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Journal articles on the topic 'Liliopsida'

Author: Grafiati
Published: 2 June 2025
Last updated: 31 July 2025

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1

Hanum, Ulia. "Keragaman Liliopsida Sebagai Media Pembelajaran Biologi." BIOTIK: Jurnal Ilmiah Biologi Teknologi dan Kependidikan 1, no. 1 (2015): 37. http://dx.doi.org/10.22373/biotik.v1i1.210.

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Penelitian ini dilakukan untuk mengetahui lebih jauh mengenai konsep pembelajaran berbasis belajar dari lingkungan sebagai media penunjang pembelajaran biologi. Secara khusus tujuan penelitian ini adalah untuk mengetahui keragaman Liliopsida dan menganalisis kelayakannya untuk digunakan sebagai media pembelajaran biologi. Penelitian dilakukan di pekarangan SMA Negeri 1 Sawang Kabupaten Aceh Utara. Metode pengumpulan data adalah survei dan kuadrat. Analisis data untuk indek keragaman dilakukan dengan Indeks Keragaman Shannon (H’), Indeks Kemerataan (E’). Analisis data Indeks Nilai Penting (
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2

Resmi, Denia Dwi Citra, Topik Hidayat, and Siti Sriyati. "Development of DNA Barcode for Magnoliopsida and Liliopsida using In silico Approaches Based on mat-K Sequences from Chloroplast Genomes." Jurnal Biodjati 6, no. 2 (2021): 295–302. http://dx.doi.org/10.15575/biodjati.v6i2.13991.

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Indonesia has been estimated to contain 20,000 species of Magnoliophyta around the world. The current status of Indonesia's biodiversity shows that only 15.5% of the total flora in Indonesia has been identified. This is such a low percentage, requires researchers to obtain a rapid identification method, so that unidentified species can be grouped, at least at the level of the Magnoliopsida and Liliopsida classes. DNA barcoding is a technique that can be used to quickly identify species based on short sequences of specific regions in the genome. The purpose of this study was to analyze the rela
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3

Espejo Serna, Adolfo. "El endemismo en las Liliopsida mexicanas." Acta Botanica Mexicana, no. 100 (January 27, 2012): 195. http://dx.doi.org/10.21829/abm100.2012.36.

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Se presenta un listado actualizado de las Liliopsida endémicas de México. De las 4,542 especies silvestres que habitan en el territorio nacional, 2,010 son endémicas exclusivas y la cifra asciende a 2,764 si consideramos la ampliación de los límites a lo que Rzedowski denomina Megaméxico 3. Se incluyen datos relativos al número de taxa endémicos por familia, por género y por estado, así como otros análisis relativos a la representación del endemismo por forma biológica y algunos ejemplos de endemismo ecológico.
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4

Rahman, M. Oliur, Tasnim Tahia Huq, and Momtaz Begum. "A synoptical account on the flora of Dohar upazila under Dhaka district of Bangladesh." Bangladesh Journal of Plant Taxonomy 27, no. 2 (2020): 293–322. http://dx.doi.org/10.3329/bjpt.v27i2.50670.

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A taxonomic study on the flora of Dohar upazila (sub-district) under Dhaka district has been conducted that results in occurrence of 204 angiosperm taxa under 165 genera and 68 families. Magnoliopsida is represented by 158 taxa distributed in 129 genera and 53 families. In contrast, Liliopsida is constituted by 46 taxa under 36 genera and 15 families. Asteraceae appears to be the largest family in Magnoliopsida consisting of 16 species, whereas Poaceae is the largest family with 16 species in Liliopsida. In Magnoliopsida, 23 families are represented by a single species, while in Liliopsida, 7
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5

Moniruzzaman, Md, Md Abul Hassan, Miganur Rahman, Sheheley Layla, and Md Rafiqul Islam. "Preliminary checklist of the angiospermic flora of Daulatpur Upazila in Kushtia District, Bangladesh." Journal of the Asiatic Society of Bangladesh, Science 38, no. 1 (2013): 53–65. http://dx.doi.org/10.3329/jasbs.v38i1.15320.

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A total of 125 angiosperms under 103 genera and 52 families have been recorded from Daulatpur Upazila in Kushtia. Magnoliopsida is represented by 41 families, 73 genera and 86 species, whereas Liliopsida is represented by 11 families, 30 genera and 39 species. In Liliopsida, Poaceae appears to be the largest family comprising 15 genera and 20 species. In Magnoliopsida, Euphorbiaceae appears to be the largest family comprising 9 genera and 14 species. DOI: http://dx.doi.org/10.3329/jasbs.v38i1.15320 J. Asiat. Soc. Bangladesh, Sci. 38(1): 53-65, June 2012
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6

Banu, Miruna, Sheikh Sunzid Ahmed, Momtaz Begum, and M. Oliur Rahman. "Integrating taxonomy and drug discovery: Liliopsida flora of Rajbari, Bangladesh targeting Amorphophallus paeoniifolius for colorectal cancer therapy." Bangladesh Journal of Plant Taxonomy 31, no. 2 (2024): 239–64. https://doi.org/10.3329/bjpt.v31i2.78751.

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The present study explores the angiosperm flora belonging to the class Liliopsida in Rajbari district, seamlessly integrating taxonomy with phytocompound-based drug discovery through advanced computational biology approaches. The study covered all five upazilas (sub-districts) of the district. A total of 201 taxa across 118 genera and 24 families of Liliopsida were identified. The flora is predominantly composed of herbs (79.06%), followed by climbers (7.96%), trees (7.46%), shrubs (2.98%), and a minimal occurrence of epiphytes (1.99%). Poaceae emerged as the largest family, comprising 58 taxa
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7

Temirova, Mavluda Umidjonovna. "BIR URUG'PALLALILAR YOKI LOLASIMONLAR (LILIOPSIDA) SINFI SISTEMATIKASI." "Yosh mutaxassislar" ilmiy-amaliy jurnali. 2023-05, no. 1 (2023): 170–71. https://doi.org/10.5281/zenodo.7971605.

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<strong>Annotatsiya:</strong> O&lsquo;simliklar dunyosi juda hilma-xil. Bular orasida Lolasimonlar (Liliopsida) sinf ham o&lsquo;z o&lsquo;rniga ega. Lolasimonlarning klassifikatsiyasini, ularni ahamiyatini, tarqalishini va ba&rsquo;zi turlari o&lsquo;rganilib tezisda shular haqida ma&rsquo;lumotlar keltirildi.
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8

Rahman, M. Oliur, Sharika Hassan, and Momtaz Begum. "Floristic Study in Lalpur Upazila of Natore District, Bangladesh: Identification, Distribution and Economic Potential." Journal of the Asiatic Society of Bangladesh, Science 45, no. 1 (2019): 71–91. http://dx.doi.org/10.3329/jasbs.v45i1.46571.

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Floristic study in Lalpur Upazila of Natore district has identified 216 species distributed in 173 genera and 72 families, of which Magnoliopsida (Dicotyledons) is represented by 188 species under 147 genera and 60 families, while Liliopsida (Monocotyledons) is constituted by 28 species under 26 genera and 12 families. In Magnoliopsida, Asteraceae is the largest family represented by 16 species, whereas in Liliopsida, Poaceae is the largest family consisting of 8 species. The genus Solanum is the largest in Magnoliopsida, whereas Cyperus is the largest genus in Liliopsida. Habit analysis revea
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9

Rahman, M. Oliur, and Md Tauhidul Alam. "A taxonomic study on the angiosperm flora of Trishal Upazila, Mymensingh." Dhaka University Journal of Biological Sciences 22, no. 1 (2013): 63–74. http://dx.doi.org/10.3329/dujbs.v22i1.46274.

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Trishal Upazila has been floristically explored to make an inventory, identify and document the angiosperm flora. A total of 209 species under 171 genera and 69 families have been identified. Magnoliopsida (Dicots) is represented by 163 species distributed in 133 genera and 54 families, and Liliopsida (Monocots) is constituted by 46 species under 38 genera and 15 families. In Magnoliopsida Asteraceae with 12 species and in Liliopsida Poaceae with 11 species is found as the largest family. The genus Ficus and the genus Fimbristylis stand the first position, respectively in dicots and monocots.
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10

Shkhagapsoev, S. Kh. "New book about monocotyledonous plants of the Western Caucasus." REPORTS ADYGE (CIRCASSIAN) INTERNATIONAL ACADEMY OF SCIENCES 20, no. 2 (2020): 86–89. http://dx.doi.org/10.47928/1726-9946-2020-20-2-86-89.

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Review of the monograph by Professor S.A. Litvinskaya "Taxonomic and biogeographic characteristics of the flora of the Western Ciscaucasia and the Western Caucasus. Phylum Magnoliophyta: Classis Liliopsida." M., 2019. 558 p.
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11

Khanam, Robayda, and Saleh Ahammad Khan. "Angiosperms in Narsingdi district of Bangladesh: Class Liliopsida." Bangladesh Journal of Plant Taxonomy 27, no. 2 (2020): 391–405. http://dx.doi.org/10.3329/bjpt.v27i2.50676.

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This study provides the taxonomic data on 168 plant species belonging to 96 genera and 23 families of Liliopsida (monocotyledons) extant in Narsingdi district of Bangladesh. These species are mostly comprised of herbs (90.48%), followed by trees and shrubs (4.76% each). Poaceae with 66 species under 37 genera is the best represented family, followed by Cyperaceae with 26 species of seven genera, Araceae with 16 species of 11 genera, Commelinaceae with 11 species of four genera and Arecaceae with 10 species of eight genera. Cyperus with 13 species appears as the largest genus, which is followed
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12

Danylyk, I. M., and I. G. Olshanskyi. "Synopsis of the order Juncales (Liliopsida) in Ukraine." Biosystems Diversity 29, no. 4 (2021): 354–66. http://dx.doi.org/10.15421/012145.

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Juncales is an order of vascular plants with cosmopolitan distribution. Two families of Juncales are present in flora of Ukraine: Juncaceae and Cyperaceae. Through 1985–2021, we conducted comprehensive revision of Juncales in Ukraine. The aim of this research was to compile a checklist of Juncales species in the flora of Ukraine. Our research is based on herbarium materials, literature data and field trips. We collected data in many herbariums of Ukraine and other countries. Our understanding of the taxa was further supplemented by field observations in mountainous (Carpathians and Crimea) and
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13

Danylyk, I. M., and I. G. Olshanskyi. "Synopsis of the order Juncales (Liliopsida) in Ukraine." Biosystems Diversity 29, no. 4 (2021): 354–66. http://dx.doi.org/10.15421/10.15421/012145.

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Juncales is an order of vascular plants with cosmopolitan distribution. Two families of Juncales are present in flora of Ukraine: Juncaceae and Cyperaceae. Through 1985–2021, we conducted comprehensive revision of Juncales in Ukraine. The aim of this research was to compile a checklist of Juncales species in the flora of Ukraine. Our research is based on herbarium materials, literature data and field trips. We collected data in many herbariums of Ukraine and other countries. Our understanding of the taxa was further supplemented by field observations in mountainous (Carpathians and Crimea) and
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14

Duran, Omar. "Management of Pontederia crassipes (Liliopsida): a general framework." Hidrobiológica 35, no. 1 (2025): 67–96. https://doi.org/10.24275/mrgj1723.

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15

Nugraha, Bayu Setya Aji, Widodo Widodo, Rendi Yuntara, and Normalita Normalita. "Diversity of Angiospermae Plant Class Liliopsida in Mount Nglanggeran." Biology, Medicine, & Natural Product Chemistry 7, no. 2 (2018): 45–49. http://dx.doi.org/10.14421/biomedich.2018.72.45-49.

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Nglanggeran is a place that has a high plant diversity and there are many unique and unidentified wild plants. This study aims to list liliopside class plants which found around the climbing route. The angiosperm plants in the liliopside class found around the climbing route were successfully identified and consisted of 40 species belong to 17 families.
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16

Islam, Saiful, Shayla Sharmin Shetu, Md Abdur Rahim, and Saleh Ahammad Khan. "Floristic composition and plant species diversity in and around the brickfield areas of Savar-Dhamrai region of Dhaka district." Jahangirnagar University Journal of Biological Sciences 9, no. 1-2 (2021): 91–108. http://dx.doi.org/10.3329/jujbs.v9i1-2.53710.

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This study has confirmed the occurrence of a total of 181 species of vascular plants under 133 genera and 51 families and estimates the plant species diversity in and around the brickfield areas of Savar-Dhamrai region of Dhaka district. Of these, six species were pteridophytes, 175 were Angiosperms, and 144 species were economically important. Five families, composed of six species, belonged to Pteridophyta, 40 families, consist of 128 species, to Magnoliopsida (dicotyledons) and six families, comprised of 47 species, to Liliopsida (monocotyledons). Total of 161 species were herbs, 14 were sh
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17

A.I., Zhila, Kovalskaya L.A., Denisyevskaya N.A., and Yaroslavskaya Z.M. "The collection of the tropical and Sybtropical liliopsida at the M.M. Grishko National Botanical Gardens of NAS of Ukraine." Plant Introduction 21 (March 1, 2004): 36–40. https://doi.org/10.5281/zenodo.3253041.

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The data about quantative and taxonomic composition of <em>Liliopsida</em> collection in M.M. Grishko National Botanical Gardens of NAS of Ukraine are cited. The main sources of the collection supplement and directions of investigation are indicated.
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18

Shetu, Shayla Sharmin, Saleh Ahammad Khan, and Sarder Nasir Uddin. "Checklist of Angiosperms extant in Mirpur area of Dhaka city." Jahangirnagar University Journal of Biological Sciences 7, no. 2 (2018): 47–64. http://dx.doi.org/10.3329/jujbs.v7i2.40746.

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This study has recognized the occurance of a total of 346 species of Angiosperms under 256 genera and 82 families and assessed their current status and distribution in Mirpur area of Dhaka district. Majority of these families, 68 (82.92%) consist of 255 species under 192 genera, belong to Magnoliopsida (dicotyledons), and the rest 14 (17.07%) comprise of 91 species under 64 genera to Liliopsida (monocotyledons). Asteraceae with 18 species is found to be the largest family in Magnoliopsida followed by Euphorbiaceae and Fabaceae consists of 17 species each; while Poaceae is recognized as the lar
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19

Shearer, B. L., C. E. Crane, R. G. Fairman, and M. J. Grant. "Susceptibility of Plant Species in Coastal Dune Vegetation of South-western Australia to Killing by Armillaria luteobubalina." Australian Journal of Botany 46, no. 2 (1998): 321. http://dx.doi.org/10.1071/bt97012.

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Estimates of the susceptibility of plant species of coastal dune vegetation tokilling by Armillaria luteobubalina Watling &amp; Kilewere obtained from the occurrence of mycelial sheaths of the pathogen beneaththe bark of the root collars of dead plants in 62 disease centres.Dicotyledons (Magnoliopsida) outnumbered monocotyledons (Liliopsida), being81% of the 330 plant species found in disease centres in coastalvegetation. Fifty-one percent of the species were from five Magnoliopsidafamilies with the largest number of species from the Myrtaceae and Proteaceae.Eleven percent of the species were
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20

Jang, Chang Gee, and Martin F. Pfosser. "A taxonomic review of Korean Asparagales and Liliales (Liliopsida)." Korean Journal of Plant Taxonomy 32, no. 4 (2002): 449–65. http://dx.doi.org/10.11110/kjpt.2002.32.4.449.

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21

Rahman, M. Oliur, Rumana Tanjin Antara, Momtaz Begum, and Md Abul Hassan. "Floristic Diversity of Dhamrai Upazila of Dhaka With Emphasis on Medicinal Plants." Bangladesh Journal of Botany 41, no. 1 (2012): 71–85. http://dx.doi.org/10.3329/bjb.v41i1.11085.

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A total of 263 angiosperm species under 210 genera and 79 families have been recorded from Dhamrai Upazila of Dhaka district. Of these, Magnoliopsida is represented by 200 species under 154 genera and 62 families while Liliopsida is represented by 63 species under 56 genera and 17 families. Asteraceae is the largest family in Magnoliopsida represented by 17 species, and Poaceae is the largest family in Liliopsida represented by 20 species. Habit analysis shows that herbs, shrubs and trees are represented by 166, 23 and 74 species, respectively. Sixty two medicinal plants have been documented w
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22

González, Juan Antonio, and Francisco Conde. "Estudio florístico, fenológico, autoecológico y fitogeográfico del macrofitobentos de la Mar Chica (Sebcha Buareg de Nador, Mediterráneo marroquí)." Acta Botanica Malacitana 16 (December 1, 1991): 63–80. http://dx.doi.org/10.24310/abm.v16i.9134.

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El presente trabajo, es el primer estudio fitobentónico sobre la Sebcha Buareg (Nador, Marruecos mediterráneo), laguna litoral hipersalina. Aportamos una lista de 113 taxa (62 Rhodophyceae, 18 Phaeophyceae, 31 Chlorophyceae y 2 Liliopsida). Se completa el trabajo con datos fenológicos, autoecológicos y fitogeográficos de los taxa citados.
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23

Rahman, Mohammad Sayedur, Gazi Mosharof Hossain, Saleh Ahammad Khan, and Sarder Nasir Uddin. "An annotated checklist of the vascular plants of Sundarban Mangrove Forest of Bangladesh." Bangladesh Journal of Plant Taxonomy 22, no. 1 (2015): 17–41. http://dx.doi.org/10.3329/bjpt.v22i1.23862.

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The study revealed the occurrence of 528 species of vascular plants belonging to 356 genera and 111 families in the Sundarban Mangrove Forest of Bangladesh. Among these species, 24 were pteridophytes and the rest were angiosperms, of which only 24 were true mangroves and 70 were mangrove associates. Magnoliopsida and Liliopsida were represented by 373 and 131 species, respectively. These species belonged to 345 herbs, 89 shrubs and 94 trees. Sixty-four species were climbers, 14 were epiphytes, 6 were parasites, and 7 were palms. The species number per family varied from 1 to 42. In pteridophyt
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24

Kashin, A. S., N. A. Petrova, and I. V. Shilova. "Some features of the environmental strategy of Tulipa gesneriana L. (Liliaceae, Liliopsida)." Povolzhskiy Journal of Ecology 15, no. 2 (2016): 209–21. http://dx.doi.org/10.18500/1684-7318-2016-2-209-221.

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25

Godin, Vladimir N. "Sexual forms and their ecological correlates in Liliopsida of Siberia." Vestnik Tomskogo gosudarstvennogo universiteta. Biologiya, no. 30(2) (June 1, 2015): 46–69. http://dx.doi.org/10.17223/19988591/30/3.

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26

Brack-Hanes, Sheila D., and Anthony M. Greco. "Biomineralization in Thalassia testudinum (Liliopsida: Hydrocharitaceae) and an Eocene Seagrass." Transactions of the American Microscopical Society 107, no. 3 (1988): 286. http://dx.doi.org/10.2307/3226507.

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27

Buglova, Liubov V., and Anastasia S. Gusar. "Liliopsida anatomical traits in the Trollius species (Ranunculaceae)." BIO Web of Conferences 38 (2021): 00019. http://dx.doi.org/10.1051/bioconf/20213800019.

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Floral shoot anatomy in Trollius asiaticus and seedling morphology in T. altaicus, T. apertus, T. asiaticus, T. europaeus, T. ledebourii and T sajanensis were studied in early ontogeny stages. In four species, there occurs syncotyly, its distribution among the species of the genus being probably a valuable characteristic to understand the genus phylogeny. In T. asiaticus, vascular bundles are closed, stems are unable to any secondary increase in thicknes; sclerenchyma is not located radially but forms massive strands externally to the vascular bundles.
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28

Petrova, Antoaneta, Diana Venkova, and Irina Gerasimova. "Dactylorhiza kalopissii (Liliopsida: Orchidacea) in Bulgaria: Distribution and conservation status." ARPHA Conference Abstracts 2 (September 16, 2019): e46608. https://doi.org/10.3897/aca.2.e46608.

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The Balkan sub-endemic species <em>Dactylorhiza kalopissii </em>E. Nelson is distributed in Bulgaria, Greece and North Macedonia. It has a local distribution and inhabits alkaline fens, wet meadows, and mountain rivulet banks. This orchid is a globally endangered species, included in Annex IIb of the Council Directive 92/43 EEC. It was first reported for Bulgaria in 1991 and until 2008 it was known only from this single locality in the country. Here we summarize the recent data on the distribution of the species in Bulgaria, the population numbers and their fluctuation in time. During the peri
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29

Orlova, L. D. "Інтенсивність дихання лучних рослин лівобережного лісостепу України". Biosystems Diversity 18, № 2 (2010): 54–60. http://dx.doi.org/10.15421/011026.

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Досліджено інтенсивність дихання лучних представників 14 родин класу Magnoliopsida (Dycotyledores) та двох родин класу Liliopsida (Monocotyledones). Межі коливань показника – від 0,10 до 1,54 мг СО2/г сирої ваги за годину. З’ясовано, що однорічні види мали низькі та середні значення. У ксерофітних видів інтенсивність дихання була низька та середня. Доведено залежність показника від умов навколишнього середовища та фази онтогенезую.
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30

Zolotukhin, N. I. "Floristic findings in the valley of the river Chulyshman (Altai). Part 1." Проблемы ботаники южной сибири и монголии 20, no. 1 (2021): 207–12. http://dx.doi.org/10.14258/pbssm.2021039.

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Based on the author’s fieldwork in 1976–2016 and herbarium funds from the river Chulyshman, stored inthe Central Chernozem Reserve, the first part of the information (Magnoliophyta: Liliopsida, not including the PoaceaeBarnhart family) is given on new and rare species of vascular plants for this territory; 5 species are indicated for the firsttime for the Altai nature reserve.
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31

Pavlyshak, Ya Ya, та N. K. Goyvanovych. "ВИВЧЕННЯ ФЛОРИ "БОРИНСЬКОГО ЛІСНИЦТВА" (ТУРКІВСЬКИЙ РАЙОН)". Scientific Bulletin of UNFU 25, № 8 (2015): 128–33. http://dx.doi.org/10.15421/40250821.

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Досліджено видове різноманіття дикорослих видів рослин у Боринському лісництві Турківського р-ну, їх систематизовано за родинами, класами, відділами. Здійснено систематичний, еколого-ценотичний та господарський аналіз флори. Абсолютна більшість флоронаселення лісництва представлена покритонасінними рослинами (89,3 %). Належать вони до двох класів – Magnoliopsida та Liliopsida. На основі досліджень встановлено, що на території Боринського лісництва зростають лікарські, декоративні, кормові, отруйні та медоносні рослини.
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32

Fedón, Irene Carolina. "Liliopsida, Cyperaceae, Cephalocarpus confertus Gilly, Guyana Shield, Brazil, Colombia and Venezuela." Check List 7, no. 3 (2011): 348. http://dx.doi.org/10.15560/7.3.348.

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The genus Cephalocarpus (Cyperaceae), of South American distribution is represented by four species. The present work extends the distribution of Cephalocarpus cofertus Gilly based on analysis of samples from the Missouri Botanical Garden Herbarium, literature and online databases. As a result this species is reported for Brazil, Colombia and Venezuela and is removed from the endemic status for Venezuela.
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33

Arias, Juan Carlos, and Fred Stauffer. "Liliopsida, Arecaceae, Geonoma undata Klotzsch: range extension for Zulia state, Venezuela." Check List 9, no. 2 (2013): 455. http://dx.doi.org/10.15560/9.2.455.

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The occurrence of the palm Geonoma undata Klotzsch is registered for the first time for the state of Zulia, Venezuela, as result of a floristic survey made at Cerro Las Antenas, in the Serranía de Perijá. This species is catalogued as “vulnerable” according to the Red Book of Venezuelan Flora.
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34

Fedón, Irene. "Liliopsida, Cyperaceae, Cephalocarpus confertus Gilly, Guyana Shield, Brazil, Colombia and Venezuela." Check List 7, no. (3) (2011): 348–49. https://doi.org/10.15560/7.3.348.

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The genus <em>Cephalocarpus </em>(Cyperaceae), of South American distribution is represented by four species. The present work extends the distribution of <em>Cephalocarpus cofertus </em>Gilly based on analysis of samples from the Missouri Botanical Garden Herbarium, literature and online databases. As a result this species is reported for Brazil, Colombia and Venezuela and is removed from the endemic status for Venezuela.
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35

Arias, Juan, and Fred Stauffer. "Liliopsida, Arecaceae, Geonoma undata Klotzsch: range extension for Zulia state, Venezuela." Check List 9, no. (2) (2013): 455–57. https://doi.org/10.15560/9.2.455.

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The occurrence of the palm <em>Geonoma undata </em>Klotzsch is registered for the first time for the state of Zulia, Venezuela, as result of a floristic survey made at Cerro Las Antenas, in the Serranía de Perijá. This species is catalogued as "vulnerable" according to the Red Book of Venezuelan Flora.
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36

Sarker, Kanika, Md Rafiqul Islam, Mohammad Zashim Uddin, and Md Abul Hassan. "Angiosperm flora of Manikgonj Sadar upazila, Bangladesh." Journal of the Asiatic Society of Bangladesh, Science 39, no. 2 (2014): 147–66. http://dx.doi.org/10.3329/jasbs.v39i2.17851.

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Angioperm flora of Manikgonj Sadar Upazila has been partially inventoried. A total of 207 species under 72 families and 174 genera has been recorded. Among those, the division Magnoliopsida represents 147 species belonging to 56 families and 127 genera, and the division Liliopsida represents 60 species belonging to 16 families and 47 genera. DOI: http://dx.doi.org/10.3329/jasbs.v39i2.17851 J. Asiat. Soc. Bangladesh, Sci. 39(2): 147-166, December 2013
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37

González García, Juan Antonio, and Francisco Conde Poyales. "Catálogo del macrofitobentos del Mediterráneo de Marruecos." Acta Botanica Malacitana 19 (December 1, 1994): 5–27. http://dx.doi.org/10.24310/abm.v19i.8882.

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Se ha realizado un estudio del macrofitobentos en el litoral mediterráneo de Marruecos. Como resultado del mismo se han catalogado 335 taxa, de los que 140 son novedades corológicas para la zona. De ellos, 203 corresponden a las Rhodophyceae, 62 a las Phaeophyceae, 66 a las Chlorophyceae y 4 a las Liliopsida. El R/F de 3,27 da un valor muy similar al 3,29 del litoral mediterráneo español.
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38

Fahra Annisa Putri, Falak Agung Nugraha, and Ateng Supriatna. "Analisa Keanekaragaman dan Karakteristik Morfologi Famili Cyperaceae di Kawasan Perumahan Rajasanagara, Cibiru, Bandung." Jurnal Mahasiswa Kreatif 1, no. 4 (2023): 188–91. https://doi.org/10.59581/jmk-widyakarya.v1i4.824.

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Cyperaceae is a family of liliopsida plants. Plants belonging to the cyperaaceae are a puzzle. This study aims to determine the diversity and morphological characteristics of the Cyperaceae family in the Rajasanagara Cibiru Residential Area, Bandung. The research was carried out by direct observation, then the results of these observations were described. Cyperus species were found with the species cyperus alternifolius and cyperus kyllingia. The two species have similarities and differences respectively.
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39

Марченко, А. Б. "Декоративні квіткові рослини в структурі урбофлори Лісостепу України". Вісник Полтавської державної аграрної академії, № 1-2 (30 вересня 2016): 36–43. http://dx.doi.org/10.31210/visnyk2016.1-2.07.

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За результатами моніторингу флористичного різноманіття декоративних квіткових рослин у структурі озеленення урбоекосистем Лісостепу України уточнено їх таксономічний склад, а саме представлені 118 видами із 58 родів 31 родини 16 порядків 2 класів. Домінуюче місце займає клас Dicotyledones, який представляє 66,1 %, налічує 14 порядків, серед яких за кількістю видів переважає Asterales – 34 % видів. Клас Liliopsida представлений двома порядками, серед яких за кількістю видів переважає Asparagales Bromhead (70 %). За класифікацією І. Г. Серебрякова декоративні квіткові культури представлені назем
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40

Shetu, Shayla Sharmin, Gazi Mosharof Hossain, Saleh Ahammad Khan, and Md Abdur Rahim. "An Inventory of Vascular Flora of the Lalmai Hill Area Of Cumilla District, Bangladesh." Bangladesh Journal of Plant Taxonomy 29, no. 2 (2022): 203–40. http://dx.doi.org/10.3329/bjpt.v29i2.63527.

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In this study, the vascular flora of the Lalmai hill area of the Cumilla district has been thoroughly explored. This study reveals the occurrence of 923 species of vascular plants under 594 genera and 141 families in the study area, which represents 23.75% of the total 3886 plant species reported from Bangladesh until now. About 68.15% of these species are native and 31.85% are exotic to Bangladesh. Pteridophytes are represented by 30 species belonging to 21 genera and 11 families, whilst Gymnosperms are represented by eight species under seven genera and six families. Magnoliopsida (dicotyled
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41

Kremleva, Tatiana A., Alexander S. Petukhov, Nikolay A. Khritokhin, and Galina A. Petukhova. "Pb AND Cd INFLUENCE ON BIOCHEMICAL INDICES OF AVENA SATIVA (POÁCEAE, LILIOPSIDA)." Povolzhskiy Journal of Ecology 17, no. 1 (2018): 49–59. http://dx.doi.org/10.18500/1684-7318-2018-1-49-59.

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42

Syarif, Wilman, Syafruddin Nasution, and Mubarak Mubarak. "Structure of the Mangrove Community in Batang Masang Beach Tiku V Jorong Tanjung Mutiara District Agam Regency West Sumatera." Journal of Coastal and Ocean Sciences 3, no. 2 (2022): 85–93. http://dx.doi.org/10.31258/jocos.3.2.85-93.

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The survey was conducted in March 2021. The purpose of this survey was to analyze the structure of the mangrove community at Batang Masang Beach Nagari Tiku V Jorong Tanjung Mutiara District Agam Regency West Sumatra. The method used in this study is a survey method. In the mangrove area of ??Batang Masang, 3 observation stations have been determined. Each observation station was drawn by 3 transects over 50 m drawn from the mangrove boundary of the sea to the land. In each transect, 3 plots were placed, each plot consisting of 3 sizes, namely 10 x 10 m for the tree category, 5 x 5 m for the s
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43

Bobrova, Mariia, Olena Holodaieva, Svitlana Koval, Olha Tsviakh, and Olena Kucher. "Features of changes in prooxidant-antioxidant balance of tissues during activation of seed germination." Revista de la Universidad del Zulia 13, no. 37 (2022): 362–82. http://dx.doi.org/10.46925//rdluz.37.23.

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Aim of the research: to identify changes in the value of indicators of the state of the prooxidant-antioxidant system (PAS) in seed tissues at rest and the initiation of its germination processes. The subject of the research is the role of individual components of the PAS in ensuring the activation of seeds before germination. Methodology. Quantitative determination of indicators of the state of PAS was performed on tissue samples of seeds of the following plants: Glycine max L., Helianthus annuus L., Fagopyrum esculentum L., Linum usitatissimum L., Sinapis alba L., Chenopodium quinoa L., Pani
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44

Hasan, Mohammmad Tarikul, and Mohammad Zashim Uddin. "A preliminary inventory of angiospermic flora of bagatipara upazila, natore, bangladesh." Bangladesh Journal of Plant Taxonomy 31, no. 1 (2024): 155–72. http://dx.doi.org/10.3329/bjpt.v31i1.74395.

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Preparation of the country's flora is very challenging until baseline information on the flora of all district or upazila is available. The purpose of this inventory was to record angiosperm plant species available in the different habitats of Bagatipara upazila, which is located in the eastern part of Rajshahi district. The traditional taxonomic method was applied for plant sample collection in different seasons of the year 2022 and the identification of the collected samples. This research resulted in the recording of a total of 377 species in 92 families. Among them, 310 species were from M
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45

Phe, Phung Van. "FLORA DIVERSITY IN DEO CA SPECIAL USE FOREST PHU YEN PROVINCE." Journal of Forestry Science and Technology, no. 15 (2023): 118–26. http://dx.doi.org/10.55250/jo.vnuf.2023.15.118-126.

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The Deo Ca Special Use Forest flora is quite diverse with 492 species belonging to 329 genera and 117 families of 4 vascular plant phyla. Of which, Magnoliophyta is the most dominant with 453 species (92.07%), 302 genera (91.79%), and 95 families (81.2%); the next Polypodiophyta with 32 species (6.5%), 21 genera (6.38%), 17 families (14.53%); the Lycopodiophyta has 4 species (0.81%) belonging to 3 genera (0.91%) of 2 families (1.71%); the last Pinophyta has 3 species (0.61%) belonging to 3 genera (0.91%) and 3 families (2.56%). In the Magnoliophyta, Magnoliopsida is more dominant than Liliopsi
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46

Bai, Weiwei, Jingzhi Wu, Shuilian He, Zhijia Gu, Hui Jiang, and Hongzhi Wu. "The complete chloroplast genome of Lilium amoenum (Liliopsida: Liliaceae) from Yunnan, China." Mitochondrial DNA Part B 6, no. 3 (2021): 855–57. http://dx.doi.org/10.1080/23802359.2021.1885318.

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47

Kashin, A. S., A. S. Parkhomenko, L. V. Kulikova, et al. "Potential Range of Bulbocodium versicolor (Ker-Gawl.) Spreng. (Colchicaceae, Liliopsida) in Russia." Povolzhskiy Journal of Ecology, no. 2 (July 7, 2020): 241–47. http://dx.doi.org/10.35885/1684-7318-2020-2-241-247.

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The article presents a bioclimatic model of the potential range of Bulbocodium versicolor in European Russia. To build the model, we analyzed a matrix containing 166 B. versicolor localities in the studied region; the analysis was carried out in the SDMtoolbox program using the climatic paramaters from the WorldClim open database. The model demonstrates that, given the available dataset on the modern climatic conditions, B. versicolor may occur in a wider geographical range comprising, at the very least, the Belgorod, Voronezh, Volgograd, Lipetsk, Penza, Rostov and Saratov provinces. Also, wit
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48

Oleas, Nora H., Lou Jost, Ricardo Zambrano C., et al. "First records of the genus Pyrolirion Herb. (Liliopsida, Asparagales, Amaryllidaceae) in Ecuador." Check List 21, no. 1 (2025): 142–47. https://doi.org/10.15560/21.1.142.

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We report for the first time in Ecuador the small plant genus Pyrolirion Herb. (Amaryllidaceae). We identify several Ecuadorian populations of Pyrolirion tubiflorum (L&amp;rsquo;H&amp;eacute;r.) M. Roem. located in four provinces along the Ecuadorian Andes. This species has been previously recorded in Peru, Bolivia, and Chile. An updated description of P. tubiflorum is provided, along with detailed photographs of some of the Ecuadorian examples of the species.
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49

Kashin, A. S., N. A. Petrova, and I. V. Shilova. "Some Features of the Environmental Strategy of Tulipa gesneriana L. (Liliaceae, Liliopsida)." Biology Bulletin 44, no. 10 (2017): 1237–45. http://dx.doi.org/10.1134/s1062359017100053.

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50

B.S. Anakha and A.R. Viji. "Cyperus babakan Steud. (Liliopsida: Poales: Cyperaceae), a new record for southern India." Journal of Threatened Taxa 15, no. 11 (2023): 24288–90. http://dx.doi.org/10.11609/jott.8422.15.11.24288-24290.

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Cyperus babakan Steud. is reported here for the first time from southern India based on the collection made from Kerala, India. Descriptions, images of the species, distribution and phenology are provided here.
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