DOCSLIB.ORG

Impact of Nematode Pest Management Strategies on Nematode Communities in Tomato Production Systems in Zimbabwe

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Impact of Nematode Pest Management Strategies on Nematode Communities in Tomato Production Systems in Zimbabwe IMPACT OF NEMATODE PEST MANAGEMENT STRATEGIES ON NEMATODE COMMUNITIES IN TOMATO PRODUCTION SYSTEMS IN ZIMBABWE By Cornel R. S. Massawe A thesis submitted in partial fulfillment of the requirements for the degree of Doctor of Philosophy Department of Crop Science Faculty of Agriculture University of Zimbabwe December 2010 ABSTRACT An analysis of soil nematode communities can be a useful tool for assessing the quality of soils and for the development of biological monitoring systems due to their intimate relationship of nematodes with their surrounding environment. In this study, soil sampling surveys were carried out in Chinamhora Communal Lands in Goromonzi District, the Botanic Gardens in Harare, and Henderson Research Station in Mazowe District at 0 – 15 and 15 – 30 cm depth to explore the effects of the land management systems and recommended tomato cropping sequences on the soil nematode communities. Glasshouse and field experiments, laid in randomized complete block design also were conducted in the 200/72008 and 2008/2009 seasons to examine the effects of chicken manure, Tagetes spp., nematicides and inorganic fertilizers on nematode communities in soils planted to tomato ( Solanum lycopersicum L.). Soil from the treatments were extracted using Baermann and wet-sieving techniques and nematodes from each sub-sample were identified into trophic groups i.e. bacterivores, fungivores, predators, plant-parasites and omnivores and then identified to genus and in the case of Meloidogyne spp. nematodes to species level. High abundance of nematode communities was recovered between 0 – 15 cm soil depth because it is the area of high biological activities. Soils at Henderson station had higher soil bulk density values that are not favourable for free-living nematodes. Predators and omnivores were more abundant in soils from the Botanic Gardens. Organic amendments were less consistent in the management of plant parasitic nematodes and they stimulated more populations of free living nematodes. Fenamiphos had long term negative effects on the abundances of fungivorous and omnivorous nematodes. Soybean cake showed higher reproduction factor for free-living nematodes and most plant parasitic nematodes reproduced more in the NPK fertilizer treatment. High structural SI and maturity MI index values were observed in less disturbed soils implying that the soils are fertile and well structured. Soil nematode communities responded to changes in agricultural management. This implies that nematodes and the indices derived from the analysis of their community structures have demonstrated that changes in soil management are either beneficial or deleterious to the soil ecology and are well suited to the role of bioindicators for soil health in agroecosystems. ii ACKNOWLEDGEMENTS Firstly, I am grateful for financial support from The Gatsby Charitable Foundation of the UK through the Nematology Initiative for Eastern and Southern Africa (NIESA) project, which enabled me to undertake this work. I would like to express my special gratitude to my mentors Drs. P. Jowah, Z. Sibanda and D. Hunt for their much needed advice and guidance throughout the whole period of this study. Although I cannot claim to have adequately dealt with many the excellent suggestions they made, I found their various suggestions most helpful in setting my own views. The head of Plant Protection Research Institute (PPRI), Harare is highly acknowledged for invaluable logistical assistance and granting me permission to use the laboratory facilities during the whole period of this study. In particular, I would like to mention Mr Akthar, S.S., Mr V.C. Mafirakurewa, Mr E. Mudira, N. Homela and the late Mrs M.N. Magunda both from the Nematology section at PPRI and Mrs I.G. Saunyama for assisting me in various ways. I owe thanks to Dr. Prof. H. Ferris and Dr K. Spence both in the Nematology Department at the University of California – Davis, in the USA for their interest, advice and relevant assistances on this study. Although it may be difficult to evaluate what one contributed in such professional interactions, I am certain I received much via added horizons of understanding. Colleagues and friends I worked together with at PPRI, Kutsaga Research Station, National Botanic Gardens, Henderson Research Station and farmers in Chinamhora Communal Lands in Goromonzi District in Mashonaland East Province deserve to be mentioned and thanked. I am indebted of thanks to the family of Eng. M. Sibanda of Mount Pleasant, Harare, who without their materials and moral support, my life in Zimbabwe would not have been the same. “Let them do good that they be rich in good works, ready to give, willing to share” (1 Timothy 6:18). Finally, any personal sacrifice that was required during the period of this study has certainly been negated by the benefits of gaining new insights into farming challenges and the fringe benefits such as gaining new friends, and experience of welcoming nature of Zimbabweans. iii DEDICATION To my family, for being a source of great encouragement, and To my late parents, baba Raphael and mama Anna who did not live to see the light of this day! iv ABBREVIATIONS g Gram s Second N Nitrogen P Phosphorus K Potassium Ca Calcium Mg Magnesium C:N Carbon-Nitrogen ratio G Granule 0C Degree Celsius WP Wettable Powder EC Emulsifiable Concentrate a.i. Active ingredient μm Micron metre ha Hectare km Kilometer cm 3 Cubic centimeter ppm Parts per millions rpm Revolution per minute H20 Water EDB Ethylene dibromide USDA United States Department of Agriculture ANOVA Analysis of Variance v CONTENTS ABSTRACT ............................................................................................................ ii ACKNOWLEDGEMENTS ............................................................................... iii DEDICATION....................................................................................................... iv ABBREVIATIONS ................................................................................................ v TABLE OF CONTENTS .................................................................................... vi TABLES .................................................................................................................. x FIGURES ............................................................................................................. xii APPENDICES ..................................................................................................... xv CHAPTER ONE: GENERAL INTRODUCTION……………..…..………1 1.1 Agriculture in Zimbabwe ........................................................................... 1 1.2 Economic importance of tomato ................................................................ 2 1.3 Production and constraints ......................................................................... 3 1.4 Root-knot nematode (RKN) pests and their management ............................................................................................... 3 1.5 Impact of nematode management strategies on nematode communities ... 4 1.6 Justification ................................................................................................ 6 1.7 Objectives and Hypotheses ........................................................................ 7 1.7.1 Specific Objectives .................................................................................... 7 1.7.2 Hypotheses ................................................................................................. 8 CHAPTER TWO: LITERATURE REVIEW…………………….….………9 2.1 The Tomato - Origin, importance and production challenges……………………..………….…………………… ………...9 2.1.1 Origin and growth pattern of tomato plants ............................................... 9 2.1.2 Importance of tomato .............................................................................. 10 2.1.3 Production challenges with particular reference to Root-knot nematodes ............................................................................... 10 2.2 Behaviour of and control of Root-knot nematodes (RKNs) .................... 10 2.2.1 Life cycle and behaviour of RKNs (Meloidogyne spp.)……….………..11 2.2.2 Effect of nematodes on plant growth and yield ....................................... 12 2.2.3 Management strategies to control RKN .................................................. 13 2.2.3.1 Host Plant Resistance .......................................................................... 13 2.2.3.2 Cultural control ................................................................................... 14 Crop rotation ............................................................................................ 14 Organic amendments ............................................................................... 15 2.2.3.3 Biological control ................................................................................ 16 2.2.3.4 Chemical control ................................................................................. 18 2.3 Impact of nematode management strategies on nematode communities ... 20 2.4 Spatial distribution of nematode communities ............................................ 21 vi 2.4.1 Vertical distribution of nematodes........................................................... 21 2.4.2 Horizontal distribution of nematodes ...................................................... 22 2.5 Influence of abiotic and biotic factors on nematode communities ...........................................................................................
Load more

Recommended publications
  • Nematodes and Agriculture in Continental Argentina
    Fundam. appl. NemalOl., 1997.20 (6), 521-539 Forum article NEMATODES AND AGRICULTURE IN CONTINENTAL ARGENTINA. AN OVERVIEW Marcelo E. DOUCET and Marîa M.A. DE DOUCET Laboratorio de Nematologia, Centra de Zoologia Aplicada, Fant/tad de Cien.cias Exactas, Fisicas y Naturales, Universidad Nacional de Cordoba, Casilla df Correo 122, 5000 C6rdoba, Argentina. Acceplecl for publication 5 November 1996. Summary - In Argentina, soil nematodes constitute a diverse group of invertebrates. This widely distributed group incJudes more than twO hundred currently valid species, among which the plant-parasitic and entomopathogenic nematodes are the most remarkable. The former includes species that cause damages to certain crops (mainly MeloicU:igyne spp, Nacobbus aberrans, Ditylenchus dipsaci, Tylenchulus semipenetrans, and Xiphinema index), the latter inc1udes various species of the Mermithidae family, and also the genera Steinernema and Helerorhabditis. There are few full-time nematologists in the country, and they work on taxonomy, distribution, host-parasite relationships, control, and different aspects of the biology of the major species. Due tO the importance of these organisms and the scarcity of information existing in Argentina about them, nematology can be considered a promising field for basic and applied research. Résumé - Les nématodes et l'agriculture en Argentine. Un aperçu général - Les nématodes du sol représentent en Argentine un groupe très diversifiè. Ayant une vaste répartition géographique, il comprend actuellement plus de deux cents espèces, celles parasitant les plantes et les insectes étant considèrées comme les plus importantes. Les espèces du genre Me/oi­ dogyne, ainsi que Nacobbus aberrans, Dùylenchus dipsaci, Tylenchulus semipenetrans et Xiphinema index représentent un réel danger pour certaines cultures.
    [Show full text]
  • Phylogenetic Analysis of Nematodes of the Genus Pratylenchus Using Nuclear 26S Rdna
    University of Nebraska - Lincoln DigitalCommons@University of Nebraska - Lincoln Faculty Publications from the Harold W. Manter Laboratory of Parasitology Parasitology, Harold W. Manter Laboratory of February 1997 Phylogenetic Analysis of Nematodes of the Genus Pratylenchus Using Nuclear 26S rDNA Luma Al-Banna University of Jordan, [email protected] Valerie M. Williamson University of California, Davis, [email protected] Scott Lyell Gardner University of Nebraska - Lincoln, [email protected] Follow this and additional works at: https://digitalcommons.unl.edu/parasitologyfacpubs Part of the Parasitology Commons Al-Banna, Luma; Williamson, Valerie M.; and Gardner, Scott Lyell, "Phylogenetic Analysis of Nematodes of the Genus Pratylenchus Using Nuclear 26S rDNA" (1997). Faculty Publications from the Harold W. Manter Laboratory of Parasitology. 52. https://digitalcommons.unl.edu/parasitologyfacpubs/52 This Article is brought to you for free and open access by the Parasitology, Harold W. Manter Laboratory of at DigitalCommons@University of Nebraska - Lincoln. It has been accepted for inclusion in Faculty Publications from the Harold W. Manter Laboratory of Parasitology by an authorized administrator of DigitalCommons@University of Nebraska - Lincoln. Published in Molecular Phylogenetics and Evolution (ISSN: 1055-7903), vol. 7, no. 1 (February 1997): 94-102. Article no. FY960381. Copyright 1997, Academic Press. Used by permission. Phylogenetic Analysis of Nematodes of the Genus Pratylenchus Using Nuclear 26S rDNA Luma Al-Banna*, Valerie Williamson*, and Scott Lyell Gardner1 *Department of Nematology, University of California at Davis, Davis, California 95676-8668 1H. W. Manter Laboratory, Division of Parasitology, University of Nebraska State Museum, W-529 Nebraska Hall, University of Nebraska-Lincoln, Lincoln, NE 68588-0514; [email protected] Fax: (402) 472-8949.
    [Show full text]
  • Diversity, Phylogeny, Characterization and Diagnostics of Root-Knot and Lesion Nematodes
    Diversity, phylogeny, characterization and diagnostics of root-knot and lesion nematodes Toon Janssen Promotors: Prof. Dr. Wim Bert Prof. Dr. Gerrit Karssen Thesis submitted to obtain the degree of doctor in Sciences, Biology Proefschrift voorgelegd tot het bekomen van de graad van doctor in de Wetenschappen, Biologie 1 Table of contents Acknowledgements Chapter 1: general introduction 1 Organisms under study: plant-parasitic nematodes .................................................... 11 1.1 Pratylenchus: root-lesion nematodes ..................................................................................... 13 1.2 Meloidogyne: root-knot nematodes ....................................................................................... 15 2 Economic importance ..................................................................................................... 17 3 Identification of plant-parasitic nematodes .................................................................. 19 4 Variability in reproduction strategies and genome evolution ..................................... 22 5 Aims .................................................................................................................................. 24 6 Outline of this study ........................................................................................................ 25 Chapter 2: Mitochondrial coding genome analysis of tropical root-knot nematodes (Meloidogyne) supports haplotype based diagnostics and reveals evidence of recent reticulate evolution. 1 Abstract
    [Show full text]
  • Description of Pratylenchus Gutierrezi N. Sp. (Nematoda: Pratylenchidae
    Journal of Nematology 24(2):298-304. 1992. © The Society of Nematologists 1992. Description of Pratylenchus 9utierrezi n. sp. (Nematoda: Pratylenchidae) from Coffee in Costa Rica A. MORGAN GOLDEN, 1 ROGER L6PEZ CH., 2 AND HERNAN VILCHEZ R. 2 Abstract: A lesion nematode, Pratylenchu6 gutierrezi n. sp., collected from the roots of coffee in the Central Plateau of Costa Rica, is described and illustrated. Its relationships to Pratylenchusflakkensis, P. similis, and P. gibbicaudatus, the only other species of the genus having two head annules, males, or spermatheca with sperm, and an annulated tail terminus, is discussed. Other distinctive characters are its posterior vulva (mean of 80%); its prominently rounded stylet knobs, low head, and subcy- lindrical tail. SEM observations provide additional details of females and males, especially face views, which show for the first time sexual dimorphism. Key words: Coffea arabica, Costa Rica, lesion nematode, morphology, nematode, new species, Pra- tylenchus flakkensis, P. gibbicaudatus, P. gutierrezi n. sp., P. similis, scanning electron microscopy, SEM, taxonomy. Certain species of lesion nematodes to be a new Pratylenchus species, which is (Pratylenchus spp.) are important parasites described and illustrated herein. of coffee (Coffea spp.). In a recent excellent review of nematodes reported to occur on MATERIALS AND METHODS coffee (1), the following five Pratylenchus species were listed: P. brachyurus (Godfrey, Nematodes were extracted from in- 1929) Filipjev & Schuurmans Stekhoven, fected coffee roots by placing chopped or 1941; P. coffeae (Zimmermann, 1889) Fil- blenderized roots on filter paper over wa- ipjev & Schuurmans Stekhoven, 1941; P. ter in a Baermann funnel. Specimens were goodeyi Sher & Alien, 1953; P.
    [Show full text]
  • Genus Pratylenchus Filipjev: Multientry and Monoentry Keys and Diagnostic Relationships (Nematoda: Tylenchida: Pratylenchidae)
    © Zoological Institute, St.Petersburg, 2002 Genus Pratylenchus Filipjev: multientry and monoentry keys and diagnostic relationships (Nematoda: Tylenchida: Pratylenchidae) A.Y. Ryss Ryss, A.Y. 2002. Genus Pratylenchus Filipjev: multientry and monoentry keys and diag- nostic relationships (Nematoda: Tylenchida: Pratylenchidae). Zoosystematica Rossica, 10(2), 2001: 241-255. Tabular (multientry) key to Pratylenchus is presented, and functioning of the computer- ized multientry image-operating key developed on the basis of the stepwise computer diagnostic system BIKEY-PICKEY is described. Monoentry key to Pratylenchus is given, and diagnostic relationships are analysed with the routine taxonomic methods as well as with the use of BIKEY diagnostic system and by the cluster tree analysis using STATISTICA program package. The synonymy Pratylenchus scribneri Steiner in Sherbakoff & Stanley, 1943 = P. jordanensis Hashim, 1983, syn. n. is established. Con- clusion on the transition from amphimixis to parthenogenesis as one of the leading evolu- tionary factors for Pratylenchus is drawn. A.Y. Ryss, Zoological Institute, Russian Academy of Sciences, Universitetskaya nab. 1, St.Petersburg 199034, Russia. Identification of nematode species is difficult diagnostic system, and by the cluster tree analy- because of relative poverty and significant sis using STATISTICA program package intraspecific variability of diagnostic characters. (STATISTICA, 1995). The genus Pratylenchus Filipjev is an example of a group with large number of species (49 valid Material and the basic information sources species, more than 100 original descriptions) and complicated diagnostics. The genus has a world- The collections of the following institutions wide distribution and economic importance as were used in research: Zoological Institute, Rus- its species are the dangerous parasites of agri- sian Academy of Sciences; Institute for Nema- cultural crops.
    [Show full text]
  • Filter Pie in the Control of the Nematoid of Root Lesions in the Soybean and Corn
    Journal of Agricultural Science; Vol. 11, No. 11; 2019 ISSN 1916-9752 E-ISSN 1916-9760 Published by Canadian Center of Science and Education Filter Pie in the Control of the Nematoid of Root Lesions in the Soybean and Corn Rafaela Santos de Oliveira1, Anderli Divina Ferreira Rios2, Manoel Henrique Reis de Oliveira3, Rafael Matias da Silva3, Matheus Vinicius Abadia Ventura4, Kenia Lorrany Trindade3, Grasiele Teixeira da Silva1, Antônio Evami Cavalcante Sousa3, Leônidas Miclos Baliza5, Estevam Matheus Costa4, Millena Yorrana Oliveira Silva1 & Patrícia Borges Francalino1 1 School of Agronomy, Evangelical Faculty of Goianesia, Goianesia, Brazil 2 Postgraduate Program in Agronomy, Goias Federal University, Goiania, Brazil 3 Postgraduate Program in Irrigation in the Cerrado, Goiano Federal Institute, Ceres, Brazil 4 Postgraduate Program in Agrarian Sciences-Agronomy, Goiano Federal Institute, Rio Verde, Brazil 5 School of Agronomy, Goiano Federal Institute, Rio Verde, Brazil Correspondence: Rafaela Santos de Oliveira, School of Agronomy, Evangelical Faculty of Goianesia, Goianesia, Brazil. Tel: 55-629-8647-6915. E-mail: [email protected] Received: January 20, 2019 Accepted: May 23, 2019 Online Published: July 31, 2019 doi:10.5539/jas.v11n11p130 URL: https://doi.org/10.5539/jas.v11n11p130 Abstract The efficiency of waste from industrial processing has been increasingly studied in the control of phytonematoids, especially filter cake, coffee husks and sugar cane bagasse. The objective of this study was to evaluate the effect of organic residues through the use of filter cake to reduce the population density of Pratylenchus brachyurus (Tylenchida: Pratylenchidae). The first experiment was conducted in a greenhouse in the completely randomized design in the 2 × 4 factorial scheme (soybean genotypes vs.
    [Show full text]
  • Research Note First Report of the Lesion Nematodes
    ©2018 Institute of Parasitology, SAS, Košice DOI 10.1515/helm-2017-0053 HELMINTHOLOGIA, 55, 1: 88 – 94, 2018 Research Note First report of the lesion nematodes: Pratylenchus brachyurus and Pratylenchus delattrei on tomato (Solanum lycopersicum L.) plants in Cape Verde Ł. FLIS1*, R. DOBOSZ2, K. RYBARCZYK-MYDŁOWSKA1, B. WASILEWSKA-NASCIMENTO3, M. KUBICZ1, G. WINISZEWSKA1 1Museum and Institute of Zoology, Polish Academy of Sciences, Wilcza 64, 00-679 Warszawa, Poland, E-mail: *lfl [email protected], [email protected]; [email protected]; [email protected]; 2Institute of Plant Protection-National Research Institute, Węgorka 20, 60-318, Poznań, Poland, E-mail: [email protected]; 3University of Cape Verde, Palmarejo, CP 279-Praia, Republic of Cape Verde, E-mail: [email protected] Article info Summary Received July 3, 2017 Roots of Solanum lycopersicum L. were collected in growing season of year 2015, on the island of Accepted September 28, 2017 Santiago in Cape Verde. Morphological, morphometric and molecular (18S rDNA and 28S rDNA) studies revealed the presence of Pratylenchus brachyurus and P. delattrei in root systems and root zones of tomato plants. To our knowledge, this is the fi rst record of the occurrence of these nematode species in Cape Verde. Keywords: Cape Verde; new geographic record; Pratylenchus brachyurus; Pratylenchus delattrei; 18S rDNA; 28S rDNA Introduction migratory endoparasites move within host root tissues causing necrosis and creating wounds, thus providing openings for soil- Tomato (Solanum lycopersicum L.) is one of the vegetable crops borne plant pathogens to enter and cause disease. In tropical and most widely grown on irrigated land in the Republic of Cape Verde.
    [Show full text]
  • Taxonomïc Studies on the Genus Pratylenchus (Nematoda)
    TAXONOMÏC STUDIES ON THE GENUS PRATYLENCHUS (NEMATODA) (Taxonomische onderzoekingen aan het nemaiodengeslacht pratylenchusj DOOR P. A. A. LOOF (Plantenziektenkundige Dienst) Nr 39 (I960) Published also in: T. PI. ziekten 66 (I960) : 29-90. CONTENTS Preface 6 A. General and experimental section 7 I. Introduction 7 H. Taxonomiecharacter s 9 lu The identity of Tylenchus pratensis DE MAN 13 IV. The identity of Tylenchusgulosus KÜHN 21 V. The identity of Aphelenchus neglectus RENSCH 23 VI. Taxonomy ofPratylenchus minyus SWSM. &ALLE N 28 VII. The taxonomiestatu s ofPratylenchus coffeae (ZIMMERMANN) 34 VIII. Some remarksconcernin g thedeterminatio n of males 38 B. Systematic section 40 IX. Validspecie s 40 Key -40 Descriptions 41 X. Species inquirendae 59 XI. Synonymized and transferred species 60 Samenvatting 62 Literature cited 63 PREFACE The following studies on the nematode genus Pratylenchus form a review supplementary to the pioneer work by SHER & ALLEN (1953), who put the taxonomy of the genus on a sound basis. For information not contained in the following pages, the reader is referred to their paper. Many nematologists have assisted the author with helpful criticism and sugges­ tions, information on various points or with nematode material. Sincere thanks are offered to Prof. Dr. M. W. ALLEN (Berkeley, California, U.S.A.), Dr. P. BOVIEN (Lyngby, Denmark), Dr. J. R. CHRISTIE (Gainesville, Florida, U.S.A.), Dr. H. GOFFART (Münster, Germany), Dr. W. R. JENKINS (College Park, Maryland, U.S.A.), Mr. J. KRADEL (Kleinmachnow, Germany), Prof. Dr. H. A. KREIS (Bern, Switzerland), Dr. D. PAETZOLD (Halle, Germany), Prof. Dr. B. RENSCH (Münster, Germany), Drs.
    [Show full text]
  • Biology and Molecular Characterisation of the Root Lesion Nematode, Pratylenchus Curvicauda
    Biology and Molecular Characterisation of the Root Lesion Nematode, Pratylenchus curvicauda This thesis is presented by FARHANA BEGUM For the degree of Doctor of Philosophy School of Veterinary and Life Sciences, WA State Agricultural Biotechnology Centre (SABC), Murdoch University, Perth, Western Australia July 2017 Declaration I declare that this is my own account of my research and contains as its main content, work which has not previously been submitted for a degree at any tertiary educational institution. FARHANA BEGUM ii Abstract Australia is the driest inhabited continent with about 70% of the land arid or semi- arid, and soils which are geologically old, weathered, and many are infertile. This is a challenging environment for agricultural production, which is further impacted by biotic constraints such as root lesion nematodes (RLNs), Pratylenchus spp. These soil-borne nematodes cause significant economic losses in yields of winter cereals, and in other crops, particularly under conditions of moisture and nutrient stress. RLNs are widely distributed in Australian broadacre cropping soils, and losses in cereal production are greater when more than one RLN species is present, a situation which often occurs in Western Australia (WA). Hence, to develop appropriate management regimes, accurate identification of RLN species is needed, combined with understanding the biology of host-nematode interactions. The initial aim of this research was to extend the molecular and biological characterisation of P. quasitereoides, a recently described species of root lesion nematode from WA. Morphological measurements of two important characters, tail shape and the per cent distance of the vulva from the anterior end of the nematode body, were made from nematodes collected from the four locations of WA.
    [Show full text]
  • Abstracts from the Society of Nematologists Annual Meeting 2020
    Journal of Nematology 52:1–17. 2020. © The Society of Nematologists 2020. ABSTRACTS FROM THE SOCIETY OF NEMATOLOGISTS ANNUAL MEETING 2020 POSTERS (S = synchronous; A = asynchronous; K = keynote; C = Cobb Foundation) S-1 THE EFFECTIVENESS OF MYCORRHIZA AND MYCORRHIZA HELPER BACTERIA (MHB) CONSORTIUM ADDED WITH ORGANIC MATTER AGAINST PRATYLENCHUS COFFEAE ON COFFEE PLANTATIONS. Asyiah, Iis N.1, Mudakir Imam1, Hindersah Reginawanti2, Hafif Bariot.3 1University of Jember, Indonesia, 2Universitas Padjajaran, Bandung, Indonesia, 3Indonesian Centre for Estate Crop Research and Development, Sukabumi, Indonesia. The nematodePratylenchus coffeae is a major threat in robusta and arabica coffee plants that potentially lower the yield to 78%. Until now there is no effective biological agents in the field because the researchers only focused on nematodes as a target and had less attention to the ecology of the rhizosphere. Therefore, in the biological control of nematodes involves factors affecting soil environment and the most important is the organic matter. Adding organic matter is believed to improve the effectiveness of mycorrhizal and Mycorrhiza Helper Bacteria (MHB) in controlling P. coffeae on coffee plantation. Testing the doses of mycorrhizal and MHB combined with the dose of organic fertilizer on two years old coffee plants and productive coffee plants infected by nematodes P. coffeae (endemic) on random complete block design (RCBD) with factorial treatment 4 x 3. The observation on soil biology, plant growth, the population of P. coffeae, root and shoot damage assessment, the % colonization of mycorrhiza, and uptake of Phosphorus (P). For data analysis the SPSS software version 16 (including the ANOVA test) was used. The results indicated that mycorrhizal and MHB combined with organic fertilizer can reduce significantlyP.
    [Show full text]
  • University Mk:Rorilms International 300 N
    INFORMATION TO USERS This reproduction was made from a copy of a document sent to us for microfilming. While the most advanced technology has been used to photograph and reproduce this document, the quality of the reproduction is heavily dependent upon the quality of the material submitted. The following explanation of techniques is provided to help clarify markings or notations which may appear on this reproduction. 1.The sign or “target” for pages apparently lacking from the document photographed is “Missing Page(s)”. If it was possible to obtain the missing page(s) or section, they are spliced into the film along with adjacent pages. This may have necessitated cutting through an image and duplicating adjacent pages to assure complete continuity. 2. When an image on the film is obliterated with a round black mark, it is an indication of either blurred copy because of movement during exposure, duplicate copy, or copyrighted materials that should not have been filmed. For blurred pages, a good image of the page can be found in the adjacent frame. If copyrighted materials were deleted, a target note will appear listing the pages in the adjacent frame. 3. When a map, drawing or chart, etc., is part of the material being photographed, a definite method of “sectioning” the material has been followed. It is customary to begin filming at the upper left hand comer of a large sheet and to continue from left to right in equal sections with small overlaps. If necessary, sectioning is continued again—beginning below the first row and continuing on until complete.
    [Show full text]
  • Plant Parasitic Nematodes Associated with Crops Grown by Smallholders in Mozambique
    Fundam. appl. Nemawl., 1998,21 (6), 645-654 Plant parasitic nematodes associated with crops grown by smallholders in Mozambique Rinie VAN DEN OEVER*, Esther VAN DEN BERC** and Jorge A. CHIRRUCO*** *19lcAnh GiacStr., My Tho, Tien GiangProv., Vietnam, "National Collection ofNematodes, Biosysternatics Division, Plant Protection Research Institute, Private Bag X134, Pretoria 0001, South Ajrica, and '***Plant Protection Department (DSV), cio INIA, CP 3658, Maputo, Mozambique Accepted for publication 15 Decernber 1997. Summary - Crop surveys in Mozambique during 1992-1996 revealed the presence and the large distribution of several plant­ parasitic nematodes. Root-knot (Meloidogyne spp.) and lesion (Pralylenchus spp.) nemarodes are the predominant and most widespread forms. Severa1 nematode species were found for the first time in Mozambique, whereas others were found on diffe­ rent crops than in previous surveys. Pralylenchus zeae was found frequently on maize, and also on common bean (Phaseolus vulgaris L.), sugarcane, and sunflower. Root-knot nemarodes were serious pests of common bean, when the beans were grown rogether with maize in Niassa province, and also of cowpea in experimental fields and irrigation areas in the south, sunflower in Niassa province, robacco in Nampula and Manica provinces, and vegetables from several areas. Roet-knot nemarode was not found ro be a problem on cassava in Mozambique. The peanut pod nemarode Dilylenchus afmanus was found in Maputo and Gaza provinces and may have been inrroduced with imponed groundnut used for seed or human consumption. © Orsrom! Elsevier, Paris Résumé - Nbnatodes phytoparasites associés aux cultures paysannes du Mozatnbique - Des enquêtes effectuées sur les cultures du Mozambique de 1992 à 1996 ont révélé la présence et l'imponance de nombreux nématodes phytoparasites, MeloiiÙJgyne spp.
    [Show full text]