• Title/Summary/Keyword: flora of Mongolia

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Arctium tomentosum (Asteraceae): A new report of a native genus in the flora of Mongolia

  • JAVZANDOLGOR, Chuluunbat;BAASANMUNKH, Shukherdorj;TSEGMED, Zagarjav;OYUNTSETSEG, Batlai;GUNDEGMAA, Vanjil;CHOI, Hyeok Jae
    • Korean Journal of Plant Taxonomy
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    • v.51 no.4
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    • pp.391-394
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    • 2021
  • Arctium tomentosum Mill. (Asteraceae), from Ulaanbaatar in the Khentei phytogeographical region of Mongolia, is recognized here as a new genus and species of the flora of Mongolia. Arctium differs from other genera of Asteraceae by the hooked apex of the involucral bracts. While A. tomentosum is most similar to A. lappa, it is easily distinguished by the glandular hairs of the corolla limb and the widened inner involucral bracts. Taxonomic notes, a description of the morphology, detailed photos, habitat information, the phenology and a distribution map of A. tomentosum are provided.

Medicinal plant diversity in the southern and eastern Gobi Desert region, Mongolia

  • Magsar, Urgamal;Baasansuren, Erdenetuya;Tovuudorj, Munkh-Erdene;Shijirbaatar, Otgonchuluun;Chinbaatar, Zoltsetseg;Lkhagvadorj, Khureltsetseg;Kwon, Ohseok
    • Journal of Ecology and Environment
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    • v.42 no.1
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    • pp.30-42
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    • 2018
  • Background: The southern and eastern parts of the Gobi Desert area are a unique dry ecosystem with a diverse regional desert, semi-desert, and mountain dry steppe flora. This area habitat is located at the overlap of different floristic regions; on its northeast side, Central Asian desert flora is dominating, and on the eastern side, East Asian flora is observed. The comprehensive survey was carried out to find the floral diversity of the medicinal plants on the region. Methods: All recorded species in this study were based on the collected voucher specimens between June and August in the year 2017. Results: We recorded 23 families, 57 genera, and 78 species of vascular plants. The families Asteraceae (15 species), Fabaceae (10 species), and Amaranthaceae (10 species) were represented most in the study area, while Caragana (5 species), Salsola (4 species), and Arnebia (3 species) were the most common genera found. Conclusion: Conservation status for remarkable species was also reviewed based on the literature. Around the study area, 24 species as "sub-endemic," 10 species as "very rare," 4 species as "rare," 1 species as "alien," 13 species as "relict," 10 species as "Red Book," 2 species as "endangered (EN)," 3 species as "vulnerable (VU)," 3 species as "near threatened (NT)," and 2 species as "least concern (LC)" plants are growing.

Taxonomic notes and distribution of Gueldenstaedtia (Chesneyinae, Fabaceae) in Mongolia

  • BAASANMUNKH, Shukherdorj;OYUNTSETSEG, Batlai;TSEGMED, Zagarjav;ILLARIONOVA, Irina D.;NYAMBAYAR, Nyamjantsan;CHOI, Hyeok Jae
    • Korean Journal of Plant Taxonomy
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    • v.52 no.1
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    • pp.64-70
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    • 2022
  • The genus Gueldenstaedtia Fisch. is small genus of Fabaceae that includes four species worldwide. Among these, G. monophylla Fisch and G. verna (Georgi) Boriss. are currently recognized as occurring in Mongolia. Here, we present our findings on G. verna from our recent field surveys in eastern Mongolia in 2020. Gueldenstaedtia monophylla is mostly distributed in the western region, whereas G. verna occurs in eastern Mongolia. The regional conservation status of both species was assessed as near threatened based on criterion B in the country. We provided descriptions, grid distribution maps, taxonomic notes and photographic illustrations of the two species based on our newly collected samples.

Spore-Pollen Specters of Deed Turnn Lake Terrace, Darkhad Depression, Mongolia

  • Punsalpaamuu, G.
    • The Korean Journal of Quaternary Research
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    • v.17 no.2
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    • pp.39-41
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    • 2003
  • Pollen and spores as well as their morphological characteristics are biological stability materials in which contains historical information about vegetation and climate changes. As noted researcher Neishtadt in 1971, the lake and swamp deposits were developed only in Holocene period. The geological history of Darkhad depression which is situated in the Northern end of Mongolia from ancient time become under scientific interest of many researchers. Our investigation was focused on pollen analysis of lake sediment of Darkhad depression which caused bottom of paleolake. In Mongolia the palynology science is beginning to develop since 1990 and in 2000 the laboratory of palynology was established at the department of Biology, State Pedagogical University of Mongolia. Researchers from this laboratory working on pollen morphology of present flora in order to classify plants taxonomy. Another part of our investigation is mellitopalynology, which is studying of pollen grains in a honey. Although, this research has been extending by pollen analysis of sediment and lake deposits in past few years on the basis of high sensitive microscope and modem technology.

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Survey on the distribution of Macrofungi in Mongolia

  • Nyamsuren, Kherlenchimeg;Magsar, Urgamal;Batsumber, Solongo;Myagmardorj, Tseveendari;Tsogtbaatar, Enkhsaikhan;Cho, Youngho;Kwon, Ohseok
    • Journal of Ecology and Environment
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    • v.39 no.1
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    • pp.91-97
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    • 2016
  • This paper reports the species of macromycetes collected in Mongolia: all the species are new to the area. Brief notes on taxonomy, ecology and distribution of the species are added. A total of 30 species of macromycetes were registered, 1 belonging to the division Ascomycota and 29 to the division Basidiomycota. It has been registered that 30 species belong to 25 genera, 17 families and occur in the flora fungus of Mongolia, until now. Specimen for 150 of samples macromycetes collected from June to August, 2015 in Tuv, Arkhangai and Huvsgul were enveloped. Macromycetes have been occured in 9 of 16 geographic regions. According to our studies 2 species in Khubsgul region, 2 species in Khangai region, 3 species in Khingan, 3 species in Dornod Mongol, 1 species in Khentei regions newly registered respectively. As a result of this work, determined 7 species (23%) of macromycetes in forest steppe and steppe regions and 23 species (77%) of them in forest region. The trophic structure for the fungal species is as follows: 2 species lignophite (7%), 4 species moss saprophyte (13%), 5 species soil saprophyte (17%), 15 species mycorrhiz (50%) of all species were respectively.

Korean Native Medicinal Plants

  • Park, Jong-Hee
    • Proceedings of the Plant Resources Society of Korea Conference
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    • 2010.05a
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    • pp.7-7
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    • 2010
  • Korea is one of the Northeast Asian countries in the Northern climatic zone. It is wide spread from north to south so that can be affected by various kinds of plants flora of the continent of Asia. Korea has complicated topography, mountains and hills included by an alpine belt. According to the distribution of plants, it can be classified to 5 areas; Northern part, Central part, Southern part, JeJuDo(濟州道) and UlLungDo(鬱陵島). Nakai of Japan, reported Plants in Korean peninsula as 3176 species, 841 varietal species and 174 varieties in "A Synoptical sketch of Korean flora". Lee of Korea, reported 3409 species, 6 sub-species, 756 varietal species and 287 varieties in "Korean Plants Resources". Isidoja(石戶谷) of Japan, simply described crude drug names, scientific names, effects, etc. of 45 species of Korean Medicinal Plants in the book "Journal of Jo-Seon Pharmacy(朝鮮藥學會會報)" third edition (published in 1925) and also explained 250 species of crude drug collected in Manchuria, Mongolia and Korean peninsula in the book "Medicinal plants in Northern Asia(北支那의 藥草)"(1931). Im and Jung organized 227 species of Medicinal Plants in "Wild Medicinal Plants from Jo-Seon(北支那의 藥草)" and it is said that 1000 species of plants can be used for medicinal purposes in Korea.

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Potential Probiotic Characterization of Lactobacillus plantarum Strains Isolated from Inner Mongolia "Hurood" Cheese

  • Zhang, Jian;Zhang, Xue;Zhang, Li;Zhao, Yujuan;Niu, Chunhua;Yang, Zhennai;Li, Shengyu
    • Journal of Microbiology and Biotechnology
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    • v.24 no.2
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    • pp.225-235
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    • 2014
  • Total 121 lactic acid bacteria were isolated from homemade Inner Mongolia extra hard Hurood cheese. Seven of these strains, identified as Lactobacillus plantarum, were studied for probiotic characteristics. All seven strains survived at pH 3.0 for 3 h, or in the presence of oxgall at 0.3% or 0.6% for 4 h, but their viabilities were affected to different extents at pH 2.0 for 3 h. Strains C37 and C51 showed better adherence to Caco-2 cells, and higher hydrophobicity. The seven L. plantarum strains were different in in vitro free radical scavenging activities and cholesterol-reducing ability. In vivo evaluation of the influence of L. plantarum C37 on the intestinal flora in a mouse model showed strain C37 could increase the viable counts of lactobacilli in feces of mice and decrease the viable counts of enterococci. When L. plantarum C37 was used to prepare probiotic Hurood cheese, it was able to maintain high viable counts (>7.8 log CFU/g) during the whole storage period, but the composition of the cheese was not changed. These results indicate that L. plantarum C37 could be considered as a promising probiotic strain.