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1

Hahn, N. "RUBIACEAE." Bothalia 27, no. 1 (October 7, 1997): 45–48. http://dx.doi.org/10.4102/abc.v27i1.654.

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2

Hahn, N. "RUBIACEAE." Bothalia 29, no. 1 (September 30, 1999): 107–9. http://dx.doi.org/10.4102/abc.v29i1.581.

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3

Herman, P. P. J. "RUBIACEAE." Bothalia 35, no. 1 (August 29, 2005): 84–87. http://dx.doi.org/10.4102/abc.v35i1.380.

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4

Tilney, P. M., and A. E. Van Wyk. "RUBIACEAE." Bothalia 36, no. 1 (August 20, 2006): 68–69. http://dx.doi.org/10.4102/abc.v36i1.338.

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5

Crouch, N. R., and R. Edwards. "RUBIACEAE." Bothalia 40, no. 1 (July 22, 2010): 70–71. http://dx.doi.org/10.4102/abc.v40i1.187.

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6

Burrows, J. E., and S. M. Burrows. "RUBIACEAE." Bothalia 40, no. 2 (July 24, 2010): 201–4. http://dx.doi.org/10.4102/abc.v40i2.221.

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7

Jordaan, M., and H. M. Steyn. "Rubiaceae." Bothalia 42, no. 2 (December 9, 2012): 204–9. http://dx.doi.org/10.4102/abc.v42i2.21.

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8

Dutta Choudhury, Katyayani, and Manabendra Dutta Choudhury. "http://ir.nbu.ac.in/handle/123456789/4435." NBU Journal of Plant Sciences 5, no. 1 (2011): 7–14. http://dx.doi.org/10.55734/nbujps.2011.v05i01.002.

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The Rubiaceae is the largest and most popularly known woody plant family in the wet tropics and subtropics. It contains approximately 13,200 species in 660 genera, some of the species having ethno medicinal significance and reported to possess a wide range of medicinal practices. Some of the important genera belonging to the family are Coffea, Rubia, Cinchona, Uncaria, Gardenia, Hedyotis, Morinda, Mitragyna, Oldenlandia, xora, etc, having used by traditional peoples in curing various diseases and reported to be used as antimicrobials, antioxidants, antifeedants, analgesics, antivenomous and also found to play roles in hepatoprotection and activity against tumour formation. The review paper deals with the presert status of the family Rubiaceae being used as antifungals and antiplasmoidals and the chemical constituents investigated till date showing bioactive principles against various pathogenic fungi and protozoan. Literature survey reveals that only 35 plants have been investigated to possess antifungal properties and 22 have been reported to be used as antiplasmoidals out of 660 genera of Rubiaceac.
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9

Haris, Nur Amira, and Anifah Toding. "KAJIAN ETNOBOTANI FAMILI RUBIACEAE OLEH MASYARAKAT KOTA TARAKAN DAN POTENSINYA SEBAGAI SUMBER BELAJAR BIOLOGI." Biopedagogia 1, no. 2 (December 4, 2020): 87–93. http://dx.doi.org/10.35334/biopedagogia.v1i2.1703.

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The research have a goal to identify species of Rubiaceae that is used in Tarakan community. Collecting data used participatory rural appraisal, and was used open-interview to 30 informants. The result showed 8 species of Rubiaceae that is used by Tarakan community. In general, Rubiaceae was used as a food sources and medicine. The result can be used as a complementary content in Ethnobotany course. Keywords: Rubiaceae, Tarakan
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10

Abidin, Zainal, Dwi Gusmalawati, Moch Fairuz Huda, Shaddiqah Munawaroh Fauziah, and Yunia Efrice Banyo. "KARAKTERISASI MORFOLOGI POLEN PADA SEPULUH FAMILI TUMBUHAN BERBUNGA." Jurnal Teknologi Terapan: G-Tech 4, no. 2 (April 30, 2021): 303–8. http://dx.doi.org/10.33379/gtech.v4i2.658.

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Polen dapat digunakan untuk mengidentifikasi tumbuhan, karena memiliki karakter morfologi yang berbeda. Penelitian ini bertujuan untuk menganalisis morfologi polen pada 10 famili tumbuhan berbunga. Analisis morfologi polen ini menggunakan metode asetolisis yaitu melisiskan dinding sel polen dengan asam asetat glasial dan asam sulfat pekat (H2SO4). Hasil penelitian menunjukkan bahwa Liliaceae memiliki panjang aksis polar (P), diameter ekuator (E), dan indeks P/E tertinggi yaitu mencapai 66 µm, 40 µm dan 1.65. Semua famili memiliki unit polen yang sama yaitu monad. Punicaceae, Poaceae, Euphorbiaceae, Oxalidaceae, Apcynaceae, Sapindaceae, Acanthaceae, dan Rubiacea memiliki bentuk polen Subspheroidal, sedangkan Iridaceae dan Liliaceae memiliki bentuk polen prolat. Punicaceae, Euphorbiaceae, Oxalidaceae, Sapindaceae, dan Acanthaceae memiliki ukuran Perminuta, Poaceae, Apcynaceae, Iridaceae, dan Rubiaceae memiliki ukuran Minuta-, sedangkan hanya Liliaceae yang memiliki ukuran magna. Punicaceae, Euphorbiaceae, Apocynaceae, Sapindaceae, Iridaceae, Acanthaceae, dan Rubiaceae memiliki tipe apertura tricolporate, Poaceae dan Oxalidaceae memiliki tipe monocolpate, sedangkan Liliaceae tipe inaperturate. Semua famili memiliki skulptur tipe scarbat, kecuali Liliaceae yang memiliki tipe reticulate. Sepuluh famili tumbuhan berbunga pada penelitian ini memiliki karakter morfologi yang bervariasi, sehingga dapat dijadikan acuan dalam mengidentifikasi tumbuhan.
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11

Lindeman, J. C., J. Koek-Noorman, and Elmar Robbrecht. "Tropical Woody Rubiaceae." Taxon 38, no. 4 (November 1989): 614. http://dx.doi.org/10.2307/1222644.

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12

Verdcourt, Bernard. "SCYPHOCHLAMYS REVOLUTA Rubiaceae." Curtis's Botanical Magazine 6, no. 3 (August 1989): 102–6. http://dx.doi.org/10.1111/j.1467-8748.1989.tb00328.x.

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13

Stannard, Brian. "AUGUSTA LONGIFOLIA: Rubiaceae." Curtis's Botanical Magazine 9, no. 3 (August 1992): 128–31. http://dx.doi.org/10.1111/j.1467-8748.1992.tb00083.x.

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14

Robbrecht, Elmar. "COCCOCYPSELUM GUIANENSE: Rubiaceae." Curtis's Botanical Magazine 10, no. 2 (May 1993): 76–80. http://dx.doi.org/10.1111/j.1467-8748.1993.tb00021.x.

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15

Verdcourt, Bernard. "RAMOSMANIA RODRIGUESII Rubiaceae." Curtis's Botanical Magazine 13, no. 4 (November 1996): 204–9. http://dx.doi.org/10.1111/j.1467-8748.1996.tb00572.x.

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16

Ortega Olivencia, Ana, and Juan Antonio Devesa Alcaraz. "Nuevas combinaciones en el género Galium L." Acta Botanica Malacitana 28 (January 1, 2003): 206–9. http://dx.doi.org/10.24310/abm.v28i0.7285.

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17

Nek Adek, Nik Badrul, Afrina Awang, Nur Hafizah Zulkeflee, Nur Akilah Ismail, Zulhazman Hamzah, Aweng Eh Rak, Muhammad Firdaus Abdul Karim, and Nazahatul Anis Amaludin. "Distribution and Diversity of Family Rubiaceae in Pulau Banding, Gerik, Perak." BIO Web of Conferences 73 (2023): 01014. http://dx.doi.org/10.1051/bioconf/20237301014.

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The distribution and diversity of the Rubiaceae species were investigated along one trail at Pulau Banding, Gerik, Perak. This study aims to identify and estimate the diversity of the Rubiaceae species. The diversity and distribution of the Rubiaceae species were calculated using Shannon-Wiener’s Diversity Index, Simpson's Diversity Index and relative abundance index. A total of 139 individuals from nine species were recorded from Pulau Banding, Perak which are Mitracarpus hirtus, Gardenia carinata, Aidia densiflora, Hypobathrum hirtum, Coffea arabica, Psychotria marginata, Lasianthus constrictus, Porterandia anisophyllea and Ixora finlaysoniana. The values of the Shannon-Wiener’s Diversity Index (H′) and Simpson's Diversity Index (D) are 1.55 and 3.27, respectively. This indicates that M. hirtus is the most dominant species, encompassing 49% of all recorded Rubiaceae. Since it has many benefits such as food, timber, medicine, and the diversity of conservation value, this is vital as baseline data for researchers to propose solutions to the stakeholders and conservation sustainability of the Rubiaceae family as plant resources in Pulau Banding, Perak.
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18

Su, Guang-Yao, Ming-Long Chen, and Kui-Wu Wang. "Natural New Bioactive Anthraquinones from Rubiaceae." Mini-Reviews in Organic Chemistry 17, no. 7 (October 9, 2020): 872–83. http://dx.doi.org/10.2174/1570193x17666200107092510.

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Rubiaceae family belongs to the Gentianales, it contains 650 genera and 13,000 species and its worldwide distribution makes it the fourth largest angiosperms. Rubiaceae contains a large amount of anthraquinone compounds, especially in the roots. Anthraquinones are very important natural products with various bioactivities, including antibacterial, antiviral, cytotoxic and antitumor, which make it play an important role in recent research. In the previous study, many researchers have reported anthraquinones from Rubiaceae in different aspects. The present paper provides an overview of the bioactive properties of new naturally occurring anthraquinones and its structural diversity that have been isolated from the Rubiaceae family in recent years. The article covers the literature from 2007 to 2018, overall 95 new anthraquinones.
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19

Kiehn, Michael, and Andreas Berger. "Neotropical Rubiaceae: Synthesis of Chromosome Data from Costa Rican Taxa, with Insights on the Systematics of the Family." Annals of the Missouri Botanical Garden 105, no. 4 (November 24, 2020): 423–58. http://dx.doi.org/10.3417/2020421.

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Recent molecular systematic studies have significantly improved our understanding of the large, complex, and cosmopolitan plant family Rubiaceae, comprising about 13,000 species. Besides the obvious importance of DNA phylogenetic data, cytological studies have long added important basic information on the circumscription of clades and relationships within the family. In light of recent changes affecting a large number of tribes and genera, the current knowledge on the systematics of Neotropical Rubiaceae is reviewed with a focus on Costa Rica, which harbors an exceptionally rich Rubiaceae flora including most of the genera and biogeographic elements present in the Neotropics. Based on this systematic framework, previously published chromosome counts on Costa Rican taxa are reviewed and 49 new chromosome counts are reported. In total, 110 accessions of 75 species or infraspecific taxa representing 36 genera of Costa Rican Rubiaceae are discussed and supplemented by new counts for extraterritorial taxa when appropriate. Altogether the present study includes the first chromosome counts reported for the tribes Cordiereae and Hillieae, as well as for 10 genera and 27 species, providing new aspects of Rubiaceae systematics.
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20

Cabral, Elsa L. "Novedades en Galianthe (Rubiaceae)." Bonplandia 7, no. 1-4 (December 1, 1993): 1. http://dx.doi.org/10.30972/bon.71-41425.

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<p>Diez nuevas especies de Galianthe se describen e ilustran: G.bisepala (Argentina), G.linearifolia (Argentina y Paraguay), G.aurelii, G.parvula y G.canindeyuensis (Paraguay), G.pseudopeciolata (Paraguay y Brasil ), G.elegans, G.gertii, G.latistipula y G.grandifolia (Brasil).</p>
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21

Borhidi, A. "Los génerosCeuthocarpusAiello ySchmidtottiaUrb. (Rubiaceae)." Acta Botanica Hungarica 44, no. 1-2 (March 2002): 49–65. http://dx.doi.org/10.1556/abot.44.2002.1-2.4.

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22

Deng, Xiao-Fang, and Dian-Xiang Zhang. "Revision of Schizomussaenda (Rubiaceae)." Blumea - Biodiversity, Evolution and Biogeography of Plants 53, no. 2 (October 29, 2008): 385–92. http://dx.doi.org/10.3767/000651908x608025.

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23

FIGUEIREDO, ESTRELA. "The Rubiaceae of Angola." Botanical Journal of the Linnean Society 156, no. 4 (April 2008): 537–638. http://dx.doi.org/10.1111/j.1095-8339.2007.00750.x.

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24

Taylor, Charlotte M. "Revision of Cosmibuena (Rubiaceae)." Annals of the Missouri Botanical Garden 79, no. 4 (1992): 886. http://dx.doi.org/10.2307/2399722.

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25

Taylor, Charlotte M. "Revision of Hillia (Rubiaceae)." Annals of the Missouri Botanical Garden 81, no. 4 (1994): 571. http://dx.doi.org/10.2307/2399913.

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26

Braga, Marcia R., M. Claudia, M. Young, Sonia M. C. Dietrich, and Otto R. Gottlieb. "Phytoalexin induction in rubiaceae." Journal of Chemical Ecology 17, no. 6 (June 1991): 1079–90. http://dx.doi.org/10.1007/bf01402935.

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27

Coelho, Christiano Peres, Hélder Nagai Consolaro, and Paulo Eugênio Oliveira. "ASPECTOS FLORAIS E REPRODUTIVOS DE Psychotria capitata RUIZ & PAVON (RUBIACEAE), UM CASO DE DISTILIA TÍPICA NO CERRADO." Oecologia Australis 25, no. 03 (September 15, 2021): 685–97. http://dx.doi.org/10.4257/oeco.2021.2503.05.

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BREEDING SYSTEMS AND POLLINATION OF THE PSYCHOTRIA CAPITATA RUIZ & PAVON (RUBIACEAE): A CASE THE TYPICAL DISTYLY IN CERRADO: The phenotypic integration observed in flowers is an evolutionary strategy that aims to increase the pollen flow between individuals, favoring the crossing and maintenance of genetic variability. This success is directly related to the floral structure, such as hermaphroditism, and to the behavior of visitors, and can generate conflicts between the floral structures, being selected characteristics that reduce this conflict and amplify the pollen flow, as is the case of heterostyly. The objective of the study was to describe the floral characteristics, the reproductive system, and pollination in Psychotria capitata Ruiz & Pavon (Rubiaceae). For this purpose, the floral structures were measured and observed, controlled crossings were carried out, the floral visitors were observed and the nectar production was evaluated. Psychotria capitata is a typical dystylic species, shrub with a maximum height of 3 meters, with high rates of reciprocal hercogamy between the floral morphs. It has white tubular flowers, visited by a wide range of insects, including moths, bees, wasps and flies. There was higher fruit formation in intermorphic cross-pollination (> 60 %) and lower formation in intramorphic (< 20 %) and self-pollination (< 15 %), characterizing self and intramorphic incompatibility. These data were confirmed by the non growth of pollen tubes in self-pollinated pistils and intramorphic pollinators. Blooming is annual, and occurs between the months of October and January, with peak blooming in November and December. The reproductive data evaluated are similar to other Rubiaceae species in the Cerrado forest sub forest. These data enrich the reproductive knowledge of Rubiaceae's sub-forest species, so important for the maintenance of fauna in forest fragments.
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Rajakumar, T. J. S., and R. Selvakumari. "An extended distribution of three threatened plants from Tirunelveli District, Tamil Nadu." Indian Journal of Forestry 36, no. 2 (June 1, 2013): 285–88. http://dx.doi.org/10.54207/bsmps1000-2013-j34z95.

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This paper highlights an extended distributional record of three threatened species like Coffea travancorensis Wall. ex Wight & Arn. (Rubiaceae), Neanotis rheedei (Wall. ex Wight & Arn.) W. Lewis (Rubiaceae) and Struchium sparganophorum (L.) Kuntze (Asteraceae) from Tirunelveli District, Tamil Nadu.
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Zini, Annielly da Silva, Shirley Martins, Marlene Livia Toderke, and Lívia Godinho Temponi. "Anatomia foliar de Rubiaceae ocorrentes em fragmento florestal urbano de Mata Atlântica, PR, Brasil." Hoehnea 43, no. 2 (June 2016): 173–82. http://dx.doi.org/10.1590/2236-8906-59/2015.

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RESUMO Rubiaceae no Brasil ocorre principalmente no Bioma Mata Atlântica que na região sul é representado por dois tipos principais de fitofisionomias: Floresta Estacional Semidecidual e Floresta Ombrófita Mista. Ambas ocorrem no Parque Ecológico Paulo Gorski (PEPG), fragmento florestal urbano. Diante da relevância de Rubiaceae na Mata Atlântica e da importância de estudos de anatomia ecológica para entender processos de colonização e sobrevivência este estudo teve como objetivo caracterizar anatomicamente as folhas de Rubiaceae encontradas no PEPG. Foram estudadas 14 espécies pertencentes a nove gêneros de Rubiaceae que apresentam como caracteres comuns à família: epiderme uniestratificada, tricomas, estômatos paracíticos e paralelocíticos, mesofilo dorsiventral e feixes vasculares colaterais. Dentre os caracteres anatômicos observados, considerados comuns em plantas mesófitas-heliófitas, destacam-se papilas, tricomas e mesofilo compacto. Portanto, essas características estão de acordo com as condições ambientais constatadas nas áreas de bordas e clareiras da Mata Atlântica e também em áreas antropizadas.
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30

Torres-Montúfar, Alejandro. "Las Rubiáceas de México: ¿Ya está hecho el trabajo?" Botanical Sciences 100, no. 2 (January 5, 2022): 446–68. http://dx.doi.org/10.17129/botsci.2847.

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Antecedentes: La familia Rubiaceae es una de las más diversas en México, ocupa el cuarto lugar entre las Angiospermas. Han existido diversos esfuerzos para caracterizar su diversidad, resultando en diferencias en el número de géneros y especies registradas: 77-113 géneros y 510-707 especies. Esta discrepancia invita al análisis de los listados de la familia, con el objetivo de presentar un panorama general sobre las Rubiáceas de México y dilucidar el estado de su conocimiento. Pregunta: ¿Cuál es la diversidad de las Rubiaceae en México? ¿A qué nivel taxonómico está su problemática? ¿Cómo se distribuye la diversidad y endemismo? ¿Cuál es el esfuerzo de colecta? Especies de estudio: Rubiaceae Sitio de estudio: México Métodos: Se generó una base de datos a partir de la revisión de los principales trabajos de Rubiaceae de México, complementado con información de bases de datos de herbarios. Resultados: La familia Rubiaceae está conformada por 111 géneros, 17 de ellos endémicos, y 711 especies nativas, 363 endémicas y 13 exóticas. Las entidades con más especies son Oaxaca (416), Chiapas (365) y Veracruz (318) con aproximadamente el 50 % del endemismo. El esfuerzo de colecta sugiere que el 43 % del territorio carece de colectas. Conclusiones: En este trabajo se presenta una lista depurada y propuestas que resuelven conflictos a nivel genérico; destacando la necesidad de realizar trabajos taxonómicos enfocados en algunos grupos particulares y continuar con los esfuerzos de colecta y revisión de herbario para una aproximación más certera a la diversidad de Rubiaceae en México.
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Vrijdaghs, Alexander, Petra De Block, Karen L. G. De Toni, Erik Smets, and Elmar Robbrecht. "Floral ontogeny links Dialypetalanthus (Condamineeae) with the floral developmental morphology of other Rubiaceae." Plant Ecology and Evolution 155, no. 3 (October 19, 2022): 379–93. http://dx.doi.org/10.5091/plecevo.84606.

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Background – Vegetative and fruit characters of the Amazonian genus Dialypetalanthus point to a position in Rubiaceae. However, its floral morphology is so deviant that the genus was often placed in a family of its own. Even relationships outside Gentianales were postulated. Current molecular phylogenetic studies firmly show that Dialypetalanthus belongs to Rubiaceae. Aims – This study aims to understand the idiosyncratic floral morphology in Dialypetalanthus and to compare it with the floral development in two other Condamineeae genera as well as in other Rubiaceae for which ontogenetic data are available. Material and methods – SEM and LM based floral ontogeny in Dialypetalanthus fuscescens, Mussaendopsis beccariana, and Pogonopus exsertus. Results and main conclusions – Flowers in Dialypetalanthus develop a stamen-corolla-calyx tube, which can be considered as a floral morphological link between the genus and the other Rubiaceae. The polyandrous androecium originates from an annular intercalary meristem at the adaxial side of the stamen-corolla-calyx tube.
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Torres-Leite, Filipe, Renan Köpp Hollunder, Mário Luís Garbin, and Tatiana Tavares Carrijo. "Florística de Rubiaceae em um remanescente de Floresta Atlântica do Espírito Santo, Brasil." Rodriguésia 69, no. 2 (June 2018): 561–76. http://dx.doi.org/10.1590/2175-7860201869222.

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Resumo Este estudo apresenta o inventário florístico atualizado para Rubiaceae no Parque Estadual de Mata das Flores (PEMF), município de Castelo, no Espírito Santo. O remanescente florestal estudado está localizado em uma das áreas prioritárias para conservação da Floresta Atlântica ao sul do estado. A listagem elaborada embasou a análise da similaridade florística de Rubiaceae no fragmento estudado com outras 17 áreas de Floresta Atlântica, por meio de análise de agrupamentos e métodos de ordenação. Foram identificadas 45 espécies e duas subespécies, pertencentes a 20 gêneros. Psychotria (8 spp.) foi o gênero mais representativo, seguido de Faramea (6 spp.) e Rudgea (4 pp.). Quatro táxons constituem novas espécies para a ciência. Quatro táxons estão listados em diferentes categorias de ameaça. As análises de agrupamento e ordenação evidenciaram que Mata das Flores se distingue das demais áreas comparadas da Floresta Atlântica quanto à composição florística de Rubiaceae. Os resultados indicam que o Parque Estadual de Mata das Flores é um importante centro de diversidade para Rubiaceae no Espírito Santo.
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Delprete, Piero Giuseppe, and Jomar Gomes Jardim. "Systematics, taxonomy and floristics of Brazilian Rubiaceae: an overview about the current status and future challenges." Rodriguésia 63, no. 1 (March 2012): 101–28. http://dx.doi.org/10.1590/s2175-78602012000100009.

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The Rubiaceae is the fourth Angiosperm family in number of species in the World and in the Neotropics. Its overwhelming diversity and presence in most biomes, and at most vegetation layers, makes this family one of the most important components of tropical vegetation. During the last two decades, family classification went through several reorganizations, mostly influenced by the advent of molecular phylogenetic studies, and many taxonomic revisions and floristic studies on Brazilian Rubiaceae have become available. In view of the considerable amount of literature that has recently been produced on Neotropical Rubiaceae, the present work has two main objectives: the first is to offer an overall view of the most recent family classification with emphasis on the genera of Rubiaceae occurring in Brazil, and to indicate particular taxa that are still in need of phylogenetic and taxonomic studies; the second objective is to present a short discussion on the state of floristic and taxonomic knowledge with respect to the various regions of Brazil, indicating the taxa and the geographic areas that need to be studied.
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34

Ammar Rushdan, Nur Afiqah Nadhiah, Nurunajah Ab Ghani, and Nurulfazlina Edayah Rasol. "Review on Anthraquinones Isolated from Rubiaceae Family." Journal of Science and Mathematics Letters 11, Special (November 9, 2023): 163–74. http://dx.doi.org/10.37134/jsml.vol11.sp.18.2023.

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A current economic trend is to highlight natural resources and many plant species are rich sources of anthraquinones. Anthraquinones are a diverse group of natural compounds extensively studied in various articles. Commonly used for dyes with 30% of it contributed to textile industry. Anthraquinone plays an important chromophore in cancer chemotherapy. They are widely distributed in Rubiaceae family and exhibit various biological activities. Malaysian Rubiaceae, especially plants from Morinda, Rennellia, Psychotria, and Prismatomeris genera, have been known to be rich in anthraquinone content, especially in the roots. The current review aims to provide a comprehensive update on the isolation of anthraquinones from Rubiaceae family in Malaysia. It also discussed the taxonomy, chemistry, and pharmacology studies of the genus. Through the years, 45 anthraquinones have been reported from various species of Rubiaceae demonstrating promising pharmacological activities. The information presented in this review can provide a scientific foundation for future research on the possible therapeutic applications of the species. Enhancing the links between plant biological effects and traditional uses with their chemical characterization.
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35

Delprete, Piero G., Tanja M. Schuster, and Paul Hiepko. "An annotated translation of Karl Schumann's (1888) "Über einige verkannte oder wenig gekannte Geschlechter der Rubiaceen Sudamerikas'' [About some misunderstood or little known taxa of South American Rubiaceae"] with notes on the Rubiaceae type specimens." Botanische Jahrbücher für Systematik, Pflanzengeschichte und Pflanzengeographie 126, no. 1 (February 25, 2005): 3–70. http://dx.doi.org/10.1127/0006-8152/2005/0126-0003.

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36

Balde, E. "On specific independence of Galium amurense Pobed. (Rubiaceae)." Novitates Systematicae Plantarum Vascularium 44 (2013): 206–13. http://dx.doi.org/10.31111/novitates/2013.44.206.

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Specific independence of Galium amurense Pobed. on the basis of morphological, ecological and chorological characteristics is proved. Its distinctions from closely related species G. boreale L. are shown.
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KAMALI, HASHEM, NAZANIN DORYANIZADEH, and MOHAMMAD ALI AKRAMI. "Two new eriophyoid mites from Iran in the subfamilies Phyllocoptinae and Eriophyinae (Acari: Trombidiformes: Eriophyidae)." Zootaxa 4425, no. 3 (May 31, 2018): 589. http://dx.doi.org/10.11646/zootaxa.4425.3.12.

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Two new species of eriophyoid mites from Fars province, Iran, are described and illustrated, namely: Tetra aparinea n. sp. causing distortion of Galium aparine L. (Rubiaceae) and representing the first record of the genus Tetra on plants of the family Rubiaceae; and Acaralox shiraziensis n. sp. from Tragopogon graminifolius DC. (Asteraceae), causing no visible damage except for slight wilting.
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38

Mahyuni, Ridha, Ridha Mahyuni, Tatik Chikmawati, Nunik Sri Ariyanti, and Anne Kusumawaty. "A NEW VARIETY OF CANTHIUMERA GLABRA (RUBIACEAE: VANGUERIEAE)." REINWARDTIA 21, no. 1 (June 30, 2022): 13–17. http://dx.doi.org/10.14203/reinwardtia.v21i1.4268.

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MAHYUNI, R., CHIKMAWATI, T., ARIYANTI, N. S. & KUSUMAWATY, A. 2022. A new variety of Canthiumera glabra (Rubiaceae: Vanguerieae). Reinwardtia 21(1): 13‒17. — Canthiumera glabra var. laxiflora (Rubiaceae: Vanguerieae), a new variety from Java and Sumatra is described. The new variety differs from the typical variety in having laxly branched inflorescences and is restricted to south Sumatra (Lampung) and southwestern Java.
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39

Tan, Mario A., Raychel Ann U. Villacorta, Grecebio Jonathan D. Alejandro, and Hiromitsu Takayama. "Iridoids and a Norsesquiterpenoid from the Leaves of Villaria odorata." Natural Product Communications 9, no. 9 (September 2014): 1934578X1400900. http://dx.doi.org/10.1177/1934578x1400900902.

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Phytochemical investigation of Villaria odorata, a Philippine endemic Rubiaceae species, led to the identification of three iridoids, morindolide (1), hydrophylinA (2), hydrophylin B (3) and a norsesquiterpenoid, vomifoliol (4). This is the first report of compounds 1–4 from the genus Villaria. These classes of compounds proved to be important chemotaxonomic markers in the Rubiaceae family in combination with morphology and molecular data.
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40

Gereau, Roy E., W. R. Quentin Luke, Henk J. Beentje, and Maria Alvarez. "New Combinations and Lectotypifications in Rubiaceae for the Flora of Tropical East Africa." Novon, A Journal for Botanical Nomenclature 31 (August 28, 2023): 178–80. http://dx.doi.org/10.3417/2023856.

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Three new combinations at subspecific rank are provided here for taxa of conservation interest in Tropical East Africa: Bullockia setiflora (Hiern) Razafim., Lantz & B. Bremer subsp. telidosma (K. Schum.) Gereau, Vangueria schumanniana (Robyns) Lantz subsp. mucronulata (Robyns) Lantz ex Gereau (both Rubiaceae: Vanguerieae), and Dirichletia glaucescens Hiern subsp. angustifolia (Verdc.) Gereau (Rubiaceae: Knoxieae). Lectotypes are designated for Plectronia telidosma K. Schum. and Tapiphyllum schumannianum Robyns.
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41

Jansen, Steven, Elmar Robbrecht, Hans Beeckman, and Erik Smets. "A SURVEY OF THE SYSTEMATIC WOOD ANATOMY OF THE RUBIACEAE." IAWA Journal 23, no. 1 (2002): 1–67. http://dx.doi.org/10.1163/22941932-90000288.

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Recent insight in the phylogeny of the Rubiaceae, mainly based on macromolecular data, agrees better with wood anatomical diversity patterns than previous subdivisions of the family. The two main types of secondary xylem that occur in Rubiaceae show general consistency in their distribution within clades. Wood anatomical characters, especially the fibre type and axial parenchyma distribution, have indeed good taxonomic value in the family. Nevertheless, the application of wood anatomical data in Rubiaceae is more useful in confirming or negating already proposed relationships rather than postulating new affinities for problematic taxa. The wood characterised by fibre-tracheids (type I) is most common, while type II with septate libriform fibres is restricted to some tribes in all three subfamilies. Mineral inclusions in wood also provide valuable information with respect to systematic relationships.
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42

Graham, Alan. "Fossil Record of the Rubiaceae." Annals of the Missouri Botanical Garden 96, no. 1 (March 23, 2009): 90–108. http://dx.doi.org/10.3417/2006165.

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43

De Block, Petra, Charlotte M. Taylor, and Suzy Huysmans. "Third International Rubiaceae Conference: Introduction1." Annals of the Missouri Botanical Garden 96, no. 1 (March 23, 2009): 1–3. http://dx.doi.org/10.3417/2008118.

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44

Taylor, Charlotte M., and Roy E. Gereau. "The GenusCarapichea(Rubiaceae, Psychotrieae)1." Annals of the Missouri Botanical Garden 99, no. 1 (July 19, 2013): 100–127. http://dx.doi.org/10.3417/2011064.

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45

Gustafsson, Claes G. R. "The Neotropical Rosenbergiodendron (Rubiaceae, Gardenieae)." Brittonia 50, no. 4 (October 1998): 452. http://dx.doi.org/10.2307/2807754.

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46

Delprete, Piero G., E. Robbrecht, C. Puff, and E. Smets. "Second International Rubiaceae Conference. Proceedings." Brittonia 50, no. 3 (July 1998): 418. http://dx.doi.org/10.2307/2807783.

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47

Martins, Daiane, and Cecilia Nunez. "Secondary Metabolites from Rubiaceae Species." Molecules 20, no. 7 (July 22, 2015): 13422–95. http://dx.doi.org/10.3390/molecules200713422.

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48

Sivarajan, V. V., R. Vasudevan Nair, and T. U. Ahmed Kunju. "GenusSpermacoce Linn. (Rubiaceae) in India." Proceedings / Indian Academy of Sciences 97, no. 4 (August 1987): 347–58. http://dx.doi.org/10.1007/bf03053390.

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49

Bridson, Diane M. "The Identity of Tsiangia (Rubiaceae)." Kew Bulletin 55, no. 4 (2000): 1011. http://dx.doi.org/10.2307/4113654.

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50

Bridson, Diane M. "Pavetta villosa (Rubiaceae) in Somalia." Kew Bulletin 41, no. 2 (1986): 312. http://dx.doi.org/10.2307/4102935.

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