DOCSLIB.ORG

Lost-Crops-Of-Africa-Fruits

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Lost-Crops-Of-Africa-Fruits http://www.nap.edu/catalog/11879.html We ship printed books within 1 business day; personal PDFs are available immediately. Lost Crops of Africa: Volume III: Fruits National Research Council ISBN: 0-309-10597-8, 380 pages, 6 x 9, (2008) This PDF is available from the National Academies Press at: http://www.nap.edu/catalog/11879.html Visit the National Academies Press online, the authoritative source for all books from the National Academy of Sciences, the National Academy of Engineering, the Institute of Medicine, and the National Research Council: ! Download hundreds of free books in PDF ! Read thousands of books online for free ! Explore our innovative research tools – try the “Research Dashboard” now! ! Sign up to be notified when new books are published ! Purchase printed books and selected PDF files Thank you for downloading this PDF. If you have comments, questions or just want more information about the books published by the National Academies Press, you may contact our customer service department toll- free at 888-624-8373, visit us online, or send an email to [email protected]. This book plus thousands more are available at http://www.nap.edu. Copyright © National Academy of Sciences. All rights reserved. Unless otherwise indicated, all materials in this PDF File are copyrighted by the National Academy of Sciences. Distribution, posting, or copying is strictly prohibited without written permission of the National Academies Press. Request reprint permission for this book. Lost Crops of Africa: Volume III: Fruits http://www.nap.edu/catalog/11879.html ! ! ! !"#$% &'"(#% )*% +,'-&+% % % .)/012%---% ,30456% ! ! ! ! ! !"#"$%&'"()*+,"-./0)1*+2(3+4%%&"/2)0%(+ 5%$0-1+2(3+6$%72$+89920/:+ ! ! ! ! ! ! ! Copyright © National Academy of Sciences. All rights reserved. Lost Crops of Africa: Volume III: Fruits http://www.nap.edu/catalog/11879.html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``777F<1+F*94! ! ! D4==*30*9!/20102-<(! ! "102-<1?!@*3*1,/)!&-4</2?F![WWVF!!!"#$%&'"(#%")%*)'+,-.%/"0123%4445%6'1+$#7%]13)2<=0-<A! IF&F(!$)*!"102-<1?!C/19*B2*3!G,*33F! ! &-+:,2=)0![WWV!5:!0)*!"102-<1?!C/19*B:!-6!D/2*</*3F!!C??!!,2=)03!,*3*,8*9F! ! G,2<0*9!2<!0)*!H<20*9!D010*3!-6!CB*,2/1! ! ! ! ! ! ! Copyright © National Academy of Sciences. All rights reserved. Lost Crops of Africa: Volume III: Fruits http://www.nap.edu/catalog/11879.html ! ! $)*! %<53@><C! &D<E8FG! @4! -D38>D8=! 23! 1! +,2810*A! <-<+,-620A! 3*?6Q+*,+*04102<=! 3-/2*0:! -6! 92302<=423)*9! 3/)-?1,3! *<=1=*9! 2<! 3/2*<0262/! 1<9! *<=2<**,2<=! ,*3*1,/)A! 9*92/10*9! 0-! 0)*! 64,0)*,1</*! -6! 3/2*</*! 1<9! 0*/)<-?-=:! 1<9! 0-! 0)*2,! 43*! 6-,! 0)*! =*<*,1?! 7*?61,*F! H+-<! 0)*! 140)-,20:!-6!0)*!/)1,0*,!=,1<0*9!0-!20!5:!0)*!&-<=,*33!2<!RVYSA!0)*!C/19*B:!)13!1!B1<910*!0)10! ,*a42,*3!20!0-!19823*!0)*!6*9*,1?!=-8*,<B*<0!-<!3/2*<0262/!1<9!0*/)<2/1?!B100*,3F!I,F!@1?+)!bF! &2/*,-<*!23!+,*329*<0!-6!0)*!"102-<1?!C/19*B:!-6!D/2*</*3F! $)*! %<53@><C! &D<E8FG! @4! $>?3>8873>?!713!*3015?23)*9!2<!RTY_A!4<9*,!0)*!/)1,0*,!-6!0)*! "102-<1?! C/19*B:! -6! D/2*</*3A! 13! 1! +1,1??*?! -,=1<2O102-<! -6! -40301<92<=! *<=2<**,3F! %0! 23! 140-<-B-43!2<!203!19B2<230,102-<!1<9!2<!0)*!3*?*/02-<!-6!203!B*B5*,3A!3)1,2<=!720)!0)*!"102-<1?! C/19*B:! -6! D/2*</*3! 0)*! ,*3+-<3252?20:! 6-,! 198232<=! 0)*! 6*9*,1?! =-8*,<B*<0F! $)*! "102-<1?! C/19*B:! -6! '<=2<**,2<=! 1?3-! 3+-<3-,3! *<=2<**,2<=! +,-=,1B3! 12B*9! 10! B**02<=! <102-<1?! <**93A! *</-4,1=*3! *94/102-<! 1<9! ,*3*1,/)A! 1<9! ,*/-=<2O*3! 0)*! 34+*,2-,! 1/)2*8*B*<03! -6! *<=2<**,3F!I,F!]BF!CF!]4?6!23!+,*329*<0!-6!0)*!"102-<1?!C/19*B:!-6!'<=2<**,2<=F! $)*!'>=535H58!@4!,8E3D3>8!713!*3015?23)*9!2<!RTUW!5:!0)*!"102-<1?!C/19*B:!-6!D/2*</*3!0-! 3*/4,*! 0)*! 3*,82/*3! -6! *B2<*<0! B*B5*,3! -6! 1++,-+,210*! +,-6*332-<3! 2<! 0)*! *L1B2<102-<! -6! +-?2/:!B100*,3!+*,012<2<=!0-!0)*!)*1?0)!-6!0)*!+45?2/F!$)*!%<302040*!1/03!4<9*,!0)*!,*3+-<3252?20:! =28*<!0-!0)*!"102-<1?!C/19*B:!-6!D/2*</*3!5:!203!/-<=,*332-<1?!/)1,0*,!0-!5*!1<!19823*,!0-!0)*! 6*9*,1?!=-8*,<B*<0!1<9A!4+-<!203!-7<!2<2021028*A!0-!29*<026:!2334*3!-6!B*92/1?!/1,*A!,*3*1,/)A! 1<9!*94/102-<F!I,F!c1,8*:!d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bF!&2/*,-<*!1<9!I,F!]BF!CF!]4?6!1,*!/)12,!1<9!82/*!/)12,A!,*3+*/028*?:A! -6!0)*!"102-<1?!@*3*1,/)!&-4</2?F! ! III:><53@><CJ<D<E8F38=:@7?! ! ! ! Copyright © National Academy of Sciences. All rights reserved. Lost Crops of Africa: Volume III: Fruits http://www.nap.edu/catalog/11879.html ! ! ! ! Copyright © National Academy of Sciences. All rights reserved. Lost Crops of Africa: Volume III: Fruits http://www.nap.edu/catalog/11879.html ! !"#$%&'#&"()*+"#&(),*-.&"#/&0$1$-"2%$.& ! ! "#@EC"!>#@\CH;A!&)12,A!&*<0,-!%<0*,<1/2-<1?!9*!E*.-,1B2*<0-!9*!E1eO!:!$,2=-! M&%EEf$NA!E*L2/-!&20:A!E*L2/-! C"$c#"f! &H""%";cCEA! D/)--?! 6-,! '<82,-<B*<01?! @*3*1,/)A! &)1,?*3! I1,72<! H<28*,320:A!I1,72<A!C430,1?21! bC"'! %F! ;Hf'@A! I*+1,0B*<0! -6! C<0),-+-?-=:A! b-)<3! c-+P2<3! H<28*,320:A! >1?02B-,*A!E1,:?1<9A!HDC! cC"D!c'@@'"A!E2??*<<24B!%<302040*A!C,?2<=0-<A!d2,=2<21A!HDC! &C\'D$#HD!bHECA!b-)<!KF!g*<<*9:!D/)--?!-6!;-8*,<B*<0A!c1,81,9!H<28*,320:A! &1B5,29=*A!E1331/)43*003A!HDC! Cg%"\C]#"!EC>#;H"b'A!I*8*?-+B*<0!G-?2/:!&*<0,*!M,*02,*9NA!%5191<A!"2=*,21! >C@>C@C! H"I'@]##IA! "102-<1?! ':*! %<302040*! M,*02,*9NA! D4<! &20:A! &1?26-,<21A! HDC! E#"$C;H'! fHI'\EC"A! ]--9,-7! ]2?3-<! d23202<=! K*??-7A! ]13)2<=0-<A! I&A! HDC! ! ! !)'1)"3&.-"((& EC@g!ICKK#@"A!8$19:%;+'3,$"'! "#'\!IF!d%'$E'f'@A!&"<#10$+<=%*1$>"'%-<9%8,+3<$+)+,%?9+$"'! ! KF!@F!@HDg%"A!?9+$"'%@$>'"1=>%ABBCD! '\%hC>'$c!E#Hh#"A!83<+"'%83,'3$-':%@$>'"1=>%ABBCD! I#"!#D>#@"A!EF&4*%4<$3'<%@ABBCD! >@'"$!D%EGD#"A!EF&4*%4<$3'<%@ABBGD! E#\\f!EH;"#\#A!EF&4*%4<$3'<%@ABBHD! ! ! ! 8! ! ! Copyright © National Academy of Sciences.
Load more

Recommended publications
  • Vascular Plant Survey of Vwaza Marsh Wildlife Reserve, Malawi
    YIKA-VWAZA TRUST RESEARCH STUDY REPORT N (2017/18) Vascular Plant Survey of Vwaza Marsh Wildlife Reserve, Malawi By Sopani Sichinga ([email protected]) September , 2019 ABSTRACT In 2018 – 19, a survey on vascular plants was conducted in Vwaza Marsh Wildlife Reserve. The reserve is located in the north-western Malawi, covering an area of about 986 km2. Based on this survey, a total of 461 species from 76 families were recorded (i.e. 454 Angiosperms and 7 Pteridophyta). Of the total species recorded, 19 are exotics (of which 4 are reported to be invasive) while 1 species is considered threatened. The most dominant families were Fabaceae (80 species representing 17. 4%), Poaceae (53 species representing 11.5%), Rubiaceae (27 species representing 5.9 %), and Euphorbiaceae (24 species representing 5.2%). The annotated checklist includes scientific names, habit, habitat types and IUCN Red List status and is presented in section 5. i ACKNOLEDGEMENTS First and foremost, let me thank the Nyika–Vwaza Trust (UK) for funding this work. Without their financial support, this work would have not been materialized. The Department of National Parks and Wildlife (DNPW) Malawi through its Regional Office (N) is also thanked for the logistical support and accommodation throughout the entire study. Special thanks are due to my supervisor - Mr. George Zwide Nxumayo for his invaluable guidance. Mr. Thom McShane should also be thanked in a special way for sharing me some information, and sending me some documents about Vwaza which have contributed a lot to the success of this work. I extend my sincere thanks to the Vwaza Research Unit team for their assistance, especially during the field work.
    [Show full text]
  • Tamarind 1990 - 2004
    Tamarind 1990 - 2004 Author A. K. A. Dandjouma, C. Tchiegang, C. Kapseu and R. Ndjouenkeu Title Ricinodendron heudelotii (Bail.) Pierre ex Pax seeds treatments influence on the q Year 2004 Source title Rivista Italiana delle Sostanze Grasse Reference 81(5): 299-303 Abstract The effects of heating Ricinodendron heudelotii seeds on the quality of the oil extracted was studied. The seeds were preheated by dry and wet methods at three temperatures (50, 70 and 90 degrees C) for 10, 20, 30 and 60 minutes. The oil was extracted using the Soxhlet method with hexane. The results showed a significant change in oil acid value when heated at 90 degrees C for 60 minutes, with values of 2.76+or-0.18 for the dry method and 2.90+or-0.14 for the wet method. Heating at the same conditions yielded peroxide values of 10.70+or-0.03 for the dry method and 11.95+or-0.08 for the wet method. Author A. L. Khandare, U. Kumar P, R. G. Shanker, K. Venkaiah and N. Lakshmaiah Title Additional beneficial effect of tamarind ingestion over defluoridated water supply Year 2004 Source title Nutrition Reference 20(5): 433-436 Abstract Objective: We evaluated the effect of tamarind (Tamarindus indicus) on ingestion and whether it provides additional beneficial effects on mobilization of fluoride from the bone after children are provided defluoridated water. Methods: A randomized, diet control study was conducted in 30 subjects from a fluoride endemic area after significantly decreasing urinary fluoride excretion by supplying defluoridated water for 2 wk.
    [Show full text]
  • Biochemical Characterization and Nutritional Profile of Jam and Syrup from Saba Senegalensis Fruit in Côte D'ivoire
    Journal of Food Research; Vol. 9, No. 6; 2020 ISSN 1927-0887 E-ISSN 1927-0895 Published by Canadian Center of Science and Education Biochemical Characterization and Nutritional Profile of Jam and Syrup from Saba senegalensis fruit in Côte d'Ivoire Hadja M. F. Diabagate1, Souleymane Traore1, Doudjo Soro3, Mohamed Cisse2 & Kouakou Brou1 1 Food Sciences and Technology Department, Laboratory of Nutrition and Food Safety, Nangui Abrogoua University, Abidjan, Côte d’Ivoire 2 Department of Genetic Biochemistry, Peleforo Gon Coulibaly University, Korhogo, Côte d’Ivoire 3 Laboratory of Chemical, Food and Environmental Processes Sciences, INP-HB, Yamoussokro, Côte d’Ivoire Correspondence: Hadja Mawa Fatim Diabagaté, Food Sciences and Technology Department, Laboratory of Nutrition and Food Safety, Nangui Abrogoua University, Abidjan, Côte d’Ivoire. Tel: 225-0632-4164. E-mail: [email protected] Received: September 3, 2020 Accepted: November 6, 2020 Online Published: November 25, 2020 doi:10.5539/jfr.v9n6p67 URL: https://doi.org/10.5539/jfr.v9n6p67 Abstract Saba senegalensis is a plant to the family of Apocynaceae and its fruit called Saba is mainly used as food. For better valorisation, this study aimed to evaluate the nutritional potential of jam and syrup derived of this fruit. The study was carried out on the fruit of Saba senegalensis harvested in the north of Côte d'Ivoire. After jam and syrup formulation, pH, dry matter, ash, macronutrients, vitamins, minerals, phytonutrients, anti-nutritionals factors and nutritional profile have been determined. The results showed that jam and syrup of Saba were acidic with respective pH of 3.11 ± 0.01 and 3.65 ± 0.05.
    [Show full text]
  • Investigating the Impact of Fire on the Natural Regeneration of Woody Species in Dry and Wet Miombo Woodland
    Investigating the impact of fire on the natural regeneration of woody species in dry and wet Miombo woodland by Paul Mwansa Thesis presented in fulfilment of the requirements for the degree of Master of Science of Forestry and Natural Resource Science in the Faculty of AgriSciences at Stellenbosch University Supervisor: Prof Ben du Toit Co-supervisor: Dr Vera De Cauwer March 2018 Stellenbosch University https://scholar.sun.ac.za Declaration By submitting this thesis electronically, I declare that the entirety of the work contained therein is my own, original work, that I am the sole author thereof (save to the extent explicitly otherwise stated), that reproduction and publication thereof by Stellenbosch University will not infringe any third party rights and that I have not previously in its entirety or in part submitted it for obtaining any qualification. March 2018 Copyright © 2018 Stellenbosch University All rights reserved i Stellenbosch University https://scholar.sun.ac.za Abstract The miombo woodland is an extensive tropical seasonal woodland and dry forest formation in extent of 2.7 million km². The woodland contributes highly to maintenance and improvement of people’s livelihood security and stable growth of national economies. The woodland faces a wide range of disturbances including fire that affect vegetation structure. An investigation into the impact of fire on the natural regeneration of six tree species was conducted along a rainfall gradient. Baikiaea plurijuga, Burkea africana, Guibourtia coleosperma, Pterocarpus angolensis, Schinziophyton rautanenii and Terminalia sericea were selected on basis of being an important timber and/or utilitarian species, and the assumed abundance. The objectives of the study were to examine floristic composition, density and composition of natural regeneration; stand structure and vegetation cover within recently burnt (RB) and recently unburnt (RU) sections of the forest.
    [Show full text]
  • The Contribution of Edible Wild Plants to Food Security, Dietary Diversity
    The Contribution of Edible Wild Plants to Food Security, Dietary Diversity and Income of Households in Shorobe Village, Northern Botswana Lukas Neudeck, Lebogang Avelino, Phetso Bareetseng, Barbara N. Ngwenya, Demel Teketay and Moseki R. Motsholapheko Research Abstract The objectives of this study were to investigate the indig- In Zimbabwe, Wilson (1990) revealed that some poor enous knowledge on the use of edible wild plants (EWPs) households rely on wild fruits as an alternative to culti- and assess their contribution to the food security, dietary vated food for a quarter of all the meals in dry seasons. diversity and income of households in Shorobe Village, Similarly, in northern regions of Nigeria, leafy vegetables northern Botswana. Data were collected through: 1) a sur- and other bush foods are collected as daily supplement vey of 45 households randomly selected from a total of relishes and for soups (Loghurst 1986). EWPs were pre- 128 households in the village, and 2) focus group discus- viously recorded as contributed a greater share to annual sions. Twenty seven species were found to be used as diet than domesticated crops in Swaziland (Olge & Grivet- sources of food and beverage. Seven of the EWPs were ti 1985). In Ethiopia, Teketay et al. (2010) identified 378 harvested by 80% or more of the households. EWPs ac- species of EWPs. In Tanzania, 326 species of EWPs have counted for 25-76% of the annual food supply of house- been reported (Ruffo et al. 2002). Katende et al. (1999) holds. Over two third of the population were engaged in reported 210 EWPs that are being used in Uganda.
    [Show full text]
  • Exploring the Tempo of Species Diversification in Legumes
    South African Journal of Botany 89 (2013) 19–30 Contents lists available at ScienceDirect South African Journal of Botany journal homepage: www.elsevier.com/locate/sajb Exploring the tempo of species diversification in legumes E.J.M. Koenen a,1, J.M. de Vos a,1,2, G.W. Atchison a, M.F. Simon b, B.D. Schrire c, E.R. de Souza d, L.P. de Queiroz d, C.E. Hughes a,⁎ a Institute of Systematic Botany, University of Zurich, Zollikerstrasse 107, 8008 Zürich, Switzerland b Embrapa Recursos Genéticos e Biotecnologia, PqEB, Caixa Postal 02372 Brasilia-DF, Brasil c Herbarium, Royal Botanic Gardens Kew, Richmond, Surrey TW9 3AB, UK d Universidade Estadual de Feira de Santana, Dept. de Ciências Biológicas, Feira de Santana, Bahia, Brasil article info abstract Available online 12 August 2013 Whatever criteria are used to measure evolutionary success – species numbers, geographic range, ecological abundance, ecological and life history diversity, background diversification rates, or the presence of rapidly Edited by JS Boatwright evolving clades – the legume family is one of the most successful lineages of flowering plants. Despite this, we still know rather little about the dynamics of lineage and species diversification across the family through the Keywords: Cenozoic, or about the underlying drivers of diversification. There have been few attempts to estimate net Species diversification species diversification rates or underlying speciation and extinction rates for legume clades, to test whether Leguminosae among-lineage variation in diversification rates deviates from null expectations, or to locate species diversifica- Calliandra fi Indigofereae tion rate shifts on speci c branches of the legume phylogenetic tree.
    [Show full text]
  • Effect of Substrates on the Mycorrhization and Growth of Saba Senegalensis Under Semi-Controlled Conditions
    American Journal of Plant Sciences, 2019, 10, 1612-1622 https://www.scirp.org/journal/ajps ISSN Online: 2158-2750 ISSN Print: 2158-2742 Effect of Substrates on the Mycorrhization and Growth of Saba senegalensis under Semi-Controlled Conditions Paul Diouf1, Sire Diedhiou1* , Dioumacor Fall2, Daouda Ngom3, Mariama Dalanda Diallo4, Ibrahima Ndoye3 1Agroforestry Department, Assane Seck University, Ziguinchor, Senegal 2Senegalese Institute of Agricultural Research, Dakar, Senegal 3Plant Biology Department, Cheikh Anta Diop University, Dakar, Senegal 4Agronomic Sciences of Aquaculture and Food Technology UFR, UGB, Saint-Louis, Sénégal How to cite this paper: Diouf, P., Died- Abstract hiou, S., Fall, D., Ngom, D., Diallo, M.D. and Ndoye, I. (2019) Effect of Substrates on the Saba senegalensis is a wild edible fruit plant species with a high economic po- Mycorrhization and Growth of Saba senega- tential which can be used to fight food insecurity in rural areas and to reduce lensis under Semi-Controlled Conditions. poverty. Domestication programs are being carried out to boost production. American Journal of Plant Sciences, 10, 1612- 1622. However, no studies have been done to determine the optimal soil properties https://doi.org/10.4236/ajps.2019.109114 for growing S. senegalensis. This study was carried out to determine the ef- fects of the physical and chemical properties of different substrates on the Received: July 8, 2019 mycorrhization and growth of S. senegalensis under semi-controlled conditions. Accepted: September 16, 2019 Published: September 19, 2019 S. senegalensis seeds were grown for 4 months in the nursery using five sub- strates: S1 (1/2 sand + 1/2 potting soil), S2 (1/3 sand + 2/3 potting soil), S3 (2/3 Copyright © 2019 by author(s) and sand + 1/3 potting soil), S4 (potting soil) and S5 (sand).
    [Show full text]
  • Ixoroideae– Rubiaceae
    IAWA Journal, Vol. 21 (4), 2000: 443–455 WOOD ANATOMY OF THE VANGUERIEAE (IXOROIDEAE– RUBIACEAE), WITH SPECIAL EMPHASIS ON SOME GEOFRUTICES by Frederic Lens1, Steven Jansen1, Elmar Robbrecht2 & Erik Smets1 SUMMARY The Vanguerieae is a tribe consisting of about 500 species ordered in 27 genera. Although this tribe is mainly represented in Africa and Mada- gascar, Vanguerieae also occur in tropical Asia, Australia, and the isles of the Pacific Ocean. This study gives a detailed wood anatomical de- scription of 34 species of 15 genera based on LM and SEM observa- tions. The secondary xylem is homogeneous throughout the tribe and fits well into the Ixoroideae s.l. on the basis of fibre-tracheids and dif- fuse to diffuse-in-aggregates axial parenchyma. The Vanguerieae in- clude numerous geofrutices that are characterised by massive woody branched or unbranched underground parts and slightly ramified un- branched aboveground twigs. The underground structures of geofrutices are not homologous; a central pith is found in three species (Fadogia schmitzii, Pygmaeothamnus zeyheri and Tapiphyllum cinerascens var. laetum), while Fadogiella stigmatoloba shows central primary xylem which is characteristic of roots. Comparison of underground versus aboveground wood shows anatomical differences in vessel diameter and in the quantity of parenchyma and fibres. Key words: Vanguerieae, Rubiaceae, systematic wood anatomy, geo- frutex. INTRODUCTION The Vanguerieae (Ixoroideae–Rubiaceae) is a large tribe consisting of about 500 spe- cies and 27 genera. Tropical Africa is the centre of diversity (about 80% of the species are found in Africa and Madagascar), although the tribe is also present in tropical Asia, Australia, and the isles of the Pacific Ocean (Bridson 1987).
    [Show full text]
  • Volume 18 • 2015 IMPRINT Volume: 18 • 2015
    Flora et Vegetatio Sudano-Sambesica ISSN 1868-3606 edited by éditées par herausgegeben von Rüdiger Wittig1 Sita Guinko2 Brice Sinsin3 Adjima Thiombiano2 1Frankfurt 2Ouagadougou 3Cotonou Volume 18 • 2015 IMPRINT Volume: 18 • 2015 Publisher: Institute of Ecology, Evolution & Diversity Flora et Vegetatio Sudano-Sambesica (former Chair of Ecology and Geobotany "Etudes sur la flore et la végétation du Burkina Max-von-Laue-Str. 13 Faso et des pays avoisinants") is a refereed, inter- D - 60438 Frankfurt am Main national journal aimed at presenting high quali- ty papers dealing with all fields of geobotany and Copyright: Institute of Ecology, Evolution & Diversity ethnobotany of the Sudano-Sambesian zone and Chair of Ecology and Geobotany adjacent regions. The journal welcomes fundamen- Max-von-Laue-Str. 13 tal and applied research articles as well as review D - 60438 Frankfurt am Main papers and short communications. English is the preferred language but papers writ- Online-Version: http://publikationen.ub.uni- ten in French will also be accepted. The papers frankfurt.de/frontdoor/index/ should be written in a style that is understandable index/docId/39055 for specialists of other disciplines as well as in- urn:nbn:de:hebis:30:3-390559 terested politicians and higher level practitioners. ISSN: 1868-3606 Acceptance for publication is subjected to a refe- ree-process. In contrast to its predecessor (the "Etudes …") that was a series occurring occasionally, Flora et Vege- tatio Sudano-Sambesica is a journal, being publis- hed regularly with one volume per year. Editor-in-Chief: Editorial-Board Prof. Dr. Rüdiger Wittig Prof. Dr. Reinhard Böcker Institute of Ecology, Evolution & Diversity Institut 320, Universität Hohenheim Department of Ecology and Geobotany 70593 Stuttgart / Germany Max-von-Laue-Str.
    [Show full text]
  • Medicinal Plants Used by ‘Root Doctors’, Local Traditional Healers in Bié Province, Angola
    Journal Pre-proof Medicinal plants used by ‘root doctors’, local traditional healers in Bié province, Angola B. Novotna, Z. Polesny, M.F. Pinto-Basto, P. Van Damme, P. Pudil, J. Mazancova, M.C. Duarte PII: S0378-8741(19)31151-1 DOI: https://doi.org/10.1016/j.jep.2020.112662 Reference: JEP 112662 To appear in: Journal of Ethnopharmacology Received Date: 23 March 2019 Revised Date: 6 February 2020 Accepted Date: 6 February 2020 Please cite this article as: Novotna, B., Polesny, Z., Pinto-Basto, M.F., Van Damme, P., Pudil, P., Mazancova, J., Duarte, M.C., Medicinal plants used by ‘root doctors’, local traditional healers in Bié province, Angola, Journal of Ethnopharmacology (2020), doi: https://doi.org/10.1016/j.jep.2020.112662. This is a PDF file of an article that has undergone enhancements after acceptance, such as the addition of a cover page and metadata, and formatting for readability, but it is not yet the definitive version of record. This version will undergo additional copyediting, typesetting and review before it is published in its final form, but we are providing this version to give early visibility of the article. Please note that, during the production process, errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain. © 2020 Published by Elsevier B.V. provided by Universidade de Lisboa: Repositório.UL View metadata, citation and similar papers at core.ac.uk CORE brought to you by Medicinal plants used by ‘root doctors’, local traditional healers in Bié province, Angola B.
    [Show full text]
  • Nutritional Composition of Detarium Microcarpum Fruit
    Vol. 8(6), pp. 342-350, June 2014 DOI: 10.5897/AJFS2014.1161 Article Number: DD92FA346001 ISSN 1996-0794 African Journal of Food Science Copyright © 2014 Author(s) retain the copyright of this article http://www.academicjournals.org/AJFS Full Length Research Paper Nutritional composition of Detarium microcarpum fruit Florence Inje Oibiokpa1*, Godwin Ichekanu Adoga2, Abubakar Ndaman Saidu1 and Kudirat 1 Oluwatosin Shittu 1Department of Biochemistry, Federal University of Technology, Minna, Niger State, Nigeria. 2Department of Biochemistry, University of Jos, Jos, Plateau State, Nigeria. Received 26 March, 2014; Accepted 17 June, 2014 The pulp of Detarium microcarpum fruit was extracted and samples were analyzed for the proximate, vitamin, mineral and anti-nutrient composition using standard methods. Crude protein content obtained in D. microcarpum fruit was 4.68% while the crude fat content was 2.23%. The fruit also contained 4.47% moisture, 4.47% ash, 11.06% crude fibre and 65.38% total carbohydrates. The mineral composition of the fruit pulp showed that potassium was the most abundant (908.10 mg/100 g) and cadmium was the least abundant (0.03 mg/100 mg). Vitamin analysis showed that the fruit is rich in vitamin C (55.10 mg/100 g). The fruit was also discovered to contain 12.44 mg/100 g, vitamin E, 4.20 mg/100 g vitamin B2 and 0.17 mg/100 g folic acid. The anti-nutrient compositions of D. microcarpum were phytate (0.41 mg/100 g), cyanide (0.07 mg/100 g), tannin 0.17 mg/100 g, oxalate 1.06 mg/100 g, saponin (2.73 mg/100 g).
    [Show full text]
  • Combined Phylogenetic Analyses Reveal Interfamilial Relationships and Patterns of floral Evolution in the Eudicot Order Fabales
    Cladistics Cladistics 1 (2012) 1–29 10.1111/j.1096-0031.2012.00392.x Combined phylogenetic analyses reveal interfamilial relationships and patterns of floral evolution in the eudicot order Fabales M. Ange´ lica Belloa,b,c,*, Paula J. Rudallb and Julie A. Hawkinsa aSchool of Biological Sciences, Lyle Tower, the University of Reading, Reading, Berkshire RG6 6BX, UK; bJodrell Laboratory, Royal Botanic Gardens, Kew, Richmond, Surrey TW9 3DS, UK; cReal Jardı´n Bota´nico-CSIC, Plaza de Murillo 2, CP 28014 Madrid, Spain Accepted 5 January 2012 Abstract Relationships between the four families placed in the angiosperm order Fabales (Leguminosae, Polygalaceae, Quillajaceae, Surianaceae) were hitherto poorly resolved. We combine published molecular data for the chloroplast regions matK and rbcL with 66 morphological characters surveyed for 73 ingroup and two outgroup species, and use Parsimony and Bayesian approaches to explore matrices with different missing data. All combined analyses using Parsimony recovered the topology Polygalaceae (Leguminosae (Quillajaceae + Surianaceae)). Bayesian analyses with matched morphological and molecular sampling recover the same topology, but analyses based on other data recover a different Bayesian topology: ((Polygalaceae + Leguminosae) (Quillajaceae + Surianaceae)). We explore the evolution of floral characters in the context of the more consistent topology: Polygalaceae (Leguminosae (Quillajaceae + Surianaceae)). This reveals synapomorphies for (Leguminosae (Quillajaceae + Suri- anaceae)) as the presence of free filaments and marginal ⁄ ventral placentation, for (Quillajaceae + Surianaceae) as pentamery and apocarpy, and for Leguminosae the presence of an abaxial median sepal and unicarpellate gynoecium. An octamerous androecium is synapomorphic for Polygalaceae. The development of papilionate flowers, and the evolutionary context in which these phenotypes appeared in Leguminosae and Polygalaceae, shows that the morphologies are convergent rather than synapomorphic within Fabales.
    [Show full text]