• Title/Summary/Keyword: germinating seed

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Tests of Different Erosion Control Blankets for Erosion Control and Plant Growth Enhancement under Simulated Rain and Sunlight (강우 및 태양광 씨뮤레이터를 이용한 침식방지 브랑켓들의 침식방지 효과와 식물성장의 촉진효과 확인을 위한 실험)

  • Chang, Chang-Hark;Urroz, Gilberto E.
    • Journal of the Korean Society of Environmental Restoration Technology
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    • v.1 no.1
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    • pp.133-140
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    • 1998
  • The following conclusions are based upon data collected and visual observations made during the performance of the tests : 1. The performance of the erosion control products tested was for a particular set of conditions, and may be expected to differ if any or all of the test parameters were to be changed. If even just one parameter is changed from one test to the next, the results can be expected to be different. 2. Due to the fact that only two replications of each product were tested, we believe that the results presented herein are indicative only and not conclusive. 3. The ECB SC produced the least amount of soil erosion followed by ECB S, ECB C, and Coir No. 2, in that order. 4. All of the erosion control blankets tested significantly reduced soil erosion rates with respect to the bare soil controls. 5. The ECB S produced the smallest water runoff rate, followed closely by ECB SC. Next in order were ECB C and Coir No. 2. 6. All of the erosion control blankets reduced the water runoff rate with respect to the bare soil control. 7. Mesh 2cm There was not much difference in plant height for the four erosion control blankets and the bare soil control plots. the ECB S produced slightly taller plants than the rest of the materials tested. 8. The four erosion control blankets(ECB C, ECB SC, ECB S, and Coir No. 2) produced a larger plant mass than the bare soil plots. The difference between the plant mass for the four erosion control blankets, however, is minimal. 9. The ECB C produced the least percentage of lost seed and the largest percentage of germinating seed. 10. The ECB SC had the second smaller percentage of seed lost, followed closely by ECB S, and then by Coir No. 2. 11. All erosion control blankets had a smaller percentage of seed lost than the bare soil control plots. 12. The ECB C had the second largest percentage of germinating seed, followed closely by ECB SC and Coir No. 2. 13. All erosion control blankets had a larger percentage of germinating seed than the bare soil control plots. 14. The ECB C had the smallest percentage of non-germinating seed, followed by ECB S, Coir No. 2, and ECB SC, in that order. 15. All erosion control blankets had smaller percentages of non-germinating seed than the bare soil control plots.

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Comparison of Seed Germinating Vigor, Early Germination Characteristics, Germination Speed and Germination Peak Time in New Varieties of The Third Generation of Creeping Bentgrass Under Different Growing Conditions (생육환경에 따른 제3세대 크리핑 벤트그래스 신품종의 종자 발아력, 초기 발아 특성, 발아세 및 발아 피크 기간 비교)

  • Kim, Kyoung-Nam;Jung, Ki-Wan
    • Journal of the Korean Society of Environmental Restoration Technology
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    • v.11 no.5
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    • pp.79-91
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    • 2008
  • Research was initiated to investigate germination characteristics of creeping bentgrass (CB, Agrostis palustris Huds.). Seven varieties of CB were evaluated with different experiments. An alternative environment condition requiring for a CB germination test by International Seed Testing Association (ISTA) was applied in the Experiment I, consisting of 8-hr light at $25^{\circ}C$ and 16-hr dark at $15^{\circ}C$(ISTA conditions). Experiment II was conducted under a room temperature condition of 5 to $25^{\circ}C$(natural conditions). In each experiment, data such as seed germinating vigor, early germination characteristics, germination speed and germination peak time were measured. Significant differences were observed in seed germinating vigor, early germination characteristics, germination speed and germination peak time. Seed germinating vigor was variable with different environments and varieties. It was 61.50 to 98.25% under ISTA conditions and 55.00 to 98.50% under natural conditions. There were considerable variations in early germination characteristics among CB varieties according to different conditions. Early germination characteristics indicated that all varieties were 1 to 4 days faster in germination under ISTA conditions, when compared with natural conditions. The germination speed, measured as days to seed germination of 70% and 90%, was much faster with Penn A-1, Penn A-4 and Penncross under ISTA conditions. But it was even faster with L-93 and Penncross when grown under natural conditions. Differences were also observed in germination peak time with varieties and growing conditions. It was 0.57 to 2.86 days under ISTA conditions and 0.74 to 1.74 days under natural conditions. Regardless of the environment conditions, the shortest variety was L-93 and the longest one T-1. Considering germinating vigor, early germination characteristics, germination speed and germination peak time, Penn A-1, Penn A-4 and Penncross were regarded as excellent varieties under ISTA conditions in terms of early establishment characteristics, while L-93, Penn A-1 and Penncross under natural conditions. These results suggest that an intensive germination test be needed prior to planting, for the early germinating vigor, germination speed and germination peak time. Also, a proper variety selection and comprehensive site analysis for the growing environmental conditions should be done before golf course construction.

Comparison of Seed Germinating Vigor, Germination Speed and Germination Peak in Kentucky Bluegrass Cultivars under Different Germination Conditions (발아환경에 따른 켄터키 블루그래스의 종자 발아력, 발아세 및 발아피크 비교)

  • Kim, Kyoung-Nam
    • Journal of the Korean Society of Environmental Restoration Technology
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    • v.18 no.3
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    • pp.23-38
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    • 2015
  • The study was initiated with Kentucky bluegrass (KB, Poa pratensis L.) to investigate germination and early establishment characteristics of new cultivars for a practical application to turfgrass establishment such as parks, athletic field and golf course etc. Fifteen cultivars were evaluated in different experiments. An alternative condition for a KB germination test required by International Seed Testing Association (ISTA) was applied in Experiment I, consisting of 8-hr light at $25^{\circ}C$ and 16-hr dark at $15^{\circ}C$ (ISTA conditions). Experiment II was conducted under a room temperature condition of 5 to $25^{\circ}C$ (natural conditions). Seed germinating vigor, germination speed and germination peak time were measured in both experiments. Significant differences were observed in seed germinating vigor, germination speed and germination peak time. Seed germinating vigor was variable with different environments and cultivars. It was 75.25 to 89.50% under ISTA conditions and 75.75 to 90.25% under natural conditions. There were considerable variations in early germination characteristics among KB cultivars according to different environments. Early germination characteristics showed that all cultivars were 3 to 5 days faster in germination under ISTA conditions, when compared with natural conditions. The germination speed, measured as days to seed germination of 50% to 80%, was much faster with 'Midnight II', 'Excursion' and 'Midnight' under ISTA conditions. But it was faster with 'Midnight II', 'Excursion' and 'Odyssey' under natural conditions. Differences was also observed in germination peak time with cultivars and growing conditions. It ranged 5.94 to 14.88 days under ISTA conditions and 4.71 to 13.06 days under natural conditions. Regardless of the environment conditions, the shortest cultivars were 'Odyssey' and 'Midnight II'. The longest ones were 'Nuglade' under ISTA condition and 'Moonlight' under natural conditions. Considering germinating vigor, germination speed and germination peak time, 'Midnight II', 'Excursion', 'Midnight', and 'Odyssey' were regarded as excellent cultivars under ISTA conditions in terms of early establishment characteristics, while 'Midnight II', 'Excursion', 'Odyssey', and 'Courtyard' under natural conditions. These results suggest that an intensive germination test be needed prior to planting, for investigating the early germinating vigor, germination speed and germination peak time. Also, a proper cultivar selection and comprehensive site analysis for the growing environmental conditions should be done before turfgrass establishment such as golf course construction.

Detecting Seed-Borne Fungi of Rice and Transmission of Helminthosporium oruzae in Germinating Seed (벼종자수반진균의 검정 및 종자발아에 따른 깨씨무늬병균의 전염경로)

  • LEE Chang Un;CHUNG Hoo Sup
    • Korean journal of applied entomology
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    • v.18 no.3 s.40
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    • pp.119-126
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    • 1979
  • From the sample seeds of rice cultivar Palkoeng with the brown spot symptom, Helminthosporium oryzae was detected in $86\~92\%$ of hulls including empty glumes, lemma, palea, and rachilla in five to seven days of incubation. When the seeds were dehulled, the percentage detection decreased to $74\~83\%$ of pericarps. The fungus sporulated on whole surface of the seed and was detected within about ten cell layers deep of endosperm but not detected in embryo. Fusarium moniliforme was found in embryo as well as pericarp and endosperm. The frequency of F. roseum, Trichoconis padwickii, Curvularia spp., Atternaria tenuis, Cladosporium cladosporoides and Phoma sp. was less than three percent of hulls and pericarps. In seven days of incubation, $60\~87\%$ of the germinating seeds showed the symptom of H. oryzae while $13\~40\%$ were apparently healthy. This fungus in hilum of infected rice transmitted through pericarp to plumule shoot and radicle of the germinating seed.

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Induction of Amylase Formation in Barley Seed by Gibberellic Acid (대맥종자의 Amylase 생성에 미치는 Gibberellic Acid의 효과)

  • 채인기
    • Journal of Plant Biology
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    • v.14 no.1
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    • pp.1-4
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    • 1971
  • To determine the amylase fromation mechanism and the effect of GA. in germinating barley seeds, they were divided into embryo-less seed, isolated embryo, aleurone layer and pure endosperm etc., treated with GA, and cultured separately or in mixed lots. The result obtained are as follows. 1) The amylase of barley seed is formed in the aleurone layer under the effect of inducing materials excreted from the embryo. 2) The embryonic materials amylase formation could be substituted for by GA. Therefore it can be presumed that the substance produced by the embryo which induces amylase synthesis is probably GA or material similar to it.

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Studies on Protein Profiles and Isozymes in Germinating Seeds (종자발아에 있어서 Protein Profile과 Isozyme에 관한 연구)

  • 권오용
    • Journal of Plant Biology
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    • v.17 no.4
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    • pp.143-156
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    • 1974
  • The purpose of this experiment was to study one side of germination physiology based on that protein profiles and protease relating to protein metabolism, that peroxidase, catalase, $\alpha$-amylase, $\beta$-amylase, and malate dehydrogenase involved in the carbohydrate metabolism of seed germination. All these experiments were divided into the two groups with and without acetone treatment, and were carried out. The protein bands of each germinating stage between the groups treated with and without acetone showed certain basic pattern in polyacrylamide gel disc electrophoresis. However, there was a little difference in the number of protein band, optical density, and migration velocity between two groups. The isozyme bands of peroxidase, and catalase between two groups in polyacrylamide gel disc electrophoresis did not show the numeral difference, but the optical density of certain germinating stage treated with acetone was higher than the group untreated with it and it showed their enzyme activity. The $\alpha$-amylase and $\beta$-amylase activities which involved in starch metabolism of seed germination were higher in the treated group than the other. On one hand, the protease activity of hydrolase occurred in the seeds for germination was also higher, more or less in the treated group than in the other. The isozyme band pattern of malate dehydrogenase in TCA cycle of energy metabolism pathway was very different between two groups growing for 72 hours with and without acetone treatment in cellulose acetate electrophoresis. It indicated that two isozyme bands of malate dehydrogenase was high. Consequently these experimental results mentioned above indicated that acetone treatment before sowing had an effect on dissolving certain complexed lipid substance involved in the seed coats, the activity of carbohydrate hydrolase increased with water absorption which was most comfortable in its germination, dissolved glycerin and fatty acid became certain energy source, and they stimulated the acceleration of respiration metabolism.

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Effects of Temperature, Light, $GA_3$ and Storage Method on Germination of Angelica gigas NAKAI (온도(溫度), 광(光), $GA_3$ 및 저장방법(貯藏方法)이 참당귀(當歸) 발아(發芽)에 미치는 영향(影響))

  • Yu, Hong-Seob;Kang, Byeung-Hoa;Im, Dae-Joon;Kim, Chung-Guk;Kim, Young-Guk;Lee, Seoung-Tack;Chang, Yeong-Hee
    • Korean Journal of Medicinal Crop Science
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    • v.3 no.1
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    • pp.30-34
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    • 1995
  • Theses studies were conducted to clarify the germinating characteristics of seed treated with different temperature, light, and ($Gibberellin(GA_3)$) to produce the homogeneous seedlings Angelicogigas NAKAI. The results obtained are summarized as follows: Rate and speed of germinating at $25^{\circ}C$ were higher than $15^{\circ}C$and $20^{\circ}C$ by 87.3% and 68.9% and also the required day for germination at 25°C was shortest by 14.1 days. Germination rate at the light condition was 90.7% and that at the dark was 65.7%. Germinating ability of seed stored at $4^{\circ}C$and $-10^{\circ}C$ for 165 days as dried states was 92.0% and 91.3%, while that at room temperature was 50.3%, but the longer storage of seed than 165 days decreased the ability. Gibberellin treatment by 10ppm to seed stored at $4^{\circ}C$ and by 6ppm to seed stored at $-10^{\circ}C$ increased the germination rate more by 20.9% and 31.7% than nontreated seed.

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Anatomical Changes in the Forming and Germinating Processes of Tobacco (Nicotiana tabacum L.) Seeds (담배종자의 형성과정과 발아과정중의 형태적 변화)

  • ;Byong-Hee Hong;Jae-Young Cho
    • KOREAN JOURNAL OF CROP SCIENCE
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    • v.31 no.2
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    • pp.143-149
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    • 1986
  • Anatomical changes in the forming and germinating processes of tobacco seeds were investigated to obtain basic information on the ecological characteristics of tobacco seeds. Seed development studied through the longitudinal section of the fertilized ovule clarified that the cell division of the zygote was initiated after 7 days of flowering. After 12 days of flowering, perfect seed constituents such as cotyledon, epicotyle and radicle were formed and those were expressed to recognizable level of germinability. After 15 days of flowering germination rate reached higher than 30% and 17 and 21 days after flowering a perfect seed which have 70% or higher germinability were produced. Seed size was ranged between 0.3-0.6 mm and varietal differences were noted in the given seed size range. Under the light treatment, the morphological changes were observed by elongation of radicle after 2 days of imbibition and apparent germination after 3 days of imbibition. But no responses of the seeds imbibed 6 days under the dark condition were observed.

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Studies on Seed Germination Characteristics and Patterns of Protein Expression of Achyranthes japonica by Treating Plant Growth Regulators and Seed Primings (생장조절제와 프라이밍 처리에 의한 우슬종자의 발아특성과 단백질 발현 양상에 관한연구)

  • Kim, Do Hyun;Ahn, Bok Ju;Ahn, Hee Jung;Ahn, Young Sup;Kim, Young Guk;Park, Chun Geun;Park, Chung Beom;Cha, Seon Woo;Song, Beom Heon
    • Korean Journal of Medicinal Crop Science
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    • v.23 no.1
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    • pp.13-19
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    • 2015
  • This study was conducted to improve the postharvest storage techniques of managing and storing seeds, to test qualities and viabilities of the seeds and to examine the germination rate and the protein expression of Achyranthes japonica Nakai. The seeds collected from different areas of Je-Cheon and Gwang-Ju were stored with different temperatures and durations. Two plant growth regulators and two seed priming were treated to investigate their effect on the germination rates and the days required for germination. The weight of one hundred seed collected in Gwang-Ju was heavier than those in Je-Cheon. Seed length collected in Gwang-Ju was also longer about 5.12 mm than those in Je-Cheon about 4.90 mm and seed width was longer in Gwang-Ju than those in Je-Cheon. The rates of seed germination in two different collection areas were higher about 2.9 to 13.0% in Gwang-Ju compared to those in Je-Cheon. Comparing its rates with the storing temperatures and durations, they were not clearly different in between $4^{\circ}C$ and $25^{\circ}C$ and they also were gradually decreased with getting longer storing durations. The germination rates treated by plant growth regulators were higher with $GA_3$ than those with Kinetin. The highest seed germination rate was appeared at 50 ppm of $GA_3$. Comparing its rates with different seed priming, they were relatively higher with $KNO_3$ than those with PEG6000. In protein expression patterns between before the germinating and after the germinating of seeds, more and clear bands were appeared in the seed after the germination compared to those before the germination of seeds, especially 10 ~ 20 kDa. These results showing more and clear bands were more clearly appeared in Gwang-Ju compared to Je-Cheon. Comparing the protein expression with plant growth regulators and seed primings, $GA_3$ was better expression than those with Kinetin and $KNO_3$ was better than those with PEG6000. More and clear bands were closely related to the germination rates of seeds and more detailed studies would be required.

Effects of Plant Growth Regulators on Physiology of Germinating Punax ginseng Seed (식물 생장조절제가 인삼 (Punax ginseng) 종자의 발아생리에 미치는 영향)

  • Eung-Ryong Son;Won-Mok Park;C. Pertzsch
    • KOREAN JOURNAL OF CROP SCIENCE
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    • v.24 no.1
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    • pp.99-106
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    • 1979
  • The undehiscent ginseng seed did not germinate, even if the seeds were treated with GA_3, kinetin or IAA. Only GA_3 stimulated germination of dehiscent ginseng seed. The physiological roles of gibberellic acid on stimulation of the seed germination were enhancing production of soluble carbohydrate and sucrose. Then gibberellic acid stimulated biosynthesis of insoluble cellural materials and amino acids from sugars and incorporation of amino acids into protein. The fruit coat of ginseng seed did not impede water imbibition, but did function as water absorbor and reservoir.

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