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Journal articles on the topic 'Pandanaceae'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 August 2024

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1

Triani, Sofi Caesar, Melfa Aisyah Hutasuhut, and Zahratul Idami. "Composition Structure And Distribution Patterns Of Pandanaceae Family Plants In Batang Gadis Resort 7 Sopotinjak National Park, Mandailing Natal District North Sumatra." JURNAL PEMBELAJARAN DAN BIOLOGI NUKLEUS 9, no. 3 (November 15, 2023): 603–14. http://dx.doi.org/10.36987/jpbn.v9i3.5069.

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The Pandanaceae family includes Monocotyledoneae plants that have tree, liana, and shrub habitus. This study aims to determine the types of the Pandanaceae family, diversity index, and distribution patterns of the Pandanaceae family at Resort 7 Sopotinjak Batang Gadis National Park, Batang Natal District, Mandailing Natal Regency, North Sumatra which was carried out in February - April 2022. The method used in this research is a survey method with the technique of making quadrat plots by purposive sampling on 3 research transects, each transect consisting of 8 plots. The results obtained 7 species from the Pandanaceae family, namely Benstonea eatrocarpa (Griff.), Benstonea parva (Ridl.) Callm & Buerki, Benstonea sp., Freycinetia angustifolia Blume, Freycinetia sumatrana Hemsl, Pandanus furcatus Roxb., Pandanus houlettii Carriere. The diversity index of the Pandanacaeae family in Resort 7 Sopotinjak Batang Gadis National Park in transect 1 was 0.397, in transect 2 was 0.637, and in transect 3 was 0.079 which indicated that the level of diversity was low. The morisita index (Id) of the Pandanaceae family in Resort 7 Sopotinjak Batang Gadis National Park is 9.45, which indicates that the distribution pattern is clustered. The Pandanaceae family is found in highland tropical forests with high rainfall and reproduces vegetatively (budding) under favorable environmental conditions.
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2

Tanzerina, Nina, Harmida Harmida, and Dwi Apriliani. "ETHNOBOTANICAL STUDY OF PANDANACEAE BY THE BESEMAH TRIBE, LAHAT DISTRICT, SOUTH SUMATERA PROVINCE." BIOVALENTIA: Biological Research Journal 8, no. 2 (July 18, 2022): 130–37. http://dx.doi.org/10.24233/biov.8.2.2022.185.

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The research entitled Ethnobotanical study of Pandanaceae by the Besemah tribe in Lahat Regency, South Sumatra has been conducted form October 2018 to December 2019. The objective of the research were to inventory the species diversity of Pandanaceae and its traditional utilization by the local ethnic in the studied area. The research was conducted by using survey method and field work to collect plant samples. The basic data of ethnobotany was collected by using direct interview from respondents. The result showed that there were six (6) species of Pandanaceae such as; Pandanus lais Kurz, Pandanus helicopus Kurz, Pandanus amaryllifolius Roxb. (two varieties; “large and small” size fragrant pandanus), Benstonea atrocarpa Griff, Benstonea affinis Kurz. and Freycinetia rigidifolia Hemsl. 71,4% of them were belonged to wild species and 28.8% were cultivated species. The trdaitional utilization of Pandanaceae was used for handycrafft (36.4%), building material (9,1%), medicinal & cosmetic ingredients, foodstuffs and customary materials (18.2% each). The Baeemah tribe was used leaves (75%) rather than other part of plant.
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Zanan, Rahul L., and Altafhusain B. Nadaf. "Conservation Status of Indian Pandanaceae." American Journal of Plant Sciences 04, no. 06 (2013): 51–56. http://dx.doi.org/10.4236/ajps.2013.46a008.

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4

CALLMANDER, MARTIN W., and SVEN BUERKI. "Corrections to Phytotaxa 112: Update on the systematics of Benstonea (Pandanaceae)." Phytotaxa 125, no. 1 (August 21, 2013): 59. http://dx.doi.org/10.11646/phytotaxa.125.1.9.

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After the publication of our Update on the systematics of Benstonea (Pandanaceae): When a visionary taxonomist foresees phylogenetic relationships (Callmander, Booth, Beentje & Buerki 2013), an error was brought to our attention:
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5

Poppendieck, Hans-Helmut. "Monoecy and Sex Changes in Freycinetia (Pandanaceae)." Annals of the Missouri Botanical Garden 74, no. 2 (1987): 314. http://dx.doi.org/10.2307/2399401.

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6

Huynh, Kim-Lang. "The genus Freycinetia (Pandanaceae) in New Guinea (part 7)." Botanische Jahrbücher für Systematik, Pflanzengeschichte und Pflanzengeographie 124, no. 2 (December 19, 2002): 151–61. http://dx.doi.org/10.1127/0006-8152/2002/0124-0151.

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Huynh, Kim-Lang. "The genus Freycinetia (Pandanaceae) in New Guinea (part 8)." Botanische Jahrbücher für Systematik, Pflanzengeschichte und Pflanzengeographie 125, no. 1 (December 17, 2003): 73–83. http://dx.doi.org/10.1127/0006-8152/2003/0125-0073.

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8

Santika, Yessi, Eka Fatmawati Tihurua, and Teguh Triono. "COMPARATIVE LEAVES ANATOMY OF PANDANUS, FREYCINETIA AND SARARANGA (PANDANACEAE) AND THEIR DIAGNOSTIC VALUE." REINWARDTIA 14, no. 1 (December 23, 2014): 163. http://dx.doi.org/10.14203/reinwardtia.v14i1.412.

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Study in leaves anatomy of twenty nine samples of the species classified under Pandanus, Freycinetia and Sararanga of Pandanaceae had been undertaken to unravel generic relationship among of these taxa with a view to provide a set of diagnostic characters for taxonomic identification. The fourth genus of Pandanaceae, Benstonea is not included in this analysis since there are no representative samples. Four anatomical diagnostic characters had been identified at the generic level such as present and absent of papillae, stomatal arrangement types, present and absent of bundle sheath extension and hypodermal thickness and its shape. Pandanus has papillae, amphistomatous stomata, bundle sheath extension present and hypodermis thin and rectangular; Freycinetia lacked of papillae, stomata hypostomatous or amphistomatous, bundle sheath extension absent and hypodermis thick and hexagonal or rounded; meanwhile Sararanga has no papillae, stomata amphistomatous, bundle sheath extension absent and hypodermis thin and flatten. An identification key to those genera based on anatomical diagnostic characters is provided.
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9

HUYNH, KIM-LANG. "Contribution to the flower structure of Sararanga (Pandanaceae)." Botanical Journal of the Linnean Society 136, no. 2 (June 2001): 239–45. http://dx.doi.org/10.1111/j.1095-8339.2001.tb00569.x.

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10

STONE, BENJAMIN C. "Notes on the genus Pandanus (Pandanaceae) in Tahiti." Botanical Journal of the Linnean Society 97, no. 1 (May 1988): 33–48. http://dx.doi.org/10.1111/j.1095-8339.1988.tb01685.x.

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11

Whitton, Stephen R., Eric H. C. McKenzie, Kevin D. Hyde, and Jane Fröhlich. "Microfungi on the Pandanaceae: Polytretophora macrospora sp. nov." Mycoscience 42, no. 6 (December 2001): 555–58. http://dx.doi.org/10.1007/bf02460954.

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12

Cox, Paul Alan. "Pollination and the Evolution of Breeding Systems in Pandanaceae." Annals of the Missouri Botanical Garden 77, no. 4 (1990): 816. http://dx.doi.org/10.2307/2399673.

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13

Callmander, Martin W., Michel O. Laivao, and Richard Randrianaivo. "A New Species of Pandanaceae from Northern Madagascar, Pandanus ankaranensis." Novon: A Journal for Botanical Nomenclature 20, no. 3 (September 13, 2010): 243–47. http://dx.doi.org/10.3417/2009105.

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14

Nadaf, A. B., R. L. Zanan, and K. V. Wakte. "A new endemic species of Pandanaceae from India: Pandanus palakkadensis." Kew Bulletin 66, no. 1 (March 2011): 183–86. http://dx.doi.org/10.1007/s12225-011-9265-0.

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15

Zanan, R. L., and A. B. Nadaf. "Pandanus mangalorensis: a new species of Pandanaceae from Southern India." Kew Bulletin 67, no. 3 (May 29, 2012): 555–59. http://dx.doi.org/10.1007/s12225-012-9366-4.

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16

Ash, J. "Demography, Dispersal and Production of Pandanus tectorius (Pandanaceae) in Fiji." Australian Journal of Botany 35, no. 3 (1987): 313. http://dx.doi.org/10.1071/bt9870313.

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Populations of Pandanus tectorius (Pandanaceae) were examined at coastal and peat swamp sites in Viti Levu, Fiji. Rates of leaf production (10-90 year-1), stem and branch growth (2-80 cm year-1)) were determined and used in conjunction with observations of the number and spacing of leaf scars and peduncle scars to estimate plant age. A semiprostrate juvenile phase of 4.5-9 years is followed by erect trunk growth for c. 5-12 years followed by a flowering phase lasting 40 years or more. Male plants form about 30 branches and flower annually, while female plants form about 16 branches and flower biennially. Each fruit forms about 76 phalanges (drupes) and each phalange contains up to eight embryos, although many were parasitised by insect larvae. Dispersal of phalanges by Pteropus tonganus (Chiroptera), water, man and crabs or rats was recorded. In swamp sites occasional fires kill many of the small-medium-sized plants, while cyclones damage and kill large plants at all sites. Because infrequent but severe destructive events limit survivorship, it is difficult to define characteristic natalities or mortalities. The sex ratio of the population indicates a slight preponderance of females. The allocation of biomass to reproduction is estimated to be c. 34% in females and 15% in males, at 60 years.
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17

Tibpromma, Saowaluck, Kevin D. Hyde, Eric H. C. McKenzie, D. Jayarama Bhat, Alan J. L. Phillips, Dhanushka N. Wanasinghe, Milan C. Samarakoon, et al. "Fungal diversity notes 840–928: micro-fungi associated with Pandanaceae." Fungal Diversity 93, no. 1 (September 27, 2018): 1–160. http://dx.doi.org/10.1007/s13225-018-0408-6.

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18

Keim, A. P., and C. C. Tan. "A new species of Freycinetia (Pandanaceae; Freycinetoideae) from Luzon Island, the Philippines." Blumea - Biodiversity, Evolution and Biogeography of Plants 65, no. 2 (November 30, 2020): 102–3. http://dx.doi.org/10.3767/blumea.2020.65.02.02.

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A new species of Freycinetia (Pandanaceae; Freycinetoideae) from Llavac, Quezon Province in Luzon Island, the Philippines, is proposed here, namely Freycinetia nonatoi. Freycinetia nonatoi is characterized by a lobed auricle of the sheath with conspicuous spines on the margins and bright yellow bracts. These three morphological features distinguish it from the nearest species, F. sumatrana. The discovery of F. nonatoi also marks the first record of a member of the section Auriculifoliae with spiny margins.
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19

Sisillia, Lolyta, Sunsugos Sabalaka, and Siti Masitoh Kartikawati. "KAJIAN PEMANFAATAN JENIS-JENIS PANDANUS (PANDANACEAE) OLEH MASYARAKAT DESA NANGA KERUAP KABUPATEN MELAWI." JURNAL HUTAN LESTARI 12, no. 1 (May 2, 2024): 22. http://dx.doi.org/10.26418/jhl.v12i1.63721.

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This study aims to examine the types of pandanus (Pandanceae) used by the community and the form/pattern of pandanus utilization by the people of Nanga Keruap Village, Menukung District, Melawi Regency. Based on the results of the study, it was found that there were four types of pandanus plants, namely fragrant pandanus (Pandanus amaryllifolius Roxb), kajang/perupuk (Pandanus aristatus Martelli), ries/ririh (Pandanus Sp.1) and soli/kesopuk (Pandanus Sp.2). The highest Use Value (UV) was from the kajang plant (Pandanus aristatus Martelli) with a value of 1. The highest Informant Consensus Factor (ICF) was found in the user group as housing materials, food ingredients, dyes, and traditional rituals, with an average value of 1. The highest Fidelity Level (FL) was found in soil plants with a value of 100%. Leaves are the most widely used part of the pandanus plant. The pattern of using pandanus plants tends to be personal consumption. Each type of pandanus is taken and processed into a product by the community as an individual need, not for sale. Pandanus plants are obtained from the wild (kajang, ririh, and soli) and cultivated plants (fragrant pandan).Keywords: Pandanaceae, pandanus, plants, utilization, Nanga Keruap Village.AbstrakPenelitian ini bertujuan untuk mengkaji jenis-jenis pandanus (Pandanaceae) yang dimanfaatkan masyarakat serta mengkaji bentuk/pola pemanfaatan pandanus oleh masyarakat Desa Nanga Keruap Kecamatan Menukung Kabupaten Melawi. Penelitian ini dilakukan dengan metode Snowball sampling dan purposive sampling. Berdasarkan hasil penelitian ditemukan sebanyak 4 jenis tumbuhan pandanus yaitu pandan wangi (Pandanus amaryllifolius Roxb), kajang/perupuk (Pandanus aristatus Martelli), ries/ririh (Pandanus Sp.1) dan soli/kesopuk (Pandanus Sp.2). Use Value (UV) tertinggi yaitu dari jenis tumbuhan kajang (Pandanus aristatus Martelli) dengan nilai 1. Informant Consensus Factor (ICF) tertinggi terdapat pada kelompok pemanfaatan sebagai bahan perumahan, bahan makanan, pewarna, dan ritual adat dengan rata-rata nilai 1. Fidelity Level (FL) tertinggi terdapat pada tumbuhan soli dengan nilai 100%. Daun merupakan bagian tumbuhan pandanus yang paling banyak dimanfaatkan. Pola pemanfaatan tumbuhan pandanus cenderung bersifat konsumsi pribadi dimana setiap jenis pandanus yang diambil dan diolah menjadi sebuah produk oleh masyarakat sebagai kebutuhan pribadi tidak untuk dijual. Tumbuhan pandanus diperoleh dari tumbuhan liar (kajang, ririh, dan soli) dan budidaya (pandan wangi).Kata kunci: Desa Nanga Keruap, pandanaceae, pandanus, pemanfaatan, tumbuhan.
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Callmander, Martin W., Sven Buerki, and Sébastien Wohlhauser. "A New Threatened Species of Pandanaceae From Northwestern Madagascar, Pandanus Sermolliana." Novon: A Journal for Botanical Nomenclature 18, no. 4 (December 16, 2008): 421–24. http://dx.doi.org/10.3417/2007101.

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21

TIBPROMMA, Saowaluck, Dinushani Anupama DARANAGAMA, Saranyaphat BOONMEE, Itthayakorn PROMPUTTHA, Sureeporn NONTACHAIYAPOOM, and Kevin David HYDE. "Anthostomelloides krabiensis gen. et sp. nov. (Xylariaceae) from Pandanus odorifer (Pandanaceae)." TURKISH JOURNAL OF BOTANY 41 (2017): 107–16. http://dx.doi.org/10.3906/bot-1606-45.

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Setsuko, Suzuki, Kentaro Uchiyama, Kyoko Sugai, and Hiroshi Yoshimaru. "Rapid development of microsatellite markers forPandanus boninensis(Pandanaceae) by pyrosequencing technology." American Journal of Botany 99, no. 1 (January 2012): e33-e37. http://dx.doi.org/10.3732/ajb.1100300.

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Tihurua, E. F., Widoyanti, H. Rustiami, and Megawati. "Notes on leaf anatomy: Additional information for Indonesian Pandanus spp. (Pandanaceae)." IOP Conference Series: Earth and Environmental Science 976, no. 1 (February 1, 2022): 012067. http://dx.doi.org/10.1088/1755-1315/976/1/012067.

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Abstract In Indonesia, Pandanus spp. were distributed from Sumatra to Papua. These Pandanus species has broader variation of anatomical leaf characters whether epidermis or transversal section traits. This study was conducted to obtain an information of anatomical characters of Pandanus leaf and supporting character on Pandanus identification. Pandanus collections of Herbarium Bogoriense were used for this study, and some of Pandanus species from Papua New Guinea and Malay Peninsula were added as well. Paraffin method and simple peeling of the leaf surface were used to get leaf transversal sections and epidermis characters. In general, anatomical characters of examined species in this study relatively similar to other Pandanus species which were studied by former researchers. Pandanus has broad range of stomata types on the lower leaf surface, from simple stomata to the most specialized stomata. The upper leaf surface of Pandanus spp. has similar stomata type, viz. class 1 (simple). Zonation always presents on all species, except on P. atropurpureus, P. conoideus and P. nitidus. Mostly, crystals CaCO3 were found in three forms, namely rectangular and needle-like shape in idioblast cells, while prism-shape is scattered in the mesophyll area. These crystal shapes absent in P. odorifer and there is one additional crystal shape, drusse which present in P. conoideus. Silica bodies located in the upper and lower hypodermis of leaf. Bundle sheath extension was seen in all species except P. beguinii, P. conoideus, and P. fusinus.
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CALLMANDER, MARTIN W., ARY P. KEIM, CHARLIE D. HEATUBUN, PETER HOMOT, and SVEN BUERKI. "Lifting the curtain on our knowledge on New Guinean Benstonea (Pandanaceae)." Phytotaxa 275, no. 2 (September 19, 2016): 168. http://dx.doi.org/10.11646/phytotaxa.275.2.8.

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New Guinea is one of the centres of diversity of Benstonea (Pandanaceae), a genus distributed from India to Fiji. Ten species were previously recognised on this island and further field observations, accompanied by the study of available herbarium material have brought new insights into species delimitations within a group of caespitose species with a solitary terminal infructescence. The taxonomical identity of Benstonea odoardoi is elucidated and is considered here as a synonym of Benstonea lauterbachii. Three new combinations and a new name—based on names of Pandanus species previously treated as synonyms of Benstonea odoardoi—are proposed for four distinct species belonging to this group of caespitose species and restricted to Indonesian New Guinea and Papua New Guinea. Finally, Pandanus bintuniensis is here considered as a synonym of Benstonea permicron.
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Tan, Xin-Hang, Jian-Hua Wang, Kun-Kun Zhao, Zhi-Xin Zhu, and Hua-Feng Wang. "Complete plastome sequence of Pandanus tectorius Parkinson ex Du Roi (Pandanaceae)." Mitochondrial DNA Part B 4, no. 1 (November 26, 2018): 68–69. http://dx.doi.org/10.1080/23802359.2018.1536460.

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26

Tobar-Vargas, Alexandra, and Takumasa Kondo. "Taxonomic list of the vascular flora of the islands of San Andres and Old Providence, Colombia." Check List 11, no. 2 (March 31, 2015): 1618. http://dx.doi.org/10.15560/11.2.1618.

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We present an updated list of 532 vascular plant species distributed in 375 genera and 110 families on the islands of San Andres and Old Providence, Colombia, based on a compilation of published literature and some additional observations. The following nine plant species are new plant records for the islands: Cycas circinalis L. (Cycadaceae), Clerodendrum trichotonum Wall., Mentha viridis (L.) L., Ocimum americanum L. var. americanum, O. basilicum var. purpurascens Benth., O. campechianum Mill. (Lamiaceae), Pandanus sp. (Pandanaceae), Duranta repens L. and Lantana involucrata L. (Verbenaceae).
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TIBPROMMA, SAOWALUCK, JAYARAMA BHAT, MINGKWAN DOILOM, SAISAMORN LUMYONG, SUREEPORN NONTACHAIYAPOOM, JUN-BO YANG, and KEVIN DAVID HYDE. "Three new Hermatomyces species (Lophiotremataceae) on Pandanus odorifer from Southern Thailand." Phytotaxa 275, no. 2 (September 19, 2016): 127. http://dx.doi.org/10.11646/phytotaxa.275.2.4.

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Investigations on microfungi on Pandanus odorifer (Pandanaceae) from southern Thailand resulted in the discovery of three new species of Hermatomyces (Lophiotremataceae). Phylogenetic analyses of combined LSU, ITS, SSU, RPB2 and TEF1 sequence data showed that our new taxa cluster with Hermatomyces species and were well separated from Aquasubmersa and Lophiotrema species in Lophiotremataceae. We introduce the new species, Hermatomyces krabiensis, H. pandanicola and H. saikhuensis, with illustrated accounts. Evidence for demarcation of the three new species is provided using morphology and phylogenetic analyses. This is the first report of Hermatomyces on Pandanus species.
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TIBPROMMA, SAOWALUCK, SARANYAPHAT BOONMEE, NALIN N. WIJAYAWARDENE, SAJEEWA S. N. MAHARACHCHIKUMBURA, ERIC H. C. MCKENZIE, ALI H. BAHKALI, JONES E. B. E.B. GARETH, KEVIN D. HYDE, and ITTHAYAKORN PROMPUTTHA. "The holomorph of Parasarcopodium (Stachybotryaceae), introducing P. pandanicola sp. nov. on Pandanus sp." Phytotaxa 266, no. 4 (June 27, 2016): 250. http://dx.doi.org/10.11646/phytotaxa.266.4.2.

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Collections of microfungi on Pandanus species (Pandanaceae) in Krabi, Thailand resulted in the discovery of a new species in the genus Parasarcopodium, producing both its sexual and asexual morphs. In this paper, we introduce P. pandanicola sp. nov., with an illustrated account. Evidence for the new species is provided by distinct morphology and phylogenetic analyses. This is also the first report of the sexual morph of Parasarcopodium. The phylogenetic trees used Maximum Likelihood and Bayesian analyses of combined LSU, SSU, TEF1 and RPB2 sequence data to show the placement of the new species in Stachybotryaceae.
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WILLIAMS, D. J., and J. H. MARTIN. "An account of the Pacific mealybug genus Laminicoccus Williams (Hemiptera: Coccoidea: Pseudococcidae)." Zootaxa 804, no. 1 (January 10, 2005): 1. http://dx.doi.org/10.11646/zootaxa.804.1.1.

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The Pacific mealybug genus Laminicoccus Williams is reviewed. At present six species are assigned to the genus including a new species, Laminicoccus samoanus sp. nov., described from Western Samoa. Most of the host-plant records of these mealybugs are from monocotyledons and many of the species seem to prefer plants belonging to the families Arecaceae, Pandanaceae, and Poaceae. One or two host-plant records, nevertheless, are from dicotyledons. A key to species of Laminicoccus is provided. The mealybug Pseudococcus pandanicola Takahashi, described originally from Palau, had been included in Laminicoccus but is here reassigned to Pseudococcus and redescribed.
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Ordas, Jorge Anton D., Maribel G. Nonato, and Cecilia B. Moran. "Ethnobotanical Uses of Pandanaceae Species in Selected Rural Communities in the Philippines." Economic Botany 74, no. 4 (December 2020): 411–28. http://dx.doi.org/10.1007/s12231-020-09509-w.

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Callmander, Martin W., Philippe Chassot, Philippe Kupfer, and Porter P. Lowry II. "Recognition of Martellidendron, a New Genus of Pandanaceae, and Its Biogeographic Implications." Taxon 52, no. 4 (November 2003): 747. http://dx.doi.org/10.2307/3647349.

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Callmander, Martin W., Philippe Chassot, Philippe Küpfer, and Porter P. Lowry II. "Recognition of Martellidendron , a new genus of Pandanaceae, and its biogeographic implications." TAXON 52, no. 4 (November 2003): 747–62. http://dx.doi.org/10.2307/4135547.

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Kapitarauw, Markus Obed, Charlie D. Heatubun, and Francina F. Kesaulija. "JENIS – JENIS PANDANUS (Pandanaceae) DI CAGAR ALAM BIAK UTARA KABUPATEN BIAK NUMFOR." JURNAL KEHUTANAN PAPUASIA 3, no. 1 (December 17, 2019): 67–75. http://dx.doi.org/10.46703/jurnalpapuasia.vol3.iss1.68.

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Penelitian ini bertujuan untuk mengetahui jenis-jenis pandanus (pandanceae) yang terdapat pada Kawasan Cagar Alam Biak Utara Kabupaten Biak Numfor. Metode yang digunakan dalam penelitian ini adalah metode deskriptif dengan teknik observasi lapang melalui pejelajahan kawasan. Identifikasi karakteristik morfologi dilakukan untuk melihat variasi jenis-jenis pandanus yang ditemukan. Dari hasil penelitian ditemukan 3 jenis pandanus yaitu Pandanus sp. (Answarik), P. kraneulianus K.Sehum (Mansyoi) dan P. papuanus Solms. Laub (Kakof). Secara morfologis, ketiga jenis pandanus sangat berbeda berdasarkan ukuran batang, ukuran daun dan jumlah buah.
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Huynh, Kim-Lang. "Etude des Pandanus (Pandanaceae) d'Afrique occidentale. (4epartie): Pandanus djalonensis et P. insolitus." Webbia 41, no. 1 (January 1987): 155–65. http://dx.doi.org/10.1080/00837792.1987.10670405.

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Batoro, Jati, Serafinah Indriyani, and Brian Rahardi. "Etnobotani Masyarakat Lokal, Struktur Anatomi Jenis Pandan (Pandanaceae) Bermanfaat di Jawa Timur." Research Journal of Life Science 2, no. 2 (April 1, 2015): 133–44. http://dx.doi.org/10.21776/ub.rjls.2015.002.02.7.

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Zebua, L. I., I. M. Budi, E. Wanimbo, and Suharno. "The utilization of Pandan Coconut (Pandanaceae) at the interior tribes Papua, Indonesia." IOP Conference Series: Earth and Environmental Science 575 (October 29, 2020): 012211. http://dx.doi.org/10.1088/1755-1315/575/1/012211.

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37

Callmander, Martin W., and Nicolas Fumeaux. "(1991) Proposal to conserve the name Pandanus pervilleanus against P. boucheanus (Pandanaceae )." TAXON 60, no. 1 (February 2011): 235–36. http://dx.doi.org/10.1002/tax.601027.

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38

Nurhaida I Sinaga. "Karakter Stigma-Areola Dalam Penjenisan Freycinetia GAUD., Pandanaceae Di New Guinea Barat." JURNAL KEHUTANAN PAPUASIA 7, no. 2 (December 30, 2021): 161–70. http://dx.doi.org/10.46703/jurnalpapuasia.vol7.iss2.249.

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Freycinetia adalah salah satu genus tumbuhan di bawah famili Pandanaceae bersama dengan Sararanga, Martelidendron dan Benstonea. Genus ini memiliki variasi yang besar di pulau New Guinea, yang diduga merupakan pusat keanekaragaman hayati Freycinetia. Studi mengenai taksonomi, keragaman hayati dan penyebaran Freycinetia Papua telah dilaksanakan sejak tahun 2005 hingga 2018 dengan menggunakan data morfologi bahkan molekuler. Riset menunjukan bahwa lebih seratus jenis Freycinetia ditemukan di Barat New Guinea. Jenis-jenis tersebut memiliki karakternya masing-masing khususnya karakter diagnostik untuk mengenal jenis. Stigma sebagai suatu karakter diagnostik memiliki variasi dan variasi ini bukan hanya mencakup karakter yang telah ada namun seringkali karakter baru dalam stigma ditemukan sejalan dengan penemuan jenis baru. Beberapa karakter stigma-areola yang unik ditemukan pada F. megaauriculata, F. imbristigma, F. pauciberria, F. desendata dan F. broccoareola. Stigma karakter dan fungsinya dalam pembentukan spesies akan dijelaskan secara lengkap dalam tulisan ini.
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39

Thongkantha, S., S. Lumyong, P. Lumyong, S. R. Whitton, E. H. C. McKenzie, and K. D. Hyde. "Microfungi on the Pandanaceae: Linocarpon lammiae sp. nov., L. siamensis sp. nov. and L. suthepensis sp. nov. Are Described with a Key to Linocarpon Species from the Pandanaceae." Mycologia 95, no. 2 (March 2003): 360. http://dx.doi.org/10.2307/3762048.

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PARINDING, ZETH. "IDENTIFIKASI JENIS-JENIS PANDANACEAE DI PULAU PEPAYA PADA KAWASAN TAMAN NASIONAL TELUK CENDERAWASIH (Identification of Pandanaceae Types in Pepaya Island in The National Park Areas of Teluk Cenderawasih)." SCIENCE : Jurnal Inovasi Pendidikan Matematika dan IPA 1, no. 1 (June 30, 2021): 13–18. http://dx.doi.org/10.51878/science.v1i1.180.

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Diversitas pandanus di Papua masih banyak yang belum diketahui, walaupun cukup banyak yang sudah diidentifikasikan. Pandanus pada kawasan Taman Nasional Teluk Cenderawasih, sampai saat ini belum didokumentasikan dengan baik, sehingga diversitas pada pulau dan pesisirnya perlu diidentifikasikan kembali. Metode yang digunakan adalah metode deskriptif dengan teknik survei lapang dan wawancara semi struktural serta studi literatur. Variabel yang diamati dalam penelitian ini adalah jenis-jenis buah pandan, yang tampak saat ditemukan atau pada Herbarium Pusat Keanekaragaman Hayati (PPKH) Universitas Papua Manokwari dengan obyek utama yaitu jenis-jenis Pandanus sp. di pulau Pepaya pada kawasan Taman Nasional Teluk Cenderawasih. Jenis-jenis pandanus di Pulau Pepaya pada kawasan Taman Nasional Teluk Cenderawasih ditemukan sebanyak 3 jenis, yaitu: Pandanus tectorius, Pandanus odoratissimus, dan Pandanus polycephalus (yang berbeda).
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Santoso, Budi, Nelci Welmina Menanti, and Zita Letviany Sarungallo. "Karakteristik Fisikokimia Tepung Pandan Tikar (Pandanus tectorius Park.)." Pro Food 7, no. 1 (July 30, 2021): 831–39. http://dx.doi.org/10.29303/profood.v7i1.166.

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ABSTRACT Pandan tikar (Pandanus tectorius Park.) is one of pandanaceae that spread almost along the Pacific coast, contains high nutrients, variety in fruit colors and has a distinctive pandan flavor. Fruit of Pandan tikar is potentially to be processed into flour. This research aims was to determine the physico-chemical characteristic of flour fruit of pandan tikar. The results showed that the color of the flour varies from yellow to orange red, the density of 0,27-0,22%; solubility in water 52,58-61,65%; the temperature of the gelatinization of 89º-91ºC; water content 10,97-11,21%; ash 5,59-6,54%; fat 0,91-1,6%; protein 3,62-3,8%; carbohydrates 88,48-88,75%; as well as crude fiber 20, 98-21,47%; starch content 10,76-23,20%; β-carotene 588,69-2266,13 ppm; and total sugar 26,23-36,08%. ABSTRAK Pandan tikar (Pandanus tectorius Park.) merupakan salah satu jenis pandanaceae yang penyebarannya hampir di sepanjang pantai pasifik, mengandung zat gizi yang cukup tinggi, memiliki variasi warna buah dan memiliki citarasa khas pandan. Buah pandan tikar sangat berpotensi untuk diolah menjadi tepung. Penelitian ini bertujuan untuk menentukan sifat fisik dan kimia tepung dari 3 jenis buah pandan tikar dengan warna kuning, kuning tua, dan oranye. Hasil penelitian menunjukkan bahwa tepung yang dihasilkan dari tiga jenis buah pandan tikar memiliki dari warna kuning hingga merah-orange; densitas kamba 0,27-0,33%; kelarutan dalam air 57,58-61,65%; suhu gelatinisasi 89°-91°C; kadar air 10,97-11,21%; abu 5,59-6,54%; lemak 0,91-1,6%; protein 3,62-3,8; karbohidrat 88,48-88,75; serta kasar 20,98-21-47%; kadar pati 10,76-23,20; β-karoten 588,69-2266,13 ppm; dan total gula 26,23-36,08%.
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Biddick, M., I. Hutton, and K. C. Burns. "An alternative water transport system in land plants." Proceedings of the Royal Society B: Biological Sciences 285, no. 1884 (August 2018): 20180995. http://dx.doi.org/10.1098/rspb.2018.0995.

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The evolution of vascular tissue is a key innovation enabling plants to inhabit terrestrial environments. Here, we demonstrate extra-vascular water transport in a giant, prop-rooted monocot from Lord Howe Island. Pandanus forsteri (Pandanaceae) produces gutter-like leaves that capture rainwater, which is then couriered along a network of channels to the tips of aerial roots, where it is stored by absorptive tissue. This passive mechanism of water acquisition, transport and storage is critical to the growth of aerial prop roots that cannot yet attain water via vascular conduction. This species therefore sheds light on the elaborate means by which plants have evolved to attain water.
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Callmander, Martin W., SVEN BUERKI, ARY P. KEIM, and PETER B. PHILLIPSON. "Notes on Benstonea (Pandanaceae) from the islands of Halmahera, New Guinea and Sulawesi." Phytotaxa 175, no. 3 (August 8, 2014): 161. http://dx.doi.org/10.11646/phytotaxa.175.3.6.

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Benstonea (Pandanaceae) was circumscribed to include 57 species formerly placed in the genus Pandanus. Field observations, accompanied by the study of available herbarium material have brought new insights for the delimitation of certain problematic species, especially in the difficult group of species characterized by an axillary infructescence on a short peduncle covered by prophylls and the abscission of the basal portion of the drupe at maturity. New combinations, based on names in Pandanus previously treated as synonyms of Benstonea stenocarpa, are proposed for three distinct species of this group from Halmahera (Indonesia) and Papua New Guinea. The identity of Benstonea celebica, endemic to Sulawesi (Indonesia), is also elucidated and an epitype is designated for this species.
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Callmander, Martin W., Michel O. Laivao, and Peter B. Phillipson. "Pandanaceae Specimens Relocated from the University of Neuchâtel (NEU), with Two New Synonymies." Candollea 66, no. 2 (December 2011): 404–8. http://dx.doi.org/10.15553/c2011v662a20.

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45

Callmander, Martin W., Ralph Bolliger, R. Mitia Hanitrarivo, and Louis Nusbaumer. "Pandanus Tsingycola Callm. & Nusb. (Pandanaceae), a New Species Endemic to Western Madagascar." Candollea 68, no. 2 (December 1, 2013): 229. http://dx.doi.org/10.15553/c2012v682a6.

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46

Buerki, Sven, Timothy Gallaher, Thomas Booth, Grace Brewer, Félix Forest, Joan T. Pereira, and Martin W. Callmander. "Biogeography and evolution of the screw-pine genus Benstonea Callm. & Buerki (Pandanaceae)." Candollea 71, no. 2 (August 2, 2016): 217–29. http://dx.doi.org/10.15553/c2016v712a8.

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47

Vinod, M. S., Prashanth S. Raghavan, Suja George, and Ajay Parida. "Identification of a sex-specific SCAR marker in dioecious Pandanus fascicularis L. (Pandanaceae)." Genome 50, no. 9 (September 2007): 834–39. http://dx.doi.org/10.1139/g07-066.

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Pandanus fascicularis L. is a dioecious plant native to South Asia with significant numbers in coastal areas. With the aim of distinguishing male genotypes from female genotypes early in the vegetative growth phase, the current study was initiated using molecular markers. Based on the principle of bulked segregant analysis, the sampled plants were separated into 2 bulks depending on their sex. Of the 89 random amplified polymorphic DNA and inter-simple sequence repeat markers used, one decamer (OPO-08) consistently amplified a 1263 bp band in the males that was absent in the females. Its DNA sequence did not exhibit significant similarity to previously characterized sequences, but the presence of mononucleotide and dinucleotide repeats suggested that it was a repeat-rich region. A sequence-characterized amplified region marker (MSSRF-01) designed for this fragment continued to amplify the specific allele in all the male plants. Southern hybridization performed using the sex-specific fragment as a probe yielded results consistent with those previously obtained by polymerase chain reaction. These results strongly suggest that MSSRF-01 is a male-specific molecular marker. With no information available on the presence of sex chromosomes in Pandanus , this marker can be used to differentiate the sexes.
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Buerki, Sven, Martin W. Callmander, Dion S. Devey, Lauren Chappell, Timothy Gallaher, Jérôme Munzinger, Thomas Haevermans, and Félix Forest. "Straightening out the screw­pines: A first step in understanding phylogenetic relationships within Pandanaceae." TAXON 61, no. 5 (October 2012): 1010–20. http://dx.doi.org/10.1002/tax.615008.

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49

Tucker, Robert. "Studies in Queensland Pandanaceae 1. a new species and hybrid of Pandanus L.f." Austrobaileya: A Journal of Plant Systematics 2, no. 3 (1986): 287–99. http://dx.doi.org/10.5962/p.366021.

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50

Tibpromma, Saowaluck, Kevin D. Hyde, Jayarama D. Bhat, Peter E. Mortimer, Jianchu Xu, Itthayakorn Promputtha, Mingkwan Doilom, Jun-Bo Yang, Alvin M. C. Tang, and Samantha C. Karunarathna. "Identification of endophytic fungi from leaves of Pandanaceae based on their morphotypes and DNA sequence data from southern Thailand." MycoKeys 33 (March 28, 2018): 25–67. http://dx.doi.org/10.3897/mycokeys.32.23670.

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The authors established the taxonomic status of endophytic fungi associated with leaves of Pandanaceae collected from southern Thailand. Morphotypes were initially identified based on their characteristics in culture and species level identification was done based on both morphological characteristics and phylogenetic analyses of DNA sequence data. Twenty-two isolates from healthy leaves were categorised into eight morphotypes. Appropriate universal primers were used to amplify specific gene regions and phylogenetic analyses were performed to identify these endophytes and established relationships with extant fungi. The authors identified both ascomycete and basidiomycete species, including one new genus, seven new species and nine known species. Morphological descriptions, colour plates and phylogenies are given for each taxon.
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