CLASSIC 1-STEM PHALAENOPSIS Phalaenopsis Amabilis

Total Page：16

File Type：pdf, Size：1020Kb

CLASSIC 1-STEM PHALAENOPSIS Phalaenopsis amabilis CLASSIC 1-STEM PHALAENOPSIS Phalaenopsis amabilis The Phalaenopsis Orchid,also called the Moth Orchid features large velvety blooms on a long arching stem that emerges from olive-green foliage. In their Mostly Indonesia & the Philippines native habitats, Phalaenopsis Orchids can be found growing in the nooks and Low Sunlight crannies of other plants and trees, dangling beautifully amidst the tropical landscape. The blooms of the Phalaenopsis Orchid can sometimes last as long as Elegant flowers 4 months in spaces with adequate humidity and consistently warm temperatures, making them a great economical choice as flowering houseplants. Slow While blooming, place the orchid Touch the moss for dryness anywhere out of direct sunlight. every 10-12 days. If top feels When not in bloom, bright indirect dry, add about a quarter cup of light is best. water per plant. Easy! Despite a misconceived Keep above 60F at night reputation as being hard to grow, and between 70-80F during Phalaenopsis Orchids are some of the day. Avoid fluctuating the easiest to maintain and get to temperatures as this will cause bloom again. unopened buds to drop. Use any balanced orchid fertilizer Plants in sphagnum moss at half-strength every week or two. require less frequent watering, Once a month flush out the potting but a mixture of moss and bark mix with clean water to remove any is best for long-term growth. salts that may build up. Blooms should last several months Yes! Phalaenopsis Orchids are and will then fall off on their own, non-toxic if consumed by dogs but if wilted, just prune or gently and cats. break from the stem for tidier appearance. After last bloom as fallen off, cut stem down to the base to encourage leaves to grow and a new stem to emerge..

Copy Link

Recommended publications

Phalaenopsis Amabilis – Where Are You? March 2020 Acknowledgement of Sources
This program was compiled by Noel Grundon for Training & Revision Workshops of the Northern Area Judging Panel of the Queensland Regional Judging Panel of the AOC Judging System. Phalaenopsis amabilis – Where are you? March 2020 Acknowledgement of Sources. ◼ All photographs in this program of AOC Awards (Slides 19 to 37 & 39 to 50) are copyrighted to the Australian Orchid Council and are used with permission. ◼ Photographs provided by Bruce Gray (Slide 12), Jon Cara (Slides 13, 14 & 15) and Don Mapleson (Slide 17) are copyrighted to them and are used with their permission. ◼ Illustrations (Slides 10, 11 & 16) come from Hermon Sweet’s monograph on Phalaenopsis species, and that source is acknowledged. ◼ I acknowledge all sources with thanks. Nomenclature Names of species used in slides 12, 13, 14, 15 & 17 in the program conform with the current rulings of the AOC (March 2020), i.e. to use the accepted names in the RHS World Checklist of Selected Plant Families (https://wcsp.science.kew.org/qsearch.do). Where a source cites synonyms, that synonym is displayed thus: Phalaenopsis amabilis subsp. rosenstromii (Syn. var. papuana). About 30 years ago, mericlones labelled ‘Phalaenopsis amabilis’ were imported from Taiwan. They were superior to any Qld collected Phalaenopsis amabilis. Many were subsequently granted AOC awards. In July 2008, AOC awarded an AM to Phalaenopsis amabilis ‘Ben Yu’. This cultivar was available in USA and was assessed for an award in 2009 by the AOS. Eric Christensen looked closely at this plant and stated its correct name was Phalaenopsis aphrodite var. formosana. The AOS then awarded it an AM as Phalaenopsis aphrodite subsp.
[Show full text]
In Vitro Culture of Orchids: the Roles of Class-1 Knox Gene in Shoot Development
Journal of Biological Researches: 20 (18-27) 2014 IN VITRO CULTURE OF ORCHIDS: THE ROLES OF CLASS-1 KNOX GENE IN SHOOT DEVELOPMENT A REVIEW Endang Semiarti1, Aziz-Purwantoro2, Ari Indrianto1 1. Faculty of Biology, Gadjah Mada University 2. Faculty of Agriculture, Gadjah Mada University e-mail : [email protected] ABSTRACT In vitro culture of orchids has been developed for many purposes. Some native orchids and commercial orchid hybrids are propagated using seed germination or cut explants such as leaves, shoot tips, and roots to produce large numbers of orchid plantlets. This technique is widely used for the purpose in conservation of natural orchid species and industry of commercial orchid hybrids. However, the molecular genetic mechanism behind growth and development of these orchids during in vitro culture is still unclear, and needs to be elaborated. Recent advanced in transgenic technology in orchid is very helpful for studying the mechanism of action of key genes in various stages of orchid development during in vitro culture. In this review, an attempt to understand the role of class-1 KNOX gene and its relationship with other genes in the initiation of shoot apical meristem (SAM) for shoot development from orchid protocorm (a tubercle of developing orchid embryo) and PLBs (Protocorm Like Bodies) during in vitro culture will be discussed. It will answer the question about how the shoot formation can be controlled during growth and development of orchid cells in in vitro culture. Key words: In vitro, orchids, shoot development, KNOX, transgenic INTRODUCTION PLANT TISSUE CULTURE (IN VITRO CULTURE) Orchids are members of Orchidaceae, which is one of Plant tissue culture or in vitro culture is a technique to the largest families among flowering plants (Dressler 1993; grow cells, tissues, organs on artificial medium with aseptic Arditti 1992).
[Show full text]
Stable Transformant of Phalaenopsis Amabilis Somatic Embryo Carrying 35S::Atrkd4 Develops Into Normal Phenotype of Transgenic Plant
Journal of Tropical Biodiversity and Biotechnology Volume 06, Issue 02 (2021): jtbb59210 DOI: 10.22146/jtbb.59210 Research Article Stable Transformant of Phalaenopsis amabilis Somatic Embryo Carrying 35S::AtRKD4 Develops Into Normal Phenotype of Transgenic Plant Naufal Ghozi Aditya Perdana1, Windi Mose2, Muhammad Dylan Lawrie1, Jose Gutierrez-Marcos3, Endang Semiarti1* 1) Faculty of Biology, Universitas Gadjah Mada, Jl. Teknika Selatan, Sekip Utara, Yogyakarta 55281, Indonesia 2) Faculty of Mathematics and Natural Sciences, Pattimura University, Maluku, Indonesia 3) School of Life Sciences, University of Warwick, Warwick, United Kingdom * Corresponding author, email: [email protected] Submitted: 31 August 2020; Accepted: 17 April 2021; Published online: 20 May 2021 ABSTRACT Phalaenopsis amabilis (L.) Blume orchid is an Indonesian national flower. The number of these orchids in their natural habitat is very limited, therefore plant propagation efforts are needed. One of the promising methods is plant propagation by inserting embryo gene AtRKD4 from a model plant Arabidopsis thaliana into the orchid genome to produce many somatic embryos. From previous research, we have obtained 28 plant P. amabilis transformants carrying the AtRKD4 gene, however, it was unknown whether these plants have normal phenotypes and growth similar to their parents. Therefore, descriptions on growth and morphology are needed. This research aimed to evaluate the phenotype of P. amabilis carrying 35S::AtRKD4 the transformants grown in greenhouse. To achieve it, AtRKD4 gene integration stability on transformants genome was analyzed. Morphology and cross-section anatomy structure on transformant and non-transformant plants were described. The stability of AtRKD4 gene integration in the plant genome was confirmed by amplification of the AtRKD4 gene from genomic DNA with Polymerase Chain Reaction (PCR) using a specific primer for AtRKD4 and ACTIN genes as the internal control.
[Show full text]
Il Mondo Delle Orchidee
Gli eBook del Portale del Verde l mondo IDELLE ORCHIDEE TERAPIA PER L’ANIMA E REGINE DI BELLEZZA PHALAENOPSIS: COLTIVAZIONE IN CASA .16 Autore Pozzi Giancarlo Titolare dell’azienda floroviavaistica Orchideria di Morosolo L ‘azienda florovivaistica Orchideria di Morosolo è specializzata nella produzione di circa 2000 tipi di Orchidee diverse, tra specie, varietà ed ibridi. Innamorato delle Orchidee sin da bambino, Giancarlo, ad oggi, ha registrato più di 50 ibridi presso l’Orchid Register della Rotal Horticoltural Society di Londra, l’anagrafe mondiale delle orchidee. È autore di numerosi libri dedicati alle Orchidee, fra cui “Orchidee, storie e personaggi” e “Orchidee, una medicina per l’anima”, rivolti a tutti coloro che vogliono saperne di più sulla coltivazione di questi meravigliosi fiori. ____________ www.portaledelverde.it ____________ 3 Indice Introduzione ................................................................... 6 Orchidee ....................................................................... 10 Un’immesa famiglia di forme e colori ........................ 12 Orchidee utili ................................................................ 14 Ma cos’è un’orchidea ................................................... 17 Phalaenopsis ................................................................. 20 Phalaenopsis botaniche ............................................... 25 La coltivazione in casa ................................................. 28 Temperatura e umidità ................................................ 29
[Show full text]
IJSR Paper Format
View metadata, citation and similar papers Inteat core.ac.ukrnational Journal of Science and Research (IJSR) brought to you by CORE ISSN (Online): 2319-7064 provided by Repository Universitas Negeri Makassar Index Copernicus Value (2015): 78.96 | Impact Factor (2015): 6.391 Orchids Conservation by Community in Round Mallawa Resort Areas at Bantimurung Bulusaraung National Park, South Sulawesi, Indonesia Siti Fatmah Hiola, Gufran Darma Dirawan, Muhammad Wiharto Universitas Negeri Makassar, Makassar, Indonesia Abstract: This research aims to determine cultivation technique of orchid by the community in around Mallawa Resort at Bantimurung Bulusaraung National Park. The type of the research is a descriptive research. This studying was conducted in four villages with 37 total respondents. The method used in this study was observed in the houses of people who become the interviewees, then do an interview about cultivation technique of orchid and documentation by photos. The results showed that there are three kinds of orchid’s growth nature, namely Epifit, Terrestik, and Litofit. Orchid’s growth is dominated by the Epifit orchid’s growth as much as 110 or-chids, whereas for the type of growth is dominated by simpodial orchids. Most communities who maintain or-chids are the people residing in the Tellumpanuae village. The maintained of orchids average until ten years. People obtain orchids from the forest. It is not planted directly, but first, must be stored in moist example near a water bath so that the orchids can grow back fresh and good. Orchids that have been transplanted into pots usually doused with water that mixed with vetzin (flavor in food) or rice water, because these two compo-nents can make orchids thrive.
[Show full text]
Beachcombing for Seram Island, South Moluccas
Taxonomy often takes one to faraway places, but typically the only delight the eye finds is in herbarium specimens of plants that have been dead a century or Beachcombing for more. Perhaps, then, it shouldn’t be surprising that the pursuit of a living specimen of the first Vanda orchid species described by ORCHIDS western science, Vanda furva, led me almost to the farthest reaches Seram Island, of Indonesia. First described and illustrated by Georg Eberhard Rumphius in the 17th century (the South Moluccas type specimen is his drawing!), Vanda furva has been a source of confusion for more than 300 years. Determined to get the identity of V. furva straight for the monograph on the genus Vanda, Text and photos by Martin Motes I decided I needed to visit the South Moluccas, where Rumphius had found the species growing in mangrove trees. In 2011, I flew to the island chain’s main city, Ambon, and set out in search of V. furva. It would not be easy to find the plant, nor Rumphius’ other Vanda, V. saxatilis, as the mangrove habitat and trees where On Seram’s north coast, we boarded a skiff, Rumphius had found V. furva were almost which traveled several kilometers across the entirely gone and neither species could be open seas to our lodge. Constructed largely found in the region’s dooryard gardens. Ten of Sago palm frond lumber, it perched on days of searching the coastal roads of Ambon pillars above a coral reef resplendent with and the nearby islands of Seram and Boru colorful fish, anemones and other sea life failed to yield either of Rumphius’ vandas.
[Show full text]
PHES12 343-403.Pdf
343 Insects Associated with Orchids By O. H. SWEZEY Consulting Entomologist Experiment Station, H.S.P.A., Honolulu CONTENTS PAGE PAGE Introduction --- ••— 344 Heteroptera " - ----- 367 Coleoptera apparently attached Miridae (Plant bugs attached- . to orchids) 367 to orchids Curculionidae :: 345 Miscellaneous bugs intercepted Orchid weevils in Hawaii.... 345 on orchids 368 Orchid weevils known else Cydnidae 368 where than in Hawaii 349 Pentatomidae 3t>9 Scolytidae 352 Coreidae 369 Mordellistenidae 3W Lygaeidae - --- 370 Cerambycidae 354 Pyrrhocondae o/i Hispidae 354 Tingitidae 371 Chrysomelidae 355 - Aradidae : 3J2 List of Intercepted beetles 355 Miridae - -372 Chrysomelidae 355 Homoptera *. *'* Tenebrionidae 356 Aphididae - 372 Aleurodidae' .: * 3/6 Cucujidae - - - 357 Psyllidae 374 Trixagidae - M ' Lampyridae &» Membracidae - ^ Elateridae - - ^/ Coccidae r -;—- 3/4 List of scale insects for which Dermestidae 358 Lyctidae 358 orchids are the sole or Colidiidae 358 chief food plant 374 Anthribidae 358 List of scale insects having diverse food plants, in Hydrophilidae —• 358 cluding orchids -- 382 Scaphydiidae 358 Ptinidae 358 Orthoptera - -- 390 Melandryidae ^° Tettigoniidae ^ Coccinellidae - 358 Locustidae 392 Scarabaeidae ......— - 359 Gryllidae '- : 392 Endomychidae -• 359 Phasmidae I - 392 Scolytidae 359 Dermaptera - 392 Hymenoptera • 359 Roaches - —- 393 Eurytomidae - 6^/ Thysanoptera 393 Xylocopidae 360 Thrips described from orchids.. 393 Formicidae - ^ Thrips incidentally on orchids Lepidoptera - 362 or intercepted on imported Lycaenidae &£ orchids - 395 Castniidae • 362 Embioptera - - 396 Geometridae 364 Limacodidae ^4 Isoptera 397 Lithosiadae 364 Collembola - - 397 Liparidae 365 Insects which pollinate orchids.. 397 Plusiadae ; 365 Butterflies 398 Psychidae - 3o5 Moths 398 Pyralidae - 365 Bees 399 Tortricidae ^ Stinging ants y\ Cosmopterygidae 366 Wasps - ■■■■■ 401 Acrolophidae Flies ■ ■ 401 366 Diptera Diptera (undetermined) 402 Cecidomyiidae 366 Beetles - - 402 Tephritidae - 367 Thrips 402 Anthomyiidae 60/ Proc.
[Show full text]
In Vitro Propagation of Orchid Phalaenopsis Amabilis (L.) Blume Var. Jawa
3113 In vitro propagation of orchid Phalaenopsis amabilis (L.) Blume var. Jawa Mozhdeh Asa and Behzad Kaviani* Department of Horticultural Science, Islamic Azad University, Rasht Branch, Rasht, Iran _______________________________________________________________________________ Abstract A protocol was developed for high frequency in vitro multiplication of an ornamental orchid, Phalaenopsis amabilis (L.) Blume var. Jawa, using plant growth regulators (PGRs). Protocorm-like bodies (PLBs), as explants were cultured on Murashige and Skoog (MS) medium fortified with various concentrations of kinetin (KIN) and indole-3-butyric acid (IBA), either individually or in combination. A combination of 1.00 mg l-1 KIN + 1.00 mg l-1 IBA was found to be suitable for regeneration of most measured characteristics especially maximum PLBs regeneration (30.40/plantlet), leaf number (5.93/plantlet), and root number (8.36/plantlet) from protocorm explants. The maximum number of plantlets (11.66) was calculated on MS medium supplemented with 1.00 mg l-1 KIN + 0.50 mg l-1 IBA, followed by 1.00 mg l-1 KIN + 1.00 mg l-1 IBA (10.33). Plantlets were transplanted to pots filled with cocochips and sphagnum moss (70:30) for acclimatization and transferred to the greenhouse. Upon ex vitro transfer, 90% of plants survived. Keywords: micropropagation; ornamental plants; plant growth regulators; protocorm like bodies; tissue culture Asa, N. and B. Kaviani. 2020. ' In vitro propagation of orchid Phalaenopsis amabilis (L.) Blume var. Jawa '. Iranian Journal of Plant Physiology, 10 (2), 3113- 3123. ________________________________________________________________________________ Introduction Phalaenopsis amabilis (Orchidaceae), genera and 25000 species (Chugh et al., 2009). commonly known as moth orchid is a beautiful Orchids are grown as ornamentals and are valued tropical plant distributed throughout Southeast as cut flowers not only because of their exotic Asia that can be successfully kept indoors (Chen beauty but also for their long shelf life (Chugh et and Chang, 2006).
[Show full text]
Model for Perianth Formation in Orchids
See discussions, stats, and author profiles for this publication at: https://www.researchgate.net/publication/276162457 Model for perianth formation in orchids Article in Nature Plants · April 2015 DOI: 10.1038/nplants.2015.46 CITATIONS READS 82 1,993 7 authors, including: Yung-I Lee Wan-Ting Mao National Museum of Natural Science National Chung Hsing University 81 PUBLICATIONS 1,297 CITATIONS 4 PUBLICATIONS 94 CITATIONS SEE PROFILE SEE PROFILE Jun-Yi Yang National Chung Hsing University 60 PUBLICATIONS 1,905 CITATIONS SEE PROFILE Some of the authors of this publication are also working on these related projects: I am working on orchid embryology, cytogenetics, mycorrhizal association, usingCypripedium, Paphiopedilum and Phalaenopsis as the experimental materials. View project All content following this page was uploaded by Yung-I Lee on 07 January 2016. The user has requested enhancement of the downloaded file. LETTERS PUBLISHED: 27 APRIL 2015 | ARTICLE NUMBER: 15046 | DOI: 10.1038/NPLANTS.2015.46 Model for perianth formation in orchids Hsing-Fun Hsu1, Wei-Han Hsu1,Yung-ILee2,3, Wan-Ting Mao1, Jun-Yi Yang4, Jen-Ying Li1 and Chang-Hsien Yang1,5* Orchidaceae, the orchid family under the order Asparagales, protein complexes involved in perianth formation and patterning. contains more than 20,000 accepted species in approximately We comprehensively examined the expression of all identified A 880 genera1–3. In contrast to most flowers of actinomorphic (AP1-like), B (AP3-like and PI-like) and E (AGL6-like and SEP1/ symmetry, orchid flowers typically have zygomorphic sym- 3-like) OMADS box genes in mature flowers of O. Gower Ramsey metry with a striking well-differentiated labellum (lip) that (Fig.
[Show full text]
How to Cite Complete Issue More Information About This
Lankesteriana ISSN: 1409-3871 Lankester Botanical Garden, University of Costa Rica Besi, Edward E.; Nikong, Dome; Mustafa, Muskhazli; Go, Rusea Orchid diversity in anthropogenic-induced degraded tropical rainforest, an extrapolation towards conservation Lankesteriana, vol. 19, no. 2, 2019, May-August, pp. 107-124 Lankester Botanical Garden, University of Costa Rica DOI: https://doi.org/10.15517/lank.v19i2.38775 Available in: https://www.redalyc.org/articulo.oa?id=44366684005 How to cite Complete issue Scientific Information System Redalyc More information about this article Network of Scientific Journals from Latin America and the Caribbean, Spain and Journal's webpage in redalyc.org Portugal Project academic non-profit, developed under the open access initiative LANKESTERIANA 19(2): 107–124. 2019. doi: http://dx.doi.org/10.15517/lank.v19i2.38775 ORCHID DIVERSITY IN ANTHROPOGENIC-INDUCED DEGRADED TROPICAL RAINFOREST, AN EXTRAPOLATION TOWARDS CONSERVATION EDWARD E. BESI, DOME NIKONG, MUSKHAZLI MUSTAFA & RUSEA GO* Department of Biology, Faculty of Science, Universiti Putra Malaysia, 43400 Serdang, Selangor Darul Ehsan, Malaysia *Corresponding author: [email protected] ABSTRACT. The uncontrolled logging in Peninsular Malaysia and the resulting mudslides in the lowland areas have been perilous, not to just humans, but also to another biodiversity, including the wild orchids. Their survival in these highly depleted areas is being overlooked due to the inaccessible and harsh environment. This paper reports on the rescue of orchids at risk from the disturbed forests for ex-situ conservation, the identification of the diversity of orchids and the evaluation of the influence of micro-climatic changes induced by clear-cut logging towards the resilience of orchids in the flood-disturbed secondary forests and logged forests in Terengganu and Kelantan, located at the central region of Peninsular Malaysia, where the forest destruction by logging activities has been extensive.
[Show full text]
Download Download
Cycas Rumphii Miq. di Sepanjang Sungai Maningo, Taman Wisata Alam Cani Sirenreng Deden Mudiana UPT Balai Konservasi Tumbuhan Kebun Raya Purwodadi LIPI, Pasuruan, Indonesia Email: [email protected] Abstract Cycas rumphii Miq. belongs to Cycadaceae family, one of ancient species on the world. Sulawesi is one of distribution area for this species. This research aimed to do inventory, habitat and distribution study of Cycas rumphii along Maningo river in Cani Sirenreng Forest Park. Collected data were diameter breast height, height of trunk, altitude, geografphic position (with GPS), and number of individu. Thirty two individuals were recorded on location. Most of them grew in shading area, clay and sandy soil, at 386-417 meter above sea level. Key word : Cycas rumphii, forest park, river,habitat, species 1. Pendahuluan Masyarakat Indonesia secara umum Cycas adalah salah satu marga dari suku mengenalnya dengan nama pakis aji. Jenis ini memiliki Cycadaceae yang termasuk ke dalam kelompok potensi sebagai tanaman hias, bahkan saat ini telah tumbuhan Gymnospermae atau tumbuhan biji banyak dikembangkan oleh nurseri-nurseri sebagai terbuka. Sebanyak 99 nama jenis Cycas yang tercatat tanaman hias yang memiliki nilai jual yang tinggi. ada di dunia (Hill et.al., 2004). Di Wilayah Asia Pemanfaatan dan pengambilan dari alam secara terus diperkirakan terdapat 63 jenis yang tersebar pada menerus dapat menyebabkan populasinya di alam beberapa wilayah. Pusat-pusat distribusinya semakin berkurang. Hal ini sejalan dengan pendapat mencakup wilayah Vietnam (24 jenis), China (21), Hill, Chen, and Loc (2003), yang mengemukakan tiga Thailand (10), Indonesia (7), Papua New Guinea ancaman Cycas di wilayah Asia. Ancaman tersebut (PNG) (6), Philippines (5), dan Malaysia (3) (Hill, berupa : (1).
[Show full text]
Direct Somatic Embryogenesis and Regeneration of an Indonesian
Volume 13, Number 4, December 2020 ISSN 1995-6673 JJBS Pages 509 - 518 Jordan Journal of Biological Sciences Direct Somatic Embryogenesis and Regeneration of an Indonesian orchid Phalaenopsis amabilis (L.) Blume under a Variety of Plant Growth Regulators, Light Regime, and Organic Substances Windi Mose1, Budi Setiadi Daryono1, Ari Indrianto1, Aziz Purwantoro2 and Endang Semiarti1,* 1Graduate School, Faculty of Biology, Universitas Gadjah Mada, Teknika Selatan, 2 Faculty of Agriculture, Universitas Gadjah Mada, Bulaksumur, Yogyakarta 55281, Indonesia Received: September 3, 2019; Revised: December 29, 2019; Accepted: January 31, 2020 Abstract Phalaenopsis amabilis is an Indonesian native orchid often used as parent to produce various orchid hybrids. However, this natural orchid is increasingly difficult to find growing naturally in the forest due to over-harvesting and destruction of its natural habitat. The objectives of this study were to investigate the effect of plant growth regulators (PGRs), light regime, and organic substances on the induction and regeneration of somatic embryos (SEs) of P. amabilis orchid. Root, stem, leaf, and protocorm explants were cultured on New Phalaenopsis (NP) medium supplemented with thidiazuron (TDZ) (0.0, 1.0, 2.0, 3.0 mg L-1) in combination with α-napthalene acetic acid (NAA), 2,4-dichlorophenoxyacetic acid (2,4-D), and indole acetic acid (IAA) with concentrations of 1.0, 2.0, and 3.0 mg L-1. Light and dark conditions were tested for their effectiveness to induce the formation of SEs, and the resulting SEs were cultured on NP medium supplemented with various organic substances (banana, bean sprout, tomato, and potato extracts) with concentrations of 50, 100, 150, 200, and 250 g L- 1.
[Show full text]