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Journal articles on the topic 'Myrtaceae'

Author: Grafiati
Published: 4 June 2021
Last updated: 25 July 2025

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1

Alfina Nabilah Husna, Nurdin Amin, Anton Widyanto, and Lina Rahmawati. "Klorofil pada Tumbuhan Famili Myrtaceae di Taman Buah Lubuk Pakam Sumatera Utara." JURNAL ILMIAH MAHASISWA 1, no. 2 (2023): 60–69. https://doi.org/10.22373/jim.v1i2.457.

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Kadar klorofil tumbuhan Famili Myrtaceae penting dikaji untuk memberi gambaran dan informasi mengenai banyaknya klorofil serta manfaatnya. Pengukuran kadar klorofil pada tumbuhan Famili Myrtaceae di Taman Buah Lubuk belum pernah dilakukan sehingga perlu adanya tambahan referensi pada mata kuliah Fisiologi Tumbuhan. Penelitian ini bertujuan untuk mengetahui jumlah rata-rata kadar klorofil tumbuhan famili Myrtaceae. Metode yang digunakan dalam penelitian ini adalah metode spektrofotometri dengan teknik pengambilan sampel secara Purposive Sampling. Parameter yang diukur dalam penelitian ini adala
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2

Woodgyer, Elizabeth M. "LEPTOSPERMUM LANIGERUM Myrtaceae." Curtis's Botanical Magazine 12, no. 4 (1995): 186–90. http://dx.doi.org/10.1111/j.1467-8748.1995.tb00516.x.

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3

Hooper, Harvey. "Family Myrtaceae (continued)." Ballarat Naturalist (1986:May) (May 1986): 7. http://dx.doi.org/10.5962/p.383870.

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4

Keszei, Andras, Curt L. Brubaker, and William J. Foley. "A molecular perspective on terpene variation in Australian Myrtaceae." Australian Journal of Botany 56, no. 3 (2008): 197. http://dx.doi.org/10.1071/bt07146.

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The terpenoid-dominated essential oils in Australian Myrtaceae mediate many ecological interactions and are important industrially. Of all the significant essential oil-producing families, Myrtaceae is the only one for which there is no molecular information on terpene biosynthesis. Here we summarise available knowledge on terpene biosynthesis and its relevance to the Myrtaceae to provide a foundation for ecological and genetic studies of chemical diversity. There are several steps in the terpene biosynthesis pathway that have potential for influencing the oil yield, profile and composition of
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5

Belsham, Stephen R., and David A. Orlovich. "Development of the hypanthium and androecium in Acmena smithii and Syzygium australe (Acmena alliance, Myrtaceae)." Australian Systematic Botany 16, no. 5 (2003): 621. http://dx.doi.org/10.1071/sb02036.

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Floral organogeny and development are described for two species of the Acmena alliance: Acmena smithii and Syzygium australe. The Acmena alliance is now regarded as distinct from the fleshy-fruited Myrtoideae s.s. A. smithii develops an hypanthium that resembles that seen in some dry-fruited Myrtaceae but stamen initiation resembles that seen in the fleshy-fruited Luma apiculata. By contrast S. australe has hypanthial development similar to the New Zealand fleshy-fruited Myrtaceae but stamen development resembles that of many dry-fruited Myrtaceae. Both species, therefore, show homoplasy of fl
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6

Permatasari, Ira, Silvia Abni Rangkuty, Devi Fitriani, and RA Priyanti. "MORFOLOGI SERBUK SARI (POLEN) FAMILI MYRTACEAE: Psidium guajava, Syzygium aqueum, dan Syzygium malaccense." BioEksakta : Jurnal Ilmiah Biologi Unsoed 6, no. 3 (2024): 215. https://doi.org/10.20884/1.bioe.2024.6.3.11006.

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The Myrtaceae family is one of the families of the Myrtales order. There are two commonly found genera of the Myrtaceae family, namely Syzygium and Psidium. Pollen morphology of 3 species of the Myrtaceae family, namely Psidium guajava, Syzygium aqueum, and Syzygium malaccense were observed using a binocular light microscope. The research conducted aims to see the morphological characteristics of pollen from the three species of the Myrtaceae family. Morphological similarities of pollen from guava (Psidium guajava), water guava (Syzygium aqueum), and bol guava (Syzygium malaccense) are found i
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7

Thornhill, Andrew H., Geoff S. Hope, Lyn A. Craven, and Michael D. Crisp. "Pollen morphology of the Myrtaceae. Part 4: tribes Kanieae, Myrteae and Tristanieae." Australian Journal of Botany 60, no. 3 (2012): 260. http://dx.doi.org/10.1071/bt11177.

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Pollen morphology of 44 genera and 101 species from the Myrtaceae tribes Kanieae, Myrteae and Tristanieae was surveyed using scanning electron microscopy (SEM) and light microscopy (LM). Most Myrteae pollen were brevicolpate and granulate, which is unique within Myrtaceae, and these are most likely ancestral characters for this tribe. Two main pollen types were observed in tribe Kanieae, one form being with syncolpate colpi and a distinctive granulate exine, and the other with parasyncolpate colpi and a less ornamented exine. Genera Tristania and Thaleropia of tribe Tristanieae produce the sma
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8

PARRA-O., CARLOS. "Thirteen new species, new records, and a new combination on Colombian Myrtaceae." Phytotaxa 497, no. 3 (2021): 175–210. http://dx.doi.org/10.11646/phytotaxa.497.3.1.

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Thirteen new species of Myrtaceae from Colombia are described and illustrated; information about the habitats in which these species are growing, the evaluation of its conservation status, and its affinities are included. Besides, five new records of native and introduced Myrtaceae are reported for Colombia. Also, a new combination of a Myrtaceae species previously described as Calycorectes is proposed here under the genus Eugenia.
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9

Lucena, Eliseu Marlonio Pereira de, Ricardo Elesbão Alves, Luis Cisneros Zevallos, Emmanuel Wassermann Moraes e. Luz, and Edy Sousa de Brito. "Biodiversidade das Myrtaceae Brasileiras Adaptadas à Flórida, EUA (Biodiversity of Brazilians Myrtace ae Adapted to Florida, USA)." Revista Brasileira de Geografia Física 7, no. 2 (2014): 327–40. http://dx.doi.org/10.26848/rbgf.v7.2.p327-340.

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A América e em especial o Brasil, são ricos em espécies frutíferas tropicais nativas e/ou exóticas de grande potencial fitoquímico. Neste contexto, podemos destacar as espécies da família Myrtaceae que apresentam elevado potencial de uso pela presença de compostos, principalmente de natureza fenólica em suas folhas e frutos. Diante disso, a presente pesquisa objetivou catalogar a biodiversidade das Myrtaceae brasileiras adaptadas à Flórida, EUA. Foram feitas duas visitas de cinco dias cada junto às coleções pertencentes a instituições públicas e privadas no Estado da Flórida, EUA. A primeira a
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10

LUCRESIA, LUÍSA, ALINE STADNIK, LÍDIA CAMPOS, and NÁDIA ROQUE. "Myrtaceae floristic survey and vegetation distribution in a central portion of Chapada Diamantina, Brazil." Phytotaxa 498, no. 2 (2021): 71–86. http://dx.doi.org/10.11646/phytotaxa.498.2.1.

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Myrtaceae is an important family in the neotropics, being highlighted for its relevance in a wide range of vegetations, including those found within the Espinhaço Mountain Range (EMR). The main goal of the present work was to analyze Myrtaceae floristic composition and vegetation distribution in the municipality of Mucugê, Chapada Diamantina, Bahia. Specimens were analyzed in herbaria, two field expeditions were carried out and a landcover classification was performed through remote sensing. The compiled dataset presented 438 records with valid taxonomical identification, from which 374 record
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11

Thornhill, Andrew H., and Michael D. Crisp. "Phylogenetic assessment of pollen characters in Myrtaceae." Australian Systematic Botany 25, no. 3 (2012): 171. http://dx.doi.org/10.1071/sb11019.

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Identifying synapomorphic morphological characters is needed to select and then accurately place fossils as calibrations on a phylogeny in molecular-dating analyses. The plant family Myrtaceae, with 130 genera and 5500 species, has nine different pollen types, whereas the fossil pollen record of Myrtaceae, represented by the genus Myrtaceidites, putatively extends back to the Cretaceous and also contains at least nine distinct morphospecies. To reveal potential links between extant and fossil pollen, we optimised pollen characters scored from a recent family-wide review of extant Myrtaceae pol
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12

Christophel, DC, and SD Lys. "Mummified Leaves of Two New Species of Myrtaceae From the Eocene of Victoria, Australia." Australian Journal of Botany 34, no. 6 (1986): 649. http://dx.doi.org/10.1071/bt9860649.

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Leaf collections made from Lenses A and B of Pit II at the Eocene Alcoa Anglesea locality produced the first Eocene record of mummified leaves of the Myrtaceae. In order to determine their diversity and affinities a set of 19 architectural and cuticular characters was selected with which to analyse the leaves. This character set was tested with 65 extant leaves from 11 species of six genera within the Myrtaceae. Operational taxonomic units were analysed using a semi-Euclidian distance metric and the UPGMA clustering algorithm. Results indicated that the character set and analyses successfully
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13

Pardi, Faezah. "Floristic Variation of Tree Communities and Their Association with Soil Properties in Pulau Jerejak, Penang, Peninsular Malaysia." Science Letters 14, no. 1 (2020): 34. http://dx.doi.org/10.24191/sl.v14i1.7899.

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This study was conducted at Pulau Jerejak, Penang to determine the floristic variation of its tree communities. A 0.5-hectare study plot was established and divided into 11 subplots. A total of 587 trees with diameter at breast height (DBH) of 5 cm and above were measured, identified and recorded. The tree communities comprised of 84 species, 63 genera and 32 families. The Myrtaceae was the most speciose family with 10 recorded species while Syzgium glaucum (Myrtaceae) was the most frequent species. The Myrtaceae recorded the highest density of 306 individuals while Syzgium glaucum (Myrtaceae)
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14

Craven, Lyn A. "Melaleuca (Myrtaceae) from Australia." Novon: A Journal for Botanical Nomenclature 19, no. 4 (2009): 444–53. http://dx.doi.org/10.3417/2007137.

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15

Lucas, Eve, Christine Elizabeth Wilson, Duane F. Lima, Marcos Sobral, and Kazue Matsumoto. "A Conspectus ofMyrciasect.Aulomyrcia(Myrtaceae)." Annals of the Missouri Botanical Garden 101, no. 4 (2016): 648–98. http://dx.doi.org/10.3417/2014015.

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16

Landrum, Leslie R., and Francesca T. Grifo. "Myrcianthes (Myrtaceae) in Chile." Brittonia 40, no. 3 (1988): 290. http://dx.doi.org/10.2307/2807476.

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17

Snow, Neil. "Systematics of Pilidiostigma (Myrtaceae)." Systematic Botany 29, no. 2 (2004): 393–406. http://dx.doi.org/10.1600/036364404774195584.

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18

Landrum, Leslie R. "Systematics of Myrteola (Myrtaceae)." Systematic Botany 13, no. 1 (1988): 120. http://dx.doi.org/10.2307/2419248.

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19

Renggana, Hesti, Yuni Elsa Hadisaputri, and Anas Subarnas. "AKTIVITAS ANTIKANKER FAMILI MYRTACEAE." Jurnal Ilmiah Farmako Bahari 9, no. 2 (2019): 23. http://dx.doi.org/10.52434/jfb.v9i2.506.

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Tanaman adalah sumber dari berbagai metabolit sekunder, yang sering digunakan dalam aktivitas antikanker. Menemukan obat antikanker baru dari sumber herbal lebih penting baik dalam biologi maupun kegiatan farmakologis. Oleh karena itu, tujuan dari review artikel ini adalah untuk mengidentifikasi agen antikanker dari 6 tanaman yang memiliki aktivitas antikanker dari famili myrtaceae. Dari data literatur famili myrtaceae yang memiliki aktivitas sebagai anti kanker diantaranya Callistemon citrinus (Curtis) skeel , Syzygium aromaticum L., Psidium guajava L. , Myrcia bella Cambess, Rhodomyrtus tome
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20

Parnell, J., and E. Nic Lughadha. "Notes on Thai Myrtaceae." Kew Bulletin 47, no. 4 (1992): 703. http://dx.doi.org/10.2307/4110710.

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21

Sobral, Marcos, and Maria Analia Duarte de Souza. "Thirteen new Amazonian Myrtaceae." Phytotaxa 238, no. 3 (2015): 201. http://dx.doi.org/10.11646/phytotaxa.238.3.1.

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We here describe, illustrate and compare with related species Calyptranthes corticosa, Myrcia breviflora, M. cantana, M. castanea, M. divisoria, M. integra, M. laxa, M. longiramea, M. manausensis, M. maraana, M. symmetrica, M. uaioai and Plinia humaitana. Calyptranthes corticosa, from the Brazilian state of Acre, is related to C. paniculata, but is distinguished by its strongly angulate twigs and pauciflorous inflorescences; Myrcia breviflora, from the Brazilian state of Amazonas, is related to M. tafelbergica, but has shorter inflorescences with pentamerous flowers; M. cantana, from the Brazi
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22

Mitra, S. K. "IMPORTANT MYRTACEAE FRUIT CROPS." Acta Horticulturae, no. 849 (January 2010): 33–38. http://dx.doi.org/10.17660/actahortic.2010.849.2.

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23

Ghedira, K., and P. Goetz. "Melaleuca alternifolia Cheel. (Myrtaceae)." Phytothérapie 6, no. 6 (2008): 363–66. http://dx.doi.org/10.1007/s10298-008-0354-7.

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24

Sobral, Marcos, and Duane F. Lima. "Three new Brazilian Myrtaceae." Phytotaxa 483, no. 3 (2021): 277–84. https://doi.org/10.11646/phytotaxa.483.3.7.

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Stadnik, Aline, Diana K. D. Caldas, Marcelo C. Souza, Eve J. Lucas, José Fernando A. Baumgratz, and Nádia Roque. "Systematics studies in Pliniinae (Myrtaceae) necessitate two new combinations in Eugenia (Myrtaceae)." Phytotaxa 508, no. 2 (2021): 155–65. https://doi.org/10.11646/phytotaxa.508.2.4.

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Stadnik, Aline, Caldas, Diana K. D., Souza, Marcelo C., Lucas, Eve J., Baumgratz, José Fernando A., Roque, Nádia (2021): Systematics studies in Pliniinae (Myrtaceae) necessitate two new combinations in Eugenia (Myrtaceae). Phytotaxa 508 (2): 155-165, DOI: 10.11646/phytotaxa.508.2.4, URL: http://dx.doi.org/10.11646/phytotaxa.508.2.4
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Hardstaff, Lyndle K., Karen D. Sommerville, Bryn Funnekotter, Eric Bunn, Catherine A. Offord, and Ricardo L. Mancera. "Myrtaceae in Australia: Use of Cryobiotechnologies for the Conservation of a Significant Plant Family under Threat." Plants 11, no. 8 (2022): 1017. http://dx.doi.org/10.3390/plants11081017.

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The Myrtaceae is a very large and diverse family containing a number of economically and ecologically valuable species. In Australia, the family contains approximately 1700 species from 70 genera and is structurally and floristically dominant in many diverse ecosystems. In addition to threats from habitat fragmentation and increasing rates of natural disasters, infection by myrtle rust caused by Austropuccinia psidii is of significant concern to Australian Myrtaceae species. Repeated infections of new growth have caused host death and suppressed host populations by preventing seed set. Althoug
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Werka, Jennifer Schmidt, Amelia K. Boehme, and William N. Setzer. "Biological Activities of Essential Oils from Monteverde, Costa Rica." Natural Product Communications 2, no. 12 (2007): 1934578X0700201. http://dx.doi.org/10.1177/1934578x0700201204.

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Essential oils from Calyptranthes pittieri (Lauraceae), Cinnamomum tonduzii (Lauraceae), Croton niveus and C. monteverdensis (Euphorbiaceae), Dendropanax arboreus (Araliaceae), Eugenia austin-smithii and E. haberi (Myrtaceae), Myrcianthes fragrans and M. rhopaloides (Myrtaceae), Nectandra membranacea (Lauraceae), Ocotea floribunda (Lauraceae), Oreopanax xalapensis (Araliaceae), Piper umbellatum (Piperaceae), Psidium guajava (Myrtaceae), Stauranthus perforatus (Rutaceae), Zanthoxylum acuminatum, Z. melanostictum, Z. monophyllum, and Zanthoxylum sp. nov. “brillante” (Rutaceae), have been screene
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Faradilla, F. A., I. Prihatini, and Suranto. "The presence of Austropuccinia psidii and the threat to Myrtaceae plantations in Indonesia." IOP Conference Series: Earth and Environmental Science 886, no. 1 (2021): 012099. http://dx.doi.org/10.1088/1755-1315/886/1/012099.

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Abstract Austropuccinia psidii is an invasive pathogenic rust that infects the Myrtaceae family. This rust is a threat to Myrtaceae plantations around the world due to its widespread distribution. In this study, we observed the presence of A. psidii in three species of Myrtaceae, i.e. Melaleuca cajuputi, Syzygium myrtifolium, and Syzygium polyanthum planted in Yogyakarta and Sukabumi. The symptoms of infection were yellow-reddish spot in young leaves, presence of urediniospores in infected spot, foliage, and branch dieback. To confirm the presence of A. psidii on those trees, a molecular detec
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29

Strikis, Pedro C., and Maria Laura M. Lerena. "A new species of Neosilba (Diptera, Lonchaeidae) from Brazil." Iheringia. Série Zoologia 99, no. 3 (2009): 273–75. http://dx.doi.org/10.1590/s0073-47212009000300006.

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A new species of Neosilba McAlpine, 1962, N. pradoi sp. nov., is described and illustrated. This new species was found in the south of Brazil (Rio Grande do Sul and Santa Catarina), in the southeast (State of São Paulo) and center west (State of Mato Grosso do Sul). It has been reared from fruits of guava (Psidium guajava, Myrtaceae), "araçá" (Psidium cattleyanum, Myrtaceae), "guabiroba" (Campomanesia xanthocarpa, Myrtaceae), Surinam cherry (Malpighia emarginata, Malpighiaceae), cherry (Prunus avium, Rosaceae), orange (Citrus sinensis, Rutaceae), "ingá" (Inga laurina, Fabaceae), "esporão-de-ga
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XUE, XIAO-FENG, and ZHI-QIANG ZHANG. "New Zealand Eriophyoidea (Acari: Prostigmata): an update with descriptions of one new genus and six new species." Zootaxa 1962, no. 1 (2008): 1–32. http://dx.doi.org/10.11646/zootaxa.1962.1.1.

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The New Zealand fauna of Eriophyoidea (Acari: Prostigmata) is updated with a checklist. One new genus, six new species, three new combinations, one new record and some new distribution records of eriophyoid mites from New Zealand are described and illustrated, namely Disella rebeeveri sp. nov. on Kunzea ericoides (Myrtaceae); Cecidophyopsis hendersoni (Keifer, 1954), rec. nov. on Yucca glauca and Y. elephantipes (Agavaceae); Nameriophyes sapidae gen. nov. & sp. nov. on Rhopalostylis sapida (Palmae); Eriophyes bennetti sp. nov. on Fuchsia excorticata (Onagraceae); Eriophyes georgeae sp. nov
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31

Pérez, C. A., N. Altier, S. Simeto, M. J. Wingfield, B. Slippers, and R. A. Blanchette. "Botryosphaeriaceae from Eucalyptus and Native Myrtaceae in Uruguay." Agrociencia 12, no. 2 (2008): 19–30. http://dx.doi.org/10.31285/agro.12.731.

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Species of the Botryosphaeriaceae are important pathogens causing cankers and die-back on many woody plants. In Uruguay, Neofusicoccum eucalyptorum (=Botryosphaeria eucalyptorum), N. ribis (=B. ribis) and B. dothidea have previously been associated with stem cankers on plantation grown Eucalyptus globulus. These fungi also exist as endophytes in healthy Eucalyptus leaves, twigs and stems, typically causing disease after the onset of stress. There is good evidence to suggest that species of the Botryosphaeriaceae, other than those previously reported, could cause cankers on Eucalyptus spp. and
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KEZINA, TATIANA VLADIMIROVNA, and GALINA FEDOROVNA DARMAN. "MORPHOLOGY OF POLLEN OF SOME MODERN REPRESENTATIVES OF MYRTACEAE FAMILY IN LIGHT AND SCANNING ELECTRON MICROSCOPE." Messenger AmSU, no. 95 (2021): 78–87. http://dx.doi.org/10.22250/jasu.95.17.

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The authors studied the morphology of pollen of the Myrtaceae family in a light and scanning electron microscope. The studied material includes pollen selected by the T.V. Kezina in the herbarium of the Botanical Institute named after V.L. Komarova (St. Petersburg). 18 modern species of the Myrtaceae family are described.
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Rodríguez-Rajo, F. Javier, Mª Victoria Jato, and Mª Carmen Seijo. "El polen de Eucalyptus y su incidencia en la atmósfera de Vigo (N.O. España)." Acta Botanica Malacitana 26 (December 1, 2001): 99–110. http://dx.doi.org/10.24310/abm.v26i0.7403.

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RESUMEN. El polen de Eucalyptus y su incidencia en la atmósfera de Vigo (N.O. España). Eucalyptus globulus Labill. es la especie arbórea de la familia Myrtaceae, más frecuente en los alrededores de la ciudad de Vigo formando abundantes y densas masas forestales. Aunque su polen se considera moderadamente alergénico, en áreas en las que, como consecuencia de repoblación forestal ocupa extensiones importantes, puede llegar a causar problemas alérgicos.Entre los años 1995 y 2000 se ha realizado el estudio aerobiológico en la ciudad de Vigo mediante un captador LANZONI VPPS 2000 situado en la marg
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Parra Osorio, Carlos, Ayda Patiño, Mónica Martínez, and Mario Suárez. "Novedades taxonómicas en Myrtaceae para Colombia." Caldasia 40, no. 1 (2018): 91–96. http://dx.doi.org/10.15446/caldasia.v40n1.69568.

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Se describe e ilustra una nueva especie de Myrcia (Myrtaceae) para los bosques subandinos del departamento de Nariño, Colombia. Adicionalmente se reconoce un nuevo registro de Eugenia (Myrtaceae) para la flora de esta misma región. Se discuten las afinidades taxonómicas del nuevo taxón, así como características peculiares de la forma de sus frutos.
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Stadnik, Aline, Marla Ibrahim U. de Oliveira, and Nádia Roque. "Levantamento florístico de Myrtaceae no município de Jacobina, Chapada Diamantina, Estado da Bahia, Brasil." Hoehnea 43, no. 1 (2016): 87–97. http://dx.doi.org/10.1590/2236-8906-46/2015.

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RESUMO Myrtaceae é uma família pantropical com cerca de 5500 espécies e 132 gêneros e que se destacada pela taxonomia complexa (caracteres crípticos) e difícil. No Brasil, Myrtaceae está representada por 23 gêneros e 974 espécies e é uma das famílias mais representativas na Cadeia do Espinhaço. O objetivo deste trabalho foi realizar o levantamento florístico de Myrtaceae no município de Jacobina, Chapada Diamantina, Bahia. Foram realizadas cinco expedições de coleta entre junho/2011 e abril/2012, analisado os materiais dos herbários no estado, consulta a bibliografias especializadas e especial
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Prastika, Dewi, Tri Mustika Sarjani, Siska Rita Mahyuni, et al. "Identifikasi Tipe Stomata Anggota Suku Myrtaceae di Kota Langsa." Jurnal Sains dan Edukasi Sains 6, no. 1 (2023): 20–27. http://dx.doi.org/10.24246/juses.v6i1p20-27.

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Penelitian ini bertujuan untuk mengetahui tipe stomata tanaman anggota suku Myrtaceae yang terdapat di Kota Langsa. Penelitian ini diharapkan dapat memberikan informasi kepada masyarakat dan mahasiswa tentang tipe stomata tanaman anggota suku Myrtaceae yang dijumpai di Kota Langsa. Penelitian ini dilakukan menggunakan metode deskriptif kualitatif untuk menggambarkan dan menginterpretasikan tipe stomata pada daun tanaman anggota suku Myrtaceae. Pengambilan sampel daun secara purposive sampling, tidak dilakukan pengambilan sampel ulangan pada jenis tumbuhan yang sama. Pembuatan preparat stomata
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Ahmad Sanusi, Nuralia Fatihah, Ahmad Fitri Zohari, Muhammad Zul Faris Aizad Mohd Shabri, et al. "Tinjauan Awal Myrtaceae di Hutan Simpan Gunung Tebu, Terengganu." Semarak Proceedings of Natural and Environmental Sciences 1, no. 1 (2025): 63–68. https://doi.org/10.37934/spnes.1.1.6368a.

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Suatu tinjauan berkaitan senarai spesies daripada famili Myrtaceae telah dijalankan di hutan dipterokarpa tanah rendah dan hutan dipterokarpa bukit di Hutan Simpan Gunung Tebu, Terengganu. Sebanyak 22 spesies daripada empat genus bagi famili Myrtaceae telah direkodkan di sekitar Hutan Simpan Gunung Tebu, Terengganu. Syzygium merupakan genus terbesar diwakili oleh 19 takson manakala tiga genus lagi (Decaspermum, Rhodamnia dan Tristaniopsis), masing-masing diwakili oleh satu spesies. Tiga spesies merupakan spesies yang endemik di Semenanjung Malaysia iaitu Syzygium anisosepalum, S. duthieanum da
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38

Nik Hazlan Nik Hashim, Ahmad Fitri Zohari, Nik Norafida Nik Ali, et al. "Species Composition and Stand Structure of Myrtaceae Trees in a Lower Montane Forest at Fraser Hill, Selangor." Bioresources and Environment 2, no. 3 (2024): 135–42. https://doi.org/10.24191/bioenv.v2i3.70.

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This study was conducted to determine the species composition and stand structure of Myrtaceae trees in a lower montane forest at Fraser’s Hill, Selangor. A total of nine species and two genera of Myrtaceae from 22 individuals for trees with diameter ≥ 5.0 cm DBH were recorded in the study plot of 0.2 ha. Syzygium is the most speciose genus, with eight species, while Rhodamnia comprises a single species. The tree's DBH range is between 5.0 and 32.0 cm. The density of Myrtaceae is 110 individuals/ha. Syzygium is also the densest genus, with 95 individuals/ha, whereas Syzygium sp. 12 has the den
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Sahertian, Dece Elisabeth. "KERAPATAN DAN DISTRIBUSI STOMATA DAUN PADA BEBERAPA SPESIES FAMILI MYRTACEAE DI KOTA AMBON." Biosel Biology Science and Education 12, no. 1 (2023): 11–18. https://doi.org/10.33477/bs.v12i1.3517.

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Myrtaceae merupakan kelompok besar tumbuh-tumbuhan yang anggotanya banyak dikenal dan dimanfaatkan masyarakat sebagai penghasil minyak atsiri yang berkhasiat obat, tanaman buah-buahan, tanaman hias serta tanaman industri. Penelitian ini bertujuan untuk mengetahui kerapatan dan distribusi stomata daun pada beberapa tumbuhan famili Myrtaceae khususnya spesies Psidium guajava, Syzygium aromaticum, Syzygium polyanthum, Melaleuca leucadendra. Tipe penelitian yan digunakan deskriptif kuantitatif yaitu mendeskripsikan kerapatan dan distribusi stomata daun serta tipe dan jumlah stomata pada beberapa s
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Ramos, Zenia Acosta. "The genusPlinia(Myrtaceae) in Cuba." Willdenowia 44, no. 2 (2014): 269–77. http://dx.doi.org/10.3372/wi.44.44209.

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Landrum, Leslie R. "A Revision of Calycolpus (Myrtaceae)." Systematic Botany 35, no. 2 (2010): 368–89. http://dx.doi.org/10.1600/036364410791638342.

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MUSTAQIM, WENDY A., IRFAN MARTIANSYAH, YASPER M. MAMBRASAR, and PETER G. WILSON. "Lectotypification of Xanthostemon petiolatus (Myrtaceae)." Phytotaxa 559, no. 2 (2022): 213–16. http://dx.doi.org/10.11646/phytotaxa.559.2.11.

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Zhang, F. Y., X. L. Li, Q. Deng, R. H. Xu, and L. X. Chang. "Allelopathic Plants 34: Eucalyptus (Myrtaceae)." Allelopathy Journal 57, no. 1 (2022): 1–28. http://dx.doi.org/10.26651/allelo.j/2022-57-1-1402.

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Veldkamp, J. F. "Nomenclature of Syzygium gracile (Myrtaceae)." Blumea - Biodiversity, Evolution and Biogeography of Plants 48, no. 3 (2003): 489–90. http://dx.doi.org/10.3767/000651903x489456.

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Tuladhar, A., and N. Nii. "Anatomical studies on Myrtaceae roots." Acta Horticulturae, no. 1166 (June 2017): 55–62. http://dx.doi.org/10.17660/actahortic.2017.1166.8.

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Demattê, M. E. R. P. "ORNAMENTAL USE OF BRAZILIAN MYRTACEAE." Acta Horticulturae, no. 452 (September 1997): 143–80. http://dx.doi.org/10.17660/actahortic.1997.452.23.

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Scott, A. J. "Decaspermum (Myrtaceae) in New Guinea." Kew Bulletin 40, no. 1 (1985): 149. http://dx.doi.org/10.2307/4108492.

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Apel, Miriam A., Marcos Sobral, Elfrides E. S. Schapoval, Amélia T. Henriques, Chantal Menut, and Jean-Marie Bessiere. "Volatile Constituents ofEugenia mattosiiLegr (Myrtaceae)." Journal of Essential Oil Research 17, no. 3 (2005): 284–85. http://dx.doi.org/10.1080/10412905.2005.9698904.

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Brophy, Joseph J., Robert J. Goldsack, Lyn A. Craven, and Andrew J. Ford. "Leaf Oil ofBackhousia enata(Myrtaceae)." Journal of Essential Oil Research 19, no. 1 (2007): 26–27. http://dx.doi.org/10.1080/10412905.2007.9699221.

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Silva, José R. M., Nilva Ré-Poppi, and Claudia A. L. Cardoso. "Fruit Oil ofCampomanesia pubescens(Myrtaceae)." Journal of Essential Oil Research 21, no. 4 (2009): 315–16. http://dx.doi.org/10.1080/10412905.2009.9700180.

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