• Title/Summary/Keyword: Echinochloa colona

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Discrimination of Echinochloa colona (L.) Link from other Echinochloa Species using DNA Barcode (국내에 유입되는 열대피(Echinochloa colona) 동정: DNA 바코드 중심)

  • Lee, Jeongran;Kim, Chang-Seok;Lee, In-Yong
    • Weed & Turfgrass Science
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    • v.4 no.3
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    • pp.225-229
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    • 2015
  • Echinochloa colona is one of the most problematic weeds in the paddy fields of the world. In recent years, this species is likely to be introduced in Korea due to global warming, the expansion of international trade including agricultural products, and increasing tourists. We tried to identify the species from Korean Echinochloa crus-galli and E. oryzicola in order to establish the control measures in case of the initial influx. For this study, Echinochloa colona collected from the National Plant Germplasm System, USA were examined and E. crus-galli and E. oryzicola were collected in Korea. It is, however, very difficult to identify for Echinochloa species using morphological characters because of numerous interspecific and intraspecific types found in nature. Thus, we barcoded the species using rbcL, matK, and ITS. All three markers identified E. colona very well from the others. ITS alone may be enough as a DNA barcode for E. colona identification, when considering cost and effectiveness. The barcode sequences were deposited to the National Center for Biotechnology Information database for public use.

Differential Competitiveness of Echinochloa colona Ecotypes (ECHINOCHLOA COLONA 생태형(生態型)의 경합력(競合力) 차이(差異))

  • Chun, J.C.;Moody, K.
    • Korean Journal of Weed Science
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    • v.7 no.3
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    • pp.247-256
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    • 1987
  • The ability of three Echinochloa colona (L.) Link ecotypes to compete with rice (Oryza sativa L.) was evaluated. For all the ecotypes, E. colona was shorter and produced less leaf area and dry matter than rice at 15 days after seeding (DAS), whereas the reverse was observed from 30 to 60 DAS. Neither E. colona nor rice tillered during the first 15 DAS, but E. colona had greater accumulative tiller length than rice from 15 DAS. Rice absorbed more nitrogen than E. colona at 15 DAS. E. colona absorbed greater amounts of nitrogen, phosphorus, and potassium than did rice between 30 and 60 DAS and increase in its density decreased the nutrients uptake of rice. Differences in the competitive ability of the ecotypes were related to the growth characteristics of the ecotypes and the period of competition between the two species. At the early growth stages the Pangasinan ecotype, which increased plant size rapidly and had a shorter life cycle, was more competitive against rice than the Leyte and South Cotabato ecotypes, which had a longer vegetative growth period. However, the reverse was observed at the later growth stages of the ecotypes.

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Interspecific Competition Between Echinochloa colona and Rice (Echinochloa colona와 직파(直播)벼 간의 종간경합(種間競合)에 관한 연구(硏究))

  • Chun, J.C.;Moody, K.
    • Korean Journal of Weed Science
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    • v.10 no.2
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    • pp.93-98
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    • 1990
  • Interspecific competition between E. colona and rice was determined over four growth stages in replacement series. No competition between the two species as measured by plant height, leaf area and dry weight occurred by 30 days after seeding (DAS) at all the density combinations studied. At 45 DAS reductions in leaf area and dry weight of E. colons due to the competition occurred at the density combinations where number of competing E. colons plant was less than that of rice. However, there was a great increase in leaf area and dry weight of E. colons at the density combination of one E. colons competing with four rice plants at 60 DAS. As the number of E. colons plants increased, the leaf area and dry weight of E. colona decreased resulting from intraspecific competition between E. colons plants. Although rice absorbed more nitrogen than E. colons up to 30 DAS, the reverse was observed from 45 DAS. A relatively small amount of phosphorous was absorbed by both rice and E. colons, but the amount of phosphorous taken up by E. colons was greater than that taken up by rice. E. colons absorbed extremely high amount of potassium when compared to rice.

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Ecotypic Variation in Echinochloa colona - II. Intraspecific Variations in Sensitivity to Herbicides (Echinochloa colona의 생태형(生態型) 변이(變異) - II. 제초제(除草劑)에 대한 종내(種內) 반응성(反應性) 변이(變異))

  • Chun, J.C.;Moody, K.
    • Korean Journal of Weed Science
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    • v.10 no.4
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    • pp.338-343
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    • 1990
  • The intraspecific susceptibility of twelve Echinochloa colona(L.) Link ecotypes to herbicides was studied at three different stages of growth. At germination and post-germination stage, the Batangas ecotype was most susceptible to both butachlor (N-butoxymethyl-2-chloro-2', 6'-diethylacetanilide) and thiobencarb (S-4-dichlorobenzyldiethylthiocarbamate), whereas the Bukidnon ecotype was the most tolerant. The susceptibility of the ecotypes used was not associated with the seed weight and maturity. When the preemergence herbicides were applied at the 2-leaf stage of the ecotypes, the Nueva Ecija ecotype was least susceptible to butachlor at 1 ppm, but it was most susceptible to thiobencarb. The reverse was exhibited by the Cagayan ecotype. Differential susceptibility of the ecotypes to propanil (3', 4'-dichloropropionanilide) as determined by the necrotic length of the third leaf of 20-day-old seedlings was pronounced in the Camarines Sur, Iloilo, and IRRI (red) ecotypes. However, no necrotic tip appeared in the Cagayan and Batangas ecotypes. The differential responses varied with the type and the concentration of the herbicide studied and the growth stage of the ecotypes.

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Some Factors Affecting Germination and Growth of Echinochloa colona (Echinochloa colona의 발아(發芽) 및 생장(生長)에 미치는 제요인(諸要因))

  • Chun, J.C.;Moody, K.
    • Korean Journal of Weed Science
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    • v.5 no.2
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    • pp.103-108
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    • 1985
  • A series of experiments were conducted to determine the effect of pH, salinity, seeding depth, and moisture stress on the germination and growth of Echinochloa colons (L.) Link. Germination significantly decreased at pH 10, but shoot lengths were not affected by the pH tested. Germination was not affected by salt concentrations of up to 0.1%, but was significantly reduced at 0.5%. A 1.0% salt concentration did not significantly reduce shoot length. Increase in seeding depth significantly reduced emergence. Irrespective of seeding depth, the coleoptilar node was always just below the soil surface. Delayed and decreased germination was obtained at -4.6 bars of simulated water potential, while no germination occurred at -9.8 bars. Soil moisture stress significantly reduced plant height, delayed panicle initiation, and reduced seed production.

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Allelopathic Effect of Sorghum Extract and Residues on Selected Crops and Weeds (수수의 타감작용(他感作用)에 관(關)한 연구(硏究))

  • Kim, S.Y.;De Datta, S.K.;Robles, R.P.;Kim, K.U.;Lee, S.C.;Shin, D.H.
    • Korean Journal of Weed Science
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    • v.14 no.1
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    • pp.34-41
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    • 1994
  • To better understand the allelopathic effect of sorghum(Sorghum vulgare L.), the inhibitory activities of water extracts of the stem, leaf and root, and of residues of the stem to major crops and weeds associated with them were evaluated. The allelopathic activity of sorghum plants was species specific, and depended on source and concentration. Germination, and shoot and root length of all test species were inhibited by the different concentrations of the stem extract. Among the crop species, radish showed the most inhibition, followed by wheat and rice. Maize was the least sensitive species. Of the weed species, Ipomoea triloba was most inhibited, followed by Echinochloa colona and Rottboellia cochinchinensis. The water extracts of leaves, stems, and roots significantly inhibited germination and seedling growth in E. colona and radish. The stem extract gave the greatest inhibitory effect on E. colona while all three extracts produced similar response in radish. In the greenhouse trial, sorghum stem residue placed on the soil surface as mulch significantly inhibited seedling growth in E. colona and radish, but not that in rice.

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SEED DORMANCY AND GERMINATION BEHAVIOUR OF ECHINOCHLOA COLONA (Echinochloa colona 종자(種子)의 휴면(休眠) 및 발아특성(發芽特性))

  • Chun, J.C.;Moody, K.
    • Korean Journal of Weed Science
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    • v.7 no.1
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    • pp.12-18
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    • 1987
  • Seed dormancy and germination responses to light and gases were determined for Echinochloa colona (L.) Link. E. colons seeds did not require a period of after-ripening for breaking dormancy. Water movement occurred readily across the seed coat. Repeated cycles of hydration and dehydration reduced viability and thence germination. Water imbibition for 24 h increased seed moisture by 21%; seeds returned to their original weight after drying at room temperature for 13 h. Removal of seed-coats increased germination in the dark. Light stimulated germination. Germination at a daylight intensity of 51.9 $Wm^{-2}$ or less was significantly reduced. Germination of seeds which were exposed to light for 1 h each day was significantly less than that of seeds exposed for longer than 2 h a day. Seeds subjected to blue light had delayed and decreased germination compared to seeds exposed to red light. Ethylene or carbon dioxide exogenenously added in the presence of light stimulated germination. The addition of the two gases together had a synergistic effect. In the dark, however, the two gases did not increase germination.

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Growth, Development, and Morphological Characteristics of Echinochloa colona (Echinochloa colona의 생장(生長), 발육(發育) 및 형태적(形態的) 특징(特徵))

  • Chun, J.C.;Moody, K.
    • Korean Journal of Weed Science
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    • v.6 no.1
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    • pp.1-6
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    • 1986
  • The growth, development, and morphological characteristics of Echinochtoa colons (L.) Link were determined through one life cycle. E. colons emerged 2 to 3 days after seeding (DAS) and reached the two leaf stage by 8 DAS. During the early growth stages, root length was greater than plant height, but the relationship was reversed from 4 weeks after seeding (WAS). Tillering started from the third leaf of the main culm as the sixth leaf on the main calm emerged. The unfolding of the leaves and tillering followed a regular pattern during the vegetative growth period. This resulted in the production of 19 tillers (5 primary, 12 secondary, 1 tertiary, and I nodal) at the 14-leaf stage. Shoot-root weight ratio was highest just before panicle initiation. The second spike from the top of the panicle was the shortest and produced the fewest seeds. Thereafter, spike length and the number of seeds per spike generally increased, the lower the position of the spike on the panicle. Seeds on the lower spikes weighed less and had lower germination ability than those from the upper spikes. Adventitious roots arose from the leaf sheath bases of a flowering stalk. The ability to produce adventitious roots was greater in a younger stalls than in an older stalk.

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Taxonomic Review of the Genus Echinochloa in Korea (II): Inferred from Simple Sequence Repeats

  • Lee, Jeongran;Kim, Chang-Seok;Lee, In-Yong
    • Weed & Turfgrass Science
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    • v.3 no.3
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    • pp.190-195
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    • 2014
  • Echinochloa (L.) P. Beauv. includes some of the noxious weeds, causing a serious yield loss when they are dominant in the fields. Identification of the Echinochloa is very difficult because many interspecific and intraspecific forms of the species are found. However, it is important to identify the species exactly and to know the genetic diversity of the species for effective weed management. This study was conducted to identify and summarize the Echinochloa species by comparing the genetic variation and relationship among Korean Echinochloa species using SSR. The genetic diversity of 107 individuals, including seven species were assessed using five SSR markers. UPGMA dendrogram generated two clades (I and II) and clade II divided again into two subclades (II-1 and II-2) whereas the model based genetic structure proposed four subpopulations. The two subpopulations were corresponded to clades I and II-1 and the other two were arranged to clade II-2 of the UPGMA dendrogram. We have concluded that E. colona and E. glabrescens might have not distributed in Korea. The biological varieties, praticola and echinata, of E. crus-galli should be treated as E. crus-galli. Korean Echinochloa should be summarized with four species, i.e., E. oryzicola, E. crus-galli, E. esculenta, and E. oryzoides.