DOCSLIB.ORG

Anurudh Kumar Singh a Reservoir of Alternative Genetic Resources

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Anurudh Kumar Singh a Reservoir of Alternative Genetic Resources Anurudh Kumar Singh Wild Relatives of Cultivated Plants in India A Reservoir of Alternative Genetic Resources and More Wild Relatives of Cultivated Plants in India Anurudh Kumar Singh Wild Relatives of Cultivated Plants in India A Reservoir of Alternative Genetic Resources and More Anurudh Kumar Singh National Genebank Curator & Head, Division of Germplasm Conservation National Bureau of Plant Genetic Resources, Indian Council of Agricultural Research Delhi, India ISBN 978-981-10-5115-9 ISBN 978-981-10-5116-6 (eBook) DOI 10.1007/978-981-10-5116-6 Library of Congress Control Number: 2017943483 © Springer Nature Singapore Pte Ltd. 2017 This work is subject to copyright. All rights are reserved by the Publisher, whether the whole or part of the material is concerned, specifically the rights of translation, reprinting, reuse of illustrations, recitation, broadcasting, reproduction on microfilms or in any other physical way, and transmission or information storage and retrieval, electronic adaptation, computer software, or by similar or dissimilar methodology now known or hereafter developed. The use of general descriptive names, registered names, trademarks, service marks, etc. in this publication does not imply, even in the absence of a specific statement, that such names are exempt from the relevant protective laws and regulations and therefore free for general use. The publisher, the authors and the editors are safe to assume that the advice and information in this book are believed to be true and accurate at the date of publication. Neither the publisher nor the authors or the editors give a warranty, express or implied, with respect to the material contained herein or for any errors or omissions that may have been made. The publisher remains neutral with regard to jurisdictional claims in published maps and institutional affiliations. Printed on acid-free paper This Springer imprint is published by Springer Nature The registered company is Springer Nature Singapore Pte Ltd. The registered company address is: 152 Beach Road, #21-01/04 Gateway East, Singapore 189721, Singapore Preface The narrow genetic base of most crops/cultivated species has made them increas- ingly vulnerable to various stresses on one side and has limited the genetic variabil- ity on the other. This has restricted the capabilities to engineer new cultivars to mitigate the challenges of biotic and abiotic stresses and those created by climate change. This scenario of limited genetic diversity demands search for new and novel variability outside the gene pool of crop/cultivated species. In this regard, the imme- diate and distant wild ancestors of these cultivated species can be the first genetic resource in search for new genes and alleles that have helped them survive fighting against all possible odds and vagaries of nature for millenniums. They have been found with a reservoir of genes in several crops to overcome disaster situations in a number of crops like rice, wheat, maize, potato, tomato, etc., establishing their cre- dentials in saving the crop species by genetically improving them with incorpora- tion of genes, providing greater resilience and productivity. However, despite such established credentials, the global data on crop wild relative’s germplasm collec- tion, conservation, and evaluation in search of new genes and alleles has been found with large gaps. Consequently, their use in crop improvement has not received desired attention both at national and international levels. This situation demands creation of a national inventory on wild relatives of crop/cultivated species with basic information and potential to generate interest among researchers and plant breeders to make use of them in crop improvement and their further economic exploitation. India is floristically one of the megacenters of biodiversity and the center, or one of the centers, of origin of a large number (215) of crops. Obviously, for this reason, it has a reservoir of crop wild relative’s (>900) genetic diversity. This has been created in most plant species, because of the vast climatic diversity offered by the Indian Subcontinent. However, in many cases it has not been accessed because of various reasons and still lay untapped. The present book is an effort of producing an inventory of >950 wild species related to crops/cultivated species with basic information on their habitat, distribution, desirable features, and phy- logenetic relationship with the cultivated species and the threat created to their existence, to facilitate their conservation and use. To promote the activation of necessary steps in this direction, it also discusses the strategies that can be utilized for improved information on their phylogenetic relationships with cultivated v vi Preface species, collection, conservation, and breeding strategies that can be adapted for their effective and efficient use. The author would like to acknowledge the help extended by various peers and colleagues in the preparation of the book by perusing the part of the manuscript related to their expertise, providing comments, and sharing information, namely, Drs. SN Nigam, former principal breeder, ICRISAT, Patancheru; YS Nerkar, former VC, MPKV, Rahuri; AK Roy, project coordinator, IGFRI, Jhansi; SR Pandravada, NBPGR RS, Hyderabad; JC Rana, head of the Division of Germplasm Evaluation; Veena Gupta, Division of Germplasm Conservation; and K. Pradheep, Division of Plant Exploration and Germplasm Collection, NBPGR, New Delhi. Thanks are also due to Springer for accepting the project proposal and providing the opportunity and support for this book project. In this regard, the author is par- ticularly grateful to the Life Science Team and Miss Manjusha Nalamolu, produc- tion editor (Books), and her associates for the assistance extended in the preparation and production of the book. It is hoped that researchers in general and those interested in wild plant genetic resources would find the information compiled useful for the identification of the gaps in our knowledge and the researchable issues, to promote their conservation and use, whereas the plant breeders and biotechnologists involved in genetic enhancement and/or crop improvement are expected to benefit from the information compiled, in promoting the use of wild relatives of crop species in crop improvement. Delhi, India Anurudh Kumar Singh Contents 1 Introduction.............................................................................................. 1 References.................................................................................................. 8 Part I Wild Relatives 2 Defining a Wild Relative.......................................................................... 13 References.................................................................................................. 17 3 Importance of Wild Relatives as Genetic Resource and Otherwise........................................................................................... 19 3.1 Introduction................................................................................... 19 3.2 Wild Species as Source of Genetic Enhancement to Broaden Crop Genetic Base...................................................... 21 3.3 Wild Species as Source of Genetic Variability for Crop Improvement................................................................... 23 3.3.1 Disease and Insect Pest Resistance................................. 23 3.3.2 Abiotic Stress Tolerance................................................. 25 3.3.3 Yield Traits...................................................................... 25 3.3.4 Quality Traits.................................................................. 26 3.3.5 Earliness and Adaptation................................................ 26 3.3.6 Modes of Reproduction.................................................. 26 3.3.7 Miscellaneous Traits....................................................... 27 3.3.8 Quantitative Traits........................................................... 27 3.4 Resource for Other Economic Uses.............................................. 28 3.4.1 Source of Alternative Food Crops................................... 28 3.4.2 Sources of Ethano-medicinal and Floriculture Crops.................................................... 29 3.4.3 Sources of Renewable Bioenergy................................... 30 3.4.4 Source of Restricting Soil Erosion, Soil Reclamation, and Soil Fertility Improvement......... 31 vii viii Contents 3.4.5 Securing Ecological BenefitsThrough Carbon Sequestration, Phytoremediation, Promoting Ecology, and Environment.............................................. 32 3.5 Perspective.................................................................................... 33 References.................................................................................................. 33 Part II Wild Relatives Distribution and Diversity in Different Crop Groups 4 Cereals....................................................................................................... 41 4.1 Introduction................................................................................... 41 4.2 Wild Species Found in India......................................................... 44 4.3 Perspective.................................................................................... 51 References.................................................................................................. 52 5 Grain Legumes........................................................................................
Load more

Recommended publications
  • Download Download
    Journal ofThreatened JoTT TaxaBuilding evidence for conservation globally 10.11609/jott.2020.12.10.16195-16406 www.threatenedtaxa.org 26 July 2020 (Online & Print) Vol. 12 | No. 10 | Pages: 16195–16406 ISSN 0974-7907 (Online) | ISSN 0974-7893 (Print) PLATINUM OPEN ACCESS Dedicated to Dr. P. Lakshminarasimhan ISSN 0974-7907 (Online); ISSN 0974-7893 (Print) Publisher Host Wildlife Information Liaison Development Society Zoo Outreach Organization www.wild.zooreach.org www.zooreach.org No. 12, Thiruvannamalai Nagar, Saravanampatti - Kalapatti Road, Saravanampatti, Coimbatore, Tamil Nadu 641035, India Ph: +91 9385339863 | www.threatenedtaxa.org Email: [email protected] EDITORS English Editors Mrs. Mira Bhojwani, Pune, India Founder & Chief Editor Dr. Fred Pluthero, Toronto, Canada Dr. Sanjay Molur Mr. P. Ilangovan, Chennai, India Wildlife Information Liaison Development (WILD) Society & Zoo Outreach Organization (ZOO), 12 Thiruvannamalai Nagar, Saravanampatti, Coimbatore, Tamil Nadu 641035, Web Development India Mrs. Latha G. Ravikumar, ZOO/WILD, Coimbatore, India Deputy Chief Editor Typesetting Dr. Neelesh Dahanukar Indian Institute of Science Education and Research (IISER), Pune, Maharashtra, India Mr. Arul Jagadish, ZOO, Coimbatore, India Mrs. Radhika, ZOO, Coimbatore, India Managing Editor Mrs. Geetha, ZOO, Coimbatore India Mr. B. Ravichandran, WILD/ZOO, Coimbatore, India Mr. Ravindran, ZOO, Coimbatore India Associate Editors Fundraising/Communications Dr. B.A. Daniel, ZOO/WILD, Coimbatore, Tamil Nadu 641035, India Mrs. Payal B. Molur, Coimbatore, India Dr. Mandar Paingankar, Department of Zoology, Government Science College Gadchiroli, Chamorshi Road, Gadchiroli, Maharashtra 442605, India Dr. Ulrike Streicher, Wildlife Veterinarian, Eugene, Oregon, USA Editors/Reviewers Ms. Priyanka Iyer, ZOO/WILD, Coimbatore, Tamil Nadu 641035, India Subject Editors 2016–2018 Fungi Editorial Board Ms.
    [Show full text]
  • Revisiting the Status of Cultivated Plant Species Agrobiodiversity in India: an Overview ANURUDH K SINGH* 2924, Sector-23, Gurgaon, Haryana, India 122 017
    Proc Indian Natn Sci Acad 83 No. 1 March 2017 pp. 151-174 Printed in India. DOI: 10.16943/ptinsa/2016/v82/48406 Review Article Revisiting the Status of Cultivated Plant Species Agrobiodiversity in India: An Overview ANURUDH K SINGH* 2924, Sector-23, Gurgaon, Haryana, India 122 017 (Received on 14 March 2016; Revised on 20 May 2016; Accepted on 16 June 2016) A revisit to the literature on cultivated plant species agrobiodiversity in India revealed that the floristic diversity is represented by 17,926 species of angiosperm, while Indian agriculture cultivates 811 plant species and harbours more than 900 wild relatives of the cultivated plant species distributed over 10 (+ 1) biogeographic regions of the the country, significantly higher than commonly cited in the literature. Further, it revealed the role of Indian communities in domestication to cultivation of around 215 economically important plant species, and adaption of around 600 exotic crop species. Based on new evidence, several species require inclusion and others deletion, and many need further investigations to resolve the issue on country of their origin. Cultivation of crop species in diverse natural and man-made agroecological systems for centuries has generated a huge amount of genetic diversity in a large number of crop species, maintained by the farmers in the form of landraces or farmer’s varieties, and conserved as collections/accessions in the national agricultural research system. Keywords: Agrobiodiversity; Domestication; Cultivation; Genetic Diversity; Wild Relatives
    [Show full text]
  • Taxonomic Inventory of Grasses on the Basis of Morphological Attributes from Thal Desert, Pakistan
    International Journal of Scientific & Engineering Research, Volume 4, Issue 11, November-2013 509 ISSN 2229-5518 Taxonomic inventory of grasses on the basis of morphological attributes from Thal desert, Pakistan Sunbal Khalil Chaudhari, Muhammad Arshad, Muhammad Shoaib Amjad, Sammer Fatima Abstract— Grasses constitute a natural homogenous group of plants belonging to the family Poaceae (Gramineae). Undoubtedly, Poaceae forms the most fascinating families of flowering plants, with a wide range of diversity and plays a significant role in the lives of human beings and animals. Thal Desert of Pakistan has rich diversity in grasses and various habitats are available for their growth, and these grasses are less exploited as far as taxonomy is concerned. In this study, morphological analysis of 29 grass species belonging to 10 different tribes was carried out. These Species were distinguished at tribe level and at individual level by apparent morphological features such as height, leaf blade appearance, inflorescence type, ligule, glumes, lemma, palea , number of awn extensions etc. Arundo donex belonging to tribe Arundineae has lacerate membranous ligule which is a unique characteristic from other members of same tribe. Tribe Aristideae members have trifid awn extension. Enneapogon shimpranus, member of tribe Pappophoreae has 9 awned lemma. These different morphological characteristics of grasses help in discriminating between closely resembling species of Poaceae and can be used in further taxonomic studies carried out on these species. Index Terms— Thal desert, Poaceae, taxonomy, morphological features, inflorescence types —————————— —————————— 1 Introduction taken as food and high protein and starch content provide energy to body (Mensah, 1990). Grasses belong to family Poaceae which is among Besides being the staple food, grasses are also the largest family of flowering plants.
    [Show full text]
  • A Classification of the Chloridoideae (Poaceae)
    Molecular Phylogenetics and Evolution 55 (2010) 580–598 Contents lists available at ScienceDirect Molecular Phylogenetics and Evolution journal homepage: www.elsevier.com/locate/ympev A classification of the Chloridoideae (Poaceae) based on multi-gene phylogenetic trees Paul M. Peterson a,*, Konstantin Romaschenko a,b, Gabriel Johnson c a Department of Botany, National Museum of Natural History, Smithsonian Institution, Washington, DC 20013, USA b Botanic Institute of Barcelona (CSICÀICUB), Pg. del Migdia, s.n., 08038 Barcelona, Spain c Department of Botany and Laboratories of Analytical Biology, Smithsonian Institution, Suitland, MD 20746, USA article info abstract Article history: We conducted a molecular phylogenetic study of the subfamily Chloridoideae using six plastid DNA Received 29 July 2009 sequences (ndhA intron, ndhF, rps16-trnK, rps16 intron, rps3, and rpl32-trnL) and a single nuclear ITS Revised 31 December 2009 DNA sequence. Our large original data set includes 246 species (17.3%) representing 95 genera (66%) Accepted 19 January 2010 of the grasses currently placed in the Chloridoideae. The maximum likelihood and Bayesian analysis of Available online 22 January 2010 DNA sequences provides strong support for the monophyly of the Chloridoideae; followed by, in order of divergence: a Triraphideae clade with Neyraudia sister to Triraphis; an Eragrostideae clade with the Keywords: Cotteinae (includes Cottea and Enneapogon) sister to the Uniolinae (includes Entoplocamia, Tetrachne, Biogeography and Uniola), and a terminal Eragrostidinae clade of Ectrosia, Harpachne, and Psammagrostis embedded Classification Chloridoideae in a polyphyletic Eragrostis; a Zoysieae clade with Urochondra sister to a Zoysiinae (Zoysia) clade, and a Grasses terminal Sporobolinae clade that includes Spartina, Calamovilfa, Pogoneura, and Crypsis embedded in a Molecular systematics polyphyletic Sporobolus; and a very large terminal Cynodonteae clade that includes 13 monophyletic sub- Phylogenetic trees tribes.
    [Show full text]
  • Seed Coat Sculpture of Subgenus Ceratotropis (Piper) Verdc., Genus Vigna Savi in India and Its Taxonomic Implications
    Botany Letters ISSN: 2381-8107 (Print) 2381-8115 (Online) Journal homepage: http://www.tandfonline.com/loi/tabg21 Seed coat sculpture of subgenus Ceratotropis (Piper) verdc., genus Vigna Savi in India and its taxonomic implications Suraj D. Umdale, Pravin D. Patil, Surendra K. Malik, M. Latha, Satyawada R. Rao, Shrirang R. Yadav, Nikhil B. Gaikwad & Kangila V. Bhat To cite this article: Suraj D. Umdale, Pravin D. Patil, Surendra K. Malik, M. Latha, Satyawada R. Rao, Shrirang R. Yadav, Nikhil B. Gaikwad & Kangila V. Bhat (2017): Seed coat sculpture of subgenus Ceratotropis (Piper) verdc., genus Vigna Savi in India and its taxonomic implications, Botany Letters, DOI: 10.1080/23818107.2016.1273795 To link to this article: http://dx.doi.org/10.1080/23818107.2016.1273795 Published online: 14 Feb 2017. Submit your article to this journal Article views: 41 View related articles View Crossmark data Full Terms & Conditions of access and use can be found at http://www.tandfonline.com/action/journalInformation?journalCode=tabg21 Download by: [59.95.250.157] Date: 27 February 2017, At: 02:25 BOTANY LETTERS, 2017 http://dx.doi.org/10.1080/23818107.2016.1273795 Seed coat sculpture of subgenus Ceratotropis (Piper) verdc., genus Vigna Savi in India and its taxonomic implications Suraj D. Umdalea,b , Pravin D. Patila, Surendra K. Malika, M. Lathac, Satyawada R. Raod, Shrirang R. Yadave, Nikhil B. Gaikwade and Kangila V. Bhata aNational Bureau of Plant Genetic Resources, Pusa campus, New Delhi, India; bDepartment of Botany, Yashvantrao Chavan Institute of Science, Satara, India; cNational Bureau of Plant Genetic Resources Regional Station, KAU PO, Thrissur, India; dDepartment of Biotechnology & Bioinformatics, North-Eastern Hill University, Shillong, India; eDepartment of Botany, Shivaji University, Kolhapur, India ABSTRACT ARTICLE HISTORY The seed coat morphology was studied using scanning electron microscopy in 21 species (of Received 22 August 2016 which two are both cultivated and wild) of subgenus Ceratotropis (Piper) Verdc.
    [Show full text]
  • Journalofthreatenedtaxa
    OPEN ACCESS The Journal of Threatened Taxa fs dedfcated to bufldfng evfdence for conservafon globally by publfshfng peer-revfewed arfcles onlfne every month at a reasonably rapfd rate at www.threatenedtaxa.org . All arfcles publfshed fn JoTT are regfstered under Creafve Commons Atrfbufon 4.0 Internafonal Lfcense unless otherwfse menfoned. JoTT allows unrestrfcted use of arfcles fn any medfum, reproducfon, and dfstrfbufon by provfdfng adequate credft to the authors and the source of publfcafon. Journal of Threatened Taxa Bufldfng evfdence for conservafon globally www.threatenedtaxa.org ISSN 0974-7907 (Onlfne) | ISSN 0974-7893 (Prfnt) Artfcle Florfstfc dfversfty of Bhfmashankar Wfldlffe Sanctuary, northern Western Ghats, Maharashtra, Indfa Savfta Sanjaykumar Rahangdale & Sanjaykumar Ramlal Rahangdale 26 August 2017 | Vol. 9| No. 8 | Pp. 10493–10527 10.11609/jot. 3074 .9. 8. 10493-10527 For Focus, Scope, Afms, Polfcfes and Gufdelfnes vfsft htp://threatenedtaxa.org/About_JoTT For Arfcle Submfssfon Gufdelfnes vfsft htp://threatenedtaxa.org/Submfssfon_Gufdelfnes For Polfcfes agafnst Scfenffc Mfsconduct vfsft htp://threatenedtaxa.org/JoTT_Polfcy_agafnst_Scfenffc_Mfsconduct For reprfnts contact <[email protected]> Publfsher/Host Partner Threatened Taxa Journal of Threatened Taxa | www.threatenedtaxa.org | 26 August 2017 | 9(8): 10493–10527 Article Floristic diversity of Bhimashankar Wildlife Sanctuary, northern Western Ghats, Maharashtra, India Savita Sanjaykumar Rahangdale 1 & Sanjaykumar Ramlal Rahangdale2 ISSN 0974-7907 (Online) ISSN 0974-7893 (Print) 1 Department of Botany, B.J. Arts, Commerce & Science College, Ale, Pune District, Maharashtra 412411, India 2 Department of Botany, A.W. Arts, Science & Commerce College, Otur, Pune District, Maharashtra 412409, India OPEN ACCESS 1 [email protected], 2 [email protected] (corresponding author) Abstract: Bhimashankar Wildlife Sanctuary (BWS) is located on the crestline of the northern Western Ghats in Pune and Thane districts in Maharashtra State.
    [Show full text]
  • Gc University Lahore a Dissertation/ Thesis Titled
    A DISSERTATION/ THESIS TITLED ETHNOECOLOGICAL STUDIES OF HERBACEOUS FLORA OF SAHIWAL DIVISION, PUNJAB, PAKISTAN Submitted to Government College University Lahore in partial fulfillment of the requirements for the award of degree of D octor of Philosophy IN Botany By AHMAD ALI SESSION 2010 - 13 Registration No. 090 - GCU - PHD - BOT - 2010 DEPARTMENT OF BOTANY GC UNIVERSITY LAHORE A DISSERTATION/ THESIS TITLED ETHNOECOLOGICAL STUDIES OF HERBACEOUS FLORA OF SAHIWAL DIVISION, PUNJAB, PAKISTAN AHMAD ALI SESSION 2010 - 13 RegistrationNo. 090 - GCU - PHD - BOT - 2010 DEPARTMENT OF BOTANY GC UNIVERSITY LAHORE Dedicated To My Sweet Family & Parents Contents Title Page No. List of Tables II List of Figures I V List of Annexure s & Plates V I Acknowledgement s V II Abstract V III Chapter No. 1 : Introduction 01 Chapter No. 2 : Review of literature 11 Chapter No. 3 : Materials and Methods 19 Chapter No. 4 : Results and Discussion 4 7 References 21 5 Annexure s 229 Plate 2 3 9 l LIST OF TABLES Table No. Page No. Table 3.4.1 : Plants selected for their Ethnopharmacological Assays 27 Table 3.4.2: Gallic acid dilutions for the estimation of T PC 36 Table 3.4.3: Dilutions for the estimation of Total Flavonoid contents 37 Table 3.4.4: Bacterial strain for antibacterial investigation 40 Table 3.4. 5: Fungal strains for antifungal investigation 40 Table 3.4.6: Preparation of dilutions for MIC Assay. 43 Table 3.4.7: Preparation of dilutions for the anthelmintic investigation 45 Table 4.2 .1: Importance Value Index (IVI) of Plant Species of Di strict Sahiwal
    [Show full text]
  • Vigna Dalzelliana LC Taxonomic Authority: (Kuntze) Verdc
    Vigna dalzelliana LC Taxonomic Authority: (Kuntze) Verdc. Global Assessment Regional Region: Global Endemic to region Synonyms No common names available Phaseolus dalzellianus Kuntze Phaseolus dalzellii T.Cooke Phaseolus Dalzell Upper Level Taxonomy Kingdom: PLANTAE Phylum: TRACHEOPHYTA Class: MAGNOLIOPSIDA Order: FABALES Family: LEGUMINOSAE Lower Level Taxonomy Rank: Infra- rank name: Plant Hybrid Subpopulation: Authority: General Information Distribution The species is reported from Thailand, Cambodia, Laos, Vietnam, the Philippines, India and Pakistan. It is also noted from Sri lanka (Tomooka et al. 2002). Range Size Elevation Biogeographic Realm Area of Occupancy: Upper limit: 2500 Afrotropical Extent of Occurrence: Lower limit: 50 Antarctic Map Status: Depth Australasian Upper limit: Neotropical Lower limit: Oceanian Depth Zones Palearctic Shallow photic Bathyl Hadal Indomalayan Photic Abyssal Nearctic Population There was no population data available but, the population is inferred to be large as it has a wide geographical distribution and occurs in forest over a large altitudinal range. Total Population Size Minimum Population Size: Maximum Population Size: Habitat and Ecology This creeping herb forms a component of the ground flora of monsoon forest. It can root from stem nodes (Tomooka et al. 2002). This species is considered to be a crop wild relative of green gram (Vigna radiata) and black gram (Vigna mungo) (Department of Agriculture, Sri lanka 2006). It is also found mountain grassland. System Movement pattern
    [Show full text]
  • C.G.G.J. Vansteenis
    3802 FLORA MALESIANA BULLETIN 35 (1982) X. Bibliography (continued from page 3705) C.G.G.J. van Steenis The entries have been split into five categories: a) Algae — b) Fungi & Lichens — c) Bryophytes — d) Pteridophytes — e) Spermatophytes & General subjects. — Books have been marked with an asterisk. a) Algae: BERDACH,J.T. Haploplegma duperreyi and Dasyphila plumarioides (Ceramia- ceae, Rhodophyta) from Boraoay Island, Aklan (Philippines). Kali- kasan 9 (1980) 99-103, 2 fig. the BONGALE,U.D. & S.G.BHARATI, On algal flora of cultivated soils of Karnataka State, India. Phykos 19 (1980) 95-109, 1 tab. Large name list. CASSIE,V. Bibliography of the freshwater algae of New Zealand 1849-1980. New Zeal.J.Bot. 18 (1980) 433-447. • CHAPMAN,V.J. The marine algae of New Zealand. III. 4. Gigartinales. J.Cramer, Vaduz (1979) pp. 279-507, pi. 95-181, fig. 76-120. Keys and descriptions. the Characeae CLAYTON,J.s. & R.WELLS, Key to common of New Zealand. New Zeal.J.Bot. 18 (1980) 569-570. Key to 15 species. CRANE,P. The marine Chlorophyceae and Phaeophyceae of Penang Island. Malayan Nat.J. 34 (1981) 143-169, 33 fig. to Key the Chlorophyta of Penang I.; Phaeophyta, less numerous, are listed. FRYXELL,G.A. & H.J.SEMINA, Actinocyclus exiguus sp.nov. from the southern parts of the Indian and Atlantic oceans. Br.Phycol.J. 16 (1981) 441-448, 10 fig., 1 tab. A small centric diatom. * & Introduction and to the marine blue HUMM,H.J . S.R.WICKS, guide green algae. John Wiley & Sons, New York (1980) 194 pp., 34 fig., 5 pi.
    [Show full text]
  • Plant Species of Delhi Flora: a Medicinal Review
    Indian Journal of Plant Sciences ISSN: 2319–3824(Online) An Open Access, Online International Journal Available at http://www.cibtech.org/jps.htm 2015 Vol. 4 (4) October-December, pp. 73-111/Mishra et al. Research Article PLANT SPECIES OF DELHI FLORA: A MEDICINAL REVIEW *Anand Kumar Mishra1, Maheshwar Prasad Sharma1 and Harbhajan Singh2 1Department of Botany, Jamia Hamdard, Hamdard Nagar, New Delhi-110062, India 2National Institute of Science Communication and Information Resources (NISCAIR) Dr. K. S. K. Marg, New Delhi-110012, India *Author for Correspondence ABSTRACT The present paper was based on the results of taxonomic research work conducted in various parts of Delhi during 2011-2015. Authors documented a total of 604 plant species belonging to 399 genera and 92 families were present in the study area. Out of 604; 460 species are medicinally important. These plant species are used for the treatment of such ailments as Diabetes, Rheumatism, Jaundice, Fever, Cold, Cough and Cardiac problems. The full results of our study are organized in table form and include the species botanical name, parts used, medicinal properties and the local or vernacular names of the species. Keywords: Medicinal Plants, Delhi, Wild Species INTRODUCTION Plants have great economic and medicinal importance throughout the world. Almost all daily human basic and luxurious requirements like feeding, clothing, sheltering, nursing and hunting are fulfilled by plants. As source of medicines, plants have formed the basis for innovative and traditional systems and continuously providing mankind with new remedies. In recent years, the interest in traditional medicine has highly increased. This discipline is gaining the scientific basis for its appropriate application (Ullah et al., 2010).
    [Show full text]
  • Taxonomic Diversity in Epidermal Cells of Some Sub-Tropical Plant Species
    INTERNATIONAL JOURNAL OF AGRICULTURE & BIOLOGY ISSN Print: 1560–8530; ISSN Online: 1814–9596 09–236/MHB/2010/12–1–115–118 http://www.fspublishers.org Full Length Article Taxonomic Diversity in Epidermal Cells of some Sub-tropical Plant Species KHALID AHMAD1, MIR AJAB KHAN, MUSHTAQ AHMAD, NIGHAT SHAHEEN AND ABDUL NAZIR Department of plant sciences, Quaid-i-Azam University, Islamabad, Pakistan 1Corresponding author’s e-mail: [email protected] ABSTRACT A total of 40 angiosperm plant species from 38 genera of 22 families were investigated for the type and shape of leaf epidermal cells. The result showed substantial variations in the type and shape of epidermal cells from straight to polygonal up to wavy. The present results showed that the shape of leaf epidermal cells can not play its role in correlating the taxa but is significant in delimiting the related taxa. © 2010 Friends Science Publishers Key Words: Leaf epidermal cells; Sub-tropical plant species INTRODUCTION features, which are the epidermis, stomata, gland and trichomes (Park 1994; Hong & Son 1999, 2000). The The Foliar epidermis is one of the most noteworthy present study deals with the diversity in the type and shape taxonomic characters from the biosystematic point of view of leaf epidermal cells in some plant species of the District and the taxonomic studies of a number of families are made Tank, Pakistan, which is located at 32.00°–32.30° North on the basis of leaf epidermis (Bhatia, 1984; Stace, 1984; latitude and 70.05°-70.40° East longitude, with an altitude Jones, 1986; Baranova, 1972). Although taxonomists lately of 320.04 meters from sea level (Anonymous, 1998).
    [Show full text]
  • Okf"Kzd Izfrosnu ANNUAL REPORT 2007-2008
    NBPGR ANNUokf"kZdAL izfrosnu REPORT 2007-2008 jk"Vªh; ikni vkuqoaf'kd lalk/u C;wjks (Hkkjrh; Ñf"k vuqla/ku ifj"kn) iwlk ifjlj] ubZ fnYyh&110012 NATIONAL BUREAU OF PLANT GENETIC RESOURCES (Indian Council of Agricultural Research) Pusa Campus, New Delhi - 110 012 ISSN NO 0971-2572 NBPGR okf"kZd izfrosnu ANNUAL REPORT 2007-2008 jk"Vªh; ikni vkuqOakf'kd Laklk/u C;wjks (Hkkjrh; Ñf"k vuqLak/ku ifj"kn) iwlk ifj"kj] ubZ fnYyh&110012 NATIONAL BUREAU OF PLANT GENETIC RESOURCES (Indian Council of Agricultural Research) Pusa Campus, New Delhi - 110 012 Citation : Annonymous (2008). Annual Report of the National Bureau of Plant Genetic Resources 2007-2008, NBPGR, Pusa Campus, New Delhi, India, 154 pp. Compiled and Edited by : Dr. Arjun Lal, Principal Scientist Dr. (Mrs.) Anjula Pandey, Senior Scientist Dr. (Mrs.) Kavita Gupta, Senior Scientist This report includes unprocessed or semi-processed data, which would form the basis of scientific papers in due course. The material contained in the report therefore may not be made use of without the written permission of the Director, National Bureau of Plant Genetic Resources, New Delhi except for quoting it for scientific reference. Published by the Director, National Bureau of Plant Genetic Resources, Pusa Campus, New Delhi-110 012, and Printed at Alpha Printographics (India), New Delhi-110 028. Tel.: 9999039940, 9811199620 CONTENTS Preface izfrosnu lkjak'k 1 Executive Summary 6 Introduction 13 NBPGR Headquarters, New Delhi 1. Division of Plant Exploration and Germplasm Collection 17 2. Division of Germplasm Evaluation 23 3. Division of Germplasm Conservation 32 4.
    [Show full text]