epidermis indicating the rlosc relation with root growth. Arginine which covered 58% of total free amino aroids may serve as a storage nitrogen. Arginine seems to be changed into proline in rhizome, threonine in stem and again threoning and arginine in leaf. The greater the root weight the higher the polyaminc content. Polyamine stimulated the growth of root callus. Physiological roles of other minor nitrogen compounds are unknown although dencichine content is relatively high (0.5% d.w.). biochemical and pharmatological activities of some nitrogen compounds for animal were more investigated than physiological roll iota plant itself. Radiation and U.V. protective function (heat stable protein), insulin-like activity in lipogenesis and lipolysis (adenosine and pyroglutamic acid), depression of blood sugar content (glycopeptide). hemostatir and nellrotoxic activity (denrichine) and. sedative and hypnotic activity (4-methyl-5-thiazoleethilnol) are reported. Heat stable protein increased with root age. The traditional quality critsria appear to be well in accordance with biological activities of nitrogen compounds. Chemical stlldies of nitrogen compounds seem relatively rare, probably dole to difficulty of isolation, subsequently the investigations of biological activities are little.

• Applied Biological Chemistry
• /
• 제43권1호
• /
• pp.63-66
• /
• 2000

황칠나무 잎과 종실의 일반성분을 분석한 결과 수분은 잎에 70.2%, 종실에 72.6%, 지방은 종실에 0.6%, 잎에 2.7%, 회분은 잎에 1.7%, 종실에 0.9%가 각각 함유된 것으로 분석되었고 단백질은 잎에 1.2%, 종실에 6.2%, 섬유는 잎에 5.1%, 종실에 9.0%가 함유된 것으로 분석되었다. 총 비타민 C는 잎(56.9 mg%)이 종실(10.7 mg%)보다 더 많이 함유하였고 수용성 탄닌함량도 잎(746.1 mg%)이 종실(60.7 mg%)보다 더 높은 것으로 분석되었다. 잎과 종실에 함유된 유리당은 주로 sucrose, glucose 및 fructose로 구성되어 있었으며 종실에는 잎에서 검출되지 않은 turanose와 xylose가 적은 양이지만 검출된 것이 특징이었다. 지방산 조성은 불포화 지방산의 함유율이 더 높았으나 잎과 종실에 가장 많이 함유된 포화 지방산 및 불포화 지방산은 서로 달라 지방산 조성이 약간 차이가 있음을 알 수 있었다. 유리 아미노산 함량은 낮은 편이었고 주요 아미노산은 일과 종실 모두 arginine, aspartic acid, glutamic acid등으로 비슷하였으며, 무기성분은 잎에는 칼슘, 종실에는 칼슘이 가장 많이 함유된 것으로 밝혀졌다.

• Journal of Plant Biology
• /
• 제4권2호
• /
• pp.51-61
• /
• 1961

In order to detect the way of absorption and metaboism of the urea it is sprayed on the surface of the leaves of sunflower. The sunflowers used in this study are grown in different conditions such that the one in nittogen aboundant and the other in nitrogen deficient soil, respectively. The urea-N, ammonia-N, amide-N, and 80% alcohol soluble-N in the leaves were quantitatively determined. All of the nitrogenous components measured are generally tended to increased with rising the concentration of urea except only amide-N at 24 hours after sprayed, and these were highly significances. It seemed that hydrolizing of urea into ammonia and carbon dixide and the assimilation of ammonia into other organic nitrogenous constituents were rapid in the young leaves than in the mature. It is interest that the amide content, in the young leaves and nitrogen defieient one were enhanced with the increasing concentration of urea, although in the mature leaves it did not show any change in the urea treatment. It is presumed that the assimilation rate of ammonia and the urease activity were lower in the matture leaves than in the young and nitrogen deficient leaves. No significance at 5% level showed all of the nitrogenous components except total nitrogen between nitrogen abundant and deficent leaves. Urea content was a high peak at first 12 hours, ammonia at 48 hours, and amide and alcohol soluble nitrogen at 96 hours, whence decrease4d the content of these constituents gradually. The total nitrogen content is not incrased obviously by only one time of urea spray in this study. When the concentration of urea was relatively high there appeared the wilting spots on t도 edge of leaves. As a whole, it seemed that sprayed urea was rapidly absorbed and taken part in nitrogen metabolism within relatively short period.

• 한국식품저장유통학회지
• /
• 제6권4호
• /
• pp.481-487
• /
• 1999

매실의 성숙도와 품종별 주요 성분의 변화를 조사한 결과, 수분함량은 수확시기와 품종간에 차이가 없었으며, 회분함량은 '소매'를 제외한 3품종 모두 성숙과 함께 약간 감소하였다. 가용성고형분은 품종간에 차이가 없이 완숙기에 이르면서 서서히 증가하였고, 산도는 성숙과 함께 증가하고 pH는 감소하였다. 색상은 '남고'가 개화 후 92일경에도 -3.81로 녹색값을 유지하였다. '소매'의 경우 개화 후 71일부터 클로로필이 급격히 소실되었다. 매실의 주요 유기산은 citric acid, malic acid로서, 품종별로 다소 차이는 있으나 전체적으로 성숙과 함께 malic acid는 감소한 반면 citric acid는 증가하였으며, 전체 유기산 중 이들 두 가지가 90% 이상을 차지하였다. 유리당과 당알콜은 sucrose, glucose, fructose, sorbitol, maltose 등으로서, 과실이 성숙함에 따라 sucrose는 증가한 반면 glucose 와 sorbitol은 감소하였다. 유리아미노산은 성숙과 함께 감소하였으며, asparagine이 전체 유리아미노산의 60∼78%를 차지하였다.

• 한국작물학회지
• /
• 제49권4호
• /
• pp.331-336
• /
• 2004

Changes in the level of metabolites in leaves and pods were examined with respect to the seed chemical composition in black soybean. There was no further increase in pod length after 42 days after flowering (DAF). Pod weight, however, persistently increase until 73 DAF, thereafter the weight was slightly lowered. The seed storage protein, however, increased drastically as the increasing rate of pod weight was lessened at 61 DAF. The accumulation of seed storage proteins was occurred conspicuously as the increasing rate of pod weight was slowed down. The chlorophyll content both in leaves and pods was drastically decreased after 50 DAF. The beginning of drastic reduction in chlorophyll content was occurred concomitantly with the reduction of soluble protein content in leaves. The sugar content in leaves showed similar tendency with chlorophyll and soluble protein content. The starch level in leaves, however, showed different changing pattern during seed development. The starch content in leaves was increased persistently until 66 DAF, thereafter the content was decreased drastically to about $55\%$ of maximal value at 66 DAF. Total phenolics content in leaves and the anthocyanins content in seeds were stable without noticeable increase until 66 DAF. The contents were increased dramatically after 66 DAF showing the synchronized pattern with the decrease in starch level in leaves. The levels of the selected metabolites in leaf and seed suggested that the accumulation of chemical components of black soybean seed is launched actively at 66 DAF. The profile of storage proteins was nearly completed at 61 DAF because there was no large difference in densitometric intensity among protein subunits after 61 DAF. In soybean, chemical maturation of seed begins around 61 to 66 DAF at which most metabolites in vegetative parts are decreased and remobilized into maturing seeds.

• Current Research on Agriculture and Life Sciences
• /
• 제33권2호
• /
• pp.65-68
• /
• 2015

Hunter's color value "a" in dried-persimmon of table and full ripe fruit was higher than that in unripe fruit. In case of soluble solid content, full ripe fruit was $50^{\circ}Brix$, the highest degree, while unripe fruit was $40^{\circ}Brix$, the lowest degree. PPO activation of unripe fruit was 4.7, which was higher than table-ripe fruit (0.7) and full ripe (1.0). Polyphenol oxidase activation remained even while drying, but there was no difference in PPO activation degree as drying period increased. Total phenol content of unripe fruit was 101.4, which was higher than table-ripe fruit (57.5) and full ripe fruit (67.4). Total phenol content level increased as drying period increased, which was based on fresh weight. Hardness of unripe and table ripe fruit continued to decrease until three weeks during softening. After that, hardness was high and it started drying. However, in full ripe fruit, hardness increased after two weeks and softening was fast during the drying period, and its weight reduction rate was lower than that of unripe and table ripe fruit.