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Journal articles on the topic 'Monadenium'

Author: Grafiati
Published: 4 June 2021
Last updated: 28 July 2025

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1

Gilbert, M. G. "Notes on Monadenium in Ethiopia." Bradleya 8, no. 8 (1990): 45–47. http://dx.doi.org/10.25223/brad.n8.1990.a4.

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2

Gundidza, Muzuru. "Insecticidal Activity of Monadenium lugardae Latex." Planta Medica 52, no. 06 (1986): 558. http://dx.doi.org/10.1055/s-2007-969374.

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3

Malaisse, F., and J. M. Lecron. "Un nouveau Monadenium (Euphorbiaceae) du Shaba (Zaire)." Bulletin du Jardin botanique national de Belgique / Bulletin van de National Plantentuin van België 59, no. 3/4 (1989): 478. http://dx.doi.org/10.2307/3668366.

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4

Carter, Susan. "Two new species of Monadenium (Euphorbiaceae) from Somalia." Nordic Journal of Botany 13, no. 5 (1993): 541–43. http://dx.doi.org/10.1111/j.1756-1051.1993.tb00097.x.

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5

Malaisse, F. "Un nouveau Monadenium (Euphorbiaceae) a feuilles en rosette du Zaire." Bulletin du Jardin botanique national de Belgique / Bulletin van de National Plantentuin van België 56, no. 3/4 (1986): 487. http://dx.doi.org/10.2307/3668206.

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6

Carter, Susan. "Taxonomic Changes in Monadenium and Synadenium (Euphorbiaceae) for Flora Zambesiaca." Kew Bulletin 55, no. 2 (2000): 435. http://dx.doi.org/10.2307/4115657.

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7

Carter, Susan. "New Taxa and Observations in Monadenium (Euphorbiaceae) in East Africa." Kew Bulletin 42, no. 4 (1987): 903. http://dx.doi.org/10.2307/4109935.

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8

Malaisse, F., and J. M. Lecron. "Monadenium cupricola, Euphorbiacee nouvelle des gisements cupro-cobaltiferes du Shaba (Zaire)." Bulletin du Jardin botanique national de Belgique / Bulletin van de National Plantentuin van België 60, no. 3/4 (1990): 301. http://dx.doi.org/10.2307/3668221.

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9

Gundidza, Mazuru. "Activity of Citric Acid Extract from Monadenium lugardiae on Guinea Pig Ileum." Planta Medica 55, no. 01 (1989): 109. http://dx.doi.org/10.1055/s-2006-961883.

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10

Wei, Neng, Fredrick Munyao Mutie, Geoffrey Mwachala, Olwen M. Grace, Guang-Wan Hu, and Qing-Feng Wang. "Euphorbia mbuinzauensis, a new succulent species in Kenya from the Synadenium group in Euphorbia sect. Monadenium (Euphorbiaceae)." PhytoKeys 183 (October 11, 2021): 21–35. http://dx.doi.org/10.3897/phytokeys.183.70285.

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Euphorbia mbuinzauensis, a succulent new species of the Synadenium group in Euphorbiaceae from Makueni County, Kenya, is described and illustrated. Morphologically, it is most similar to E. pseudomollis, but differs mainly by its shrubby habit (up to 4 m), abaxial leaves surfaces with densely stellate hairs, 2–4-forked cymes, smaller bracts (ca. 2.5 × 3.0 mm), smaller cyathia (6 mm wide), crimson glands without narrow smooth margin, smaller fruits (ca. 8 × 7 mm) and ovoid seeds (ca. 1.8 × 2.2 mm). Furthermore, we performed a molecular phylogenetic analysis of the Synadenium group in Euphorbia
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11

Wei, Neng, Fredrick Munyao Mutie, Geoffrey Mwachala, Olwen M. Grace, Guang-Wan Hu, and Qing-Feng Wang. "Euphorbia mbuinzauensis, a new succulent species in Kenya from the Synadenium group in Euphorbia sect. Monadenium (Euphorbiaceae)." PhytoKeys 183 (October 11, 2021): 21–35. https://doi.org/10.3897/phytokeys.183.70285.

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Euphorbia mbuinzauensis, a succulent new species of the Synadenium group in Euphorbiaceae from Makueni County, Kenya, is described and illustrated. Morphologically, it is most similar to E. pseudomollis, but differs mainly by its shrubby habit (up to 4 m), abaxial leaves surfaces with densely stellate hairs, 2–4-forked cymes, smaller bracts (ca. 2.5 × 3.0 mm), smaller cyathia (6 mm wide), crimson glands without narrow smooth margin, smaller fruits (ca. 8 × 7 mm) and ovoid seeds (ca. 1.8 × 2.2 mm). Furthermore, we performed a molecular phylogenetic analysis of the Synadenium group in Euphorbia
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12

Malaisse, F. "Un Monadenium remarquable (Euphorbiacee) des forets claires de piemont du plateau des Kundelungu (Zaire)." Bulletin du Jardin botanique national de Belgique / Bulletin van de National Plantentuin van België 60, no. 3/4 (1990): 295. http://dx.doi.org/10.2307/3668220.

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13

Maroyi, Alfred. "Plant species from the Euphorbiaceae (spurge) family used for medicinal purposes in Zimbabwe: A review." Boletin Latinoamericano y del Caribe de Plantas Medicinales y Aromaticas 23, no. 2 (2024): 160–79. http://dx.doi.org/10.37360/blacpma.24.23.2.12.

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The present review was aimed at documenting medicinal uses of species of the Euphorbiaceae family in Zimbabwe. Literature was collected from online databases such as BioMed Central, Web of Science, Springerlink, Google Scholar, Scielo, PubMed, Science Direct, ACS Publications, Scopus and JSTOR. This study showed that 29 species are used to manage human and animal diseases in Zimbabwe. These species are used against 49 medical conditions, mainly as ethnoveterinary medicine (21 use reports), and traditional medicine against respiratory (23 use reports), gastro-intestinal (14 use reports), male r
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14

Pettit, George R., Qinghua Ye, Delbert L. Herald, et al. "Isolation and Structure of Cancer Cell Growth Inhibitory Tetracyclic Triterpenoids from the Zimbabwean Monadenium lugardae." Journal of Natural Products 79, no. 6 (2016): 1598–603. http://dx.doi.org/10.1021/acs.jnatprod.6b00107.

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15

Pierce, Harold G. "The nonmarine mollusks of the Late Oligocene–Early Miocene Cabbage Patch fauna of western Montana. II. Terrestrial gastropod families other than Pupillidae (Pulmonata: Stylommatophora)." Journal of Paleontology 66, no. 4 (1992): 610–20. http://dx.doi.org/10.1017/s0022336000024471.

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The remaining terrestrial gastropod fauna of the late Oligocene–early Miocene Cabbage Patch beds of western Montana is composed of nine new species, all from extant genera now occurring in the western United States: Vallonia berryi, [Succineidae] montana, Nesovitrea pulchra, Deroceras securis, D. mahiz, Punctum alveus, Polygyroidea montivaga, Oreohelix brandi, and Monadenia? n. sp. A, which is described from neanic material. All except the Monadenia? represent first occurrences of the respective genus in North America. The terrestrial fauna suggests that climatic and environmental conditions d
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16

Johnson, S. D. "Moth pollination of the cryptic Cape orchid Monadenia ophrydea." Flora 190, no. 2 (1995): 105–8. http://dx.doi.org/10.1016/s0367-2530(17)30638-2.

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17

Shileĭko, A. A. "Guamampa n.g. (Gastropoda, Pulmonata), a bradybaenid land snail with monadeniid characters." Bulletin du Muséum national d'histoire naturelle 18, no. 3 (1996): 401–8. http://dx.doi.org/10.5962/p.290339.

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18

Sullivan, Robert M. "Microhabitat Characteristics and Management of the Trinity Bristle Snail in the Greater Trinity Basin of Northern California." California Fish and Wildlife Journal 108, no. 1 (2022): 49–74. http://dx.doi.org/10.51492/cfwj.108.3.

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Microhabitat assessment of the Trinity bristle snail (Monadenia setosa), a state threatened species, was conducted at 88 randomly selected sites throughout its known geographic range in northern California. Nineteen abiotic and biotic environmental variables were measured for each site. Results of univariate and multivariate analyses indicate that sample sites were dominated by physical parameters of air and soil temperature, and elevation and exposure in association with habitat structure consisting of the presence, size, and nearness of large woody debris, rocky surface and subsurface struct
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19

Sullivan, Robert M. "Macrohabitat suitability model for the Trinity bristle snail in the Greater Trinity Basin of northern California." California Fish and Wildlife Journal 108, no. 1 (2022): 16–48. http://dx.doi.org/10.51492/cfwj.108.2.

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Analytical methods used to identify species-specific suitability of habitat include statistical habitat distribution models. Habitat type is the most reliable predictor of species occurrence in a particular area. Here, I developed a spatially explicit landscape-level suitability framework using metrics derived from forest, climatic, and topographic criteria for the Trinity bristle snail (Monadenia setosa). I conducted surveys to document locations of Trinity bristle snails and then performed spatial analysis of ecological variables in a geographic information systems (GIS) framework using poin
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20

Oswald, Jessica A., Barry Roth, Trevor M. Faske, et al. "Population genomics of Monadenia (Gastropoda: Stylommatophora: Xanthonychidae) land snails reveals structuring but gene-flow across distinct species and morphotypes." Conservation Genetics 23, no. 2 (2021): 299–311. http://dx.doi.org/10.1007/s10592-021-01410-w.

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21

Sullivan, Robert M. "Phylogenetic relationships among subclades within the Trinity bristle snail species complex, riverine barriers, and re-classification." California Fish and Wildlife Journal, CESA Special Issue (July 6, 2021): 107–45. http://dx.doi.org/10.51492/cfwj.cesasi.6.

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The Trinity bristle snail (Monadenia setosa) is listed as a threatened species under the California Endangered Species Act (CESA). In northern California, populations of this endemic terrestrial gastropod occur in rare, isolated, and highly fragmented locations within the greater Trinity Basin. Since 1952 when it was originally described, the taxonomic status of the Trinity bristle snail has been questioned based on unpublished information limited in geographic scope and sample size, which resulted in the taxon being reduced from species status (M. setosa) to subspecific status (M. i. setosa)
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22

Sullivan, Robert M. "Macroscale Habitat Assessment and Suitability Modeling of Riverine-Segregated Eco-Geographic Units of Church’s Sideband (Monadenia churchi), within and surrounding the Greater Trinity Basin, Northern California, USA." International Journal of Zoology and Animal Biology 7, no. 3 (2024): 1–23. http://dx.doi.org/10.23880/izab-16000586.

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Church’s Sideband (Monadenia churchi) is a medium-sized endemic terrestrial snail with a broad geographic distribution. It provides an excellent opportunity to evaluate habitat variance across a diverse geologic, topographic, and ecologic landscape. Herein I document and model variance in macrohabitat characteristics of five riverine-segregated Eco-geographic Units (populations) within the range of the species (Mad and Sacramento rivers, and Northern, South-Central, and Western basins). The most common forest cover-types were Sierra Mixed Conifer (49.6%), Douglas Fir (14.1%), and Montane Hardw
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23

Denver, Dee, Dana K. Howe, Andrew J. Colton, Casey H. Richart, and Rory J. Mc Donnell. "The biocontrol nematode Phasmarhabditis hermaphrodita infects and increases mortality of Monadenia fidelis, a non-target terrestrial gastropod species endemic to the Pacific Northwest of North America, in laboratory conditions." PLOS ONE 19, no. 3 (2024): e0298165. http://dx.doi.org/10.1371/journal.pone.0298165.

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Inundative biological control (biocontrol) efforts in pest management lead to the mass distribution of commercialized biocontrol agents. Many ‘biocontrol gone awry’ incidents have resulted in disastrous biodiversity impacts, leading to increased scrutiny of biocontrol efforts. The nematode Phasmarhabditis hermaphrodita is sold as a biocontrol agent on three continents and targets pest gastropods such as Deroceras reticulatum, the Grey Field Slug; P. hermaphrodita is not presently approved for use in the United States. Investigations into the potential for P. hermaphrodita to infect non-target
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24

Singh, Rajeev Kumar. "Nomenclatural novelties in Euphorbiaceae." May 3, 2025. https://doi.org/10.5281/zenodo.15331461.

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Replacement names <em>Croton lallanii</em><strong> </strong>R.Kr.Singh, <em>C. vishwanathii</em> R.Kr.Singh and <em>Euphorbia charitontcevii</em> R.Kr.Singh are proposed here for the illegitimate names<em> Croton chevalieri</em> Gagnep., <em>C. insignis</em> Glaz. ex Sodr&eacute; &amp; M.J.Silva and <em>Euphorbia pseudoesula</em> Charit. respectively. In the genus <em>Euphorbia</em> L., a new name <em>E. sangeetae</em> R.Kr.Singh is proposed here for <em>Stenadenium spinescens</em> Pax. Two new combinations <em>Euphorbia compacta</em> (N.E.Br.) R.Kr.Singh and <em>E. compacta</em> var. <em>rubr
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25

Nyahangare, Emmanuel T., Brighton M. Mvumi, Lyndy J. McGaw, and Jacobus N. Eloff. "Addition of a surfactant to water increases the acaricidal activity of extracts of some plant species used to control ticks by Zimbabwean smallholder farmers." BMC Veterinary Research 15, no. 1 (2019). http://dx.doi.org/10.1186/s12917-019-2078-3.

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Abstract Background Many studies have revealed that bioactive compounds for different indications are not extracted from plants with water, the only extractant practically available to rural communities. We compared the acaricidal activity of acetone extracts of 13 species used traditionally to protect cattle against ticks. We also investigated if the extraction of biologically active compounds against Rhipicephalus (Boophilus) decoloratus ticks could be enhanced by adding a liquid soap that is locally available to smallholder farmers. Methods A total of 13 plant species selected based on repo
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26

Sullivan, Robert M. "Spatial relationships and mesoscale habitat variance in co-occurring populations of Church’s sideband and Trinity bristle snail in the Greater Trinity Basin, northern California." California Fish and Wildlife Journal 109, no. 3 (2023). http://dx.doi.org/10.51492/cfwj.109.13.

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In resource management, the kind and extent of ecological co-occurrence between closely related species frequently requires assessment of the spatial relationship among taxa. In my study, analysis of inter-species pair-wise distances revealed no syntopic overlap between Church’s sideband (Monadenia churchi) and Trinity bristle snails (M. setosa). No pair of samples had the same geographic coordinates and no parapatric boundary in environmental covariates was evident between species. This “microsympatric” spatial relationship resembled a metapopulation structure with no high degree of overlap,
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