DOCSLIB.ORG

Cautleya Spicata (Smith) Baker

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Cautleya Spicata (Smith) Baker Cautleya spicata (Smith) Baker Identifiants : 7079/causpi Association du Potager de mes/nos Rêves (https://lepotager-demesreves.fr) Fiche réalisée par Patrick Le Ménahèze Dernière modification le 24/09/2021 Classification phylogénétique : Clade : Angiospermes ; Clade : Monocotylédones ; Clade : Commelinidées ; Ordre : Zingiberales ; Famille : Zingiberaceae ; Classification/taxinomie traditionnelle : Règne : Plantae ; Sous-règne : Tracheobionta ; Division : Magnoliophyta ; Classe : Liliopsida ; Ordre : Zingiberales ; Famille : Zingiberaceae ; Genre : Cautleya ; Synonymes : Cautleya petiolata Baker, Cautleya robusta Baker, Roscea spicata Smith ; Nom(s) anglais, local(aux) et/ou international(aux) : Ban besar, , Sano saro ; Note comestibilité : ** Rapport de consommation et comestibilité/consommabilité inférée (partie(s) utilisable(s) et usage(s) alimentaire(s) correspondant(s)) : Parties comestibles : tige{{{0(+x) (traduction automatique) | Original : Stem{{{0(+x) La moelle de la tige est consommée comme légume Partie testée : tige{{{0(+x) (traduction automatique) Original : Stem{{{0(+x) Taux d'humidité Énergie (kj) Énergie (kcal) Protéines (g) Pro- Vitamines C (mg) Fer (mg) Zinc (mg) vitamines A (µg) 0 0 0 0 0 0 0 néant, inconnus ou indéterminés. Note médicinale : * Illustration(s) (photographie(s) et/ou dessin(s)): Page 1/2 Autres infos : dont infos de "FOOD PLANTS INTERNATIONAL" : Distribution : C'est une plante tempérée. Au Népal, il pousse de 1000 à 2600 m d'altitude. Il pousse dans des endroits humides et ombragés. En Chine, il pousse sur le sol forestier ou sur des arbres entre 1100 et 2600 m d'altitude dans le sud de la Chine{{{0(+x) (traduction automatique). Original : It is a temperate plant. In Nepal it grows from 1000-2600 m altitude. It grows in moist shady places. In China it grows on the forest floor or growing on trees between 1100-2600 m altitude in S China{{{0(+x). Localisation : Asie, Bhoutan, Chine, Himalaya, Inde, Myanmar, Népal, Inde du nord-est, Sikkim, Tibet{{{0(+x) (traduction automatique). Original : Asia, Bhutan, China, Himalayas, India, Myanmar, Nepal, Northeastern India, Sikkim, Tibet{{{0(+x). Notes : Il existe 5 espèces de Cautleya{{{0(+x) (traduction automatique). Original : There are 5 Cautleya species{{{0(+x). Liens, sources et/ou références : 5"Plants For a Future" (en anglais) : https://pfaf.org/user/Plant.aspx?LatinName=Cautleya_spicata ; dont classification : dont livres et bases de données : 0"Food Plants International" (en anglais) ; dont biographie/références de 0"FOOD PLANTS INTERNATIONAL" : Joshi, N., et al, 2007, Traditional neglected vegetables of Nepal: Their sustainable utilization for meeting human needs. Tropentag 2007. Conference on International Agricultural Research for Development. ; Manandhar, N.P., 2002, Plants and People of Nepal. Timber Press. Portland, Oregon. p 142 ; Wu Delin, Larsen, K., Zingiberaceae. Flora of China. Page 2/2 Powered by TCPDF (www.tcpdf.org).
Load more

Recommended publications
  • Cally Plant List a ACIPHYLLA Horrida
    Cally Plant List A ACIPHYLLA horrida ACONITUM albo-violaceum albiflorum ABELIOPHYLLUM distichum ACONITUM cultivar ABUTILON vitifolium ‘Album’ ACONITUM pubiceps ‘Blue Form’ ACAENA magellanica ACONITUM pubiceps ‘White Form’ ACAENA species ACONITUM ‘Spark’s Variety’ ACAENA microphylla ‘Kupferteppich’ ACONITUM cammarum ‘Bicolor’ ACANTHUS mollis Latifolius ACONITUM cammarum ‘Franz Marc’ ACANTHUS spinosus Spinosissimus ACONITUM lycoctonum vulparia ACANTHUS ‘Summer Beauty’ ACONITUM variegatum ACANTHUS dioscoridis perringii ACONITUM alboviolaceum ACANTHUS dioscoridis ACONITUM lycoctonum neapolitanum ACANTHUS spinosus ACONITUM paniculatum ACANTHUS hungaricus ACONITUM species ex. China (Ron 291) ACANTHUS mollis ‘Long Spike’ ACONITUM japonicum ACANTHUS mollis free-flowering ACONITUM species Ex. Japan ACANTHUS mollis ‘Turkish Form’ ACONITUM episcopale ACANTHUS mollis ‘Hollard’s Gold’ ACONITUM ex. Russia ACANTHUS syriacus ACONITUM carmichaelii ‘Spätlese’ ACER japonicum ‘Aconitifolium’ ACONITUM yezoense ACER palmatum ‘Filigree’ ACONITUM carmichaelii ‘Barker’s Variety’ ACHILLEA grandifolia ACONITUM ‘Newry Blue’ ACHILLEA ptarmica ‘Perry’s White’ ACONITUM napellus ‘Bergfürst’ ACHILLEA clypeolata ACONITUM unciniatum ACIPHYLLA monroi ACONITUM napellus ‘Blue Valley’ ACIPHYLLA squarrosa ACONITUM lycoctonum ‘Russian Yellow’ ACIPHYLLA subflabellata ACONITUM japonicum subcuneatum ACONITUM meta-japonicum ADENOPHORA aurita ACONITUM napellus ‘Carneum’ ADIANTUM aleuticum ‘Japonicum’ ACONITUM arcuatum B&SWJ 774 ADIANTUM aleuticum ‘Miss Sharples’ ACORUS calamus ‘Argenteostriatus’
    [Show full text]
  • Fair Use of This PDF File of Herbaceous
    Fair Use of this PDF file of Herbaceous Perennials Production: A Guide from Propagation to Marketing, NRAES-93 By Leonard P. Perry Published by NRAES, July 1998 This PDF file is for viewing only. If a paper copy is needed, we encourage you to purchase a copy as described below. Be aware that practices, recommendations, and economic data may have changed since this book was published. Text can be copied. The book, authors, and NRAES should be acknowledged. Here is a sample acknowledgement: ----From Herbaceous Perennials Production: A Guide from Propagation to Marketing, NRAES- 93, by Leonard P. Perry, and published by NRAES (1998).---- No use of the PDF should diminish the marketability of the printed version. This PDF should not be used to make copies of the book for sale or distribution. If you have questions about fair use of this PDF, contact NRAES. Purchasing the Book You can purchase printed copies on NRAES’ secure web site, www.nraes.org, or by calling (607) 255-7654. Quantity discounts are available. NRAES PO Box 4557 Ithaca, NY 14852-4557 Phone: (607) 255-7654 Fax: (607) 254-8770 Email: [email protected] Web: www.nraes.org More information on NRAES is included at the end of this PDF. Acknowledgments This publication is an update and expansion of the 1987 Cornell Guidelines on Perennial Production. Informa- tion in chapter 3 was adapted from a presentation given in March 1996 by John Bartok, professor emeritus of agricultural engineering at the University of Connecticut, at the Connecticut Perennials Shortcourse, and from articles in the Connecticut Greenhouse Newsletter, a publication put out by the Department of Plant Science at the University of Connecticut.
    [Show full text]
  • Thai Zingiberaceae : Species Diversity and Their Uses
    URL: http://www.iupac.org/symposia/proceedings/phuket97/sirirugsa.html © 1999 IUPAC Thai Zingiberaceae : Species Diversity And Their Uses Puangpen Sirirugsa Department of Biology, Faculty of Science, Prince of Songkla University, Hat Yai, Thailand Abstract: Zingiberaceae is one of the largest families of the plant kingdom. It is important natural resources that provide many useful products for food, spices, medicines, dyes, perfume and aesthetics to man. Zingiber officinale, for example, has been used for many years as spices and in traditional forms of medicine to treat a variety of diseases. Recently, scientific study has sought to reveal the bioactive compounds of the rhizome. It has been found to be effective in the treatment of thrombosis, sea sickness, migraine and rheumatism. GENERAL CHARACTERISTICS OF THE FAMILY ZINGIBERACEAE Perennial rhizomatous herbs. Leaves simple, distichous. Inflorescence terminal on the leafy shoot or on the lateral shoot. Flower delicate, ephemeral and highly modified. All parts of the plant aromatic. Fruit a capsule. HABITATS Species of the Zingiberaceae are the ground plants of the tropical forests. They mostly grow in damp and humid shady places. They are also found infrequently in secondary forest. Some species can fully expose to the sun, and grow on high elevation. DISTRIBUTION Zingiberaceae are distributed mostly in tropical and subtropical areas. The center of distribution is in SE Asia. The greatest concentration of genera and species is in the Malesian region (Indonesia, Malaysia, Singapore, Brunei, the Philippines and Papua New Guinea) *Invited lecture presented at the International Conference on Biodiversity and Bioresources: Conservation and Utilization, 23–27 November 1997, Phuket, Thailand.
    [Show full text]
  • Diversity and Distribution of Vascular Epiphytic Flora in Sub-Temperate Forests of Darjeeling Himalaya, India
    Annual Research & Review in Biology 35(5): 63-81, 2020; Article no.ARRB.57913 ISSN: 2347-565X, NLM ID: 101632869 Diversity and Distribution of Vascular Epiphytic Flora in Sub-temperate Forests of Darjeeling Himalaya, India Preshina Rai1 and Saurav Moktan1* 1Department of Botany, University of Calcutta, 35, B.C. Road, Kolkata, 700 019, West Bengal, India. Authors’ contributions This work was carried out in collaboration between both authors. Author PR conducted field study, collected data and prepared initial draft including literature searches. Author SM provided taxonomic expertise with identification and data analysis. Both authors read and approved the final manuscript. Article Information DOI: 10.9734/ARRB/2020/v35i530226 Editor(s): (1) Dr. Rishee K. Kalaria, Navsari Agricultural University, India. Reviewers: (1) Sameh Cherif, University of Carthage, Tunisia. (2) Ricardo Moreno-González, University of Göttingen, Germany. (3) Nelson Túlio Lage Pena, Universidade Federal de Viçosa, Brazil. Complete Peer review History: http://www.sdiarticle4.com/review-history/57913 Received 06 April 2020 Accepted 11 June 2020 Original Research Article Published 22 June 2020 ABSTRACT Aims: This communication deals with the diversity and distribution including host species distribution of vascular epiphytes also reflecting its phenological observations. Study Design: Random field survey was carried out in the study site to identify and record the taxa. Host species was identified and vascular epiphytes were noted. Study Site and Duration: The study was conducted in the sub-temperate forests of Darjeeling Himalaya which is a part of the eastern Himalaya hotspot. The zone extends between 1200 to 1850 m amsl representing the amalgamation of both sub-tropical and temperate vegetation.
    [Show full text]
  • Journal Vol. 30 Final 2076.7.1.Indd
    102-120 J. Nat. Hist. Mus. Vol. 30, 2016-18 Flora of community managed forests of Palpa district, western Nepal Pratiksha Shrestha1, Ram Prasad Chaudhary2, Krishna Kumar Shrestha1, Dharma Raj Dangol3 1Central Department of Botany,Tribhuvan University, Kathmandu, Nepal 2Research Center for Applied Science and Technology (RECAST), Kathmandu, Nepal 3Natural History Museum, Tribhuvan University, Swayambhu, Kathmandu, Nepal ABSTRACT Floristic diversity is studied based on gender in two different management committee community forests (Barangdi-Kohal jointly managed community forest and Bansa-Gopal women managed community forest) of Palpa district, west Nepal. Square plot of 10m×10m size quadrat were laid for covering all forest areas and maintained minimum 40m distance between two quadrats. Altogether 68 plots (34 in each forest) were sampled. Both community forests had nearly same altitudinal range, aspect and slope but differed in different environmental variables and members of management committees. All the species present in quadrate and as well as outside the quadrate were recorded for analysis. There were 213 species of flowering plant belonging to 67 families and 182 genera. Barangdi-Kohal JM community forest had high species richness i.e. 176 species belonging to 64 families and 150 genera as compared to Bansa-Gopal WM community forest with 143 species belonging to 56 families and 129 genera. According to different life forms and family and genus wise jointly managed forest have high species richness than in women managed forest. Both community forests are banned for fodder, fuel wood and timber collection without permission of management comities. There is restriction of grazing in JM forest, whereas no restriction of grazing in WM forest.
    [Show full text]
  • The Potential for the Biological Control of Hedychium Gardnerianum
    The potential for the biological control of Hedychium gardnerianum Annual report 2012 www.cabi.org KNOWLEDGE FOR LIFE A report of the 4th Phase Research on the Biological Control of Hedychium gardnerianum Produced for Landcare Research, New Zealand and The Nature Conservancy, Hawai’i DH Djeddour, C Pratt, RH Shaw CABI Europe - UK Bakeham Lane Egham Surrey TW20 9TY UK CABI Reference: VM10089a www.cabi.org KNOWLEDGE FOR LIFE In collaboration with The National Bureau of Plant Genetics Resources and The Indian Council for Agricultural Research Table of Contents 1. Executive summary .................................................................................................. 1 2. Recommendations ................................................................................................... 3 3. Acronyms and abbreviations .................................................................................... 4 4. Phase 4 detail .......................................................................................................... 5 4.1 Background ..................................................................................................... 5 4.2 Aims and Milestones ...................................................................................... 5 4.3 Administration .................................................................................................. 7 4.4 Outputs .......................................................................................................... 13 5. Surveys .................................................................................................................
    [Show full text]
  • Rapid Biodiversity Survey Report-I 1
    RAPID BIODIVERSITY SURVEY REPORt-I 1 RAPID BIODIVERSITY SURVEY REPORT - I Bistorta vaccinifolia Sikkim Biodiversity Conservation and Forest Management Project (SBFP) Forest, Environment and Wildlife Management Department Government of Sikkim Rhododendron barbatum Published by : Sikkim Biodiversity Conservation and Forest Management Project (SBFP) Department of Forests, Environment and Wildlife Management, Government of Sikkim, Deorali, Gangtok - 737102, Sikkim, India All rights reserved. No part of this publication may be reproduced, or transmitted in any form or by any means, electronic or mechanical, including photocopying, recording or by any information storage or retrieval system, without permission in writing from the Department of Forest, Environment and Wildlife Management, Government of Sikkim, Enquiries concerning reproduction outside the scope of the above should be sent to the Project Director, Sikkim Biodiversity Conservation and Forest Management Project, Department of Forests, Environment and Wildlife Management, Government of Sikkim. 2 RAPID BIODIVERSITY SURVEY REPORt-I Contents Page No. 5 Message 6 Forward 7 Preface 8 Acknowledgement 9 Introduction 12 Rapid Biodiversity Survey. 14 Methodology 16 Sang - Tinjurey sampling path in Fambonglho Wildlife Sanctuary, East Sikkim. 24 Yuksom - Dzongri - Gochela sampling path of Kanchendzonga Biosphere reserve, West Sikkim 41 Ravangla - Bhaleydunga sampling path, Maenam Wildlife Sanctuary, South Sikkim. 51 Tholoung - Kishong sampling path, Kanchendzonga National Park, North Sikkim.
    [Show full text]
  • 2 a Floristic Reconnaissance of Churdhar Wildlife Sanctuary Of
    Manthan, International Journal, Vol. 13, April, 2012, Pages 2-12 ISSN No. 0974-6331 www.bbmanthan.info A floristic reconnaissance of Churdhar wildlife sanctuary of Himachal Pradesh, India Ritesh Kumar Choudhary and Joongku Lee International Biological Material Research Center Korea Research Institute of Bioscience & Biotechnology 125, Gwahak-ro, Yuseong-gu, Daejeon- 305-806, South Korea Abstract sanctuary was named after the ‘Chur’ peak where a big Present study is an outcome of the floristic study statue of Lord Shiva is situated on the top. It is perched carried out at Churdhar Wildlife Sanctuary, Himachal at an altitudinal range of ca. 1500-3647 meters and Pradesh of India. The survey was conducted in order to surrounds an area of 5616 hectares with a thick forest discover and document sensitive or special interest cover sheltering a number of threatened flora and vascular plant species to help managing the sensitive fauna. The peak of Churdhar is known to be the plant resources. A list of botanically important plants is highest peak of the outer range of the Himalaya. The being given here along with the details on their climate of this area exhibits considerable variations at medicinal and other economic values. Besides, different elevations and exposures. January is the indicator taxa, floristic records, affinities with Chinese coldest month with around 5°C and June as the and Korean flora and conservation status are also warmest month with around 19°C. Snowfall is also briefly discussed. observed infrequently during the month of December whereas during the months of June to September it Key words: Flora, Churdhar Wildlife Sanctuary, receives heavy rainfall with an average of 1320 mm.
    [Show full text]
  • Developmental Evidence Helps Resolve the Evolutionary Origins of Anther Appendages in Globba (Zingiberaceae)
    Developmental evidence helps resolve the evolutionary origins of anther appendages in Globba (Zingiberaceae) By: Limin Cao, Mark F. Newman, Bruce K. Kirchoff, and Louis P. Ronse de Craene This is a pre-copyedited, author-produced version of an article accepted for publication in Botanical Journal of the Linnean Society following peer review. The version of record, Limin Cao, Mark F Newman, Bruce K Kirchoff, Louis P Ronse de Craene; Developmental evidence helps resolve the evolutionary origins of anther appendages in Globba (Zingiberaceae), Botanical Journal of the Linnean Society, Volume 189, Issue 1, 1 January 2019, Pages 63–82. is available online at: https://doi.org/10.1093/botlinnean/boy071 ***© 2018 The Linnean Society of London. Reprinted with permission. No further reproduction is authorized without written permission from Oxford University Press. 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: Globba is one of the largest genera in the primarily tropical Zingiberaceae. The number of anther appendages is highly diagnostic and has been used along with molecular characters to define subgenera and sections. Four main types of anther morphology are recognized: without appendages and with two, four and six appendages. The six-appendaged anthers are reported here for the first time. Appendages arise from two dorsal ledges that flank the broad connective. Development of two-appendaged and four-appendaged species differs from inception. Previous suggestions that either the proximal or distal appendages of four-appendaged anthers have been lost in two-appendaged species are thus not supported.
    [Show full text]
  • Armitage List For
    HORTICOPIA® Armitage Portfolio Name Name Abelmoschus esculentus Acanthus mollis Abelmoschus esculentus 'Cream Cup' Acanthus mollis 'Hollard's Gold' Abelmoschus esculentus 'Little Lucy' Acanthus spinosus Abelmoschus manihot Acanthus spinosus 'Spinosissimus Group' Abelmoschus moschatus 'Pacific Pink' Achillea 'Anthea' Abelmoschus moschatus 'Pacific Scarlet Oran Achillea 'Coronation Gold' Abutilon x hybridum 'Bella Pink' Achillea 'Flowers of Sulphur' Abutilon x hybridum 'Bella White' Achillea 'Taygetea' Abutilon x hybridum 'Savitzii' Achillea abrotanoides Abutilon x hybridum 'Variegatum' Achillea chrysocoma Abutilon megapotamicum 'Melon Delight' Achillea clavennae Abutilon megapotamicum 'Variegatum' Achillea clypeolata 'Schwellenburg' Abutilon pictum 'Aureo-maculatum' Achillea distans Abutilon pictum 'Thompsonii' Achillea filipendulina 'Altgold' Abutilon x suntense 'Geoffrey Gorer' Achillea filipendulina 'Golden Plate' Abutilon x suntense 'White Charm' Achillea grandifolia Abutilon theophrasti 'Salmon' Achillea huteri Abutilon vitifolium 'Album' Achillea x lewisii 'King Edward' Abutilon vitifolium 'Tennant's White' Achillea micrantha Abutilon vitifolium 'Veronica Tennant' Achillea millefolium Acaena adscendens Achillea millefolium 'Apple Blossom' Acaena anserinifolia Achillea millefolium 'Cerise Queen' Acaena anserinifolia 'Blue Haze' Achillea millefolium 'Colorado' Acaena caesiiglauca Achillea millefolium 'Fanal' Acaena fissistipula Achillea millefolium 'Fireland' Acaena microphylla Achillea millefolium 'Hoffnung' Acaena microphylla 'Copper
    [Show full text]
  • Notes on Some Zingibers from West Bengal and Meghalaya, India
    Pleione 10(2): 310 - 322. 2016. ISSN: 0973-9467 © East Himalayan Society for Spermatophyte Taxonomy Notes on some Zingibers from West Bengal and Meghalaya, India Sreetama Bhadra and Maumita Bandyopadhyay1 Plant Molecular Cytogenetics Laboratory, Centre of Advanced Study, Department of Botany, University of Calcutta, 35 Ballygunge Circular Road, Kolkata – 700019, West Bengal, India 1 Corresponding author; E-mail: [email protected] [Received 20.08.2016; Revised 12.10.2016; Accepted 29.11.2016; Published 31.12.2016] Abstract West Bengal and Meghalaya encompasses a bulk of Eastern Himalaya and the present study reports the diversity of Zingiberaceae in these two states. A total of 36 species belonging to 12 genera were recorded and morphologically described in the present investigation including their chromosome counts. Key words: Zingiberaceae, West Bengal, Meghalaya, Morphology, Chromosome numbers INTRODUCTION Zingiberaceae, one of the largest monocot families, possess the maximum number of species among all the 8 families of Zingiberales. The highest concentration of zingibers is found in the tropical and sub–tropical regions of the world. These plants generally grow in tropical rain and monsoon forests, in damp and humid conditions (Chen et al. 1989; Jatoi et al. 2007). The centre of diversity of Zingiberaceae is considered to be primarily in South and South–East Asia (Larsen et al. 1998), including the Indo-Malayan region (Chakravorti 1948; Joseph 1998; Larsen et al. 1998; Kress et al. 2002; Islam 2004; Sabu 2006) with a few genera being distributed in the neotropics (South and Central America) and Africa (Smith 1998; Harris et al. 2000). In India, these plants are confined to the Himalayas, specially the North–Eastern parts, and also in the Western Ghats (Joseph 1998; Sabu 2006).
    [Show full text]
  • Plant Biodiversity Inventory, Identification of Hotspots and Conservation Strategies for Threatened Species and Habitats in Kanc
    Plant Biodiversity Inventory, Identification of Hotspots and Conservation Strategies for Threatened Species and Habitats in Kanchenjungha-Singhalila Ridge, Eastern Nepal PROJECT EXECUTANT Ethnobotanical Society of Nepal (ESON) 107 Guchha Marg, New Road, Kathmandu, Nepal Ph: 01 - 6213406, Email: [email protected] , web: www.eson.org.np LOCAL COLLABORATORS Shree High Altitude Herb Growers Group (SHAHGG), Ilam & Deep Jyoti Youth Club (DJYC), Panchthar REPORT SUBMITTED TO Critical Ecosystem Partnership Fund (CEPF) & WWF Nepal Program September 2008 Plant Biodiversity Inventory, Identification of Hotspots and Conservation Strategies for Threatened Species and Habitats in Kanchenjungha-Singhalila Ridge, Eastern Nepal Ripu M. Kunwar, Krishna K. Shrestha and Ram C. Poudel With the assistance of Sangeeta Rajbhandary, Jeevan Pandey, Nar B. Khatri Man K. Dhamala, Kamal Humagain, Rajendra Rai, Yub R. Poudel Ethnobotanical Society of Nepal (ESON) Karthmandu, Nepal In collaboration with Shree High Altitude Herb Growers Group (SHAHGG), Ilam Deep Jyoti Youth Club (DJYC), Panchthar September 2008 ii Preface The Eastern Himalaya stands out as being one of the globally important sites representing the important hotspots of the South Asia. The Eastern Himalaya has been included among the Earth’s biodiversity hotspots and it includes several Global 200 eco-regions, two endemic bird areas, and several centers for plant diversity. Kanchenjungha-Singhalila Complex (KSC) is one of the five prioritized landscape of the Eastern Himalaya, possesses globally significant population of landscape species. The complex stretches from Kanchenjungha Conservation Area (KCA) in Nepal, which is contiguous with Khanchendzonga Biosphere Reserve in Sikkim, India, to the forest patches in south and southwest of KCA in Ilam, Panchthar and Jhapa districts.
    [Show full text]