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Journal articles on the topic 'Riccia fluitans'

Author: Grafiati
Published: 4 June 2025
Last updated: 15 July 2025

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1

Ganga G. "Antimicrobial activity of copper and silver metal nanoparticles synthesized from Riccia fluitans." GSC Biological and Pharmaceutical Sciences 16, no. 1 (2021): 077–82. http://dx.doi.org/10.30574/gscbps.2021.16.1.0183.

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Riccia bryophyte, a genus of liverworts that comes under the family of Ricciaceae, order Marchantiales. The plants are primitive plant structure, that's not differentiated into root, stem, and leaf. The material utilized in this study was a Spp of a Riccia fluitans, that grows on damp soil or, less unremarkably, floating in ponds, and is usually utilized in aquariums. The nanoparticles utilized in this study exhibit potential medicinal drug activity. Advantages of its therapeutic potential can be utilized in a sizable number of fields like health care, cosmetics, biomedical, food and feed, dru
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2

Ganga, G. "Antimicrobial activity of copper and silver metal nanoparticles synthesized from Riccia fluitans." GSC Biological and Pharmaceutical Sciences 16, no. 1 (2021): 077–82. https://doi.org/10.5281/zenodo.5131486.

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Riccia bryophyte, a genus of liverworts that comes under the family of Ricciaceae, order Marchantiales. The plants are primitive plant structure, that&#39;s not differentiated into root, stem, and leaf. The material utilized in this study was a Spp of a&nbsp;<em>Riccia fluitans</em>, that grows on damp soil or, less unremarkably, floating in ponds, and is usually utilized in aquariums. The nanoparticles utilized in this study exhibit potential medicinal drug activity. Advantages of its therapeutic potential can be utilized in a sizable number of fields like health care, cosmetics, biomedical,
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3

Perold, S. M. "Studies in the genus Riccia (Marchantiales) from southern Africa. 21. R. stricta, R. purpurascens and R. fluitans, subgenus Ricciella." Bothalia 20, no. 2 (1990): 197–206. http://dx.doi.org/10.4102/abc.v20i2.915.

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Lindenberg (1836) regarded and published Riccia stricta as a variety of R. fluitans L. Subsequently, Nees (1838) and Gottsche et al. (1846) also treated it as a variety. Trevisan (1877) raised its rank and published the epithet, Ricciella stricta Trevis.Ricciella is, however, regarded as a subgenus; Ricciella stricta is, therefore, transferred to Riccia stricta (Lindenb.) Perold.It is described in detail and illustrated. R. purpurascens Lehm. Lindenb., a related endemic species, is also more fully described than before and illustrated. R. fluitans L. apparently does not occur naturally in sout
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4

Althoff, Felix, and Sabine Zachgo. "Transformation of Riccia fluitans, an Amphibious Liverwort Dynamically Responding to Environmental Changes." International Journal of Molecular Sciences 21, no. 15 (2020): 5410. http://dx.doi.org/10.3390/ijms21155410.

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The colonization of land by streptophyte algae, ancestors of embryophyte plants, was a fundamental event in the history of life on earth. Bryophytes are early diversifying land plants that mark the transition from freshwater to terrestrial ecosystems. The amphibious liverwort Riccia fluitans can thrive in aquatic and terrestrial environments and thus represents an ideal organism to investigate this major transition. Therefore, we aimed to establish a transformation protocol for R. fluitans to make it amenable for genetic analyses. An Agrobacterium transformation procedure using R. fluitans cal
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5

Ballesteros, D. "Inorganic carbon acquisition in Riccia fluitans L." Journal of Experimental Botany 49, no. 327 (1998): 1741–47. http://dx.doi.org/10.1093/jexbot/49.327.1741.

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6

Ballesteros, D., M. J. Garcia-Sanchez, M. A. Heredia, H. Felle, and J. A. Fernandez. "Inorganic carbon acquisition in Riccia fluitans L." Journal of Experimental Botany 49, no. 327 (1998): 1741–47. http://dx.doi.org/10.1093/jxb/49.327.1741.

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7

Gospodinov, Galin, and Natcheva Rayna. "Chromosome studies of some thalloid liverworts in Bulgaria." Biologica Nyssana 11, no. 1 (2020): 31–33. https://doi.org/10.5281/zenodo.4060289.

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Here, we report for the first time chromosome counts for bryophytes from Bulgaria. The mitotic chromosomes from gametophytes of Aneura pinguis, Pellia epiphylla, Pellia neesiana, and Riccia fluitans were studied. All counts correspond to previous reports from other parts of the species&rsquo; range.
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8

Vierengel, Anita, Gerhard Kohn, Oskar Vandekerkhove, and Elmar Hartmann. "9-octadecen-6-ynoic acid from Riccia fluitans." Phytochemistry 26, no. 7 (1987): 2101–2. http://dx.doi.org/10.1016/s0031-9422(00)81767-7.

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9

Piippo, Sinikka, and Timo Koponen. "Bryophyte Flora of Hunan Province, China. 16. Complex Thalloids (Marchantiopsida, Hepaticae)." Polish Botanical Journal 58, no. 1 (2013): 179–92. http://dx.doi.org/10.2478/pbj-2013-0017.

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Abstract The occurrence of 13 species belonging to eight complex thalloid genera and six families are reported for Hunan. Conocephalum japonicum (Thunb.) Grolle, C. salebrosum Szweykowski et al. and Dumortiera hirsuta (Sw.) Nees are moderately common in Hunan, Conocephalum conicum (L.) Dumort., Marchantia palaecea Bertol. and M. emarginata Reinw. et al. subsp. tosana (Steph.) Bischler are rather rare, M. polymorpha L., Plagiochasma pterospermum Mass., Reboulia hemisphaerica (L.) Raddi, and Wiesnerella denutata (Mitt.) Steph. are rare and Asterella khasyana (Griff.) Pandé et al., Plagiochasma a
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10

Gulay, O., and O. Zhukorskiy. "FORMATION OF ENVIRONMENTAL RELATIONS BETWEEN ERYSIPELOTHRIX RHUSIOPATHIAE AND RICCIA FLUITANS IN HYDROBIOCENOSES." Ribogospodarsʹka nauka Ukraïni, no. 4(26) (December 22, 2013): 17–23. http://dx.doi.org/10.15407/fsu2013.04.017.

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11

Kwon, Woochan, Juhyeon Min, Hong Xi, and Jongsun Park. "The complete chloroplast genome of Riccia fluitans L. (Ricciaceae, Marchantiophyta)." Mitochondrial DNA Part B 4, no. 1 (2019): 1895–96. http://dx.doi.org/10.1080/23802359.2019.1613193.

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12

Hellwege, Elke M., and Wolfram Hartung. "Synthesis, metabolism and compartmentation of abscisic acid in Riccia fluitans L." Journal of Plant Physiology 150, no. 3 (1997): 287–91. http://dx.doi.org/10.1016/s0176-1617(97)80122-8.

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13

Chaudhari, Revan Y., Tanveer A. Khan, and Shakila A. Bagwan. "Riccia fluitans L - New distributional record for Khandesh region of Maharashtra, India." BIOINFOLET - A Quarterly Journal of Life Sciences 21, no. 3 (2024): 329–31. http://dx.doi.org/10.5958/0976-4755.2024.00101.9.

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14

Hellwege, Elke M., Otto Heinrich Volk, and Wolfram Hartung. "A Physiological Role of Abscisic Acid in the Liverwort Riccia fluitans L." Journal of Plant Physiology 140, no. 5 (1992): 553–56. http://dx.doi.org/10.1016/s0176-1617(11)80788-1.

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15

Min, Juhyeon, Woochan Kwon, Hong Xi, and Jongsun Park. "The complete mitochondrial genome of Riccia fluitans L. (Ricciaceae, Marchantiophyta): investigation of intraspecific variations on mitochondrial genomes of R. fluitans." Mitochondrial DNA Part B 5, no. 2 (2020): 1220–22. http://dx.doi.org/10.1080/23802359.2020.1730728.

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16

Bytniewska, Krystyna. "Nitrogen and protein contents in some aquatic plant species." Acta Societatis Botanicorum Poloniae 46, no. 2 (2015): 165–72. http://dx.doi.org/10.5586/asbp.1977.013.

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Nitrogen and protein contents in higher aquatic plants deriving from a natural habitat were determined. The following plants were examined: &lt;i&gt;Spirodela polyrrhiza&lt;/i&gt; (L.) Schleid., &lt;i&gt;Elodea canadensis&lt;/i&gt; Rich., &lt;i&gt;Riccia fluitans&lt;/i&gt; L. Total nitrogen and nitrogen of respective fractions were determined by the Kjeldahl method. Nitrogen compounds were fractionated according to Thimann et al. Protein was extracted after Fletcher and Osborne and fractionated after Osborne. It was found, that total protein content in the plants under examination constitutes
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17

Felle, Hubert H. "Aspects of Ca2+ homeostasis in Riccia fluitans: reactions to perturbations in cytosolic-free Ca2+." Plant Science 74, no. 1 (1991): 27–33. http://dx.doi.org/10.1016/0168-9452(91)90252-4.

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18

Chojnacka, K. "Biosorption and bioaccumulation of microelements by Riccia fluitans in single and multi-metal system." Bioresource Technology 98, no. 15 (2007): 2919–25. http://dx.doi.org/10.1016/j.biortech.2006.10.001.

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19

Johannes, E., and H. Felle. "Transport of basic amino acids in Riccia fluitans: Evidence for a second binding site." Planta 166, no. 2 (1985): 244–51. http://dx.doi.org/10.1007/bf00397355.

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20

Türkoğlu, Semra, and Akif Evren Parlak. "Determination of total phenolic and total flavonoid contents and antioxidant capacities of an aquatic plant (Riccia fluitans)." Ege Journal of Fisheries and Aquatic Sciences 31, no. 1 (2015): 35–40. http://dx.doi.org/10.12714/egejfas.2014.31.1.06.

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21

Johannes, Eva, and Hubert H. Felle. "The role of Mg2+ in proton transport by the tonoplast pyrophosphatase in Riccia fluitans vacuoles." Physiologia Plantarum 77, no. 3 (1989): 326–31. http://dx.doi.org/10.1111/j.1399-3054.1989.tb05649.x.

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22

Dahse, Ingo, Hubert Felle, Friedrich-Wilhelm Bentrup, and Bernd Liebermann. "Tentoxin and Valinomycin Affect Electrophysiological Properties and K+(86Rb+)fluxes in the Liverwort Riccia fluitans." Journal of Plant Physiology 124, no. 1-2 (1986): 87–93. http://dx.doi.org/10.1016/s0176-1617(86)80180-8.

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23

Heredia, Miguel A., Rubén Zapico, Marı́a J. Garcı́a-Sánchez, and José A. Fernández. "Effect of calcium, sodium and pH on uptake and accumulation of radiocesium by Riccia fluitans." Aquatic Botany 74, no. 3 (2002): 245–56. http://dx.doi.org/10.1016/s0304-3770(02)00107-9.

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24

Felle, Hubert. "Cytoplasmic free calcium in Riccia fluitans L. and Zea mays L.: Interaction of Ca2+ and pH?" Planta 176, no. 2 (1988): 248–55. http://dx.doi.org/10.1007/bf00392452.

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25

Johannes, Eva, and Hubert Felle. "Implications for cytoplasmic pH, protonmotice force, and amino-acid transport across the plasmalemma of Riccia fluitans." Planta 172, no. 1 (1987): 53–59. http://dx.doi.org/10.1007/bf00403028.

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26

Iamonico, Duilio, and Mauro Iberite. "Lectotypification of the Linnaean names Riccia fluitans and R. natans (Ricciaceae)." Taxon 63, no. 2 (2014): 394–95. http://dx.doi.org/10.12705/632.9.

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27

Johannes, Eva, and Hubert Felle. "Proton Gradient Across the Tonoplast of Riccia fluitans as a Result of the Joint Action of Two Electroenzymes." Plant Physiology 93, no. 2 (1990): 412–17. http://dx.doi.org/10.1104/pp.93.2.412.

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28

Horling, Frank, Margarete Baier, and Karl-Josef Dietz. "Redox-regulation of the expression of the peroxide-detoxifying chloroplast 2-Cys peroxiredoxin in the liverwort Riccia fluitans." Planta 214, no. 2 (2001): 304–13. http://dx.doi.org/10.1007/s004250100623.

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29

Andersen, Troels. "Higher CO2 concentrations alleviate growth co-limitation of light, N and P in the aquatic liverwort, Riccia fluitans L." SIL Proceedings, 1922-2010 29, no. 4 (2006): 1801–5. http://dx.doi.org/10.1080/03680770.2006.11902999.

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30

Alfano, F., A. Russell, R. Gambardella, and G. Duckett. "The Actin Cytoskeleton of the Liverwort Riccia fluitans: Effects of Cytochalasin B and Aluminium ions on Rhizoid Tip Growth." Journal of Plant Physiology 142, no. 5 (1993): 569–74. http://dx.doi.org/10.1016/s0176-1617(11)80400-1.

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31

Felle, Hubert. "K+/H+-antiport in Riccia fluitans: An alternative to the plasma membrane H+ pump for short-term pH regulation?" Plant Science 61, no. 1 (1989): 9–15. http://dx.doi.org/10.1016/0168-9452(89)90112-x.

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32

Felle, Hubert, and Adam Bertl. "Light-induced cytoplasmic pH changes and their interrelation to the activity of the electrogenic proton pump in Riccia fluitans." Biochimica et Biophysica Acta (BBA) - Bioenergetics 848, no. 2 (1986): 176–82. http://dx.doi.org/10.1016/0005-2728(86)90039-3.

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33

Rimac, Anja, Antun Alegro, Vedran Šegota, Nina Vuković, and Nikola Koletić. "Ecological Preferences and Indication Potential of Freshwater Bryophytes–Insights from Croatian Watercourses." Plants 11, no. 24 (2022): 3451. http://dx.doi.org/10.3390/plants11243451.

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A comprehensive survey of Croatian watercourses covering the whole of the national territory and investigating inherent watercourse heterogeneity was conducted to explore the ecological responses of the most frequent freshwater bryophytes with respect to water chemistry variables and land use within the catchment area. Direct multivariate ordination (CCA) of vegetation data paired with 18 environmental variables revealed that freshwater bryophytes and their assemblages were segregated along the gradients of water chemistry and the proportion of natural and urban area within the catchment. Gene
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Contardo-Jara, Valeska, Marc Sebastian Funke, Anja Peuthert та Stephan Pflugmacher. "β-N-Methylamino-L-alanine exposure alters defense against oxidative stress in aquatic plants Lomariopsis lineata, Fontinalis antipyretica, Riccia fluitans and Taxiphyllum barbieri". Ecotoxicology and Environmental Safety 88 (лютий 2013): 72–78. http://dx.doi.org/10.1016/j.ecoenv.2012.10.026.

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35

Gomez, Jenifer, and Vilma Y. Gomez-Nieves. "ESTIMACIÓN DE LA TALLA DE MADUREZ SEXUAL EN REPRODUCTORES DE Neocaridina heterópoda (Camarón variedad Cherry) (Cai, 1996), EN CONDICIONES DE LABORATORIO." Revista Investigación Pecuaria 7, no. 1 (2020): 117–25. http://dx.doi.org/10.22267/revip.2071.20.

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El camarón cherry es uno de los organismos dulceacuícolas potenciales para el desarrollo productivo por su demanda comercial en acuariofilia, debido a la escasa información que existe sobre este crustáceo, se realizó esta investigación con el propósito de conocer las tallas reproductiva de los camarones hembras y machos del género Neocaridiana sp., para lo cual se trabajó con padrotes seleccionados provenientes del laboratorio de Ingeniería en Producción Acuícola (IPA). Las hembras y machos recolectados fueron dispuestos en seis unidades experimentales, conformadas por recipientes de vidrio de
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Frachisse, Jean-Marie, Eva Johannes, and Hubert Felle. "The use of weak acids as physiological tools: A study of the effects of fatty acids on intracellular pH and electrical plasmalemma properties of Riccia fluitans rhizoid cells." Biochimica et Biophysica Acta (BBA) - Biomembranes 938, no. 2 (1988): 199–210. http://dx.doi.org/10.1016/0005-2736(88)90159-9.

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37

Mamchur, Z., M. Ragulina, O. Orlov, and Yu Drach. "Bryophytes of local park – monument of landscape gardening “Snopkivsky” (Lviv city)." Visnyk of Lviv University. Biological series, no. 91 (June 7, 2024): 45–54. http://dx.doi.org/10.30970/vlubs.2024.91.05.

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The species diversity and substratum preferencies of Bryophytes in the territory of the local park-monument park “Snopkivsky” in the urban ecosystem of Lviv are given in the article. The bryoflora of the Snopkivsky Park includes 61 species of bryophytes from the divisions Marchantiophyta and Bryophyta. The high position of the families Brachytheciaceae, Orthotricaceae, Pottiaceae, Bryaceae in the floristic spectrum reflects the specificity of the park’s local conditions. The percentage of these families in the floristic spectrum is 45.9 % of the total species richness. This distribution is cha
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38

"An Appraisal of Genus Riccia in India with a Note on Diversity and Distribution of Species." International Journal of Sustainable Water and Environmental Systems 06, no. 1 (2014). http://dx.doi.org/10.5383/swes.06.01.0004.

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A review of Indian Riccia’s has been made and 36 valid species are accepted. 12 species viz., R. attenuata, R. ciliata, R. crispatula, R. crozalsii, R. curtisii, R. glauca, R. haskarliana, R. hirta, R. mangalorica, R. perssonii, R. stricta and R. warnstorfii are rare and found in restricted pockets of the country. Except Riccia abuensis and R. fluitans (aquatic species) all are terrestrial. Riccia poihaiana A.E.D.Daniels &amp; P.Daniel is proposed to place under synonymy of R. billardieri Mont. &amp; Nees. The occurrence of Riccia squamata, R. duplex and R. dictyospora recorded in Indian bryof
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39

Althoff, Felix, Linus Wegner, Katrin Ehlers, Henrik Buschmann, and Sabine Zachgo. "Developmental Plasticity of the Amphibious Liverwort Riccia fluitans." Frontiers in Plant Science 13 (May 23, 2022). http://dx.doi.org/10.3389/fpls.2022.909327.

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The colonization of land by ancestors of embryophyte plants was one of the most significant evolutionary events in the history of life on earth. The lack of a buffering aquatic environment necessitated adaptations for coping with novel abiotic challenges, particularly high light intensities and desiccation as well as the formation of novel anchoring structures. Bryophytes mark the transition from freshwater to terrestrial habitats and form adaptive features such as rhizoids for soil contact and water uptake, devices for gas exchange along with protective and repellent surface layers. The amphi
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40

Hildebrandt, Marvin, Isabell E. Bleile, Felix Althoff, Sabine Zachgo, Andrea Bräutigam, and Bart Verwaaijen. "Whole-Genome Sequence of Aneurinibacillus sp. Ricciae_BoGa-3 , Isolated from Riccia fluitans." Microbiology Resource Announcements, May 4, 2023. http://dx.doi.org/10.1128/mra.00081-23.

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Here, we present the Nanopore-only genome sequence of Aneurinibacillus sp. Ricciae_BoGa-3 . It was isolated from Riccia fluitans ecotype BoGa-3 and its source was Botanical Garden Osnabrück (Germany). The complete circular genome is 4,981,254 bp with a GC content of 44.8%.
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41

Maździarz, Mateusz, Katarzyna Krawczyk, Mateusz Kurzyński, et al. "Epitranscriptome insights into Riccia fluitans L. (Marchantiophyta) aquatic transition using nanopore direct RNA sequencing." BMC Plant Biology 24, no. 1 (2024). http://dx.doi.org/10.1186/s12870-024-05114-4.

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Abstract Background Riccia fluitans, an amphibious liverwort, exhibits a fascinating adaptation mechanism to transition between terrestrial and aquatic environments. Utilizing nanopore direct RNA sequencing, we try to capture the complex epitranscriptomic changes undergone in response to land-water transition. Results A significant finding is the identification of 45 differentially expressed genes (DEGs), with a split of 33 downregulated in terrestrial forms and 12 upregulated in aquatic forms, indicating a robust transcriptional response to environmental changes. Analysis of N6-methyladenosin
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42

Sawicki, Jakub, Katarzyna Krawczyk, Mateusz Kurzyński, et al. "Nanopore sequencing of organellar genomes revealed heteroplasmy in simple thalloid and leafy liverworts." Acta Societatis Botanicorum Poloniae 92, no. 1 (2023). http://dx.doi.org/10.5586/asbp/172516.

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Membrane-bound organelles, such as mitochondria and chloroplasts, have played a crucial role in the evolution of plant cells. In this study, we investigate the presence of heteroplasmy and genomic variation in liverworts, a group of non-vascular plants, using nanopore sequencing technology. We selected four liverwort species representing different lineages: &lt;i&gt;Riccia fluitans&lt;/i&gt;, &lt;i&gt;Apopellia endiviifolia&lt;/i&gt;, &lt;i&gt;Aneura pinguis&lt;/i&gt;, and &lt;i&gt;Scapania undulata&lt;/i&gt;. Through nanopore sequencing, we sequenced, assembled, and annotated the organellar g
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43

DOĞAN, Muhammet. "THE EFFECTS OF DIFFERENT SUCROSE CONCENTRATIONS ON THE REGENERATION AREA OF Riccia fluitans L., A MEDICINAL AQUATIC PLANT." Journal of Engineering Technology and Applied Sciences, August 22, 2020. http://dx.doi.org/10.30931/jetas.763863.

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44

Efremov, A., and K. Evzhenko. "CHECKLIST OF HIGHER AQUATIC PLANTS OF OMSK REGION." Transactions of Papanin Institute for Biology of Inland Waters RAS, April 28, 2021, 41–59. http://dx.doi.org/10.47021/0320-3557-2021-41-59.

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The article presents the results of generalizing the factual material on the diversity of hydromacrophytes from the divisions Marchantiophyta, Bryophyta and Magnoliophyta in the territory of the Omsk region. For each species the geographical frequency of occurrence in natural zones, the group of halobility and trophicity are indicated. For the region 176 species of higher hydromacrophytes have been identified. The division Magnoliophyta is distinguished by the greatest species diversity, which includes 116 species (65.9% of all higher hydromacrophytes), the division Bryophyta accounts for 49 s
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45

Hellwege, ElkeM, Karl-Josef Dietz, and Wolfram Hartung. "Abscisic acid causes changes in gene expression involved in the induction of the landform of the liverwort Riccia fluitans L." Planta 199, no. 1 (1996). http://dx.doi.org/10.1007/bf00196894.

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46

Özcan, Esra, Hasan Hüseyin Atar, Seyid Amjad Ali, and Muhammad Aasim. "Artificial neural network and decision tree–based models for prediction and validation of in vitro organogenesis of two hydrophytes—Hemianthus callitrichoides and Riccia fluitans." In Vitro Cellular & Developmental Biology - Plant, August 2, 2023. http://dx.doi.org/10.1007/s11627-023-10367-z.

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