DOCSLIB.ORG

Index to Volume 46 Volume 46(4) 2002 Index to Volume 46

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text

Load more

PALMS Index to Volume 46 Volume 46(4) 2002 Index to Volume 46 A brief history of the coconut palm in Australia Attalea oleifera 133 134 Attalea peruviana 133 A new palm cultivar: Cyrtostachys renda Attalea phalerata 56,116,133 ‘Theodora Buhler’ 70 Attalea plowmanii 133 A revision of Pseudophoenix 19 Attalea regia 133 Acrocomia aculeata 113,116,151 Attalea salazarii 133 Acrocomia lasiospatha 116 Attalea speciosa 116 Additional species proving hardy in the Pacific Attalea spectabilis 116 Northwest 57 Attalea teixeirana 133 Aeria 21 Attalea tessmannii 133 Aeria vinifera 35 Attalea vitrivir 133 Aiphanes aculeata 84 Attalea weberbaueri 133 Alfonsea 68 Attalea wesselsboeri 133 Alfred Russel Wallace and the Palms of the Bactris 116 Amazon 109 Bactris acanthocarpa 116 Areca catechu 88,195 Bactris elatior 116 Areca coronata 197 Bactris gasipaes 40,78,116 Areca paradoxa 194 Bactris hirta 116 Areca triandra 83,84,85,102 Bactris integrifolia 116 Arenga engleri 60,101,102 Bactris macrocarpa 116 Arenga pinnata 101 Bactris major 40,41,42,43,44,45,83 Aristeyera 68 Bactris maraja 110,113,116 Asterogyne 68 Bactris mexicana 40,41,42,43,44,45 Astrocaryum acaule 116 Bactris pectinata 116 Astrocaryum aculeatum 113,116 Bactris simplicifrons 116 Astrocaryum gynacanthum 113,116 Bactris tenuis 116 Astrocaryum humile 116 Baker, W., as co-author 109 Astrocaryum jauari 116 Balaka seemannii 68 Astrocaryum murumuru 116 Balinga, M.P.B., as coauthor 93 Astrocaryum standleyanum 84 Banka, R., as co-author 87 Astrocaryum tucuma 116 Barcella 68 Astrocaryum vulgare 116 Barkerwebbia 68 ×Attabignya 132 Basselinia 68 ×Attabignya minarum 133 Beccariophoenix 130,131,156 Attalea 132 Beccariophoenix flowers in cultivation 130 Attalea amylacea 132 Beccariophoenix madagascariensis 131 Attalea anisitsiana 132 Beethovenia 68 Attalea bassleriana 132 Bentinckia nicobarica 84,86 Attalea brejinhoensis 132 Brahea 68,151 Attalea butyracea 84 Brahea edulis 60 Attalea camopiensis 132 Britt, A.: Observations on two dwarf Dypsis Attalea degranvillei 132 species in Betampona, Eastern Madagascar Attalea excelsa 116 125 Attalea fairchildensis 132 Broschat, T.K., N.A. Harrison and H. Attalea glassmanii 132 Donselman: Losses to lethal yellowing cast Attalea guacuyule 133 doubt on coconut cultivar resistance 185 Attalea guianensis 133 Butia 151 Attalea huebneri 133 Butia capitata 6,59,60 Attalea kewensis 133 Butia yatay 150,181 Attalea lauromuelleriana 133 ×Butiagrus nabonnandii 151 Attalea leandroana 133 Calamus 88,91 Attalea liebmannii 133 Calamus hollrungii 88,91 Attalea lundellii 133 Calyptrocalyx 88,92 Attalea magdalenica 133 Calyptrocalyx albertisianus 88 Attalea maripa 116 Carrillo, L., R. Orellana and L. Varela: Attalea maripensis 133 Mycorrhizal associations in three species of Attalea ×minarum 133 palms of the Yucatan Peninsula, Mexico 39 Attalea moorei 133 Caryota 191 203 PALMS Index to Volume 46 Volume 46(4) 2002 Caryota mitis 190,191 Dufay, A., as co-author 179 Caryota monostachya 191 Dypsis 48,125 Caryota rumphiana 88,92 Dypsis betamponensis 125,126,127,128 Caryota sympetala 190,191,192 Dypsis carlsmithii 47,48,49,50,51 Caryota urens 68 Dypsis lutescens 48, 84 Ceroxylon 68 Dypsis madagascariensis 48,84 Chamaedorea 56 Dypsis nauseosa 51 Chamaedorea microspadix 60 Dypsis prestoniana 51 Chamaedorea radicalis 60 Dypsis saintelucei 51 Chamaephoenix 28 Dypsis schatzii 125,126,127,128 Chamaephoenix sargentii 28 Dypsis “stumpy” 4,47 Chamaerops 151,181 Dypsis tanalensis 51 Chamaerops humilis 57,58,59,68,149,150,181 Dypsis tokoravina 51 Chambeyronia 68 Dypsis tsaravoasira 51 Chambeyronia macrocarpa 151 Ehara, H., J.L. Dowe, R. Nagatomo and A. Chrysalidocarpus cabadae 48 Kawasaki: Livistona chinensis var. subglobosa on Chrysalidocarpus glaucescens 48 Aoshima, Japan 62 Cladosperma 194 Elaeis 68 Cladosperma paradoxa 194 Elaeis guineensis 68 Classified 13,80,119,166 Elaeis oleifera 84 Coccothrinax argentea 15 Eremospatha macrocarpa 95 Coccothrinax boschiana 3,14,15,16,17,18,52 Euterpe 68 Coccothrinax ekmanii 1 Euterpe catinga 112,114,116 Coccothrinax gracilis 15 Euterpe edulis 124 Coccothrinax munizii 108 Euterpe oleracea 84,85,113,116,124 Cocos 100 Euterpe precatoria 124 Cocos guacuyule 133 Euterpe vinifera 21,35 Cocos nucifera 40,88,98,116,135,167,185 Evans, T., as co-author 190 Cocos regia 133 Ferry, M. and S. Gómez: The red palm weevil in Cocos vinifera 35 the Mediterranean area 172 Cold hardy palms in southwestern Ohio: winter Ferry, M., S. Gómez, E. Jimenez, J. Navarro, E. damage, mortality and recovery 5 Ruiperez and J. Vilella: The date palm grove at Copernicia 68,102 Elche, Spain: research for the sustainable Copernicia alba 151 preservation of a World Heritage Site 139 Copernicia baileyana 38 Francko, D.A. and S.L. Wilhoite: Cold hardy Copernicia ?burretiana 102 palms in southwestern Ohio: winter damage, CRC World Dictionary of Plant Names: mortality and recovery 5 Common names, Scientific names, eponyms, From Barcelona to Bordighera: palm gardens on synonyms and etymology (reviewed) 68 Mediterranean shores 149 Cryosophila stauracantha 40 Gastrococos 74,75 Cyclospathe 21 Gastrococos crispa 73,104 Cyclospathe northropii 28,32 Gaussia 21,68 Cyphokentia 68 Gaussia vinifera 35 Cyrtostachys 72,88 Geonoma deversa 116 Cyrtostachys renda 70,72 Geonoma maxima 116 Cyrtostachys renda ‘Theodora Buhler’ 53,70,72 Geonoma multiflora 116 Desmoncus macroacanthus 116 Geonoma paniculigera 116 Desmoncus orthacanthos 40,41,42,43,44,45,83 Geonoma rectifolia 116 Desmoncus polyacanthos 116 Germinating Gastrococos – quickly and easily 73 Donselman, H., as co-author 185 Gómez, S., as co-author 139,172 Dowe, J.L. and L.T. Smith: A brief history of the Groves, J.L., as co-author 93 coconut palm in Australia 134 Growth response of Phoenix canariensis to Dowe, J.L. and R. Banka: Palm botany in the inoculation with arbuscular mycorrhizal fungi Louisiade Archipelago, Papua New Guinea 87 76 Dowe, J.L., as coauthor 62 Guilielma speciosa 116 Dransfield, J. and T. Evans: Caryota sympetala Gulubia 88,123,124 190 Gulubia costata 105, 107,108,122,123,124 Dransfield, J.: Beccariophoenix flowers in Gulubia costata – a handsome palm for the warm cultivation 130 subtropics 122 Dransfield. J. and J. Marcus: Dypsis “stumpy” 47 Harries, H.C.: The “Niu” Indies: long lost Drescher, J. and A. Dufay: Importation of “home” of the coconut palm 97 mature palms: a threat to native and exotic Harrison, N.A., as co-author 185 palms in Mediterranean countries? 179 Henderson, A.: Palm research in 2001 120 204 PALMS Index to Volume 46 Volume 46(4) 2002 Heterospathe 88,92 Mauritia flexuosa 116 Heterospathe annectens 88 Mauritia gracilis 116 Heterospathe elata 81 Mauritia pumila 116 Honrubia, M., as co-author 76 Mauritiella aculeata 116 Horticulture column 38, 101 Mauritiella armata 110,113,116 Howea forsteriana 152 Maxburretia 68 Hydriastele 88,89,90,91,92 Maximiliana 132 Hyophorbe 101 Maximiliana regia 116 Hyospathe 69 Medemia 68 Hyphaene thebaica 4 Metroxylon 90 Importation of mature palms: a threat to native Metroxylon sagu 88 and exotic palms in Mediterranean countries? Migliaccio, C.: Germinating Gastrococos – 179 quickly and easily 73 Insects on Palms (reviewed) 69 Migliaccio, C.: Gulubia costata – a handsome Iriartea deltoidea 116 palm for the warm subtropics 122 Iriartea exorhiza 116 Mogea, J.P, as co-author 193 Iriartea setigera 116 Morakinyo, T., as co-author 154 Iriartea ventricosa 116 Moratia 68 Iriartella setigera 116 Morici, C.: Coccothrinax boschiana 14 Jessenia 68 Morte, A. and M. Honrubia: Growth response of Jimenez, E., as co-author 139 Phoenix canariensis to inoculation with Jubaea 151 arbuscular mycorrhizal fungi 76 Jubaea chilensis 59,60,61,150,151,152 Mycorrhizal associations in three species of Kajewskia 68 palms of the Yucatan Peninsula, Mexico 39 Kawasaki, A., as co-author 62 Nagatomo, R., as co-author 62 Kennedy, J.D. 103 Name changes in Attalea 132 Keppleria 68 Navarro, J., as co-author 139 Keuper, Jerome 103 Nenga 202 Knapp, S., L. Sanders and W. Baker: Alfred Nenga pumila 202 Russel Wallace and the Palms of the Amazon Neodypsis leptocheilos 48 109 Neonicholsonia 68 Latania 181 Non-native ornamental palms invade a Lavoixia 68 secondary tropical forest in Panama 81 Leopoldinia major 112,114,116 Nypa 154,155 Leopoldinia piassaba 112,115,116, 117 Nypa fruticans 88,154,155 Leopoldinia pulchra 116 Nypa fruticans, a weed in West Africa 154 Lepidocaryum tenue 116 Obituary: Dr. Jerome Keuper 103 Liberbaileya 68 Observations on two dwarf Dypsis species in Licuala 88 Betampona, Eastern Madagascar 125 Livistona 63,65,68,89,90,91 Oenocarpus bacaba 116 Livistona australis 151 Oenocarpus bataua 78,116 Livistona beccariana 88 Oenocarpus distichus 116 Livistona carinensis 71 Oenocarpus mapora 83 Livistona chinensis 7,8,9,10,12,56,60,62,63,64,65, Oenocarpus minor 116 66,67,81,181 Ophiria 194 Livistona chinensis var. subglobosa 62,63 Ophiria paradoxa 194 Livistona chinensis var. subglobosa on Aoshima, Orania 88 Japan 62 Orbignya 132 Livistona decipiens 181 Orbignya brejinhoensis 132 Livistona drudei 136 Orbignya oleifera 133 Livistona mariae 151 Orbignya phalerata 132 Livistona saribus 83,84,181 Orbignya teixeirana 133 Livistona woodfordii 87,88,90,91 Orellana, R., as co-author 39 Loss of a legacy – Fusarium oxysporum and Palm botany in the Louisiade Archipelago, ornamental Phoenix canariensis 161 Papua New Guinea 87 Losses to lethal yellowing cast doubt on coconut Palm literature 68 cultivar resistance 185 Palm research in 2001 120 Maidman, K.: Horticulture column 38, 101 Palma americana 36 Manicaria saccifera 116 Parker,
Recommended publications
  • Tribe Cocoeae)

    Tribe Cocoeae)

    570.5 ILL 59 " 199 0- A Taxonomic mv of the Palm Subtribe Attaleinae (Tribe Cocoeae) SIDiNLV i\ GLASSMAN UNIVERSITY OF ILLINOIS LIBRARY AT URBANA-CHAMPAIGN BIOLOGY 2891 etc 2 8 Digitized by tine Internet Arcinive in 2011 witii funding from University of Illinois Urbana-Champaign http://www.archive.org/details/taxonomictreatme59glas A Taxonomic Treatment of the Palm Subtribe Attaleinae (Tribe Cocoeae) SIDNEY F. GLASSMAN ILLINOIS BIOLOGICAL MONOGRAPHS 59 UNIVERSITY OF ILLINOIS PRESS Urbana and Chicago Illinois Biological Monographs Committee David S. Seigler, chair Daniel B. Blake Joseph V. Maddox Lawrence M. Page © 1999 by the Board of Trustees of the University of Illinois Manufactured in the United States of America P 5 4 3 2 1 This edition was digitally printed. © This book is printed on acid-free paper. Library of Congress Cataloging-in-Publication Data Classman, Sidney F. A taxonomic treatment of the palm subtribe Attaleinae (tribe Cocoeae) / Sidney F. Classman. p. cm. — (Illinois biological monographs ; 59) Includes bibliographical references (p. ) and index. ISBN 0-252-06786-X (pbk. : acid-free paper) 1. Palms—Classification. 2. Palm.s—Classification —South America. I. Title. II. Series. QK495.P17G548 1999 584'.5—dc21 98-58105 CIP Abstract Detailed taxonomic treatments of all genera in the subtribe AttaleinaesLve included in the present study. Attalea contains 21 species; 2 interspecific hybrids, A. x piassabossu and A. x voeksii; and 1 intergeneric hybrid, x Attabignya minarum. Orbignya has 1 1 species; 1 interspecific hybrid, O. x teixeirana; 2 intergeneric hybrids, x Attabignya minarum and x Maximbignya dahlgreniana; 1 putative intergeneric hybrid, Ynesa colenda; and 1 unde- scribed putative intergeneric hybrid.
  • Genetic Diversity and Structure of Astrocaryum Jauari (Mart.) Palm in Two Amazon River Basins Liliane D

    Genetic Diversity and Structure of Astrocaryum Jauari (Mart.) Palm in Two Amazon River Basins Liliane D

    LDS Oliveira et al. Crop Breeding and Applied Biotechnology 14: 166-173, 2014 Brazilian Society of Plant Breeding. Printed in Brazil ARTICLE http://dx.doi.org/10.1590/1984-70332014 v14n3a25 Genetic diversity and structure of Astrocaryum jauari (Mart.) palm in two Amazon river basins Liliane D. Santos Oliveira1, Santiago L. Ferreyra Ramos2, Maria T. Gomes Lopes1*, Gabriel Dequigiovanni2, Elizabeth Ann Veasey2, Jeferson L. Vasconcelos de Macêdo3, Jacqueline S. Batista4, Kyara M. Formiga4 and Ricardo Lopes3 Received 17 December 2013 Accepted 14 April 2014 Abstract – Astrocaryum jauari is a non-domesticated palm that is exploited by poachers. Our objective was to investigate the organization of the genetic diversity and structure of three A. jauari populations. The study was carried out in the state of Amazonas, between the municipalities of Coari and Manaus. Nine microsatellite loci were used for the genetic analyses. High genetic variation was found, with a mean number of alleles per locus varying from 3.9 to 4.4. The average observed heterozygosity, varying from 0.71 to 0.78, was higher than expected. No spatial genetic structure was detected, since only one cluster was observed. Our results indicate a possible dispersion strategy and suggest that conservation measures of this species should focus mainly on the populations found at the end of the main river (Solimões) where most of the plant material originating from the headwaters of the tributaries of this river is concentrated. Key words: Amazonia, rivers Solimões and Urucu, Jauari, palm domestication. INTRODUCTION ity, precipitation patterns around the hydrographic basins and due to evolutionary geographical events, defined by Astrocaryum jauari Mart.
  • Peach Palm (Bactris Gasipaes)

    Peach Palm (Bactris Gasipaes)

    Dear Author, Here are the proofs of your article. • You can submit your corrections online, via e-mail or by fax. • For online submission please insert your corrections in the online correction form. Always indicate the line number to which the correction refers. • You can also insert your corrections in the proof PDF and email the annotated PDF. • For fax submission, please ensure that your corrections are clearly legible. Use a fine black pen and write the correction in the margin, not too close to the edge of the page. • Remember to note the journal title, article number, and your name when sending your response via e-mail or fax. • Check the metadata sheet to make sure that the header information, especially author names and the corresponding affiliations are correctly shown. • Check the questions that may have arisen during copy editing and insert your answers/ corrections. • Check that the text is complete and that all figures, tables and their legends are included. Also check the accuracy of special characters, equations, and electronic supplementary material if applicable. If necessary refer to the Edited manuscript. • The publication of inaccurate data such as dosages and units can have serious consequences. Please take particular care that all such details are correct. • Please do not make changes that involve only matters of style. We have generally introduced forms that follow the journal’s style. Substantial changes in content, e.g., new results, corrected values, title and authorship are not allowed without the approval of the responsible editor. In such a case, please contact the Editorial Office and return his/her consent together with the proof.
  • Sfps Fall 2011 Sale Plant List

    Sfps Fall 2011 Sale Plant List

    SFPS FALL 2011 SALE PLANT LIST PLANTS VENDOR # Palms Acanthophoenix rubra 35 Acoelorrhaphe wrightii 26, 67 Acrocomia aculeata 50, 67 Actinokentia divaricata 35, 57, 66, 68, 72 Actinorhytis calapparia 72 Adonidia merrillii 31, 57, 66, 89 Adonidia merrillii var. "Golden Form" 35 Aiphanes aculeata = Aiphanes horrida - Aiphanes caryotifolia = Aiphanes horrida - Aiphanes erosa = Aiphanes minima - Aiphanes horrida 35, 68, 72 Aiphanes minima 68 Aiphanes vincentiana = Aiphanes minima - Allagoptera arenaria 57, 66, 67, 68, 72 Allagoptera campestris 67 Allagoptera leucocalyx 57 Alloschmidia glabrata = Basselinia glabrata - Alsmithia longipes = Heterospathe longipes - Archontophoenix cunninghamiana var. 'Illawara' 68 Archontophoenix maxima 67, 72 Archontophoenix myolensis 50, 66, 67, 68 Archontophoenix purpurea 57, 66, 72 Archontophoenix tuckeri 66, 68 Areca aliceae = Areca triandra - Areca camarinensis 57, 68 Areca catechu 57, 67, 72 Areca catechu var. 'Dwarf' 35, 50 Areca hutchinsoniana 68 Areca ipot 67 Areca latiloba = Areca montana - Areca macrocalyx var. 'Red Form' 35, 57, 68 Areca macrocarpa 68 Areca montana 57 Areca triandra 68, 72 Areca vestiaria 25, 35, 57, 67, 68 Areca vestiaria var. 'Orange Form' 25, 57, 67, 72 Areca vestiaria var. 'Maroon Leaf' 35, 57, 67 Areca vestiaria var. 'Red Leaf' 57, 67, 72 Areca sp. 'Yellow Crownshaft' 25 Arenga ambong = Arenga undulatifolia - Arenga brevipes 57 Arenga caudata 66 Arenga engleri 31, 66, 68, 72 Arenga hookeriana 35, 57, 66, 72 Arenga microcarpa 26, 66 Arenga obtusifolia 57, 66 PLANTS VENDOR # Arenga pinnata 50, 57, 66, 67, 68 Arenga porphyrocarpa 66 Arenga tremula 26, 57, 66, 68, 72 Arenga undulatifolia 35, 57, 66, 67 Arenga westerhoutii 68 Asterogyne martiana 57, 68, 72 Astrocaryum acaule 72 Astrocaryum alatum 35, 50, 57, 67 Astrocaryum mexicanum 72 Astrocaryum murumuru 72 Attalea butyracea 57, 67, 72 Attalea cohune 35 Attalea phalerata 50, 91 Attalea rostrata 68 Attalea speciosa 50, 66 Bactris bidentula 72 Bactris gasipaes 67 Bactris gasipaes var.
  • Journal of the International Palm Society Vol. 46(3) Ausust 2002

    Journal of the International Palm Society Vol. 46(3) Ausust 2002

    Journalof the InternationalPalm Society vol.46(3) Ausust 2002 THE INTERNATIONALPALM SOCIETY,INC. The International Palm Society ,*:ff #:lil:H,t}ffili'1"* An illustrated,peer-reviewed quarterly devoled to intormationabout palms and publishedin March,June, i|il',"t*nfi*,nr:#;?Jt,',""',::r""" Septemberand Decemberby The InternationalPalm nationalin scopewith worldwidemembership, ";i:l#'i,'and t-hen' Socielr Sl0 EasL1oth St.,P.O. Box 1897,Lawrence, l;il::il;i ::#il i,"J i::i',:i:5:"fi :iJ Kansas66044-8897, USA. Editors: JohnDransfield, Herbarium, Royal Botanic ,."^.i".;:*,^"';"ilfi::+il;'d$I*;n :5t Cardens, Kew, Richmond, Surrey, TW9 3AE.United [: Kingdom,e-mail [email protected], - tel.44- I Si-ZIZ-SZZS,Fax 44-1 81 -332-SZtg. ScoltZona, Fairchild Tropical Carden, 11935 Old Cutler Cables(Miami), Florida 33156, USA, e-mail :H:il"."-""',',' r':::*:,,"" Road,Coral 1-3 05-66 7-165 1exr Texas77061 , USA,e-mail [email protected], tel. yf,li?,lTil3g:;:;lr3!l,.' ;:::::;::1,, o,,,craf,,Po B.x 500041, Associate Editor: NatalieUhl, 467 Mannlibrary, CornellUniversity, lthaca. New York14853, USA, e-mail y;fjf#; 1-607-257 -0885. lit:11?,iliti*i i:fl 1,, "' [email protected],tel. l?ilj'i,:li"T ifl,T; [Ti' ;',1 I li,,?,';, l,]J.?#i' Supplement Editor: JimCain, 124i8 SLaffordSprings, [email protected],Lel.6i -7-3800-5526. ffiH::1.:"63: Ijl ii;Yiti i ]i\. uun.,0,u Gorresponding Secretary: Don Kurth, 10569 Apple ^" Garden Editor: LvnnMcKamev. Rhapis Cardens, P.O. **; liT,iSH.ilillll I :JJ,llnf il'ul [ Box 287,Cregory, Texas Za:SS, USn.
  • Spatial Genetic Structure, Genetic Diversity and Pollen Dispersal in A

    Spatial Genetic Structure, Genetic Diversity and Pollen Dispersal in A

    Ramos et al. BMC Genetics (2016) 17:63 DOI 10.1186/s12863-016-0371-8 RESEARCH ARTICLE Open Access Spatial genetic structure, genetic diversity and pollen dispersal in a harvested population of Astrocaryum aculeatum in the Brazilian Amazon Santiago Linorio Ferreyra Ramos1*, Gabriel Dequigiovanni1, Alexandre Magno Sebbenn2, Maria Teresa Gomes Lopes3, Paulo Yoshio Kageyama4, Jeferson Luis Vasconcelos de Macêdo5, Matias Kirst6 and Elizabeth Ann Veasey1* Abstract Background: Astrocaryum aculeatum is a palm tree species native to the tropical regions of South America, exploited commercially by local farmers for the pulp extracted from its fruits. The objective of this research was to compare the genetic diversity between adult plants and seedlings from open-pollinated seeds, quantify the pollen flow and dispersal, the spatial genetic structure, and the effective size of a population that has been continuously harvested for its fruits. The study was carried out in a natural population of A. aculeatum distributed over approximately 8 ha in the State of Amazonas (Brazil), separated by 400 m from the closest neighboring population. In total, 112 potential pollen donors, 12 mother plants and 120 offspring were mapped and genotyped. Results: Genetic diversity was high for parents and the offspring. The fixation indexes for adults (F = -0.035) and offspring (F = -0.060) were negative and not significant. A significant spatial genetic structure was detected for the adult plants (up to the distance of 45 m) indicating short-distance seed dispersal. Paternity analysis detected 9.2 % of pollen immigration and the average distance of pollination within the population was 81 m. The average effective pollination neighborhood area between plants was 1.51 ha.
  • Current Issues in Non-Timber Forest Products Research

    Current Issues in Non-Timber Forest Products Research

    New Cover 6/24/98 9:56 PM Page 1 Current Issues in Non-Timber Forest Products Research Edited by M. Ruiz Pérez and J.E.M. Arnold CIFOR CENTER FOR INTERNATIONAL FORESTRY RESEARCH Front pages 6/24/98 10:02 PM Page 1 CURRENT ISSUES IN NON-TIMBER FOREST PRODUCTS RESEARCH Front pages 6/24/98 10:02 PM Page 3 CURRENT ISSUES IN NON-TIMBER FOREST PRODUCTS RESEARCH Proceedings of the Workshop ÒResearch on NTFPÓ Hot Springs, Zimbabwe 28 August - 2 September 1995 Editors: M. Ruiz PŽrez and J.E.M. Arnold with the assistance of Yvonne Byron CIFOR CENTER FOR INTERNATIONAL FORESTRY RESEARCH Front pages 6/24/98 10:02 PM Page 4 © 1996 by Center for International Forestry Research All rights reserved. Published 1996. Printed in Indonesia Reprinted July 1997 ISBN: 979-8764-06-4 Cover: Children selling baobab fruits near Hot Springs, Zimbabwe (photo: Manuel Ruiz PŽrez) Center for International Forestry Research Bogor, Indonesia Mailing address: PO Box 6596 JKPWB, Jakarta 10065, Indonesia Front pages 6/24/98 10:02 PM Page 5 Contents Foreword vii Contributors ix Chapter 1: Framing the Issues Relating to Non-Timber Forest Products Research 1 J.E. Michael Arnold and Manuel Ruiz PŽrez Chapter 2: Observations on the Sustainable Exploitation of Non-Timber Tropical Forest Products An EcologistÕs Perspective Charles M. Peters 19 Chapter 3: Not Seeing the Animals for the Trees The Many Values of Wild Animals in Forest Ecosystems 41 Kent H. Redford Chapter 4: Modernisation and Technological Dualism in the Extractive Economy in Amazonia 59 Alfredo K.O.
  • Morphological Aspects of Antennal Sensilla of the Rhodnius Brethesi Matta, 1919 (Hemiptera: Reduviidae) from the Negro River, Amazon Region of Brazil

    Morphological Aspects of Antennal Sensilla of the Rhodnius Brethesi Matta, 1919 (Hemiptera: Reduviidae) from the Negro River, Amazon Region of Brazil

    Hindawi Journal of Parasitology Research Volume 2020, Article ID 7687041, 6 pages https://doi.org/10.1155/2020/7687041 Research Article Morphological Aspects of Antennal Sensilla of the Rhodnius brethesi Matta, 1919 (Hemiptera: Reduviidae) from the Negro River, Amazon Region of Brazil Simone Patrícia Carneiro Freitas,1 Laura Cristina Santos,2 Amanda Coutinho de Souza,2 and Angela Cristina Verissimo Junqueira 2 1Fundação Oswaldo Cruz-Piauí, Rua Magalhães Filho 519, Centro, Teresina, PI 64001-350, Brazil 2Laboratório de Doenças Parasitárias, Instituto Oswaldo Cruz, FIOCRUZ, Av. Brasil 4365, Pavilhão Arthur Neiva, Sala 02, Rio de Janeiro, RJ 21040-360, Brazil Correspondence should be addressed to Angela Cristina Verissimo Junqueira; [email protected] Received 18 November 2019; Revised 13 January 2020; Accepted 24 January 2020; Published 19 March 2020 Academic Editor: Bernard Marchand Copyright © 2020 Simone Patrícia Carneiro Freitas et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Studies conducted in river Ererê located in the left margin of Negro River, municipality of Barcelos, state of Amazonas, have confirmed that Rhodnius brethesi has as its natural habitat the palm tree Leopoldinia piassaba. By scanning electron microscopy, sensillum type was studied on the antennae of R. brethesi. The specimens used come from the field and laboratory colony. No differences were observed between R. brethesi and other Triatominae studied. In the R. brethesi antennas, differences were observed only between the antennal segments and in the dorsal and ventral portions.
  • A Revision of Leopoldinia (Arecaceae)

    A Revision of Leopoldinia (Arecaceae)

    Phytotaxa 32: 1–17 (2011) ISSN 1179-3155 (print edition) www.mapress.com/phytotaxa/ Article PHYTOTAXA Copyright © 2011 Magnolia Press ISSN 1179-3163 (online edition) A revision of Leopoldinia (Arecaceae) ANDREW HENDERSON The New York Botanical Garden, Bronx, NY 10458-5126, U.S.A. E-mail: [email protected] Abstract A taxonomic revision of the Neotropical palm genus Leopoldinia based on morphological data and morphometric methods was carried out. One hundred and sixteen herbarium specimens were scored for seven qualitative and 24 quantitative variables. Qualitative variables were divided into six characters and one trait. Using the Phylogenetic Species Concept, the six characters were used to recognize three species. These are widely distributed in the central Amazon region of Brazil and adjacent Venezuela and Colombia. Nomenclature, descriptions, illustrations, and distribution maps are provided for each taxon. Key words: Palmae, morphometrics, Neotropics, Rio Negro Introduction The small, Neotropical genus Leopoldinia Martius (1823–1837: 58) comprises just three species confined to the central Amazon region. So different is the morphology of the genus from related genera, especially the elaborate leaf sheaths and trilocular, triovulate gynoecium, that the genus has been placed in its own tribe of the Arecoideae, the Leopoldinieae (Dransfield et al. 2008). This tribe, along with the Areceae, Euterpeae, Geonomateae, Manicarieae and Pelagodoxeae, make up the ‘core arecoid clade’ (Dransfield et al. 2008), although relationships amongst these tribes are not well resolved (Baker et al. 2009, Baker et al. 2011). While there have never been any problems with generic delimitation, there are doubts over species boundaries in Leopoldinia. Martius described two species, L.
  • DIVERSIDADE GENÉTICA E CITOGENÉTICA EM Astrocaryum SPP

    DIVERSIDADE GENÉTICA E CITOGENÉTICA EM Astrocaryum SPP

    NATÁLIA PADILHA DE OLIVEIRA DIVERSIDADE GENÉTICA E CITOGENÉTICA EM Astrocaryum SPP. (ARECACEAE) LAVRAS-MG 2016 NATÁLIA PADILHA DE OLIVEIRA DIVERSIDADE GENÉTICA E CITOGENÉTICA EM Astrocaryum SPP. (ARECACEAE) Tese de doutorado apresentada à Universidade Federal de Lavras, como parte das exigências do Programa de Pós- Graduação em Genética e Melhoramento de Plantas, área de concentração em Genética e Melhoramento de Plantas, para a obtenção do título de doutor. Prof. Dra. Lisete Chamma Davide Orientadora Dra. Susan Kalisz Co-orientadora LAVRAS – MG 2016 Ficha catalográfica elaborada pelo Sistema de Geração de Ficha Catalográfica da Biblioteca Universitária da UFLA, com dados informados pelo(a) próprio(a) autor(a). Oliveira, Natália Padilha de. Diversidade Genética e Citogenética em Astrocaryum spp. (Arecaceae) / Natália Padilha de Oliveira. - 2016. 105 p. Orientador(a): Lisete Chamma Davide. Coorientador(a): Susan Kalisz Tese (doutorado) - Universidade Federal de Lavras, 2016. Bibliografia. 1. Genética molecular. 2. Citogenética. 3. Palmeiras. I. Davide, Lisete Chamma. II. Kalisz, Susan . III. Título. O conteúdo desta obra é de respo de seu orientador(a). NATÁLIA PADILHA DE OLIVEIRA DIVERSIDADE GENÉTICA E CITOGENÉTICA EM Astrocaryum SPP. (ARECACEAE) Tese de doutorado apresentada à Universidade Federal de Lavras, como parte das exigências do Programa de Pós- Graduação em Genética e Melhoramento de Plantas , área de concentração em Genética e Melhoramento de Plantas, para a obtenção do título de doutor. APROVADA em 16 de setembro de 2016. Dra. Elisa Ferreira Moura Cunha EMBRAPA-CPATU Profa.Dra. Dulcinéia de Carvalho UFLA Dr. Welison Andrade Pereira UFLA Profa. Dra. Vânia Helena Techio UFLA Profa. Dra. Lisete Chamma Davide Orientadora LAVRAS – MG 2016 Aos meus amados avós Joaquim Padilha (in memoriam) e Ana Maria Padilha (in memoriam) pelo amor, carinho e tantos mimos recebidos..
  • Las Palmeras En El Marco De La Investigacion Para El

    Las Palmeras En El Marco De La Investigacion Para El

    REVISTA PERUANA DE BIOLOGÍA Rev. peru: biol. ISSN 1561-0837 Volumen 15 Noviembre, 2008 Suplemento 1 Las palmeras en el marco de la investigación para el desarrollo en América del Sur Contenido Editorial 3 Las comunidades y sus revistas científicas 1he scienrific cornmuniries and their journals Leonardo Romero Presentación 5 Laspalmeras en el marco de la investigación para el desarrollo en América del Sur 1he palrns within the framework ofresearch for development in South America Francis Kahny CésarArana Trabajos originales 7 Laspalmeras de América del Sur: diversidad, distribución e historia evolutiva 1he palms ofSouth America: diversiry, disrriburíon and evolutionary history Jean-Christopbe Pintaud, Gloria Galeano, Henrik Balslev, Rodrigo Bemal, Fmn Borchseníus, Evandro Ferreira, Jean-Jacques de Gran~e, Kember Mejía, BettyMillán, Mónica Moraes, Larry Noblick, FredW; Staufl'er y Francis Kahn . 31 1he genus Astrocaryum (Arecaceae) El género Astrocaryum (Arecaceae) . Francis Kahn 49 1he genus Hexopetion Burret (Arecaceae) El género Hexopetion Burret (Arecaceae) Jean-Cbristopbe Pintand, Betty MiJJány Francls Kahn 55 An overview ofthe raxonomy ofAttalea (Arecaceae) Una visión general de la taxonomía de Attalea (Arecaceae) Jean-Christopbe Pintaud 65 Novelties in the genus Ceroxylon (Arecaceae) from Peru, with description ofa new species Novedades en el género Ceroxylon (Arecaceae) del Perú, con la descripción de una nueva especie Gloria Galeano, MariaJosé Sanín, Kember Mejía, Jean-Cbristopbe Pintaud and Betty MiJJán '73 Estatus taxonómico
  • The Palms of the Guianas

    The Palms of the Guianas

    View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by Horizon / Pleins textes ORSTOM Centre de Cayenne September 198-6 THE PALMS_OF THE GUIANAS J.-J. ~e Granville _Syagrus inajai THE PATJMS OF THE GUIA11AS (J.-J. de GRANVILLE, 1986) : Inventaire des espèces de palmiers des trois Guyanes (Guyane française, Surinam, Guyana) et principales caractéristiques de chaque groupe pour une reconnaissance pratique sur le terrain. Instructions pour la collecte des herbiers de palmiers. Clef de détermination des genres basée sur les caractères végétatifs. Inventory of the species occurring in the three Guianas (French Guiana, Suriname, Guyana) and main features of each group for a practical id.m1tification in the field. Guide lines for collecting palms. Key for iden­ tifi~ation of the genera. based on vegetative characters. -..-J • .. - - --._-_._ 1 1 . .. i" - Guyana}Suriname} eo' G) ~ TH /..1----1 C-; '<:1: gmE 3 G ". .. 0 ..• '"V1 w :;G) U'IANAS se' :: ;" C • 0- 3» 51' roZ ~ ~ 1 Guyane » GU") c '< o ~,,?~~l;O~ p /l ::3. 0 ----r--:;--: --; : .. :. ft) 21'~ Franr;aise "Tl s .., ~ ss' ... 0 ': :J -0 I~ ._._ o 8 5" .. ~~:LL-----t-----, ~ ~ ~-.-. i 150 , -t'--'-'~----' 1 nouli~ol ) 1 53' , . .,. ~ ",U t !. 1 ::•• ! 52' ,..-.- , 1 .. -.' \..------+---i'· SI' \ --~w· , J' -:,. , THE PALMS OF THE GUIANAS J.-J. de Gruu~VILLE This paper is not a systematic treatment : it aims at helping the botanists to identify and to collect the palms in the field. l SURVEY OF THE PALM GROUPS OCCURRING IN THE GUIANAS ================================================== According to the litterature (especially DAHLGREN, 1936; GLASSMAN, 1972; WESSELS BOER, 1965 and 1972) and to the study of the herbarium specimens, the number of species of indige­ nous palms occurring in the 3 Guianas together amounts to 8J, that is to say 7 %of the american species.