2020 SPRING Order Form INTERNATIONAL

Total Page:16

File Type:pdf, Size:1020Kb

2020 SPRING Order Form INTERNATIONAL 2020 SPRING Order Form INTERNATIONAL Expires: March 13, 2020 BILLING AND SHIPPING INFORMATION - A street address is required for delivery. Membership Number: _____________________________ E-mail address: _________________________________ Daytime Phone: __ __ __ - __ __ __ - __ __ __ - __ __ __ __ Fax Number: __ __ __ - __ __ __ - __ __ __ __ Country code + area code required Country code + area code required BILLING ADDRESS: _____ Residential _____ Business SHIP TO: (if different) _____Residential or _____Business Name:____________________________________________ Name:____________________________________________ Address:__________________________________________ Address:__________________________________________ _________________________________________________ _________________________________________________ INSTRUCTIONS: Please read carefully and fill out this form completely. Incomplete or illegible orders cannot be processed. We suggest you mark your calendar and make a copy of this order for your records. SHIPPING/PICK-UP INFORMATION: Choose your preferred shipping method: Check your preference: _____ US Express Mail 3 - 5 days for most deliveries _____ Pick up at the RSBG Pick up date: _____ Saturday, March 28 between 10am and 12pm (Canadian customers only) Shipping date: _____ Monday, March 30 (We do not ship to Canada - Canadian customers must pick orders up at the RSBG on March 28th) Shipping Regulations: Please check all that apply. _____ Barerooting is required (US $5 charge per plant) _____ Barerooting is not required _____ My import permit is enclosed _____ My import permit will be forwarded as soon as possible _____ An import permit is not required Estimated Shipping and Handling Rates: Payment Information: Actual shipping costs will be adjusted on your final invoice. Payments must be made in US funds only. Sorry, the EU does not allow shipping of live plants from the USA. As a service to RSBG Members, prepayment is not required. Non-member orders must be paid in full before order will be processed. US EXPRESS MAIL: # of Plants 1 – 5 6 – 10 11 – 15 16- 20 21 – 25 _____ Payment Enclosed (all non-Members) $66 $98 $133 $168 $196 Make Checks Payable to the Rhododendron Species Foundation in US Funds. Calculations # Plants Total $ _____ Bill me with plant shipment, or fill in credit card information below List Total ________ __________ Phytosanitary Cert. US $35 __________ _____ Charge my bankcard (circle one): VISA MASTERCARD Bareroot charges US $5 per plant __________ Credit Cards will be charged at the time of shipment. Handling rate $7 per box __________ Estimated Shipping Charge __________ ESTIMATED TOTAL: _________ Account Number: ___________________________________________ AIR FREIGHT SHIPPING: A shipping quote will be faxed or e-mailed prior to your chosen ship Expiration Date: __ __ / __ __ V# __ __ __ date. Please be sure to include your fax or e-mail address above. Month Year 3 digits above signature Actual cost can only be determined after the plants are packed. Signature: ________________________________________________ Shipping will be invoiced separately. Date: ____________________________________________________ Rhododendron Species Foundation & Botanical Garden Mailing Address: PO Box 3798, Federal Way, WA 98063 253-838-4646 253-838-4686 FAX E-mail: [email protected] www.rhodygarden.org * IMPORTANT - PLEASE READ * We must have an import permit for your order if your country requires it. If you cannot include the import permit with your order, it must arrive two weeks prior to the shipping date. We cannot ship your order without one. If your country requires barerooting and you do not wish to have your plants barerooted, you must send an official letter from your Dept. of Agriculture waiving this requirement. The United States Dept. of Agriculture will not authorize shipment otherwise. If you have any questions please e-mail/write, call, or fax our office. Rhododendron Species Botanical Garden NAME:___________________________________________ 2020 Spring Plant Order Form Please mark quantity of plants you want in the space provided. RHODODENDRON SPECIES TREE-LIKE AND BIG-LEAF SPECIES CONTINUED DWARF & SMALLER-GROWING SPECIES Qty Species Name Code Price Qty Species Name Code Price faithiae SOLD OUT 163sd2010 22.00 baileyi SOLD OUT 1975/035 23.00 fortunei ssp. fort. SOLD OUT 185sd2015 19.00 dendrocharis 1996/009 21.00 glanduliferum 255sd1995 19.00 hemitrichotum 136sd2013 19.00 kesangiae var. album 557sd2003 23.00 impeditum CCHH#8253 SOLD OUT RSBG 19.00 macabeanum 113sd2014 21.00 keiskei 'Yaku Fairy' 1974/014 18.00 montroseanum RSBG 23.00 ledebourii 119sd2007 18.00 serotinum SOLD OUT 272sd2012 19.00 oblongilobatum 213sd2012 19.00 sinogrande RSBG 29.00 ovatum NV#078 SOLD OUT 159sd2017 7.00-B sinogrande x rex ssp. 126sd2013 26.00 racemosum CDHM#14541 283sd2013 14.00 species nova? 231sd2013 18.00 semibarbatum SOLD OUT RSBG 19.00 MADDENIAS & "MARGINALLY HARDY" SPECIES tephropeplum GR#1406 120sd2014 17.00 Qty Species Name Code Price williamsianum 1966/606 17.00 camelliiflorum GR#0834 182sd2008 8.00-B yuefengense RSBG 17.00 dalhousiae var. r. SOLD OUT 517sd2003 9.00-B MEDIUM-GROWING, SHRUBBY SPECIES edgeworthii C. SOLD OUT 324sd1998 9.00-B Qty Species Name Code Price edgeworthii KCSH#0392 587sd2003 9.00-B argipeplum 579sd2003 19.00 edgeworthii 1973/030 11.00-B anwheiense 199sd2015 24.00 excellens TH#3773 267sd2008 7.00-B anthosphaerum 244sd2015 12.00 excellens 188sd2014 18.00 augustinii ssp. augustinii 'Cerulean Mist' 2004/145 19.00 formosum 'Khasia' SOLD OUT 1998/012 14.00-B augustinii ssp. augustinii 1963/005 19.00 johnstoneanum 1977/693 16.00 augustinii ssp. augustinii 1977/789 19.00 leptocladon 168sd2014 15.00 augustinii ssp. chasmanthum 2002/036 19.00 liliiflorum SOLD OUT 180sd2010 24.00 brevicaudatum 143sd2012 28.00 lindleyi 186sd2008 16.00 campylocarpum ssp. campylocarpum 107sd2014 19.00 maddenii KR#11121 239sd2016 14.00 cerasinum GR#1413 105sd2014 27.00 maddenii ssp. crassum 186sd2014 17.00 cinnabarinum GR#1415 126sd2014 17.00 nuttallii SOLD OUT 266sd2001 9.00-B cinnabarinum ssp. cinna. SOLD OUT 1977/116 18.00 pachypodum 212sd2012 12.00 cinnabarinum ssp. cinnabarinum 2002/059 23.00 Subsection Maddenia NV#003 172sd2017 11.00-B cinnabarinum ssp. xanth. SOLD OUT 201sd2013 19.00 sulfureum CCHH#8236 2000/113 19.00 coryanum KW#6311 ‘Chelsea Chimes’ 1999/359 29.00 AZALEAS crinigerum 124sd2012 25.00 Qty Species Name Code Price davidsonianum affinity JN#11038 246sd2012 15.00 calendulaceum 221sd2016 14.00 glischrum 140sd2013 21.00 calendulaceum 228sd2016 14.00 lutescens 424sd1996 17.00 indicium 2010/011 14.00 lutescens ‘Bagshot Sands’ 1974/079 19.00 indicium 2003/364 14.00 macrophyllum SOLD OUT 307sd2005 19.00 kaempferi 207sd2015 15.00 macrophy. 'Barto White' SOLD OUT 1977/208 21.00 kiusianum var. sataense 1977/912 16.00 mallotum SOLD OUT RSBG 29.00 luteum 'Golden Comet' RSBG 16.00 ochraceum RSBG 19.00 nakaharai 'Mt. Seven Star' 1975/267 16.00 souliei 112sd2012 18.00 x obtusum 'Amoenum' RSBG 15.00 Subsection Triflora (species nova) 1998/572 23.00 occidentale 113sd2017 13.00 trichanthum 1975/169 17.00 stenopetalum 'Kochozoroi' 1981/102 19.00 wallichii 172sd2008 16.00 stenopetalum 'Linearifolium' 1965/447 17.00 yuannanense SOLD OUT 286sd2013 17.00 vaseyi 214sd2011 16.00 TREE-LIKE AND BIG-LEAF SPECIES vaseyi 1982/019 23.00 Qty Species Name Code Price VIREYAS arboreum ssp. cinn var. roseum 519sd2003 17.00 Qty Species Name Code Price arboreum ssp. cinn var. roseum 1976/372 25.00 atropurpureum 221sd2011 19.00-B arizelum 112sd2014 22.00 blackii SOLD OUT RSBG 19.00-B auriculatum 184sd2014 24.00 culminicolum SOLD OUT RSBG 19.00-B auriculatum SOLD OUT 1981/025 34.00 macgregoriae SOLD OUT RSBG 9.00-B calophytum var. calophytum 220sd2013 21.00 mendumiae SOLD OUT RSBG 24.00-B Please Note: Steve's Selections are bolded. 1 Rhododendron Species Botanical Garden NAME:___________________________________________ 2020 Spring Plant Order Form Please mark quantity of plants you want in the space provided. VIREYAS CONTINUED COMPANION PLANTS CONTINUED Qty Species Name Code Price Qty Species Name Code Price pleianthum SOLD OUT 242sd2011 24.00-B Hedychium densiflorum RSBG 7.00-B poilanei SOLD OUT 174sd2012 12.00-B Ilex fargesii aff. SOLD OUT RSBG 12.00 polyanthemum SOLD OUT RSBG 23.00-B Iris tectorum RSBG 11.00-B praetervisum 1988/049 18.00-B Itea ilicifolia RSBG 15.00-B rugosum 1999/288 15.00-B Lapageria rosea RSBG 26.00-B sororium SOLD OUT RSBG 9.00-B Leucothoe racemose ‘Shooting RSBG 18.00 taxifolium SOLD OUT RSBG 19.00-B Lilium mackliniae RSBG 9.00 HYBRID RHODODENDRONS Lilium poilanei DJHV#1069 190sd2014 9.00 Qty Species Name Code Price Lilium sargentiae SEH#142 480sd1996 8.00 'Anne Teese' 11.00-B Lonicera crassifolia SEH#085 RSBG 9.00-B 'Barnaby Sunset' 14.00 Magnolia globosa RSBG 18.00-B ‘Bernice’ 21.00 Magnolia sargentiana var. rob. RSBG 28.00 ‘Bill Massey’ SOLD OUT 14.00-B Magnolia sieboldii RSBG 27.00 ‘Biskra’ 19.00 Magnolia sprengeri RSBG 26.00 ‘Blue Tit’ (Magor form) 17.00 Meconopsis ‘Lingholm’ RSBG 9.00-B ‘Bodnant Yellow’ 22.00 Paeonia mairei (ex. SEH#058) RSBG 8.00-B ‘Cinncrass’ 12.00-B Pleione formosana RSBG 8.00 ‘Conroy’ 19.00 Podophyllum pleianthum RSBG 11.00-B ‘Contina’ 21.00 Primula kisoana RSBG 11.00-B ‘Crane’ 14.00 Primula moupinesis RSBG 6.00-B ‘Eider’ 14.00 Sarmienta repens RSBG 19.00-B ‘Ever Red’ 29.00 Saxifraga hirsuta ‘Watermelon RSBG 14.00 'Fragrantissimum Improved' 19.00 Schefflera species 189sd2017 34.00 ‘Glendoick Ice Cream’ 18.00 Smilacina japonica RSBG 7.00-B maoerense x griffithianum 18.00 Sorbus reducta SOLD OUT RSBG 14.00 'McNabii' 11.00-B Speirantha convallarioides RSBG 16.00 'Peter Bee' 17.00 Trillium albidum RSBG 15.00-B 'Ptarmigan' 14.00 Vaccinium/Agap. SOLD OUT RSBG 15.00 ‘Red Rascal’ 17.00 Ypsilandra thibetica RSBG 8.00-B ‘Rose Mangels’ SOLD OUT 24.00 ‘Sirius’ 9.00-B ‘Spicil’ 12.00 ‘Tree Creeper’ SOLD OUT 14.00 GIFT CERTIFICATES Trewithen Orange' 19.00 Give a gift certificate for catalog shopping and let the ‘Waxbill’ 14.00 recipient choose the right plant for the right place in ‘Wheatear’ 14.00 their garden.
Recommended publications
  • Comparative Analysis and Phylogenetic Investigation of Hong
    www.nature.com/scientificreports OPEN Comparative analysis and phylogenetic investigation of Hong Kong Ilex chloroplast genomes Bobby Lim‑Ho Kong1,3, Hyun‑Seung Park2, Tai‑Wai David Lau1,3, Zhixiu Lin4, Tae‑Jin Yang2 & Pang‑Chui Shaw1,3* Ilex is a monogeneric plant group (containing approximately 600 species) in the Aquifoliaceae family and one of the most commonly used medicinal herbs. However, its taxonomy and phylogenetic relationships at the species level are debatable. Herein, we obtained the complete chloroplast genomes of all 19 Ilex types that are native to Hong Kong. The genomes are conserved in structure, gene content and arrangement. The chloroplast genomes range in size from 157,119 bp in Ilex gracilifora to 158,020 bp in Ilex kwangtungensis. All these genomes contain 125 genes, of which 88 are protein‑coding and 37 are tRNA genes. Four highly varied sequences (rps16-trnQ, rpl32-trnL, ndhD-psaC and ycf1) were found. The number of repeats in the Ilex genomes is mostly conserved, but the number of repeating motifs varies. The phylogenetic relationship among the 19 Ilex genomes, together with eight other available genomes in other studies, was investigated. Most of the species could be correctly assigned to the section or even series level, consistent with previous taxonomy, except Ilex rotunda var. microcarpa, Ilex asprella var. tapuensis and Ilex chapaensis. These species were reclassifed; I. rotunda was placed in the section Micrococca, while the other two were grouped with the section Pseudoaquifolium. These studies provide a better understanding of Ilex phylogeny and refne its classifcation. Ilex, a monogeneric plant group in the family Aquifoliaceae, is a widespread genus.
    [Show full text]
  • Reproductive Morphology of Sargentodoxa Cuneata (Lardizabalaceae) and Its Systematic Implications
    Reproductive morphology of Sargentodoxa cuneata (Lardizabalaceae) and its systematic implications. By: Hua-Feng Wang, Bruce K. Kirchoff and Zhi-Xin Zhu Wang, H.-F., Kirchoff, B. K., Qin, H.-N., Zhu, Z.-X. 2009. Reproductive morphology of Sargentodoxa cuneata (Lardizabalaceae) and its systematic implications. Plant Systematics and Evolution 280: 207–217. Made available courtesy of Springer-Verlag. The original publication is available at http://link.springer.com/article/10.1007%2Fs00606-009-0179-3. ***Reprinted with permission. No further reproduction is authorized without written permission from Springer-Verlag. This version of the document is not the version of record. Figures and/or pictures may be missing from this format of the document. *** Abstract: The reproductive morphology of Sargentodoxa cuneata (Oliv) Rehd. et Wils. is investigated through field, herbarium, and laboratory observations. Sargentodoxa may be either dioecious or monoecious. The functionally unisexual flowers are morphologically bisexual, at least developmentally. The anther is tetrasporangiate, and its wall, of which the development follows the basic type, is composed of an epidermis, endothecium, two middle layers, and a tapetum. The tapetum is of the glandular type. Microspore cytokinesis is simultaneous, and the microspore tetrads are tetrahedral. Pollen grains are two-celled when shed. The mature ovule is crassinucellate and bitegmic, and the micropyle is formed only by the inner integument. Megasporocytes undergo meiosis resulting in the formation of four megaspores in a linear tetrad. The functional megaspore develops into an eight-nucleate embryo sac after three rounds of mitosis. The mature embryo sac consists of an egg apparatus (an egg and two synergids), a central cell, and three antipodal cells.
    [Show full text]
  • Wood and Stem Anatomy of Lardizabalaceae, with Comments on the Vining Habit, Ecology and Systematics
    Bota,ümt Jsernat of the Linnean Society t984), 88: 257—277. With 26 figures Wood and stem anatomy of Lardizabalaceae, with comments on the vining habit, ecology and systematics SHERWIN CARLQUIST, F.L.S. Claremont Graduate School, Pomona College, and Rancho Santa Ana Botanic Garden, Claremont. Ca4fornia 91711, U.S.A. Received October /983, acceptedfor publication March 1984 CARLQUIST, S., 1984. Wood and stem anatomy of Lardizabalaceae, with comments on the vining habit, ecology and systematics. Qualitative and quantitative data, based mostly upon liquid- preserved specimens, are presented for Akebia, Bsquila, Decaisnea, Hslboeltia, JJardi.abala, Sinofranchetsa and Stauntonta. Because Decazsnea is a shrub whereas the other genera are vines, anatomical differences attributable to the scandent habit can be considered. These include exceptionally wide vessels, a high proportion of vessels to trachcids (Or other imperforate tracheary elements) as seen in transection, simple perforation plates, multiseriate rays which are wide and tall, and pith which is partly or wholly scierenchymatous. With respect to ecology, two features are discussed: spirals in narrower vessels may relate to adaptation to freezing in the species of colder areas, and crystalliferous sclereids seem adapted in morphology and position to deterrence of phytophagous insects or herbivores. The wood may provide mechanisms for maintaining conduction even if wider vessels are deactivated tethporarily by formation of air embolisms. Wood and stem anatomy of Lardizabalaceae compare closely to those of Berberidaeeae and of Clematis (Ranunculaceae), as well as to other families of Berberidales. Decaisnea is more primitive than these in having consistently scalariform perforation plates and in having scalariform pitting on lateral walls of vessels.
    [Show full text]
  • Plant Collecting on Wudang Shan
    Plant on Shan Collecting Wudang , Peter Del Tredici, Paul Meyer, Hao Riming, Mao Cailiang, " Kevin Conrad, and R. William Thomas . American and Chinese botanists describe the locales and vegetation encountered during a few key days of their expedition to China’s Northern Hubei Province. From September 4 to October 11, 1994, repre- north as Wudang Shan. He did, however, visit sentatives from four botanical gardens in the the town of Fang Xian, about fifty kilometers to United States, together with botanists from the southwest. * The first systematic study of the Nanjing Botanical Garden, participated the flora of Wudang Shan was done in 1980 by a in a collecting expedition on Wudang Shan team of botanists from Wuhan University, who (shan=mountain) in Northern Hubei Province, made extensive herbarium collections. In the China. The American participants were from spring of 1983, the British plant collector Roy member institutions of the North American- Lancaster visited the region with a group of China Plant Exploration Consortium (NACPEC),), tourists, making him the first Western botanist a group established in 1991 to facilitate the ex- to explore the mountain (Lancaster, 1983, 1989).). change of both plant germplasm and scientific Wudang Shan is famous throughout China as information between Chinese and North an important center of Ming Dynasty Taoism. American botanical institutions. Over five hundred years ago, about three hun- Paul Meyer, director of the Morris Arbore- dred thousand workers were employed on the tum, led the expedition. He was joined by Kevin mountain building some forty-six temples, Conrad from the U.S. National Arboretum, seventy-two shrines, thirty-nine bridges, and Peter Del Tredici from the Arnold Arboretum, twelve pavilions, many of which are still stand- and Bill Thomas from Longwood Gardens.
    [Show full text]
  • Complete Chloroplast Genome Sequence of Decaisnea Insignis
    www.nature.com/scientificreports OPEN Complete Chloroplast Genome Sequence of Decaisnea insignis: Genome Organization, Genomic Received: 20 April 2017 Accepted: 8 August 2017 Resources and Comparative Published: xx xx xxxx Analysis Bin Li1,2,3, Furong Lin1,2,3, Ping Huang1,2,3, Wenying Guo1,2,3 & Yongqi Zheng1,2,3 Decaisnea insignis is a wild resource plant and is used as an ornamental, medicinal, and fruit plant. High-throughput sequencing of chloroplast genomes has provided insight into the overall evolutionary dynamics of chloroplast genomes and has enhanced our understanding of the evolutionary relationships within plant families. In the present study, we sequenced the complete chloroplast genome of D. insignis and used the data to assess its genomic resources. The D. insignis chloroplast genome is 158,683 bp in length and includes a pair of inverted repeats of 26,167 bp that are separated by small and large single copy regions of 19,162 bp and 87,187 bp, respectively. We identifed 83 simple sequence repeats and 18 pairs of large repeats. Most simple-sequence repeats were located in the noncoding sections of the large single-copy/small single-copy region and exhibited a high A/T content. The D. insignis chloroplast genome bias was skewed towards A/T on the basis of codon usage. A phylogenetic tree based on 82 protein-coding genes of 33 angiosperms showed that D. insignis was clustered with Akebia in Lardizabalaceae. Overall, the results of this study will contribute to better understanding the evolution, molecular biology and genetic improvement of D. insignis. Lardizabalaceae, a small family with approximately 50 species in 9 genera, is a core component of Ranunculales and belongs to the basal eudicots1, 2.
    [Show full text]
  • Food Forest Plants for the West Coast
    Copyright Notice Copyright 2005 Rain Tenaqiya. All images copyright 2005 Rain Tenaqiya, unless otherwise noted. Excerpts from this book may be used free of charge for nonprofitable purposes, as long as the title, author’s name, and author’s contact information is included. For business purposes, a reasonable donation would be appropriate, in addition to the above citation. The entire book may be duplicated and distributed for $10.00 a copy. Please see How to Contact the Author at the end of the book. 2 Contents Acknowledgements 4 Introduction 5 Section 1: West Coast Food Forestry 8 Special Characteristics of the West Coast 8 Food Forests of the West Coast 18 Section 2: West Coast Food Forest Plants 32 Food Forest Plant Profiles 32 Fruit and Nut Harvest Seasons 118 Plant Characteristics 121 Appendix: An Introduction to Permaculture 130 Permaculture Ethics and Principles 130 Zone and Sector Analysis 133 West Coast Permaculture Resources 135 Plant Information and Materials Sources 137 Photo Credits 139 Plant Index to Food Forest Plant Profiles 140 How to Contact the Author 143 3 Acknowledgements I would like to thank Gary Bornzin and the Outback Farm at Fairhaven College, Western Washington University, Bellingham, Washington, for first introducing me to Permaculture, in 1992. It was there that I saw the phrase “Plant Perennials” painted on the side of a small shack which has since been removed. I have taken the words to heart. I would also like to thank Jono Neiger and the Forest Garden at Lost Valley Educational Center, Dexter, Oregon for giving me my first opportunity to practice and teach food forestry.
    [Show full text]
  • Monograph. Dicliptera Peruviana
    Bibliography of Pacific and Malesian plant maps of Phanerogams. Second Supplement M. J. van Steenis-Kruseman ACANTHACEAE Blechum brownei JUSS. f. puberulum LEON.—I. L. Wiggins & D. M. Porter, Flora Galapagos Is (1971) 260. Partial; Galapagos Is; localities indicated; partial revision. CosmianthemumBREM.—B. L. Burtt & R. M. Smith, Not. R. Bot. Gard. Edinb. 26 (1965) 367. Complete; Borneo; shaded and localities indicated; density; monograph. Dicliptera peruviana (LAMK.) JUSS. —I. L. Wiggins & D. M. Porter, Flora Galapagos Is (1971) 260. Partial; Galapagos Is; localities indicated; partial revision. Elytraria imbricata (VAHL) PERS.—I. L. Wiggins & D. M. Porter, Flora Galapagos Is (1971) 260. Partial; Galapagos Is; localities indicated; partial revision. Justicia galapagana LINDAU—I. L. Wiggins & D. M. Porter, Flora Galapagos Is (1971) 260. Complete; Galapagos Is; localities indicated; partial revision. RuelliafloribundaHOOK.—I. L. Wiggins & D. M.Porter, Flora Galapagos Is (1971) 260. Partial; Galapagos Is; localities indicated; partial revision. Tetrameriumnervosum NEES—I. L. Wiggins & D. M. Porter, Flora Galapagos Is (1971) 271. Partial; Galapagos Is; localities indicated; partial revision. ACERACEAE Aceraceae— S. I. Sokolov (ed.), Bot. Inst. Komarov, Akad. Nauk. SSSR IV (1958) 407, 423 ("-in- complete; World, Eurasia. Einfuhr. i.d. H. Walter/H. Straka, Arealkunde, Phytologie III/2, Stuttgart 1970, 34, after map 26 (after Pax); 47, map 39 (Zippenzentren Schmucker, emend.). Complete; World; occasional. 2 PACIFIC PLANT APNEAS 3 (1975) Acer L.—Th. Silvae C. I. S. Berlin Schmucker, Orbis, (1942) map 193. Complete; World; occasional. F. J. W. Bader, Nova Acta Leop. N. F. n. 148, 23 (I960) 207. Complete; temperate regions N. hemisphere, but also Centr.
    [Show full text]
  • 64. TROPIDIA Lindley, Edwards's Bot. Reg. 19: Ad T. 1618. 1833
    Flora of China 25: 195–197. 2009. 64. TROPIDIA Lindley, Edwards’s Bot. Reg. 19: ad t. 1618. 1833. 竹茎兰属 zhu jing lan shu Chen Xinqi (陈心启 Chen Sing-chi); Stephan W. Gale, Phillip J. Cribb Chloidia Lindley; Cnemidia Lindley; Govindooia Wight; Muluorchis J. J. Wood; Schoenomorphus Thorel ex Gagnepain. Herbs terrestrial, autotrophic [rarely mycotrophic outside Flora area]. Rhizome ascending, stout; roots wiry, fibrous. Stem erect, rigid, branched or unbranched, noded, with sheaths at nodes. Leaves 2 to many, plicate, ovate to narrowly lanceolate, base contracted into amplexicaul sheaths. Inflorescence a short raceme or panicle, terminal or arising from leaf axils near apex of stem, several or many flowered. Flowers resupinate or not. Dorsal sepal free; lateral sepals free or connate to form a synsepal and embracing base of lip. Petals free, similar to sepals or slightly smaller; lip cymbiform, slightly shorter than sepals, entire, with or without a short spur, sometimes constricted at middle, base loosely embracing column, distally expanded, apex acuminate and reflexed. Column short; anther dorsal, erect; rostellum prominent, erect, bifid after viscidium removed; pollinia 2, granular-farinaceous, sectile, with slender caudicle and peltate viscidium. About 20 species: mainly in tropical and subtropical Asia, with a few species extending to Australia and the Pacific islands and one in Central and North America; seven species (three endemic) in China. 1a. Leaves many, distichous, usually more than 10; lateral sepals connate only at base ............................................. 1. T. curculigoides 1b. Leaves 1–5; lateral sepals connate for almost their entire length, forming a synsepal. 2a. Lip spurred at base; spur to 4 mm ..........................................................................................................................
    [Show full text]
  • The Edible Woody Plants of Morris Arboretum
    University of Pennsylvania ScholarlyCommons Internship Program Reports Education and Visitor Experience 2012 The diE ble Woody Plants of Morris Arboretum Lauren Pongan University of Pennsylvania Follow this and additional works at: https://repository.upenn.edu/morrisarboretum_internreports Part of the Horticulture Commons Recommended Citation Pongan, Lauren, "The dE ible Woody Plants of Morris Arboretum" (2012). Internship Program Reports. 60. https://repository.upenn.edu/morrisarboretum_internreports/60 An independent study project report by The aH y Honey Farm Endowed Natural Lands Intern (2011-2012) This paper is posted at ScholarlyCommons. https://repository.upenn.edu/morrisarboretum_internreports/60 For more information, please contact [email protected]. The diE ble Woody Plants of Morris Arboretum Abstract Discussions about food systems and food sources are symptomatic of a larger shift of focus for the U.S. population. The orM ris Arboretum has an opportunity to capitalize upon this burgeoning field of interest by highlighting our holdings that are edible. This project aimed to select and highlight twenty edible plants through the creation of a printable walking guide to the edible woody plants of Morris Arboretum. In addition to an analysis of the Arboretum’s current edible holdings, this project researched, identified, placed orders for, and designed planting for selected plants that the Arboretum lacks, but that are of interest and value to it. Research was conducted through on-site visits to peer gardens and arboreta, and consultations with fruit and nut specialists in the region. Utilizing the energy behind the local food movement, this project simply seeks to help more arboretum visitors establish an understanding of our universal dependence on plants.
    [Show full text]
  • Flowering Plants of Sikkim- an Analysis
    FLOWERING PLANTS OF SIKKIM- AN ANALYSIS Paramjit Singh and M. Sanjappa ABSTRACT ikkim is one of the biodiversity rich states of our country. The present paper analyses the flowering plant diversity of the state with some indicative figures of dominant genera like Bulbophyllum, Calanthe, Coelogyne, SCymbidium, Dendrobium, Gentiana, Juncus, Pedicularis, Primula, Rhododendron and Swertia recorded from the region. Nearly 165 species have been named after the state, as they were first collected from the state or plants were known to occur in Sikkim. Some of the representative endemic species of the state have also been listed. One hundred ninety seven families, 1371 genera have been appended with indicative number of species of each genus known to occur in Sikkim. In all more than 4450 species of flowering plants recorded so far. KEYWORDS: Diversity, Dominant genera, Endemics, Families, Flowering Plants, Sikkim Waldheimia glabra in Lhonak, North Sikkim 65 Middle storey of Rhododendron in Conifer forests INTRODUCTION ikkim, the second smallest state of India having an area of around 7096 sq. km is known as the paradise of naturalists. It is a thumb shaped hilly region with Nepal in the west, Bhutan in the east and Tibet in the north and Snorth-east. In the south it is bordered by Darjeeling district of West Bengal. The mountain chains which run southward from the main Himalayan ranges form the natural border of Sikkim; the Chola Range dividing it from Tibet in the north east and Bhutan in the south-east; the Singalila range likewise separating it from Nepal in the west. Mountain passes along these ranges over the years have sustained a two way traffic of traders, pilgrims, and adventurers from Tibet and Central Asia.
    [Show full text]
  • 1. DECAISNEA JD Hooker & Thomson, Proc. Linn. Soc. London 2
    Flora of China 6: 440–441. 2001. 1. DECAISNEA J. D. Hooker & Thomson, Proc. Linn. Soc. London 2: 350. 1855, nom. cons. 猫儿屎属 mao er shi shu Shrubs erect, deciduous. Monoecious. Branches few. Winter buds with 2 outer scales. Leaves odd pinnate; petiole articulate at base; petiolules short; leaflets opposite. Inflorescences paniculate racemes, terminal. Sepals 6, subimbricate. Petals absent. Male flowers: stamens 6; anthers oblong. Pistillodes small, concealed within filament tube. Female flowers: staminodes free or connate at base. Carpels 3, straight; ovules in 2 rows on either side of carpel adaxial suture. Stigma conspicuous. Fruit straight or ± recurved, dehiscent. Seeds embedded in white translucent pulp, compressed. One species: Bhutan, China, NE India, Myanmar, Nepal, Sikkim. 1. Decaisnea insignis (Griffith) J. D. Hooker & Thomson, Proc. Linn. Soc. London 2: 349. 1855. 猫儿屎 mao er shi Slackia insignis Griffith, Itin. Pl. Khasyah Mts. 2: 187. no. 977. 1848; Decaisnea fargesii Franchet. Shrubs ca. 5 m tall. Branches robust and brittle, yellow when old; pith broad; lenticels orbicular to elliptic. Winter buds ovoid, apex acuminate, outer scales verrucose. Petiole 10–20 cm; leaf blade pinnately compound, 30–80 cm; leaflets 13–25, ovate to ovate- oblong, 6–14 × 3–7 cm, membranous, abaxially glaucous and pulverulent-puberulous but soon glabrescent, adaxially glabrous, base rounded to broadly cuneate, apex acuminate to caudate-acuminate. Racemes 25–30(–40) cm. Pedicel 0.5–2 cm; bracteoles narrowly linear, 6–8 mm. Sepals ovate-lanceolate to narrowly lanceolate, striate, adpressed crisp, dusty puberulous or glabrous, apex long acuminate. Male flowers: outer 3 sepals 1.7–2(–3) cm; inner 3 sepals slightly shorter.
    [Show full text]
  • An Annotated Checklist of the Orchidaceae of Laos
    Nordic Journal of Botany 26: 257Á316, 2008 doi: 10.1111/j.1756-1051.2008.00265.x, # 2008 The Authors. Journal compilation # Nordic Journal of Botany 2008 Subject Editor: Henrik Ærenlund Pedersen. Accepted 13 October 2008 An annotated checklist of the Orchidaceae of Laos Andre´ Schuiteman, Pierre Bonnet, Bouakhaykhone Svengsuksa and Daniel Barthe´le´my A. Schuiteman ([email protected]), Nationaal Herbarium Nederland, Univ. Leiden, PO Box 9514, NLÁ2300 RA Leiden, the Netherlands. Á P. Bonnet, CIRAD and UM2, UMR AMAP, FRÁ34000 Montpellier, France. Á B. Svengsuksa, National Univ. of Lao PDR, Faculty of Science, Dept of Biologie, PO Box 7322, Vientiane, Laos PDR. Á D. Barthe´le´my, INRA, UMR AMAP, FRÁ34000 Montpellier, France. A checklist is presented of the orchid flora of Laos, enumerating 485 species in 108 genera. An estimate is given of the expected size of the orchid flora of Laos. Notes on habitat, global and local distribution, endemism, conservation, phenology, as well as a systematic overview complement the checklist. Origin of the checklist Á The karst formations and montane forests in the Lak Xao district, Bolikhamxai province. The checklist presented below grew out of a UNESCO Á Various sites in the Phou Khao Khouay NBCA, project (reference no. 27213102 LAO) and the ORCHIS Vientiane and Bolikhamxai provinces. project (Bhttp://www.orchisasia.org/). The first, entitled Á The Phou Phanang NBCA, Vientiane prefecture. ‘Systematic study of the wild orchids in Lao P.D.R. and Á The Louangphrabang district, Louangphrabang pro- their conservation’, was conducted during the year 2005 by vince. Bouakhaykhone Svengsuksa. Some 700 living orchid speci- Á The Oudomxai district, Oudomxai province.
    [Show full text]