Thematische Bibliographien / Polygonaceae A. L. Jussieu / Zeitschriftenartikel
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Zeitschriftenartikel zum Thema „Polygonaceae A. L. Jussieu“

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Veröffentlicht am 18. Mai 2024

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1

HSU, TIAN-CHUAN, und SHIH-WEN CHUNG. „Two new combinations in Polygonaceae for the Flora of Taiwan“. Phytotaxa 270, Nr. 1 (12.08.2016): 69. http://dx.doi.org/10.11646/phytotaxa.270.1.8.

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When preparing the Illustrated Flora of Taiwan, we noticed that new combinations are necessary for two endemic species in family Polygonaceae Jussieu (1789: 82), Polygonum pilushanense Y.C.Liu & C.H.Ou in Ou (1976: 123) and P. yatagaianum Mori (1937: 25), to fit recently revised taxonomic framework (Sanchez et al. 2009, 2011, Schuster et al. 2011, 2015). Brief notes on their taxonomic positions are also provided.
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Ferrer-Gallego, P. Pablo. „Polygonum orientale L. (Polygonaceae) nueva especie para la provincia de Valencia. Polygonum orientale L. (Polygonaceae) new species for the Valencian province“. Acta Botanica Malacitana 35 (01.12.2010): 143–45. http://dx.doi.org/10.24310/abm.v35i0.2869.

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Polygonum orientale L. (Polygonaceae) new species for the Valencian province. Palabras clave. Polygonum orientale, Polygonaceae, corología, Valencia. Key words. Polygonum orientale, Polygonaceae, chorology, Valencian province.
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3

Howard, Richard A. „Collected Notes on Coccoloba L. (Polygonaceae)“. Brittonia 44, Nr. 3 (Juli 1992): 356. http://dx.doi.org/10.2307/2806940.

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HEDBERG, OLOV. „The genus Koenigia L. emend. Hedberg (Polygonaceae)“. Botanical Journal of the Linnean Society 124, Nr. 4 (August 1997): 295–330. http://dx.doi.org/10.1111/j.1095-8339.1997.tb01999.x.

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5

Tupitsyna, N., und L. Krivobokov. „Knotgrasses (Polygonum L., Polygonaceae Juss.) of Buryatia“. Turczaninowia 17, Nr. 2 (2014): 87–94. http://dx.doi.org/10.14258/turczaninowia.17.2.12.

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6

Oliveira, Patrícia Emanuella S., Lucia M. Conserva und Rosangela P. L. Lemos. „Chemical constituents from Triplaris americana L. (Polygonaceae)“. Biochemical Systematics and Ecology 36, Nr. 2 (Februar 2008): 134–37. http://dx.doi.org/10.1016/j.bse.2007.06.001.

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7

Wang, Xinhui, Manana Khutsishvili, George Fayvush, Kamilla Tamanyan, Daniel Atha und Robert P. Borris. „Phytochemical investigations of Atraphaxis spinosa L (Polygonaceae)“. Biochemical Systematics and Ecology 77 (April 2018): 44–47. http://dx.doi.org/10.1016/j.bse.2018.02.001.

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8

Arduini, I., und A. Onnis. „Germination Requirements ofRumex Crispus L.(Polygonaceae) Seeds“. Giornale botanico italiano 128, Nr. 1 (Januar 1994): 113. http://dx.doi.org/10.1080/11263509409437030.

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9

Ford, Bruce Austin, Anh Tai Vu, Kim Thanh Nguyen und Julian Richard Starr. „Luzula effusa var. chinensis (Juncaceae): the first record for the wood-rush genus in Vietnam“. Phytotaxa 204, Nr. 2 (01.04.2015): 116. http://dx.doi.org/10.11646/phytotaxa.204.2.2.

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Mount Fansipan, situated in the Hoang Lien Son Range, supports a rich subtropical and temperate flora of over 1700 species, including 25% of Vietnam’s endemic plant taxa (Nguyen & Harder 1996, Sterling et al. 2006). At elevations above 2000 m, Mount Fansipan contains numerous temperate genera including Acer Linnaeus (19 spp., Sapindaceae Jussieu), Alnus Miller (A. nepalensis, Betulaceae Gray), Betula Linnaeus (B. alnoides Buchanan-Hamilton, Betulaceae), Carex Linnaeus (36 spp., Cyperaceae Jussieu), Clematis Linnaeus (9 spp., Ranunculaceae Jussieu), Lithocarpus Blume (13 spp., Fagaceae Dumortier), Quercus Linnaeus (9 spp., Fagaceae), Rhododendron Linnaeus (40 spp., Ericaceae Jussieu), Rubus Linnaeus (36 spp., Rosaceae Jussieu), Tsuga Carrière (T. dumosa Eichler, Pinaceae Sprengel ex F. Rudolphi), Ulmus Linnaeus (U. lancifolia Roxburgh, Ulmaceae Mirbel), Vaccinium Linnaeus (12 spp., Ericaceae), and Viola Linnaeus (12 spp., Violaceae Batsch) (Vietnam Plant Data Center 2015, Nguyen & Harder 1996) with many of these genera being both species-rich and locally common (Nguyen & Harder 1996, pers. obs.). In April 2012, a collection of a specimen, representing the temperate genus Luzula de Candolle (1805: 158), was made while conducting botanical studies on the Carex flora of Mount Fansipan, Lao Cai Province, Vietnam, which is about 30 km south of the border with Yunnan Province, China. While the specimen was immediately recognized as a Luzula, a new genus to the flora of Vietnam (Vietnam Plant Data Center 2015), it was not until our collection was identified using the keys in Wu & Clements (2000) and Kirschner (2002) that it was determined to be Luzula effusa Buchenau (1879: 88) (Figs. 1, 2). A Basic Alignment Search Tool (BLAST) search of an internal transcribed spacer region (ITS1+5.8S+ITS2) sequence obtained from our specimen (KM612280) showed a 100% match with an existing sequence for L. effusa var. chinensis (Brown 1903: 161) Wu (1992: 92) (AY727778.1, see Drábková & Vlcek 2010) in GenBank (National Center for Biotechnology Information 2014), supporting our identification based on morphology (Table 1). Eighteen other Luzula accessions, representing species placed in two different subgenera and four different sections, were found to have 100% coverage and 99% identity with the sequence from our specimen (National Center for Biotechnology Information 2014) (Table 1). In all cases, these sequences came from taxa that occur in regions that are more geographically disparate from Vietnam than the previously known closest location for L. effusa (see below). These taxa are also morphologically dissimilar to our specimen (see text below and Table 1).
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Tupitsyna, N. N., N. V. Hozyainova und I. V. Kuzmin. „KNOTGRASSES ( POLYGONUM L., POLYGONACEAE JUSS.) OF TYUMEN PROVINCE“. Turczaninowia 16, Nr. 3 (2013): 78–83. http://dx.doi.org/10.14258/turczaninowia.16.3.13.

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Garcia, Clemente, Julio Pastor und Teresa Luque. „Contribución al estudio cariológico del género Rumex (Polygonaceae)“. Acta Botanica Malacitana 14 (01.12.1989): 129–40. http://dx.doi.org/10.24310/abm.v14i.9345.

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Se estudian once especies del género Rumex de Andalucía Occidental encontrándose los siguientes números cromosómicos: R. angiocarpus Murb., n= 7 y 21, 2n= 42; R. roseus L. 2n= 20; R. induratus Boiss. & Reuter n= 20, 2n= 40; R. iruermedius DC. 2n= 14, 2n= 15; R. thyrsoides Desf. 2n= 14, 2n=15; R. crisp us L. 2n= 60; R. conglomeratus Murray n= 10, 2n= 20; R. pulcher L. n= 10, 2n= 20 y 40; R. palustris Sm. n= 30, 2n= 60; R. dentatus L. 2n= 40; R. bucephalophorus L. n= 8, 2n=16. De algunas especies se incluyen cariogramas indicándose así mismo las fórmulas idiogramáticas, tamaño aparente de cromo- somas y asimetría del cariotipo. Por los caracteres cariológicos se pueden separar cinco grupos que apoyan, en términos generales, la delimitación de los subgéneros considerados.
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Niroula, Bhabindra, und Praju Panta. „Phenology and seed germination behaviours of some wetland macrophytes at Biratnagar, Nepal“. Nepalese Journal of Biosciences 6, Nr. 1 (01.12.2016): 19–23. http://dx.doi.org/10.3126/njbs.v6i1.41792.

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Phenology, seed morphology, seed viability and germination behabiour of some wetland plants in control at moist filter paper in petridishes was carried out in wetland plants-Aeschynemone asper L. (Fabaceae); Eragrostis unioloides (Retz.) Nees exsteudel (Poaceae); Hygrophila auriculata (K. Schum) Heine (Acanthaceae); Pesicaria barbatum (L.) Hara (Polygonaceae); and Rumex dentatus L. (Polygonaceae) were studied at Biratnagar. Number of seeds per gram ranged between161-12722. Viable seeds of A. asper (98%) and P. barbatum (55%) had no germination but E. unioloides had cent percent germination; H. auriculata, and Rumex dentatus showed 96% germination. A.asper and E. unioloides germinated in early rainy; spent vegetative phase up to August- September; and completed flowering, fruiting and seed maturation before winter.
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Barroso, Isabel Cristina Ercolini, Fernando de Oliveira und Deborah Maria Ciarelli. „Morfologia da unidade de dispersão e germinação de Cordia sellowiana cham. e Cordia myxa l“. Bragantia 68, Nr. 1 (2009): 241–49. http://dx.doi.org/10.1590/s0006-87052009000100026.

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As unidades de dispersão das espécies Cordia sellowiana Cham. e Cordia myxa L. (Boraginaceae Jussieu) foram estudadas com ênfase em sua morfologia e no processo de germinação. Os frutos de Cordia sellowiana e de Cordia myxa são do tipo drupóide nuculânio. A protrusão da raiz primária, na primeira espécie, ocorre através de fenda longitudinal do pirênio, e na segunda, através de abertura do opérculo. A germinação, nas duas espécies, é do tipo fanerocotiledonar epígea. As plântulas apresentam cotilédones plicados.
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Jacinto-Pimienta, Selene Yuliet, José H. Rodolfo Mendoza-Hernández, Juan Manuel Zaldivar-Cruz, Ángel Sol-Sánchez, Luis Manuel Vargas-Villamil und Carlos Augusto Reyes-Sánchez. „El uso de componentes principales en la clasificación melisopalinológica de la miel de Apis mellifera L.“ Revista Mexicana de Ciencias Agrícolas, Nr. 14 (03.11.2017): 2831. http://dx.doi.org/10.29312/remexca.v0i14.454.

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Se colectaron 38 muestras de miel de Apis mellifera L. en seis municipios, pertenecientes a las cinco subregiones del estado de Tabasco, se realizó el análisis melisopalinologico obteniendo 37 tipos polínicos de importancia (>10%). Bursera simaruba L. (Burseraceae), Spondiasmombin (Anacardiaceae), Diphysa sp. (Fabaceae), Erythrina sp., (Fabaceae), Mimosa orthocarpa (Fabaceae), Pipersp1, sp2, sp3 (Piperaceae), Machaerium sp., (Fabaceae), Cecropia obtussifolia (Moraceae), Psidium guajava (Myrtaceae), Acalypha sp., (Euphorbiaceae), Celtis sp., (Ulmaceae), Heliocarpus appendiculatus (Tiliaceae), Conocarpus sp., (Combretaceae), Haematoxy lumcampechianum (Fabaceae), Mimosa albida (Fabaceae), Zea mays L. (Gramineae), Diphysacarthagenensis (Fabaceae), Quercus sp., (Fagaceae), Citrus sp., (Rutaceae), Cocos nucifera (Arecaceae), Mimosa sp., (Fabaceae), Mimosa pigra var. Berlandieri (Fabaceae), Eleocharis sp., (Cyperaceae), Rumex sp., (Polygonaceae), Eragrostis sp., (Poaceae), Spondiasradlkoferi (Anacardiaceae), Muntingiacalabura (Elaeocarpaceae), Asteraceae sp1, (Asteraceae), Borreriaverticillata (Rubiaceae), Coccolobaaff. Diversifolia (Polygonaceae), Quercusoleoides (Fagaceae). En general se clasificaron 22 muestras de miel multifloral, 9 monof loral y 7 bif loral. Y al realizar el ACP, se obtuvieron dos componentes que explican 65% de la variación total, mostrando que Cárdenas y Huimanguillo tienen afinidad por Bursera simaruba L. (Burseraceae) y Cecropiaobtussifolia (Moraceae), en cambio Centro, Tacotalpa y Balancán comparten preferencia por Mimosa albida (Fabaceae), Psidiumguajava (Myrtaceae) y Rumex sp. (Polygonaceae) y Centla en cambio mostró una clara diferencia con los 5 municipios restantes.
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15

Furness, Carol A. „Pollen morphology of Acanthopsis Harvey, Acanthus L. and Blepharis Jussieu (Acanthaceae: Acantheae)“. Review of Palaeobotany and Palynology 92, Nr. 3-4 (Mai 1996): 253–68. http://dx.doi.org/10.1016/0034-6667(95)00108-5.

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Ghédira, K., und P. Goetz. „Persicaire ou poivre d’eau Persicaria hydropiper (L.) Delarbre (Polygonaceae)“. Phytothérapie 14, Nr. 6 (Dezember 2016): 376–79. http://dx.doi.org/10.1007/s10298-016-1088-6.

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17

Liao, Qi, und Ruijiang Wang. „Lycium ningxiaense, a replacement name for Lycium parvifolium T.Y. Chen & Xu L. Jiang (Solanaceae)“. Phytotaxa 173, Nr. 4 (02.07.2014): 299. http://dx.doi.org/10.11646/phytotaxa.173.4.5.

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The genus Lycium Linnaeus (1753: 191) is one of the largest genera in Solanaceae Jussieu (1789: 124), with approximately 92 species in the monogeneric tribe Lycieae Hunziker (1977: 28; Levin et al. 2011). It is disjunctly distributed in temperate to subtropical regions between the northern and southern hemispheres, mainly in North America, South America, southern Africa, and Eurasia (Zhang et al. 1994, Fukuda et al. 2001). It is characterized by spiny shrubs and small trees, fasciculate leaves, campanulate calyx, and by fleshy and juicy berry. Traditionally Lycium berry has been used medicinally worldwide.
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Yano, Helena M., Edna T. M. Kato und Elfriede M. Bacchi. „Caracterização Farmacognóstica de Polygonum persicaria L.“ Revista do Instituto Adolfo Lutz 63, Nr. 2 (30.12.2004): 143–8. http://dx.doi.org/10.53393/rial.2004.63.34837.

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Polygonum persicaria L. (Polygonaceae) é uma planta empregada na medicina popular brasileira como anti-hemorroidal, antiúlcera e vermífuga. As folhas e os caules foram estudados sob os aspectos macro e microscópicos. Fotografias ilustram as descrições. O perfil cromatográfico em camada delgada do extrato foi obtido comparativamente com substâncias de referência. Esses dados em conjunto fornecem parâmetros de controle de qualidade da droga vegetal inteira ou fragmentada auxiliando a detecção de fraudes ou adulterações.
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Christenhusz, Maarten J. M., und Peter M. Hollingsworth. „The genome sequence of common knotgrass, Polygonum aviculare L. (Polygonaceae)“. Wellcome Open Research 9 (01.03.2024): 112. http://dx.doi.org/10.12688/wellcomeopenres.21001.1.

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We present a genome assembly from an individual Polygonum aviculare (common knotgrass; Eudicot; Magnoliopsida; Caryophyllales; Polygonaceae). The genome sequence is 351.6 megabases in span. Most of the assembly is scaffolded into 10 chromosomal pseudomolecules. The mitochondrial and plastid genome assemblies have lengths of 333.39 kilobases and 163.28 kilobases in length, respectively.
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Harshaw, Diane, Lutfun Nahar, Brahmachari Vadla, Gadria Saif-E-Naser und Satyajit Sarker. „Bioactivity of Rumex obtusifolius (Polygonaceae)“. Archives of Biological Sciences 62, Nr. 2 (2010): 387–92. http://dx.doi.org/10.2298/abs1002387h.

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Rumex obtusifolius L. (Polygonaceae), commonly known as 'broad-leaf dock', is one of the most common Irish wayside weeds, and it also occurs in silage fields, on river banks, in ditches and on waste grounds. The ethnobotanical uses of this species include its use as an antidote to nettle, depurative, astringent, laxative, and tonic, and in the treatment of sores, blisters, burns, cancer and tumors. The bioactivities of n-hexane, dichloromethane (DCM) and methanol (MeOH) extracts of the leaves of R. obtusifolius were assessed using the 2,2-Diphenyl-1-picrylhydrazyl (DPPH) assay, the newly developed micro-titer-based antimicrobial assay incorporating resazurin as an indicator of cell growth, and the brine shrimp lethality assay. The most potent free radical scavenging activity was displayed by the MeOH extract with a RC50 value of 7.80 x 10-2 mg/mL. Among the fractions obtained from solid-phase extraction (SPE) of the MeOH extract, the 50% aqueous methanolic SPE fraction exhibited the highest levels of free radical scavenging property (RC50 = 1.05 x 10-2 mg/mL). While the n-hexane extract did not show any antibacterial activity at test concentrations, the DCM extract was active only against Escherichia coli. However, the MeOH extract as well as the 50% and 80% SPE fractions of the MeOH extract showed significant antibacterial property against all bacterial strains tested. None of the extracts or fractions exhibited any significant toxicity towards brine shrimps.
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ORTIZ, SANTIAGO, ROI CARBAJAL und MIGUEL SERRANO. „A new species of Polygonum L. (Polygonaceae) from South Africa“. Botanical Journal of the Linnean Society 157, Nr. 1 (Mai 2008): 111–14. http://dx.doi.org/10.1111/j.1095-8339.2007.00768.x.

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Keshavarzi, Maryam, Akram Gholami und Zahra Nazem Bokaee. „Micromorphological study of some annual Polygonum L. (Polygonaceae) in Iran“. Nova Biologica Reperta 3, Nr. 4 (01.03.2017): 362–72. http://dx.doi.org/10.21859/acadpub.nbr.3.4.362.

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Corréa, Andréa Macédo, und Eliana Regina Forni-Martins. „Chromosomal studies of species of Rubiaceae (A. L. de Jussieu) from the Brazilian cerrado“. Caryologia 57, Nr. 3 (Januar 2004): 250–58. http://dx.doi.org/10.1080/00087114.2004.10589400.

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El Bakry, A. A, Mostafa, A. M. H und A. Alam Eman. „Antibacterial and antioxidant activities of seedlings of Rumex vesicarius L. (Polygonaceae)“. Journal of Medicinal Plants Research 7, Nr. 29 (03.08.2013): 2158–64. http://dx.doi.org/10.5897/jmpr2013.4444.

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Lima, Maria Angélica Suedan Souza, Anastacia Fontanetti, Renata Sebastiani, Nathalia de França Guimarães und Anderson de Souza Gallo. „Caracterização morfológica de azedinha (Rumex acetosa L.) (Polygonaceae) em ambiente controlado“. Brazilian Journal of Development 6, Nr. 7 (2020): 46851–68. http://dx.doi.org/10.34117/bjdv6n7-355.

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Segura Campos, Maira Rubi, Jorge Ruiz Ruiz, Luis Chel-Guerrero und David Betancur Ancona. „Coccoloba uvifera(L.) (Polygonaceae) Fruit: Phytochemical Screening and Potential Antioxidant Activity“. Journal of Chemistry 2015 (2015): 1–9. http://dx.doi.org/10.1155/2015/534954.

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The flora of Latin America attracts gaining interest as it provides a plethora of still unexplored or underutilized fruits that can contribute to human well-being due to their nutritional value and their content of bioactive compounds. Antioxidant compounds are now of considerable interest due to their effect of preventing or delaying aging and their apparent involvement in prevention of numerous human diseases, including cancer, atherosclerosis, Alzheimer’s disease, inflammation, and rheumatoid arthritis. In this work, the fruit ofCoccoloba uvifera(L.) was investigated for theirin vitroantioxidant capacity using two assays based on reactions with a relatively stable single reagent radical (Trolox equivalent antioxidant capacity, TEAC; and DPPH free radical scavenging assay, DPPH), two assays based on chelating of metallic cations, and one based on the reduction of oxidized species. The TEAC value on ABTS radical, DPPH scavenging activity, ion chelation, and reducing power were found to be 897.6 μM of Trolox/100 g of sample, 22.8% of DPPH free radical scavenging, 11.3% of Cu2+-chelating activity, 23.9% of Fe2+-chelating activity, and a Fe2+-reducing power of 0.76 mg/mL, respectively. The free radical scavenging and antioxidant characteristics ofC. uviferamay be due to the presence of diverse phytochemicals in the fruit as anthocyanins, ascorbic acid, phenolic compounds, and flavonoids.
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Raju, Aluri Jacob Soloman, V. Kanaka Raju, P. Victor und S. Appala Naidu. „Floral ecology, breeding system and pollination in Antigonon leptopus L. (Polygonaceae)“. Plant Species Biology 16, Nr. 2 (August 2001): 159–64. http://dx.doi.org/10.1046/j.1442-1984.2001.00060.x.

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Maksimović, Zoran, Nada Kovačević, Branislava Lakušić und Tatjana Ćebović. „Antioxidant activity of yellow dock (Rumex crispus L., Polygonaceae) fruit extract“. Phytotherapy Research 25, Nr. 1 (23.12.2010): 101–5. http://dx.doi.org/10.1002/ptr.3234.

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Kong, Min-Jung, Jun-Ho Song, Beom-Cheol An, Sung-Won Son, Gang-Uk Suh, Mi-Jin Chung und Suk-Pyo Hong. „A comparative study of achene morphology in Korean Polygonaceae“. Bangladesh Journal of Plant Taxonomy 25, Nr. 2 (29.12.2018): 135–48. http://dx.doi.org/10.3329/bjpt.v25i2.39536.

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A comparative macro- and micromorphological study was conducted on achenes of Korean Polygonaceae comprising 45 taxa under 10 genera using a Stereo-microscope (SM) and Scanning Electron Microscope (SEM) to evaluate the taxonomical relevance of achene morphological characteristics. The achene shape is lenticular, biconvex, trigonous, or spheroidal. The largest achenes are found in Fagopyrum esculentum Moench (5.80–6.70 × 3.90–4.40 mm) and Rheum rhabarbarum L. (5.00–6.50 × 4.00–5.20 mm), and the smallest is found in Rumex maritimus L. (1.17–1.41 × 0.60–0.84 mm). Three types of embryo shape (curved, straight, and folded) and two types of embryo position (plane and parietal) can be distinguished. Most taxa have a curved embryo shape with plane position. Four types of surface patterns (smooth, papillae, tuberculate, or small pits) are observed. The surface sculpture or embryo type is rather consistent at the generic or tribal level, and the comprehensive consideration of achene characteristics is also useful at the species level. The achene morphology is described in detail, compared, and illustrated. The taxonomic significance of the achene morphology is discussed.
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Ćulafić, Ljubinka, Aleksandra Samofalova und Mirjana Nešković. „In vitro organogenesis in two dioecious species, Rumex acetosella L. and R. acetosa L. (Polygonaceae)“. Plant Cell, Tissue and Organ Culture 11, Nr. 2 (Januar 1987): 125–31. http://dx.doi.org/10.1007/bf00041845.

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Barroso, Isabel Cristina Ercolini, und Fernando de Oliveira. „Caracterização farmacognóstica dos frutos de Cordia sellowiana Cham. e de Cordia myxa L. (Boraginaceae Jussieu)“. Revista Brasileira de Farmacognosia 19, Nr. 2a (Juni 2009): 458–70. http://dx.doi.org/10.1590/s0102-695x2009000300021.

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Benítez-Apodaca, Fátima, Nilda Elizabeth Portillo-Torales, Eliana Andrea Alvarenga-Torres, Tomás Rodrigo López-Arias, Yessica Cáceres, Mario Ricardo Galeano-Chena, Rocío Lucía Beatriz Riveros-Maidana, María Eugenia Laterza, Bonifacia Benítez-de Bertoni und Gloria Yaluff. „Evaluación biológica in vitro del extracto etanólico de Kaa tái, Polygonum punctatum Elliot. (POLYGONACEAE)“. Memorias del Instituto de Investigaciones en Ciencias de la Salud 20, Nr. 2 (01.08.2022): 6–12. http://dx.doi.org/10.18004/mem.iics/1812-9528/2022.020.02.06.

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En Paraguay, así como en las Américas, la leishmaniasis constituye una de las problemáticas de salud pública importante, debido a su complejidad tanto epidemiológica, clínica y biológica, afectando especialmente a los más pobres y en los países en vía de desarrollo. Polygonum punctatum Elliot. pertenece a la familia Polygonaceae, la medicina popular le atribuye varias propiedades, por medio de estudios anteriores se confirma que diferentes extractos de esta planta presentan actividad antibacteriana, antiinflamatoria y antifúngica. En este trabajo, se evaluó la actividad citotóxica del extracto etanólico de Polygonum punctatum de la familia Polygonaceae en concentraciones de 100, 50 y 25 µg/ml en células de macrófagos de ratones, en los cuales no se encontró actividad citotóxica. Además, se evaluó la actividad leishmanicida por medio de estudios experimentales in vitro a concentraciones de 100, 75, 50, 25, 20 y 10 µg/ml frente a tres cepas de parásitos: Leishmania infantum, L. amazonensis y L. braziliensis, en los cuales se observó una actividad de 58 y 56% de lisis de parásitos con el extracto de 100µg/ml frente a las cepas de L. braziliensis y L. infantum, respectivamente y 51% para L. amazonensis. Estos resultados son prometedores, y aportan una base para el desarrollo y búsqueda de nuevos tratamientos para la leishmaniasis, sin embargo, son necesarios estudios posteriores en cuanto a aislamiento e identificación del compuesto y evaluación en modelos animales in vivo.
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Mitich, Larry W. „Redroot Pigweed (Amaranthus retroflexus)“. Weed Technology 11, Nr. 1 (März 1997): 199–202. http://dx.doi.org/10.1017/s0890037x00041579.

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“… To the ground, With solemn adoration, down they cast Their crowns, inwove with amaranth and gold. Immortal amaranth, a flower which once In Paradise, fast by the tree of life, Began to bloom.”–John Milton (1608–1676), Paradise LostRedroot pigweed (Amaranthus retroflexus L.), one of the New World's major weeds, was described in 1753 by Carolus Linnaeus in Species Plantarum. Over three decades later (1789), the genu wa placed in Amaranthaceae by Antoine Laurent de Jussieu (1748–1836) (Britton and Brown 1898). Amaranthaceae belongs to Centrospermae, a group of familie that contain betalain pigments instead of the anthocyanins found in most other angiosperms; it is closely related to Chenopodiaceae (Heywood 1993).
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Ripka, Géza, Enikő Kiss, Jenő Kontschán und Árpád Szabó. „Description of two new eriophyid species (Acari: Acariformes: Eriophyoidea) from Hungary“. Systematic and Applied Acarology 26, Nr. 5 (05.05.2021): 928–41. http://dx.doi.org/10.11158/saa.26.5.8.

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Two new species of eriophyoid mites were discovered in Hungary, viz. Aculodes caespiticolus sp. nov. collected from Sesleria sadleriana Janka (Poaceae) and Aceria cumaniamajoris sp. nov. found on Polygonum aviculare L. (Polygonaceae). Detailed morphological description of female, male and nymph is given. A key to Aculodes spp. already known from Hungary is given.
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Высочина (Vysochina), Галина (Galina) Ивановна (Ivanovna). „ANTHRAQUINONES AND BIOLOGICAL ACTIVITY OF SPECIES OF THE GENUS RHEUM L. (POLYGONACEAE) (REVIEW)“. chemistry of plant raw material, Nr. 4 (11.12.2018): 29–41. http://dx.doi.org/10.14258/jcprm.2018043785.

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The review of materials on the composition and biological activity of anthraquinones of species of the genus Rheum L. The most well-studied are the representatives of "forest rhubarb", which evolved in the forests of Central and Northern China: Rheum palmatum L., R. officinale Baill., R. emodi Wall. ex Meissn., R. rhabarbarum L. (= R. undulatum L.) and R. compactum L. (= R. rhaponticum L.). The official rhubarb is the Tungut rhubarb R. palmatum L. var. tanguticum Regel, known on the international pharmaceutical market as "Chinese rhubarb". The main aglykones of rhubarb anthraquinones are chrysofanol, emodin, aloe-emodin, fisсion and rhein. Particular attention is paid to various aspects of their impact on the processes that accompany oncological diseases. Emodin was found to inhibit cell proliferation, induce apoptosis induction, and prevent metastases. Emodin and aloe-emodin have high cytotoxic activity against oral squamous cell carcinoma and salivary gland cancer. Rhein inhibits the absorption of glucose in tumor cells and leads to their death. Anthraquinone glycosides, in contrast to aglycons, exhibit moderate cytotoxic activity. Other types of biological activity have been investigated - antimicrobial, antiviral, immunomodulating, antioxidant, molluscicidal etc. It follows from the presented materials that species of the genus Rheum containing anthracene derivatives are promising for practical use and further study.
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Gohil, R. N., und G. M. Rather. „Cytogenetic studies of some members of Polygonaceae of Kashmir. III Rheum L.“ CYTOLOGIA 51, Nr. 4 (1986): 693–700. http://dx.doi.org/10.1508/cytologia.51.693.

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Liu, Pei-Liang, Wei Shi, Jun Wen, Shomurodov Khabibullo Fayzullaevich und Borong Pan. „A phylogeny of Calligonum L. (Polygonaceae) yields challenges to current taxonomic classifications“. Acta Botanica Brasilica 35, Nr. 2 (Juni 2021): 310–22. http://dx.doi.org/10.1590/0102-33062020abb0116.

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Łazarski, Grzegorz, und Artur Pliszko. „First record of Koenigia divaricata (L.) T.M.Schust. & Reveal (Polygonaceae) in Poland“. BioInvasions Records 12, Nr. 4 (2023): 909–17. http://dx.doi.org/10.3391/bir.2023.12.4.04.

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Pavlenko, A. V. „A new species of the genus Calligonum (Polygonaceae) from Turkmenistan“. Novitates Systematicae Plantarum Vascularium, Nr. 49 (2018): 51–55. http://dx.doi.org/10.31111/novitates/2018.49.51.

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A new species Calligonum inerme Kamelin, Gorelova et A. Pavlenko is described from the Badkhyz highland in South-East Turkmenistan. This species is similar to C. junceum (Fisch. et C. A. Mey.) Litv. by habit and morphology of vegetative organs, but differs from this and other species of the genus Calligonum L. by glabrous nutlets without wings or bristles.
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Ziburski, Albrecht, Joachim W. Kadereit und Peter Leins. „Quantitative Aspects of Hybridization in Mixed Populations of Rumex obtusifolius L. and R. crispus L. (Polygonaceae)“. Flora 178, Nr. 4 (1986): 233–42. http://dx.doi.org/10.1016/s0367-2530(17)31501-3.

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Espinosa-García, Francisco Javier Javier. „Adiciones a la flora arvense del Valle de México“. Botanical Sciences, Nr. 41 (30.03.2017): 27. http://dx.doi.org/10.17129/botsci.1245.

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<p>The presence of two genera represented by three species, is reported for the first time in the Valley of Mexico: Kickxia elatine ssp. crinita (Scrophulariaceae), Lamium amplexicaule and L . purpureum (Labiatae). Descriptions and keys to distinguish these plants from related taxa are provided. Additional data concerning Polygonium convolvulus (Polygonaceae), a weed recently detected, are included.</p>
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Podgurskaya, Vera Viktorovna, Elena Aleksandrovna Luksha, Elena Sergeyevna Gushchina, Irina Aleksandrovna Savchenko, Irina Nikolayevna Korneeva und Galina Il'inichna Kalinkina. „BIOLOGICAL ACTIVITY OF THE GENUS RUMEX (POLYGONACEAE) PLANTS“. chemistry of plant raw material, Nr. 2 (10.06.2021): 59–78. http://dx.doi.org/10.14258/jcprm.2021027498.

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The review provides information on the biological activity of 26 species of the genus Rumex L. based on the results of studies for the period of 2014-2019. Information search and scientometric analysis were carried out using the resources of the Scopus scientific database. The annual number of scientific publications related to plants of the genus Rumex persists at a fairly high level (more than 100 publications per year). It was found that the most studied species in terms of biological activity and composition are R. acetosa, R. crispus, R. dentatus, R. nervosus, R. obtusifolius, R. vesicarius, which showed the presence of antihypertensive, antiosteoporotic, antiviral, nephro- and hepatoprotective and other types of activity in pharmacological studies. Articles describing mechanisms of the extracts’ active substances’ biological effects are presented, but this information is fragmentary. The chemical composition has been studied mainly for officinal species. A number of species – R. alveolatus, R. aquaticus, R. conglomeratus, R. hastatus, R. lunaria, R. maritimus, R. occidentalis, etc. – are promising for further study as the various extracts of these plants showed antibacterial, cytoprotective, antitumor, antihyperglycemic activity, the ability to stimulate hair growth and fight hyperpigmentation.
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Al Kazman, Bassam S. M., Joanna E. Harnett und Jane R. Hanrahan. „Traditional Uses, Phytochemistry and Pharmacological Activities of Annonacae“. Molecules 27, Nr. 11 (27.05.2022): 3462. http://dx.doi.org/10.3390/molecules27113462.

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In 1789, the Annonaceae family was catalogued by de Jussieu. It encompasses tropical and subtropical plants which are widespread in distribution across various continents such as Asia, South and Central America, Australia and Africa. The genus of Annona is one of 120 genera of the Annonaceae family and contains more than 119 species of trees and shrubs. Most species are found in tropical America, where over 105 species have been identified. Due to its edible fruits and medicinal properties, Annona is the most studied genus of Annonaceae family. To date, only a limited number of these species have economic value, including A. squamosa L. (sugar apple), A. cherimola Mill. (Cherimoya), A. muricata L. (guanabana or soursop), A. atemoya Mabb. (atemoya), a hybrid between A. cherimola and A. squamosa, A. reticulata L. (custard apple), A. glabra L. (pond-apple) and A. macroprophyllata Donn. Sm. (ilama). Phytochemically, several classes of secondary metabolites, including acetogenins, essential oils, alkaloids, terpenoids and flavonoids. The pharmacological activities of Annona species leaves and seeds include antibacterial, anticancer, antidiabetic and anti-inflammatory properties.
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Demirezer, Ömür L., und Ayşe Kuruüzüm. „Rapid and Simple Biological Activity Screening of Some Rumex Species; Evaluation of Bioguided Fractions of R. scutatus and Pure Compounds“. Zeitschrift für Naturforschung C 52, Nr. 9-10 (01.10.1997): 665–69. http://dx.doi.org/10.1515/znc-1997-9-1014.

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Methanolic extracts of 11 Rumex L. species (Polygonaceae) were examined against brine shrimp and R. scutatus L. has shown significant brine shrimp lethality (LC50=0.96 μg/ml). Methanolic extracts of the roots of R. scutatus were fractionated and the active fraction led to the isolation of 4 anthraquinone aglycones: emodin, chrysophanol, physcion and aloe emodin. Their toxic sequence was found as chrysophanol> aloe emodin> emodin> physcion. These anthraquinone aglycones showed a significant activity with LC50=0.00, LC50=0.01, LC50=0.05, LC50=0.15 μg/ml, respectively
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Zhang, Suping, Bingao Guo, Sheqi He und Yanxia He. „Characterization of the complete chloroplast genome of Rumex dentatus L. (Polygonaceae)“. Mitochondrial DNA Part B 7, Nr. 3 (04.03.2022): 546–47. http://dx.doi.org/10.1080/23802359.2022.2054380.

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Mahla, Soleimani, Jafari Azarnoosh, Nejad Shahrokhabady Khadijeh und Amiri Moghadam Dorrieh. „Comparative Anatomical and Palynological Studies on Rumex L. species (Polygonaceae) in NE Iran“. Greener Journal of Biological Sciences 4, Nr. 4 (09.05.2014): 111–15. http://dx.doi.org/10.15580/gjbs.2014.4.041714190.

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Fan, Kai, Xiao-Jie Sun, Min Huang und Xu-Mei Wang. „The complete chloroplast genome sequence of the medicinal plant Rheum palmatum L. (Polygonaceae)“. Mitochondrial DNA Part A 27, Nr. 4 (08.07.2015): 2935–36. http://dx.doi.org/10.3109/19401736.2015.1060448.

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Cebovic, Tatjana, Dunja Jakovljevic, Zoran Maksimovic, Snezana Djordjevic, Sanja Jakovljevic und Dragana Cetojevic-Simin. „Antioxidant and cytotoxic activities of curly dock (Rumex crispus L., Polygonaceae) fruit extract“. Vojnosanitetski pregled 77, Nr. 3 (2020): 308–16. http://dx.doi.org/10.2298/vsp170713084c.

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Background/Aim. Congenital malformations still represent one of the most important causes of prenatal and infant death. The study aim was to analyze occurrence, outcomes and risk factors of different types of congenital anomalies. Methods. The study included all pregnant women directed to Clinic of Obstetrics and Gynecology, Clinical Center of Serbia, Belgrade due to prenatally diagnosed congenital fetal anomalies during past ten years (January 1, 2008?December 31, 2017). Upon admission to our Clinic a detailed general medical and obstetrical history were taken from every patient. All women underwent genetic testing. Ultrasonography and magnetic resonance were diagnostic methods for fetal malformations confirmation. Results. The study included 773 pregnant women aged from 18 to 46 years. Out of registered nine different groups of fetal anomalies/malformations, the most common were malformations of the central nervous system, while majority of fetuses had combined multiple anomalies. Genetic cause for congenital anomalies was present in 25.2% of pregnancies. Medical pregnancy abortion was performed in 71.8% of cases. Only 10.2% of pregnancies ended in term. The best outcome for children was obtained in case of gastrointestinal anomalies (52% live born). Contrary, only one child with neck and thorax malformations could be saved. According to logistic regression the most important predictor of having a child with combined multiple anomalies was mother?s age, while predictor of central nervous system anomalies was gestational diabetes. The significant predictor of genetic anomalies was mother?s age. Conclusion. In our sample neurological congenital anomalies were the most common, although abnormalities of all organ systems were registered. Majority of pregnancies had to be discontinued due to combined multiple anomalies caused by genetic disorders. Older mother?s age and diabetes can imply on the increased risk for fetal malformations.
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Marcysiak, Katarzyna. „Morphological differentiation of Polygonum viviparum (Polygonaceae) in European populations“. Polish Botanical Journal 58, Nr. 2 (01.12.2013): 639–51. http://dx.doi.org/10.2478/pbj-2013-0070.

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AbstractThe variation of Polygonum viviparum L. in Europe was studied in 584 plants sampled from 14 populations at different altitudes and from different substrates in the Carpathians, Alps, Dinaric Alps, Pyrenees and Scandinavian Mts. The samples were analyzed biometrically, using 12 measured stem and inflorescence characters and 10 characters calculated from those 12. The obtained ranges of values were only slightly wider than those given in the literature. All characters significantly differed between populations and six characters were statistically significant in identifying differences between regions. Altitude, substrate and the interactions between them significantly affected the differences in characters between samples. The values of most of the measured characters were lower in samples from higher locations and on poor substrate than in those from lower localities and on rich substrate. Substrate type affected the calculated characters less but it influenced the shift between vegetative and generative reproduction. Multidimensional analyses confirmed the proximity of samples from regions either geographically close or linked via routes of postglacial migrations, despite altitude and substrate differences between them.
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Ömür, L., und Ayşe Kuruüzüm. „Notes: Determination of the Cytotoxicity of Rumex crispus during the Vegetation Period Using a Brine Shrimp Bioassay“. Zeitschrift für Naturforschung C 50, Nr. 5-6 (01.06.1995): 461–62. http://dx.doi.org/10.1515/znc-1995-5-620.

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The percentage of anthraquinone glycosides in the roots of Rumex crispus L. (Polygonaceae) is significantly greater than in other parts of the plant. The roots of R. crispus in different vegetation stages were investigated with regard to anthraquinone glycoside content. Their toxicity towards shrimp were also tested during the vegetation period. The data showed that the percentage of anthraquinone glycosides as well as the toxic effect on the shrimp increased during the vegetation period.
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