• Title/Summary/Keyword: Angiosperm

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A Contribution to Appropriate Korean Equivalents to Some International Gymnosperm Terminologies (나자식물의 바른 한국어(韓國語) 용어 사용에 대한 제언)

  • Song, Unsook
    • Journal of Korean Society of Forest Science
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    • v.107 no.2
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    • pp.126-139
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    • 2018
  • This study aimed to correct some inappropriate Korean gymnosperm terminologies. Rational Korean equivalents to some international terms are suggested to replace the conventional misleading words impling as if gymnosperm plants have flowers and/or fruits like angiosperm plants do as reproductive structures. So, the rectification has been primarily made on reproductive parts including cone, microsporangium (microsporangia), ovulate cone, ovuliferous scale, pollen, and strobilus (strobili). Also, additional suggestions have been made for some expressions other than reproductive parts, such as conifers (coniferous plants), softwood and hardwood misused in Korean traditional practices for a long period of time.

Analysis of the misguided practice of recognizing Gymnosperms as flowering plants (나자식물이 꽃피는 식물로 인식되고 있는 잘못된 관행의 분석)

  • Lee, Kyu Bae
    • Korean Journal of Plant Taxonomy
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    • v.44 no.4
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    • pp.288-297
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    • 2014
  • The aim of this study is to analyse misinformation about gymnosperm taxon used for over 57 years, since 1957 when plant biology as a discipline was established in our country. That is, terminologies and descriptions of the reproductive structure (flower) of angiosperms (flowering seed plants) have been incorrectly applied to the reproductive structures (typically cones and pollen grain) of gymnosperms (non-flowering seed plants) by numerous and various media such as text books, dictionaries, and internet websites for plant biology. Thus, these resources have been misleading teachers, students, and other people interested in plant biology in general and taxonomy in particular by describing gymnosperm reproductive structures as if they are the same as angiosperms. Such a practice has an especially adverse effect on plant biology education at all levels of instruction, with teachers and students confused in their understanding of the concept and definition of a flower. In this paper, these incorrect expressions for the reproductive structures of gymnosperms from the various media are analysed and discussed in terms of cladogram, anatomy of reproductive structures, and historical context of classification systems.

Morphological characteristics of major airborne pollen in Korea peninsula

  • Moon, Hye-Kyoung;Kong, Min-Jung;Song, Jun-Ho;Kim, Sun-Yu;Kim, Jin-Suk;Jung, Eun-Hee;Park, Chan-Ho;Lee, Byoung-Yoon;Hong, Suk-Pyo
    • Journal of Species Research
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    • v.4 no.2
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    • pp.159-168
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    • 2015
  • Although airborne pollen is invisible to the eye, it has been known as a major source to respiratory allergic reactions. For this reason, airborne pollen is monitoring in many countries to predict pollen concentration based on locality and season. However, the morphological characteristics of airborne pollen and their potential tendency as an allergen are still obscure. In the present study, we selected 52 airborne pollen samples based on previously reported data and investigated their detail pollen characteristics using LM and SEM. Major airborne pollen in Korea has sorted in 19 families (most angiosperms except four gymnosperm families), and all pollen grains are small to medium in size ($P=17.34-49.86{\mu}m$) apart from the bisaccate pollen grains of Pinaceae ($P=46.49-106.20{\mu}m$). The aperture number and shape vary from sulcate to polyporate. While the inaperture pollen has found only in gymnosperm (Cupressaceae and Taxaceae), triporate or polyporate is common pollen type in angiosperm. The sexine ornamentations could divide into several types, but the most sculpturing types are inconspicuous like psilate, rugulate and granulate. Reticulate pollen grains as a semitectum have occurred the species of genera Platanus and Fraxinus only. To estimate the possible relationships between pollen features and allergen, the results are discussed in botanical context.

Wood Anatomy of Some Korean Angiosperm - A Comparative Wood Anatomy of Myricaceae and Salicaceae (I) - (국산활엽수재(國産闊葉樹材) 자원(資源)의 목재조직(木材組織) - 소귀나무과(科) 및 버드나무과(科) 수목(壽木)의 비교목부조직(比較木部組織) (I) -)

  • Park, Sang-Jin;Kang, Ae-Kyung;Kim, You-Jung;Lee, Jung-Suk
    • Journal of the Korean Wood Science and Technology
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    • v.22 no.4
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    • pp.26-36
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    • 1994
  • The comparative wood anatomy of 1 species belonging to genus Myrica of Myricaceae, 9 species to genus Populus and 8 species to genus Salix of Salcaceae, occurring in Korea, was described and coded according to IAWA list(Wheeler, 1989). Myrica rubra. of Myricaceae is a typical diffuse-porous wood with numerous vessels per $mm^2$ and its pores are mainly angular in outline. Vessels scalariform perforation plates with a few bars, very small inter vessel pits; axial parenchyma abundant, diffuse or diffuse-in-aggregates which is distinct and easily observed on cross section; rays 1-3 seriate, Kribs' heterogeneous I or II types, frequently contains rhomboidal crystals; Dark pigmented substances included in some rays and axial parenchyma. Salicaceae, a typical diffuse porous wood, has mainly radial pore multiple, large intervessel pits, distinct alternate pits, simple perforation plates, ray-vessel pits with circular large pits, uniseriate rays, marginal parenchyma composed of 1-2 layers. In some species, ray parenchyma contain crystals. Populus and Salix wood can be distinguished from one another by the following characters. Pores of Populus woods almost angular in outline. Uniseriate homogeneous rays slightly higher than Salix and long linear on tangential section. Whereas Salix woods appear the pores almost oval, uniseriate heterogeneous rays, which are smular narrow fusiform on tangential section and lower in height than Populus.

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Chromosome numbers and polyploidy events in Korean non-commelinids monocots: A contribution to plant systematics

  • JANG, Tae-Soo;WEISS-SCHNEEWEISS, Hanna
    • Korean Journal of Plant Taxonomy
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    • v.48 no.4
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    • pp.260-277
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    • 2018
  • The evolution of chromosome numbers and the karyotype structure is a prominent feature of plant genomes contributing to or at least accompanying plant diversification and eventually leading to speciation. Polyploidy, the multiplication of whole chromosome sets, is widespread and ploidy-level variation is frequent at all taxonomic levels, including species and populations, in angiosperms. Analyses of chromosome numbers and ploidy levels of 252 taxa of Korean non-commelinid monocots indicated that diploids (ca. 44%) and tetraploids (ca. 14%) prevail, with fewer triploids (ca. 6%), pentaploids (ca. 2%), and hexaploids (ca. 4%) being found. The range of genome sizes of the analyzed taxa (0.3-44.5 pg/1C) falls well within that reported in the Plant DNA C-values database (0.061-152.33 pg/1C). Analyses of karyotype features in angiosperm often involve, in addition to chromosome numbers and genome sizes, mapping of selected repetitive DNAs in chromosomes. All of these data when interpreted in a phylogenetic context allow for the addressing of evolutionary questions concerning the large-scale evolution of the genomes as well as the evolution of individual repeat types, especially ribosomal DNAs (5S and 35S rDNAs), and other tandem and dispersed repeats that can be identified in any plant genome at a relatively low cost using next-generation sequencing technologies. The present work investigates chromosome numbers (n or 2n), base chromosome numbers (x), ploidy levels, rDNA loci numbers, and genome size data to gain insight into the incidence, evolution and significance of polyploidy in Korean monocots.

Organization and function of shoot apical meristem affecting growth and development in plants (식물의 생장과 발달에 영향을 미치는 슈트 정단분열조직의 체제와 기능)

  • Lee, Kyu Bae
    • Journal of Plant Biotechnology
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    • v.41 no.4
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    • pp.180-193
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    • 2014
  • In plants, a shoot apex has a small region known as the shoot apical meristem (SAM) having a group of dividing (initiating) cells. The SAM gives rise to all the groundabove structures of plants throughout their lifetime, and thus it plays important role in growth and development of plants. This review describes theories to explain the SAM organization and function developed over the last 250 years. Since in 1759 German botanist C. F. Wolff has described firstly the SAM, in 1858 Swiss botanist C. N${\ddot{a}}$geli proposed the apical cell theory from the observation of a large single apical cell in the SAM of seedless vascular plants: however, this view was recognized to be unsuitable to seed plants. In 1868, German botanist J. Hanstein suggested the histogen theory: this concept subdividing the SAM into dermatogen, periblem, and plerome was unable to generally apply to seed plants. In 1924, German botanist A. Schmidt proposed the tunica-corpus theory from the examination of angiosperm SAM in which two parts show different planes of cell division: this theory was proved to be not suitable to gymnosperm SAM, not have stable surface tunica layer. In 1938, American botanist A. Foster described zones in gymnosperm SAM based on the cytohistologic differentiation and thus called it a cytohistological zonation theory. With works by E. Gifford, in 1954, this zonation pattern was demonstrated to be also applicable to angiosperm SAM. As another theory, in 1952 French botanist R. Buvat proposed the m${\acute{e}}$rist${\grave{e}}$me d'attente (waiting meristem) theory: however, this concept was confuted because of its negation of function during vegetative growth phase to central initial cells. Rescent studies with Arabidopsis thaliana have found that formation and maintenance of the SAM are under the control of selected genes: SHOOTMERISTEMLESS (STM) gene forms the SAM, and WUSCHEL (WUS) and CLAVATA (CLV) genes function in maintaining the SAM; signaling between WUS and CLV genes act through a negative feedback loop.

Study on Vegetation Analysis for Indicators Development of Agro-ecosystem Habitat Quality (농업생태계의 서식지 질 지표 개발을 위한 식생분석)

  • Park, Kwang-Lai;Kang, Bang-Hun;Choi, Jae-Woong;Kim, Chang-Hwan
    • Korean Journal of Soil Science and Fertilizer
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    • v.43 no.6
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    • pp.1040-1046
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    • 2010
  • This research is composed of a series of survey of existing plants species by classifying biotope type of agro-ecosystem of Guksoo village area of Yangpyeong County, to collect and analyze basic data of vegetation analysis for indicators development of agro-ecosystem habitat quality. From the observation area, we found total 141 kinds of tracheophytes (53 Family 114 Genus 124 Species 16 Variety 1 Breed) and they are 3.36% of total Korean tracheophytes (4,191 kinds). Among those 141 tracheophytes, there are 23 kinds of naturalized plants (11 Family 20 Genus 20 Species 2 Variety) and they are 8.61% of total Korean naturalized plants (267 kinds). Among those 141 tracheophytes, they include 0.71% of pteridophyte, 0.71% of gymnosperm, 98.58% of angiosperm. So, most of them are angiosperm. When we classify them according to plant life form characteristics, dormant/diapause type plants include 45 species (31.91%) of annual plant (Th), 19 species (13.48%) of Th (w), 17species (12.06%) of hemicryptophyte (H). Regarding propagation type, as for the Radicoid form, there are 99 species (70.21%) of crumb structure plant, 13 species (9.22%) of $R_4$, 12 species (8.51%) of $R_{2.3}$ are the crumb structure does not make any connection on the ground or under ground. As for the Disseminule form of propagation type, there are 62 species (43.97%) of Gravity dispersal type $D_4$), 23 species (16.31%) of Wind dispersal type ($D_1$), 21 species (14.89%) of $D_{1.4}$. According to this survey of plant distribution rate by plant life form characteristics, we may acquire many knowledge about species composition of sociability, cluster's reaction against environmental elements, space usage and possible species competition in community. It may be very useful basic data for habitat preservation to keep and promote biological diversity.

Palaeodepositional Environment of the Cretaceous Hampyeong Basin, Southwestern Korea (한반도 남서부 중생대 백악기 함평퇴적분지의 고퇴적환경연구)

  • You, Hoan-Su;Kenrick, Paul;Koh, Yeong-Koo;Yun, Seok-Tai;Kim, Joo-Yong;Kim, Hai-Gyoung;Chung, Chul-Hwan;Ryu, Sang-Ock
    • Journal of the Korean earth science society
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    • v.21 no.6
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    • pp.683-694
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    • 2000
  • Abstrace: The palaeodepositional environment and age of the Cretaceous Hampyeong Basin (southwestern Korea) are reassessed based on new geochemical, lithological, sedimentological, and palaeobotanical data. Results indicate that the Hampyeong Basin was a tectonically active basin comprising predominantly fluvial and lacustrine sediments. Four distinctive facies types have been identified (acidic tuff, black shales/sandstones, red beds, intermediate tuff with tuffaceous conglomerate) and these reflect periods of significant environmental change within the basin and its neighbouring terrains. Volcanism driven by tectonic events provides a source for much of the sediment. The sedimentary sequences compare well with those in the neighbouring Haenam Basin. Sediments of volcanic origin are similar to those of the Neungju Formation of the Yuchon Group. The widespread occurrence of black shales is indicative of extended periods of deposition under anoxic conditions. Measurements of total organic carbon show that the values for the black shales (0.81% to 1.75%) are the average for petroleum source shales. Fossil plants occurred in the black shales and sandstones. The occurrence of platanoid leaves places these sediments in Oishi's angiosperm series, which is consistent with an Aptian/Albian or younger age.

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Phylogenic Study of Genus Asarum (Aristolochiaceae) in Korea by trnL-trnT Region (trnL-trnT 부위에 의한 한국 족도리풀속 식물종의 계통분류학적 연구)

  • Lee, Byeong-Ryong;Kim, Seon-Hoan;Huh, Man-Kyu
    • Journal of Life Science
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    • v.20 no.11
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    • pp.1697-1703
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    • 2010
  • Asarum consists of low-growing herbs and is a genus in the Aristolochiaceae family with species found in the north temperate zones with most species in Asia. We evaluated the nine taxa with the trnL - trnT region of the chloroplast genome to estimate phenotypic relationships within genus Asarum in Korea. Alignment of the DNA sequences required the addition of numerous gaps. Sequence variation within the Asarum was mostly due to nucleotide inserts/deletions, although several indels and inserts were found. Another source of sequence divergence was length variation due to stretches of short repeats that occur at the trnL - trnT region in all the Asarum. A + T content for nine Korean species of genus Asarum ranged between 74.7% and 78.3%. These values were higher than those for the angiosperm alignments of the total trnL and trnT region (64.5~67.1%). Within genus Asarum, A. patens was strikingly different from the others in the three phylogenetic analyses (MP, ML, and NJ). However, some internal nodes were poorly supported. Within Korean Asarum, four species were unsolved portions. Possible reasons for the striking non-congruence between the previous morphological traits and the trnL - trnT based on phylogeny were discussed.

Genome size of 15 Lamiaceae taxa in Korea (한국산 꿀풀과 15 분류군에 대한 유전체양 조사)

  • Lee, Yoonkyung;Kim, Sangtae
    • Korean Journal of Plant Taxonomy
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    • v.47 no.2
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    • pp.161-169
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    • 2017
  • The genome size is one of the basic characters of an organism, and it is widely applied in various fields of biology, such as systematics, breeding biology, population biology, and evolutionary biology. This factor was recently highlighted in genome studies because choosing a representative of a plant group having the smallest genome size is important for the efficiency of a genome project. For the estimation of the genome size, flow cytometry has recently been highlighted because it is a convenient, fast, and reliable method. In this study, we report the genome sizes of 15 taxa of Lamiaceae from nine genera distributed in Korea using flow cytometry. Data pertaining to the genome size for all of our species have not been reported thus far, and the data from Agastache, Clinopodium, Elsholtzia, and Isodon are the first reported for each genus. The genome sizes of 15 genera and 39 species were reported to the Plant DNA C-values Database (http://data.kew.org/cvalues/). Scutellaria indica L. has a genome size of 0.37 pg (1C). This is the fourth smallest value among the 98 Lamiaceae taxa in the Angiosperm DNA C-value Database, indicating that this taxon can be used as a reference species in the genome studies in Lamiaceae as a native Korean species. The largest genome size observed in this study is in Phlomis umbrosa Turcz. (1C=2.60 pg), representing the possible polyploidy origin of this species in the family.