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Secretory structures of aromatic and medicinal plants: a review and atlas of micrographs PDF

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SECRETORY STRUCTURES OF AROMATIC AND MEDICINAL PLANTS A REVIEW AND AnAS Of MICROGRAPHS Authors: Katerina P. Svoboda and Tomas G. Svoboda Micrographs: Andrew D. Syred, Microscopix photolibrary Designed and Edited: Polly M.Syred 1\(''''to imu!:t',\ onfront cover: Topto bottom: Wormwood. Peppermint. Marjoram.Rosemary. Greek Ore-gano. Lavender Background: Eucalyptus leaf MICROSCOPIX PUBLICATIONS Middle Travelly, Beguildy, Knighton. Powyst07 lUW. V.K. Tilt'pffhlitllen 111111..£' 110 representation, expressedfir implied. withregurd to the ac('w'(/(y o/lheill!iwlI1alitlllcontainedill IIIi,1hook111/(1e(//IIWIO<H'fll<111,1' legall'l'.\]JolIsihilitvjiJl'allY 1'l'1lJl',I'01'Omi,I'JiOIlSthut lakeplace. Copyright I'.:!OOO K. P.& T.G. S\,OBODA.A. D.& P. ~1. SYREO Allrigtus reserved. No1'111'1ofttus puhlicClliwt mayhe reproducedinIIl1y/imll 01' ".I' hy allY ml'III/S.vtectronicaltv. mevhunicullv. pholocopying, renln/ing or otherwise. I\itltotlllite prior writtenpermission otthecopyright0\1'''('1',\. British Library Cataloguing-in-Publication Data A C1Pcatalogue record forthisbook is available from the- British Library ISBN 0-9538461-0-5 PREFACE Aromatic and medicinal plants arc used in the food. flavour, perfumery. pharmaceutical and healthcarc industries.Their usc is expected to increase every year due to a consumer-led trend towards natural foods. food and cosmetic additives and complimentary medicine including aromathcrapy. Many branches ofindustry are searching for alternative. cleaner antimicrobial, antibiotic. antioxidant and crop-protection agents. The possibility of utilising volatile oils is being investigated as it has been known since antiquity that they possess biological activities. During the last decade many books have been written about herbs and spices. chemical constituents foundinvariousplant familiesandtheiruses. However,very few research articles deal with thedescription ofthe sites where these chemicals are produced. either on the surface of the plants or internally. There is a distinct lack of illustrations which would help the reader to visualise these anatomical structures. An early acquaintancewithmicrographsofsecretorytissuesincreasestheappreciationoftherelationship betweentheplantanditsbiochemicalproducts. This book is a source of useful tenus and concepts for description of a variety of secretory structures. It does not cover the subject exhaustively but presents numerous examples and examines a fewindetail. The reader ismade aware oftheendlessvariability inanatomicalfonn and will therefore be better prepared to interpret the structure ofother plant species and relate them to those described inthisbook.An exhaustive list ofreferences collected over the last ten years gives the reader guidance for scientific approach to this area. Use ofincreasingly more advanced methods ofmicroscopicstudieshasresulted inremarkableinsight intoplant anatomy. differentiationanddevelopment. All photomicrographsareoriginal.prepared byMicroscopixfrom authenticplantsand material. My botanical and phytochemical interest. directed towards research on aromatic plants. unavoidably influenced the presentation of individual plant species. The problems of classificationarenotresolved and theorderofplantpresentation isnotrelated totaxonomy.The plantsarc presentedinalphabeticalsequenceoftheircommonnames,supporting interpretations andconclusionsthathavebeenplacedinthetext.Thismethodoforganisationissimple,coherent andquicklypermitsthereaderaccesstospecificplates. This book aims to be useful to both students and scientists with an interest in aromatic and medicinal plants and may be a valuable resource to all those involved in the research, development.cultivation.marketingandusesofthesecrops. Dr.K. P.Svoboda Mev 2000 'Apricotsare ripe With moonlight dripping On each fruit' Haiku byShibata Hakuyojo 3 PLATE I Mobile distillation unitbeingUM-'J forchamomileoilextraction(Norfolk.Anglian Essential Oils Ltd.] CONTENTS ra~e no: Preface 3 l ist ofplates _ 6 Introduction _ 7 Secretory structures in plants 9 Basil.. 15 Bog myrtle 16 Caraway _ 17 Catmint 18 Cedar 19 Chamomile. Roman 20 Citrus 21 Clove 22 Cumin 23 Dragonhead 24 Eucalyptus 26 Frankincense 27 Ginger 30 lIyssop 31 Juniper 32 Korean mint 33 l avender 34 l emon balm 35 l ovage 36 Marjoram 37 Myrrh 28 Nutmeg 38 Orchid. lady's slipper 39 Oregano 40 Oregano. Greek 41 Peppermint 42 Perilla .43 Plantain 44 Rosemary 46 Sage .47 Tansy .48 Wormwood 50 Bibliography 51 List of plant species used in arumatherapy 57 Glossary 58 Index ofspecies 60 , LIST OF PLATES Plate no: P..~e no: Mobile distillation unit being used for chamomileoil extraction (Norfolk. Anglian EssentialOils ltd.) ..... 2 Collection ofvarious mint species.experimentalplotsat Auchincruivc X 3 Ecninacae angustitotia, experimentalplots at Auchincruivc 13 4 Takeda.Japanese pharmaceuticalcompany herb garden.Osaka 14 5&6 Basil 15 7& x Bogmyrtle 16 9& 10 Caraway 17 II & 12 Carmiru 18 13. 14 & 15 Cedar 19 16.17.IX&19 Chamomile 20 20.21& 22 Citrus 21 23,24.25 & 26 Clove 22 27, 2R. 29 & 30 Cumin 23 31& 32 Dragonhead 2... 33 Detailofdragonheadtlowc showingdistributionofsecretoryglands 25 34 & 35 Eucalyptus 26 36.37.3S. 39 & 40 Frankincense and Myrrh 27 28 4 41 A young Somalian womangrading (1-6) freshly-collected resin for traders 29 ...2 3 & ...... Ginger 30 ...5 6 & 47 Hyssop 31 48.49 & 50 Juniper 32 51 & 52 Korean mint 33 53 & 54 lavender 34 55.56 & 57 Lemonbalm .35 58.59 & 60 Lovage 36 61 &62 Marjoram 37 63 &64 Nutmeg 3X 65.66&67 Orchid. lady's slipper 39 68 & 69 Oregano .40 70,7[ & 72 Oregano.Greek .4I 73 & 74 Peppermint .42 75 & 76 Perilla .43 77. 7X. 79 & so Plantain 44 81 AgastacheJi.)('"iClllllm at Auchincruive herb garden 5 82 & SJ Rosemary 6 84.85 & 86 Sage 47 ss 87 & Tansy .41\ 89 Experimental plot oftansy grown for volatile oil with high thujonc content (Auchincruivc) .49 90.91 & 92 \Von11\\'oOO 50 93 Street market with herbsand spices.Seoul. Korea 56 94 Statue ofa streetseller with various herbs.essential oils and perfumes (PerfumeryMuseum.Grasse.South ofFrance} 61 INTRODUCTION Plants and theirextracts have been used for centuries to relieve pain. aid healing and kill bacteriaand insects.They have alsobeenemployed inperfumery. cosmeticsand religious rites. Plant chemistry became an established discipline in universities at the end of the nineteenthcenturyandsincethenmany newstructureshavebeendiscovered.Thenumber ofnaturalproductsobtained fromplantshasnow reachedover 100000and everyyear new chemical compounds arc being discovered. Although their functions in plants have not been fullyestablished. itisknown that somesubstanceshavegrowth regulatoryproperties whilst others are involved in pollination and seed dispersal. Many arc important as antifungal and antihcrbivorc agents with further compounds being involved in the symbiotic associations in plants. Detailed information on individual plant chemicals is availableintheDictionary ofNaturalProductsand thePhytochemicalDictionary: The complex nature of these chemicals, which arc usually produced in various types of secretorystructures.isalso influencedandcontrolledbygeneticandecologicalfactorsand significantly,bythemode ofextractionfromtheplants.Thetypeofsecretorystructureisan important characteristic of a plant family. Detailed anatomical description of these structures isrelevantto the market value ofthe plants. the verificationofauthenticity ofa givenspeciesandforthedetectionofsubstitutionoradulteration. Italsoprovidesaguideto the method ofprocessing. Microscopical investigation of plant structures is an important part of the complex biological research process which includes plant growth and development. genetics and breeding. There is endless variability in fonn and structure; observing these with the microscopeallows ustodiscoverNatureinoneofitsmostpowerful forms. Plantmaterial received forthese investigationswas examined freshoraschemically-fixed and stained sections for light microscopy (LM), chemically-fixed and critical point dried (CPD) forscanning electron microscopy(SEM)or cryogenically fixed for cryo-SEM.No single technique was ideal for all purposes since each had its ovvn limitation and risk of introducing artifacts but by employing several methodsthese difficultieswere reduced to giveaclearerunderstandingofthe structures. ForLM.thintransversesections(TIS)were cut from wax-embedded material and stained to provide colour contrast. however, the involved chemical processes invariably caused some damage to the sample. This was alleviated by examining fresh. unstained sections either by differential interference contrast(Ole)or,ifsufficientcontrastwasattainable.bright field illumination(BF)where no chemical or staining processes were employed. SEM allowed high magnifications togetherwithimproveddepthoffieldgivinganoverallview ofthestructures. SinceSEMis incapable of recording colour. all images produced using this method were manually enhancedusingcomputertechniques. 7 PLATE 2 Collectionof'variousmm• t....pecr•es.1>.:\P'-rimcntal plotsal Auchincruive , SECRETORY STRUCTURES II\' PLANTS Plant chemicalscan beclassedasprimaryorsecondarymetabolites.dependingonwhetherornot they have an essential role in plantmetabolism andarc universally present in all plants.Primary metabolites include sugars. amino acids. nucleic acids and the chlorophylis. Secondary metabolitesmakeupall the remaining plantchemicalsfromalkaloids tophenols. Essential oilsand other secondary plant metabolites arc found in a wide range ofplant species including annual, biennial or perennial herbaceous plants. evergreen or deciduous shrubs and trees. The ecologicaland evolutionary role ofthese secondary metabolites has been associated with defence against animals. healing ofplant organ wounds. protection from harmful insects. resistance to microbial attacks and attraction of insects and animals for pollination. Several species and varieties of plants. mostly those of commercial interest. were investigated systematically and in depth. Recently. various studies concerned with secretory structures and factorsinfluencing theirdevelopmenthavebeenundertakenbyresearchgroups inbiologicaland pharmacologicaldepartments. Secretion is a common feature of living cells and involves the discharge ofsubstances to the exterior(exotropic secretion) or into special intercellular cavities (endotropic secretion).These arc specialised cells and the secreted material may contain various salts. latex. waxes. fats. flavonoids, sugars. gums. mucilages. essential oils and resins. It has been assumed that these productsarc biosynthesisedinsituanddirectevidence forthebiosynthcticcapacityofgland cells has becomeavailablerelatively recently withthe developmentofproceduresfor gland isolation. These methods have yielded definitive proofof the presence of enzymes specifically within glandcells. Trichomes present on the leaf surface and other secretory tissues can beexamined using light. scanning and transmission electron microscopy which enables detailed observation of major stages in the development of secretory cells. including their membrane system and nuclei. the overallsizeoftheglandandtheamountofmatcrialreleasedintothesubcuticularcavity. Essential oils. with or without accompanying resins and gums. are most commonly found in specialsecretory structures eitheron the surface oftheplantor within the planttissues.Thetype ofstructureisfamilyorspecies specific.Thiscanbeusefulin identification ofplant materialand verifying theauthenticityoftheplantsourceinthecaseofsuspectedaduIteration. St:CH.ETOR,\·CI::U.S Themost simplesecretorystructureisasinglesecretion-containingcellwhereitisonlytheactual content that distinguishes it from adjacent non-secretory cells. However, it may also be larger than the othercellsor havea thick cuticularized lining.This celltype is found in many different plant tissues: in the leaf parenchyma of lemongrass tAndropogon spp.). bay (LaUrElS nohilis). citronella (Cymbopogon nardus and C. winterianusv and patchouli(Pogostemonpatchouli). in the seed coat of cardamom (Elellaria cardamonunn), in the rhizome of ginger (Ziflgiber 9 oj]icinale) [Plates 42-44] and turmeric (Curcuma longa), in the fruit wall of pepper (Piper nignlm), capsicum and chillies (Capsicum annllm), in the pcrisperm and embryo of nutmeg (Myristicafragrans) [Plates 63 & 64], inthe barkofcassia (Cassia angustifolia} andcinnamon (Cinnamomumzeylanicum}andintherootofvalenan(Valeriana officinaliss, OS.\IOPIIOR[S Osmophores are areas of flower tissues with secretory cells differing structurally from the adjacentcells(e.g.isodiametriecells inorchids). SIT RI-:TORYC\VITIES These cavities are more or less spherical structures that can be formed in two ways: the parenchyma cells can separate one from another leaving intercellular spaces called lumina or lacuna,or anactual cell candisintegrate leavingacavity withinthe tissue.These spaces are lined with secretory cells or an epithelium that produces the essential oils. In high oil yielding plants several layers of these secretory cells are fonned. The cavities continually enlarge and some become filled withcellswiththin,convoluted wallswhichalsostoretheoilproduced from within their plastids. Included in this group are fruits and leaves of plants in the Citrus family (c. ourantifolia. C. aurantium. C. bergamia, C. sinensis. C. limom [Plates 20-22] as well as Eucalyptus spp. [Plates 34 & 35] and buchu leaves. Citrus peel oils arc confined in oblate to spherical-shapedoilcavities(glands),sometimescalledoilssacs,thatarclocatedirregularlyinthe exocarpofthe fruit[Plate22].Thesecavitieshavenowallsandareembeddedatdifferentdepths in the flavedo (the coloured outer portion or skin ofthe fruit).The glandsofgrapefruit liedeeply in the flavedo and those ofmandarin are likely to be nearer the surface. Fruits and leaves of these plants are covered by a thick cuticle which is waterproofand also the primary means ofwater conservation. Being shiny and reflective it is capable of deflecting some of the excess solar radiationintropicalandsubtropicalregions;italso reflectsultravioletlight.therebyprotectingthe DJ Afromthemutageniceffectsofsunlight. Itisanexcellentprotectionagainstfungi andbacteria since they have no enzymes capableofdigesting cutin.Secretory cavities arc also present inthe flower budsofcloves(Syzygiumaromaticum) [Plates 23-26],thefruitwallsofpimcnto(Pimento dioica), andintheelongatedcavities inthebarkofmyrrh(Commiplwramolmof),benzoin(Styrax benzoimandfrankincense(Boswelttaspp.)[Plates36& 37]. SECRETORYDlJ(.. S Ductsareelongatedcavities.Theycanoftenbranchtocreateanetworkextendingfromthe roots through the stem to the leaves, flowers and fruits. They are composed ofan epithelium which surrounds a central cavity. Several predisposed cells within the parenchyma undergo asynchronousdivisionand indoingso theyexpand the initial space inthemiddle wherethecells arcalladjacenttoformacavity.Someofthesecellsformingthewallofthecavitywillchangeinto secretory epithelialcells.The oils are biosynthesised within their leucoplasts and move via the endoplasmicreticulumintothecavity.Thesecavitiesthen becomejoinedtoformducts.Theycan be found in all of the Umbelliferae family including anise tPimpinella anisum}; fennel tFoeniculum vulgares. dill tAnethum graveolenss. coriander (Coriandrum sativunu, cumin 10

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