• Title/Summary/Keyword: 홍조식물

Search Result 43, Processing Time 0.021 seconds

Classification of Herbs in Vegetable Part, Pen-tsao-kang-mu(Bon-cho-kang-mok) (본초강목(本草綱目) 채부(菜部)에 수재된 본초(本草)의 분류(分類))

  • Sung, Jung-Sook;Moon, Sung-Gi;Park, Hee-Woon;Seong, Nak-Sul
    • Korean Journal of Medicinal Crop Science
    • /
    • v.10 no.5
    • /
    • pp.366-374
    • /
    • 2002
  • Pen-tsao-kang-mu(Bon-cho-kang-mok), chinese medicinal plant book, was written by Lee sijin(1578), China. The subject of this study were 158 articles of vegetable part in Pen-tsao-kang-mu. Among them only 139 articles were able to be identified by authority of several references. By Engler's system they were classified into 8 divisions, 10 classes, 6 subclasses, 31 orders, 22 suborders, 52 families, 85 genera, 99 species, 12 varieties and 2 forma, and were confirmed 113 kinds of original plants. Among the divisions, Angiospermae was the most numerous division with 92 kinds(80.70%) and the second division was Fungi with 12 kinds(10.53%). The next was Rhodophyta with 4(3.51%) kinds. Other 19 articles were unable to be classified because of their ambiguous name.

Taxonomic Accounts of Jania (Rhodophyta, Corallinaceae) in Korea (한국산 홍조 산호밀과 애기산호말속 (Jania) 식물에 대한 분류학적 검토)

  • 최도성
    • Journal of Plant Biology
    • /
    • v.36 no.2
    • /
    • pp.151-157
    • /
    • 1993
  • Taxonomic accounts are given to four species of Jania, Rhodophyta from Korea; J. adhaerens Lamouroux, J. nipponica (Yendo) Yendo, J. radiata (Yendo) Yendo and J. yenoshimensis (Yendo) Yendo. J. adhaerens is an epiphyte and characterized by massive tufts with decussate-dichotomous branches. J. nipponica growing on the rocks is different from other plants by erect tuft with low-angle dichotomous branches. J. radiata has a small epiphytic thallus (5 mm) and flat, flabellate-dichotomous branches. And J. yenoshimensis grows on the rocks in sublittoral regions and has compressed, fastigate, regular-dichotomous branches. This species is distinguished form others by the formation of slender moniliform branchlets. Among these, J. yenoshimensis is first reported in Korea in this study.

  • PDF

Morphology and Reproduction of Some Species of Ceramium (Rhodophyta) in Culture (홍조 비단풀속 식물의 실내부양에 따른 형태변화와 생식에 관하여)

  • Suh, Youngbae
    • Journal of Plant Biology
    • /
    • v.27 no.3
    • /
    • pp.163-171
    • /
    • 1984
  • Ceramium kindoi Yendo demonstrates a Polysiphonia type of life history without diviation in unialgal culture. However, cultures of C. paniculatum Okamura and C. aduncum Nakamura from Kangneung shows considerable phenotypic variations in laboratory. In C. paniculatum, the subulate spines disappear, the transverse cell-rows of corticating bands decrease in number, and the growing direction of corticating cells is changed during the culture. In C. aduncum, a species new to Korea, frond apices become slightly incurved in contrast to strongly rolled ones in the field, and the rows of corticating cells decrease in number and height during the culture. These results suggest that some significant taxonomic characters currently used for identification of Ceramium species are reconsidered.

  • PDF

Morphology and Reproduction of Symphyocladia latiuscula (Harvey) Yamada (Rhodophyta, Rhodomelaceae) in Korea (한국산 홍조 참보라색우무(Symphyocladia latiuscula (Harvey) Yamada)의 형태와 생식)

  • 최도성
    • Journal of Plant Biology
    • /
    • v.34 no.1
    • /
    • pp.59-66
    • /
    • 1991
  • The morphotaxonomic characters and life history of Symphyocladia latiuscula (Harvey) Yamada were investigated with field and laboratory culture materials. The species is well defined by a 5-15 cm hight, entirely corticated thallus and congenital fusion of 5-7 segments between main axis and laterals. Although all the reproductive structures are basically similar to those of other species of the genus, it is characteristic that the pinnulae are transformed into the flabellated tetrasporangial stichidia. Vegetative trichoblasts are known to be absent in the Pterosiphonieae, but their presence in S latiuscula does not accept its taxonomic position in that tribe. As a result, the occurrence of vegetative trichoblast is not useful for a taxonomic character to distinguish the tribes. The species shows a Polysiphonia-type life history involving a dimorphic alternation of gametophytes and sporophytes in culture and field. It grows below the middle intertidal zone in all the coasts of Korea throughout the year, although fertile plants are normally found during the summer months.months.

  • PDF

Antithamnionella miharae (Tokida) Itono (Rhodophyta, Ceramiaceae) in Korea (한국산 홍조 Antithamnionella miharae (Tokida) Itono)

  • 부성민
    • Journal of Plant Biology
    • /
    • v.28 no.3
    • /
    • pp.199-206
    • /
    • 1985
  • Antithamnion miharae (Tokida) Itono was investigated in field and laboratory culture. The plant grows in lower littoral zone through out the year in Korea. The gland cells occur scarcely or commonly according to the populations, but the terminal hairs in the female plants are not observed. The structure of vegetative thallus and the reproductive organs in culture are similar to those of field materials, except for the number of gonimoblasts, which become five to six in contrast to one to three of the field. A typical Polysiphonia-type life history is repeated in culture. This species which produces tetrahedral tetrasporangia is markedly distinguished from Antithamnion glandulifera sensu Kylin (=Antithamnionella glandulifera (Kylin) Wollaston) which produces cruciate tetrasporangia, while the plants reported by Dawson (1962) and Wollaston (1971) as A. glandulifera seem to be conspecific with A. miharae by the fact that they have the tetrahedral tetrasporangia in stead of cruciate ones.

  • PDF

On the Male Organs of Rhodymeniales (홍조 Rhodymeniales의 웅성생식기관에 관한 연구)

  • 이인규
    • Journal of Plant Biology
    • /
    • v.12 no.4
    • /
    • pp.1-8
    • /
    • 1969
  • According to the mode of development of antheridia and antheridial mother cells, the antheridium formation of Rhodymeniales is divided into two types. I. Separate Type; Antheridial mother cells are separate one another. Antheridia and the mother cell are surrounded by the common wall. The superficial gelatinous wall covering antheridial sori disappears during the antheridium formation. Spermatia are comparatively large. Halosaccion saccatum, H. firmum, Rhodymenia palmata and Rh. marginicrassa. II. Seriate Type; Antheridial mother cells, originated from the same epidermal cell, are seriate one another with a pit-connection. Antheridia and the mother cell do not have the common wall. The superficial gelatinous wall remains during the antheridium formation. Spermatia are comparatively small. Rhodymenia intricata, Rh. pertusa, Chrysymenia wrightii, Lomentaria hakodatensis, L. catenata, Binghamia californica and Champia parvula.

  • PDF

Reproductive Structures of Pachymeniopsis elliptica (Holmes) Yamada (Rhodophyta, Grateloupiaceae) (홍조 도박(Pachymeniopsis elliptica (Holmes) Yamada)의 생식기 구조)

  • 이해복
    • Journal of Plant Biology
    • /
    • v.27 no.4
    • /
    • pp.233-239
    • /
    • 1984
  • Reproductives structures of Pachymeniopsis elliptica (Holmes) Yamade (Rhodophyta, Grateloupiaceae) are investigated. In female gametophyte the carpogonial branch and auxiliary cell are produced in separate accessory branch system, the primary ampullar filament originated from mid-cortical layer. After fertilization, auxiliary cell joined with connecting filament becomes a fusion cell by fusing with several neighboring ampullar cells. The fusion cell produces a gonimoblast initial. It divides into gonimoblast cells, which later convert to carposporangia. In male gametophyte superficial cortical cells of vegetative filament produce two spermatangial mother cells which cut off up to three spermatangia respectively. Tetrasporangial initials are formed from the 6th to 12th cells of the cortical layer in tetrasporophyte, and divided cruciately to form tetrasporangium. Some of the sporangia are, however, divided zonately.

  • PDF

A Life History and Hybridization of Antithamnion sparsum Tokida (Rhodophyta, Ceramiaceae) in Culture (홍조 Antithamnion sparsum Tokida의 생활사 및 교배에 관한 연구)

  • 부성민
    • Journal of Plant Biology
    • /
    • v.26 no.3
    • /
    • pp.141-150
    • /
    • 1983
  • Antithamnion sparsum Tokida isolated from the southern and western coasts of Korea was investigated in culture, comparing the morphological character with A. defectum Kylin from the Pacific North America. A. sparsum basically showed a Polysiphonia-type life history. However, it sometimes exhibited a monoecious reproducton and the carpospores released from the cystocarp by self-fertilization unexpectedly developed into the plants bearing spermatangia alone. These male plants were not functional up to 60 days culture. The results of intraspecific crosses between populations of A. sparsum were positive and the hybrid carpospores gave rise to normal tetrasporophytes. On the other hand, theinterspecific crosses between A. sparsum and A. defectum were successful partly, evidenced by the gonimoblast development and the release of carpospores in case of A. sparsum (male)$\times$A. defectum (female), but not in case of A. sparsum (female)$\times$A. defectum (male). Thus, the both species were still under the speciation.

  • PDF

Effect of Plant Extract [FGF271] on Estrogen Replacement (식물유래 추출물(FGF271)의 여성호르몬 대체 효과)

  • 김재수;박준홍;조한성;박점석;홍억기
    • KSBB Journal
    • /
    • v.17 no.4
    • /
    • pp.409-415
    • /
    • 2002
  • A certain group of phytochemicals such as isoflavone have been proven to act as a phytoestrogen. After thorough the study of different bibliographic herbs excluding soybeans, dates, pomegranates, and other publicized plants, three different edible herbs by Korean Food Regulation were extracted for the animal study on the effect of estrogen replacement. The herbal extract(FGF271) has been orally administered into 51 weeks old partial ovariectomized rats for 5 weeks with the different dosages of 100 and 1,000 mg/kg, respectively. It was observed that 1) serum estrogen level was increased in both 100 and 1,000 mg/kg group, 2) the distension of uterus was made dose dependently and significantly different in 1,000 mg/kg group (p.0.05) from control in the gross findings, 3) the weight of uterus was increased in 1,000 mg/kg group, and 4) the action on reproductive tissues was clear in the microscopic findings in terms of hyperplasia of endometrial epithelial cell, cystic change of submucosa, dilatation of uterus (significantly increased in 1,000 kg/mg), and follicular cystic changes in ovary. As a result, FGF271 seemed to act as a phytoestrogen by inducing the change in ovary and uterus and by increasing the serum estrogen concentration.

Classification of the Edible Plants on the Market in Busan (시장에 유통되는 식용식물의 분류)

  • 문성기;정순해;최철만
    • Journal of Life Science
    • /
    • v.13 no.6
    • /
    • pp.764-774
    • /
    • 2003
  • The edible plants sold at the market in Busan were classified into 8 divisions, 11 classes, 46 orders, 67 families, 156 genera, 183 species and 45 varieties, and a total of 228 kinds of plants were included in them. Among the 228 kinds of edible plants, Angiospermae were the highest number of 202 kinds (88.60%), and next came Fungi of 9 kinds (3.95%), Phaeophyta of 5 kinds (2.19%), Rhodophyta of 4 kinds (1.75%), Pteridophyta of 3 kinds (1.32%) Gymnospermae of 2 kinds (0.88%), Chlorophyta of 2 kinds (0.88%), and Lichenes of 1 kind (0.44%) in order In the taxon of family, Cruciferae, Rosaceae, Leguminoceae, Cucurbitaceae, Umbelliferae, Compositae, Liliaceae, and Gramineae include many species. In the taxon of genus, Brassica(14 species), Prunus(9), Lactuca(9), Allium(7), Citrus(5), Cucumis(4), Cichorium(4) in order contain many species. Among tile edible plants, Chamjuknamu(Cedrela sinensis) is wrongly named Gajuknamu(Ailanthns altissima). And there are others which are called in a wrong way: Endive is wrongly called Chicory, Saeneutaribeoseot, Saesongi and Padeudeknamul(Japanese hornwort), Chamnamul. Gyul and Milgam, Geumgam and Gamgyul, Banana and Pacho, Paprika and Pimang(Pimento) are the names of the same plants. The number of the kinds of edible plants is different in each season. Fall has the most edible plants, and it is followed by spring, summer and winter. The edible parts of plants which are sold at the market are leaves, young sprouts, fruits, grains, roots, stems and petioles.