DOCSLIB.ORG

Brinjal Bibliography, from Web of Science and Other Sources, Full Text Links, Klaus Ammann 20110225

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Brinjal Bibliography, from Web of Science and Other Sources, Full Text Links, Klaus Ammann 20110225 Brinjal Bibliography, from Web of Science and other sources, full text links, Klaus Ammann 20110225 Arora, S. (2009) Analysis of insecticides in okra and brinjal from IPM and non-IPM fields. Environmental Monitoring and Assessment, 151, 1-4, pp 311-315 <Go to ISI>://WOS:000263832800029 AND http://www.botanischergarten.ch/Brinjal/Arora-Analysis-Insecticides-Okra-Brinjal-2009.pdf Basu, A.C. & Pramanik, L.M. (1968) ACARICIDAL TESTS OF 9 PESTICIDES AGAINST 2-SPOTTED SPIDER MITE A SERIOUS PEST OF BRINJAL (EGGPLANT) IN WEST BENGAL. Journal of Economic Entomology, 61, 3, pp 768-& <Go to ISI>://WOS:A1968B379800049 AND http://www.botanischergarten.ch/Brinjal/Basu-Acaricidal-Texts-Brinjal-1968.pdf Bubici, G. & Cirulli, M. (2008) Screening and selection of eggplant and wild related species for resistance to Leveillula taurica. Euphytica, 164, 2, pp 339-345 <Go to ISI>://WOS:000259697200005 AND http://www.botanischergarten.ch/Brinjal/Bubici-Screening-Selection-Eggplant-2008.pdf Chandra, R., Srivastava, A., & Srivastava, P.C. (2009) Fate of Benfuracarb Insecticide in Mollisols and Brinjal Crop. Bulletin of Environmental Contamination and Toxicology, 83, 3, pp 348-351 <Go to ISI>://WOS:000267102400009 AND http://www.botanischergarten.ch/Brinjal/Chandra-Fate-Benfuracarb-2009.pdf Chaouachi, M., El Malki, R., Berard, A., Romaniuk, M., Laval, V., Brunel, D., & Bertheau, Y. (2008) Development of a real-time PCR method for the differential detection and quantification of four Solanaceae in GMO analysis: Potato (Solanum tuberosum), tomato (Solanum lycopersicum), eggplant (Solanum melongena), and pepper (Capsicum annuum). Journal of Agricultural and Food Chemistry, 56, 6, pp 1818-1828 <Go to ISI>://WOS:000254177000004 AND http://www.botanischergarten.ch/Brinjal/Chaouachi-Development-Real-Time-PC-2008.pdf Chong, M. (2005) Perception of the risks and benefits of Bt eggplant by Indian farmers. Journal of Risk Research, 8, 7-8, pp 617-634 <Go to ISI>://WOS:000233134400005 AND http://www.botanischergarten.ch/Developing/Chong-Perception-Risks-Eggplant-2005.pdf Choudhary, B. (2009) The Development and Regulation of Bt Brinjal in India (Eggplant/Aubergine). ISAAA Briefs, 38, pp 119 http://www.isaaa.org/resources/publications/briefs/38/download/isaaa-brief-38-2009.pdf AND http://www.botanischergarten.ch/Brinjal/Choudhary- Development-Regulation-Brinjal-2009.pdf Doganlar, S., Frary, A., Daunay, M.C., Lester, R.N., & Tanksley, S.D. (2002) A comparative genetic linkage map of eggplant (Solanum melongena) and its implications for genome evolution in the Solanaceae. Genetics, 161, 4, pp 1697-1711 <Go to ISI>://WOS:000177725700030 AND http://www.botanischergarten.ch/Brinjal/Doganlar-Comaprative-Genetic-Linkage-2002.pdf Doganlar, S., Frary, A., Daunay, M.C., Lester, R.N., & Tanksley, S.D. (2002) Conservation of gene function in the Solanaceae as revealed by comparative mapping of domestication traits in eggplant. Genetics, 161, 4, pp 1713-1726 <Go to ISI>://WOS:000177725700031 AND http://www.botanischergarten.ch/Brinjal/Doganlar-Conservation-Gene-Function-2002.pdf Dombrovsky, A., Pearlsman, M., Lachman, O., & Antignus, Y. (2009) Characterization of a new strain of Eggplant mottled crinkle virus (EMCV) infecting eggplants in Israel. Phytoparasitica, 37, 5, pp 477-483 <Go to ISI>://WOS:000271736300012 AND http://www.botanischergarten.ch/Brinjal/Dombrovsky-Characterizatioin-crincle-Virus-2009.pdf Elanchezhyan, K., Baskaran, R.K.M., & Rajavel, D.S. (2008) Field screening of brinjal varities on major pests and their natural enemies. Journal of Biopesticides, 1, 2, pp 113 - 120 <Go to ISI>://BIOSIS:PREV200900561122 AND http://www.botanischergarten.ch/Brinjal/Elanchezhyan-Field-Screening-Brinjal-2008.pdf Elmer, W.H. & Ferrandino, F.J. (2009) Suppression of Verticillium Wilt of Eggplant by Earthworms. Plant Disease, 93, 5, pp 485-489 <Go to ISI>://WOS:000266130800007 AND http://www.botanischergarten.ch/Brinjal/Elmer-Suppression-Verticillium-Wilt-2009.pdf Evans, W.B., Rayburn, L.E., Winter, N., Coker, C.E., & Gu, M. (2009) Specialty Eggplants (Solanum melongena L.) yield well in Mississippi Using Organic or Inorganic Production Methods. Hortscience, 44, 3, pp 570-571 <Go to ISI>://WOS:000267154900114 AND http://www.botanischergarten.ch/Brinjal/Evans-Specialty-Eggplants-yield-2009.pdf Gallagher, L. (2010) BT BRINJAL Event EE1, The Scope and Adequacy of the GEAC Toxicological, Risk Assessment, Review of Oral Toxicity Studies in Rats pp 42 (Report) http://www.ask-force.org/web/Brinjal/Gallagher-GEAC-Study-Brinjal-Critics-20101114.pdf GEAC Genetic Egineering Approval Committee (2007) Decisions taken in the 79th Meeting of the Genetic Engineering Approval Committee held on 8.8.2007, 2.0 Consideration of proposals for Transgenic crops, pp. 22. GEAC http://www.envfor.nic.in/divisions/csurv/geac/geac-aug-79.doc AND http://www.botanischergarten.ch/Bt/GEAC-aug-79-Brinjal-India-doc.pdf Gruere, G.P., Hoque, I., Valmonte-Santos, R., & Rosegrant, M.W. (2006) Potential of transgenic crops in bangladesh: Findings from a consultation of bangladeshi scientific experts. Plant Cell Tissue and Organ Culture, 86, 3, pp 411-415 <Go to ISI>://WOS:000240532300014 AND http://www.botanischergarten.ch/Brinjal/Gruere-Potential-Bangladesh-2006.pdf Hamilton, G.C. & Lashomb, J. (1996) A COMPARISON OF THE PESTICIDES USED IN CONVENTIONAL AND IPM GROWN EGGPLANT. Florida Entomologist, 79, 4, pp 488-496 <Go to ISI>://WOS:A1994BD22Z00048 AND http://www.botanischergarten.ch/Brinjal/Hamilton-Comparison-Conventional-Biological-1996.pdf Hanson, P.M., Yang, R.Y., Tsou, S.C.S., Ledesma, D., Engle, L., & Lee, T.C. (2006) Diversity in eggplant (Solanum melongena) for superoxide scavenging activity, total phenolics, and ascorbic acid. Journal of Food Composition and Analysis, 19, 6-7, pp 594-600 <Go to ISI>://WOS:000238776500017 AND http://www.botanischergarten.ch/Brinjal/Hansen-Diversity-Eggplants-2006.pdf Iqbal, M.F., Maqbool, U., Asi, M.R., & Aslam, S. (2007) MONITORING OF INSECTICIDE RESIDUES IN BRINJAL COLLECTED FROM MARKET OF NOSHERA VIRKAN, PAKISTAN. Journal of Animal and Plant Sciences, 17, 1-2, pp 21-22 <Go to ISI>://WOS:000268775100009 AND http://www.botanischergarten.ch/Brinjal/Iqbal-Determination-Pesticide-Brinjal-2007.pdf Iqbal, M.F., Maqbool, U., Perveez, I., Farooq, M., & Asi, M.R. (2009) MONITORING OF INSECTICIDE RESIDUES IN BRINJAL COLLECTED FROM MARKET OF NOSHERA VIRKAN, PAKISTAN. Journal of Animal and Plant Sciences, 19, 2, pp 90-93 <Go to ISI>://WOS:000268775100009 AND http://www.botanischergarten.ch/Brinjal/Iqbal-Monitoring-Pesticide-Brinjal-2009.pdf Kamberoglu, M.A., Caliskan, A.E., & Alan, B. (2009) FIRST REPORT OF TOMATO SPOTTED WILT VIRUS ON EGGPLANT IN TURKEY. Journal of Plant Pathology, 91, 1, pp 231-231 <Go to ISI>://WOS:000264799700032 AND http://www.botanischergarten.ch/Brinjal/Kamberoglu-First-Report-Tomato-Spotted-Virus-2009.pdf Kaul, V., Shankar, U., & Khushu, M.K. (2009) Bio-Intensive Integrated Pest Management in Fruit Crop Ecosystem. In Integrated Pest Management: Innovation-Development Process, pp. 631-666 http://dx.doi.org/10.1007/978-1-4020-8992-3_21 author request 20110225 Kay, I.R. & Brown, J.D. (2009) Evaluating the efficacy of insecticides to control Sceliodes cordalis (Doubleday) (Lepidoptera: Crambidae) in eggplant. Australian Journal of Entomology, 48, pp 177-181 <Go to ISI>://WOS:000266170500011 AND http://www.botanischergarten.ch/Brinjal/Kay-Evaluating-Efficacy-Insecticides-2009.pdf Khan, M.M.R. & Isshiki, S. (2008) Development of a male sterile eggplant by utilizing the cytoplasm of Solanum virginianum and a biparental transmission of chloroplast DNA in backcrossing. Scientia Horticulturae, 117, 4, pp 316-320 http://www.sciencedirect.com/science/article/B6TC3-4SVM14K-1/2/636b40ba93885bba9ab078ef1a9f67ba AND http://www.botanischergarten.ch/Brinjal/Kahn- Development-Male-Sterile-2008.pdf Kolady, D. & Lesser, W. (2008) Can owners afford humanitarian donations in agbiotech - The case of genetically engineered eggplant in India. Electronic Journal of Biotechnology, 11, 2, pp Article No.: 5 <Go to ISI>://BIOSIS:PREV200900148393 AND http://www.botanischergarten.ch/Brinjal/Kolady-Can-Owners-Afford-Humanitarian-2008.pdf Kolady, D.E. & Lesser, W. (2008) Is genetically engineered technology a good alternative to pesticide use: the case of GE eggplant in India. International Journal of Biotechnology, 10, 2-3, pp 132- 147 <Go to ISI>://BIOSIS:PREV200800387917 AND http://www.botanischergarten.ch/Brinjal/Kolady-GE-Tech-Pesticide-Brinjal-2008.pdf Kolady, D.E. & Lesser, W. (2008) Potential welfare benefits from the public-private partnerships: A case of genetically engineered eggplant in India. Journal of Food Agriculture & Environment, 6, 3- 4, pp 333-340 <Go to ISI>://WOS:000260597200068 AND http://www.world-food.net/scientficjournal/2008/issue3/pdf/agriculture/a29.pdf Krishna, V.V. & Qaim, M. (2007) Estimating the adoption of Bt eggplant in India: Who Benefits from public-private partnership? Food Policy, 32, pp 523-543 <Go to ISI>://WOS:000249422000001 AND http://www.botanischergarten.ch/Brinjal/Krishna-Estimating-Adoption-Bt-Brinjal-2006.pdf Krishna, V.V. & Qaim, M. (2008) Consumer attitudes toward GM food and pesticide residues in India. Review of Agricultural Economics, 30, 2, pp 233-251 <Go to ISI>://WOS:000256102200003 AND http://www.botanischergarten.ch/Developing/Krischna-Consumer-Attitudes-India-2008.pdf Krishna, V.V. & Qaim, M. (2008) Potential impacts of Bt eggplant on economic surplus and farmers' health in India. Agricultural Economics, 38, 2, pp 167-180 <Go to ISI>://WOS:000254579100005
Load more

Recommended publications
  • 4Th National IPM Symposium
    contents Foreword . 2 Program Schedule . 4 National Roadmap for Integrated Pest Management (IPM) . 9 Whole Systems Thinking Applied to IPM . 12 Fourth National IPM Symposium . 14 Poster Abstracts . 30 Poster Author Index . 92 1 foreword Welcome to the Fourth National Integrated Pest Management The Second National IPM Symposium followed the theme “IPM Symposium, “Building Alliances for the Future of IPM.” As IPM Programs for the 21st Century: Food Safety and Environmental adoption continues to increase, challenges facing the IPM systems’ Stewardship.” The meeting explored the future of IPM and its role approach to pest management also expand. The IPM community in reducing environmental problems; ensuring a safe, healthy, has responded to new challenges by developing appropriate plentiful food supply; and promoting a sustainable agriculture. The technologies to meet the changing needs of IPM stakeholders. meeting was organized with poster sessions and workshops covering 22 topic areas that provided numerous opportunities for Organization of the Fourth National Integrated Pest Management participants to share ideas across disciplines, agencies, and Symposium was initiated at the annual meeting of the National affiliations. More than 600 people attended the Second National IPM Committee, ESCOP/ECOP Pest Management Strategies IPM Symposium. Based on written and oral comments, the Subcommittee held in Washington, DC, in September 2001. With symposium was a very useful, stimulating, and exciting experi- the 2000 goal for IPM adoption having passed, it was agreed that ence. it was again time for the IPM community, in its broadest sense, to come together to review IPM achievements and to discuss visions The Third National IPM Symposium shared two themes, “Putting for how IPM could meet research, extension, and stakeholder Customers First” and “Assessing IPM Program Impacts.” These needs.
    [Show full text]
  • Addenda and Amendments to a Checklist of the Lepidoptera of the British Isles on Account of Subsequently Published Data
    Ent Rec 128(2)_Layout 1 22/03/2016 12:53 Page 98 94 Entomologist’s Rec. J. Var. 128 (2016) ADDENDA AND AMENDMENTS TO A CHECKLIST OF THE LEPIDOPTERA OF THE BRITISH ISLES ON ACCOUNT OF SUBSEQUENTLY PUBLISHED DATA 1 DAVID J. L. A GASSIZ , 2 S. D. B EAVAN & 1 R. J. H ECKFORD 1 Department of Life Sciences, Natural History Museum, Cromwell Road, London SW7 5BD 2 The Hayes, Zeal Monachorum, Devon EX17 6DF This update incorpotes information published before 25 March 2016 into A Checklist of the Lepidoptera of the British Isles, 2013. CENSUS The number of species now recorded from the British Isles stands at 2535 of which 57 are thought to be extinct and in addition there are 177 adventive species. CHANGE OF STATUS (no longer extinct) p. 17 16.013 remove X, Hall (2013) p. 25 35.006 remove X, Beavan & Heckford (2014) p. 40 45.024 remove X, Wilton (2014) p. 54 49.340 remove X, Manning (2015) ADDITIONAL SPECIES in main list 12.0047 Infurcitinea teriolella (Amsel, 1954) E S W I C 15.0321 Parornix atripalpella Wahlström, 1979 E S W I C 15.0861 Phyllonorycter apparella (Herrich-Schäffer, 1855) E S W I C 15.0862 Phyllonorycter pastorella (Zeller, 1846) E S W I C 27.0021 Oegoconia novimundi (Busck, 1915) E S W I C 35.0299 Helcystogramma triannulella (Herrich-Sch äffer, 1854) E S W I C 41.0041 Blastobasis maroccanella Amsel, 1952 E S W I C 48.0071 Choreutis nemorana (Hübner, 1799) E S W I C 49.0371 Clepsis dumicolana (Zeller, 1847) E S W I C 49.2001 TETRAMOERA Diakonoff, [1968] langmaidi Plant, 2014 E S W I C 62.0151 Delplanqueia inscriptella (Duponchel, 1836) E S W I C 72.0061 Hypena lividalis (Hübner, 1790) Chevron Snout E S W I C 70.2841 PUNGELARIA Rougemont, 1903 capreolaria ([Denis & Schiffermüller], 1775) Banded Pine Carpet E S W I C 72.0211 HYPHANTRIA Harris, 1841 cunea (Drury, 1773) Autumn Webworm E S W I C 73.0041 Thysanoplusia daubei (Boisduval, 1840) Boathouse Gem E S W I C 73.0301 Aedia funesta (Esper, 1786) Druid E S W I C Ent Rec 128(2)_Layout 1 22/03/2016 12:53 Page 99 Entomologist’s Rec.
    [Show full text]
  • Download Download
    Agr. Nat. Resour. 54 (2020) 499–506 AGRICULTURE AND NATURAL RESOURCES Journal homepage: http://anres.kasetsart.org Research article Checklist of the Tribe Spilomelini (Lepidoptera: Crambidae: Pyraustinae) in Thailand Sunadda Chaovalita,†, Nantasak Pinkaewb,†,* a Department of Entomology, Faculty of Agriculture, Kasetsart University, Bangkok 10900, Thailand b Department of Entomology, Faculty of Agriculture at Kamphaengsaen, Kasetsart University, Kamphaengsaen Campus, Nakhon Pathom 73140, Thailand Article Info Abstract Article history: In total, 100 species in 40 genera of the tribe Spilomelini were confirmed to occur in Thailand Received 5 July 2019 based on the specimens preserved in Thailand and Japan. Of these, 47 species were new records Revised 25 July 2019 Accepted 15 August 2019 for Thailand. Conogethes tenuialata Chaovalit and Yoshiyasu, 2019 was the latest new recorded Available online 30 October 2020 species from Thailand. This information will contribute to an ongoing program to develop a pest database and subsequently to a facilitate pest management scheme in Thailand. Keywords: Crambidae, Pyraustinae, Spilomelini, Thailand, pest Introduction The tribe Spilomelini is one of the major pests in tropical and subtropical regions. Moths in this tribe have been considered as The tribe Spilomelini Guenée (1854) is one of the largest tribes and the major pests of economic crops such as rice, sugarcane, bean belongs to the subfamily Pyraustinae, family Crambidae; it consists of pods and corn (Khan et al., 1988; Hill, 2007), durian (Kuroko 55 genera and 5,929 species worldwide with approximately 86 genera and Lewvanich, 1993), citrus, peach and macadamia, (Common, and 220 species of Spilomelini being reported in North America 1990), mulberry (Sharifi et.
    [Show full text]
  • Evaluation of the Larvae Abundance of Leucinodes Orbonalis Guenee
    Journal of Animal &Plant Sciences, 2015. Vol.27, Issue 1: 4182-4192 Publication date 2/12/2015, http://www.m.elewa.org/JAPS ; ISSN 2071-7024 Evaluation of the larvae abundance of Leucinodes orbonalis Guenee (Lepidoptera: Pyralidae) in the phenological stages of eggplants (Solanum aethiopicum ) in Azaguié, Côte d'Ivoire OBODJI Adagba 1, ABOUA Louis Roi Nondenot 1*, TANO Djè Kevin Christian 2 SERI - KOUASSI Badama Philomène 1 1 University Félix Houphouët Boigny of Cocody, UFR Biosciences, Laboratory of Zoology and Animal Biology, 22 BP 582 Abidjan 22, Côte d’Ivoire. 2 University Jean Lorougnon Guédé of Daloa,UFR Agroforesterie, Côte d’Ivoire. * Corresponding author E-mail: [email protected] , Phone number: +225 08 55 49 07 Keywords: Leucinodes orbonalis, borer larvae, abundance, Solanum aethiopicum , phenological stages. 1 SUMMARY Eggplant shoot and fruit borer (EFSB), Leucinodes orbonalis Guenee (Lepidoptera: Pyralidae) is a major pest that causes damage to the eggplants in Côte d’Ivoire. In order to establish an effective control method against this pest, a study of the abundance of larvae L .orbonalis according to phenological stages of eggplant was conducted in the locality of Azaguié, in Guinean area of Côte d'Ivoire. Investigations were carried out from October 2013 to June 2014. The method used were to a weekly counting of larvae on three varieties of the specie Solanum th aethiopicum ( Djamba F 1, Kotobi and N'drowa issia) from 21 day after transplanting until the end of the harvest. All varieties recorded larvae during three phenological stages. The three varieties recorded more larvae at the fruiting stage than at the flowering and stage before flowering with 123.38 ± 4.09; 114.33 ± 4.22 and 106.18 ± 4.25 larvae per 24 plants respectively on Djamba F 1 , Kotobi and N’drowa issia.
    [Show full text]
  • Crambidae Biosecurity Occurrence Background Subfamilies Short Description Diagnosis
    Diaphania nitidalis Chilo infuscatellus Crambidae Webworms, Grass Moths, Shoot Borers Biosecurity BIOSECURITY ALERT This Family is of Biosecurity Concern Occurrence This family occurs in Australia. Background The Crambidae is a large, diverse and ubiquitous family of moths that currently comprises 11,500 species globally, with at least half that number again undescribed. The Crambidae and the Pyralidae constitute the superfamily Pyraloidea. Crambid larvae are concealed feeders with a great diversity in feeding habits, shelter building and hosts, such as: leaf rollers, shoot borers, grass borers, leaf webbers, moss feeders, root feeders that shelter in soil tunnels, and solely aquatic life habits. Many species are economically important pests in crops and stored food products. Subfamilies Until recently, the Crambidae was treated as a subfamily under the Pyralidae (snout moths or grass moths). Now they form the superfamily Pyraloidea with the Pyralidae. The Crambidae currently consists of the following 14 subfamilies: Acentropinae Crambinae Cybalomiinae Glaphyriinae Heliothelinae Lathrotelinae Linostinae Midilinae Musotiminae Odontiinae Pyraustinae Schoenobiinae Scopariinae Spilomelinae Short Description Crambid caterpillars are generally cylindrical, with a semiprognathous head and only primary setae (Fig 1). They are often plainly coloured (Fig. 16, Fig. 19), but can be patterned with longitudinal stripes and pinacula that may give them a spotted appearance (Fig. 10, Fig. 11, Fig. 14, Fig. 22). Prolegs may be reduced in borers (Fig. 16). More detailed descriptions are provided below. This factsheet presents, firstly, diagnostic features for the Pyraloidea (Pyralidae and Crambidae) and then the Crambidae. Information and diagnostic features are then provided for crambids listed as priority biosecurity threats for northern Australia.
    [Show full text]
  • Lepidoptera: Crambidae: Spilomelinae) from Colombia Feeding on Solanum Sp
    PROC. ENTOMOL. soc. WASH. 109(4), 2007, pp. 897-908 A NEW SPECIES AND SPECIES DISTRffiUTION RECORDS OF NEOLEUCINODES (LEPIDOPTERA: CRAMBIDAE: SPILOMELINAE) FROM COLOMBIA FEEDING ON SOLANUM SP. ANA ELIZABETH DIAZ AND M. ALMA SOLIS (AED) Programa de Manejo Integrado de Plagas, CORPOICA, C. 1. Palmira, Colombia (e-mail: [email protected]); (MAS) Systematic Entomology Labo­ ratory, PSI, Agricultural Research Service, U. S. Department of Agriculture, c/o National Museum of Natural History, Smithsonian Institution, P.O. Box 37012, MRC 168, Washington, DC 20013-7012, U.S.A. (e-mail: [email protected]) Abstract.-Neoleucinodes silvaniae, u. sp., from Colombia, is described. The larvae feed on the fruit of wild Solanum lanceifolium Jacq. Adults and larvae of the new species are figured. The new species is compared to Neoleucinodes elegantalis (Guenee), a major pest of tomatoes throughout South America. Neoleucinodes prophetica (Dyar), N. imperialis (Guenee), and N. torvis Capps are reported from Colombia for the first time. Key Words: Colombia, Solanum, Solanaceae, larvae, morphology Neoleucinodes elegantalis (Guenee, study on the distribution and biology of 1854), the tomato fruit borer, causes N. elegantalis associated with cultivated economic loss throughout South America and wild solanaceous species in Colombia. in crops of solanaceous vegetables in­ In addition, this is the only comprehensive cluding tomato, Solanum lycopersicum L., re-examination of Neoleucinodes species eggplant, Solanum melongena L., pepper, and its description since Capps (1948). Capsicum annuum L., and tropical sola­ In this paper, the presence of N. naceous fruits such as the tomato tree, elegantalis in Colombia was confirmed, Solanum betaceum Cav., and naranjilla, a new species was discovered, and is Solanum quitoense Lam.
    [Show full text]
  • Pathways for Non-Native Species in Denmark
    department of geosciences and natural resource management university of copenhagen department of geosciences and natural resource management universitety of copenhagen rolighedsvej 23 DK-1958 frederiksberg c tel. +45 3533 1500 www.ign.ku.dk Pathways for non-native species in Denmark Corrie Lynne Madsen, Christina Marita Dahl, Karen Bruun Thirslund, Fabienne Grousset, Vivian Kvist Johannsen and Hans Peter Ravn IGN Report April 2014 Title Pathways for non-native species in Denmark Authors Corrie Lynne Madsen, Christina Marita Dahl, Karen Bruun Thirslund, Fabienne Grousset, Vivian Kvist Johannsen and Hans Peter Ravn Citation Madsen, C. L., Dahl, C. M., Thirslund, K. B., Grousset, F., Johannsen, V. K. and Ravn, H. P. (2014): Pathways for non-native species in Denmark. Department of Geosciences and Natural Resource Management, University of Copenha- gen, Frederiksberg. 131 pp. Publisher Department of Geosciences and Natural Resource Management University of Copenhagen Rolighedsvej 23 DK-1958 Frederiksberg C Tel. +45 3533 1500 [email protected] www.ign.ku.dk Responsible under the press law Niels Elers Koch ISBN 978-87-7903-656-7 Cover Karin Kristensen Cover Photos Hans Ulrik Riisgård Hans Peter Ravn Jonas Roulund Published This report is only published at www.ign.ku.dk Citation allowed with clear source indication Written permission is required if you wish to use the name of the institute and/or part of this report for sales and advertising purposes 1. Preface This report is a collaboration between the Danish Nature Agency and Department for Geosciences and Natural Resource Management, University of Copenhagen. It is an update and analysis of knowledge on introduction pathways for non‐native species into Denmark in order to meet the demands for common efforts addressing challenges from alien invasive species.
    [Show full text]
  • CSL PEST RISK ANALYSIS for LEUCINODES ORBONALIS STAGE 1: PRA INITIATION 1. What Is the Name of the Pest? Leucinodes Orbonalis (G
    CSL Pest Risk Analysis for Leucinodes orbonalis CSL copyright, 2006 CSL PEST RISK ANALYSIS FOR LEUCINODES ORBONALIS STAGE 1: PRA INITIATION 1. What is the name of the pest? Leucinodes orbonalis (Guenée, 1854) Lepidoptera The Brinjal fruit Crambidae (Superfamily Pyraloidea). and shoot borer Notes on taxonomy: Pycnarmon discerptalis (Hampson) has been suggested as a possible synonym but opinions on this vary. BAYER CODE: LEUIOR 2. What is the reason for the PRA? There have been many interceptions of this species in the UK. Between June 1999 and May 2006, there were 40 finds. The majority of interceptions have been on Solanum melongena (aubergine), but L. orbonalis has also been intercepted on Solanum melongena var. serpentinum (snake-shaped eggplant), Solanum torvum (devils-fig), Syzygium cumini (black olum tree) and Vigna unguiculata subsp. sesquipedalis (cow pea/black eyed pea). Most recent interceptions have been on produce imported from either India or Thailand, with the remaining interceptions from Bangladesh, Denmark, Dominican Republic, Ghana, Kenya, Nigeria, Pakistan and 4 of unknown origin (Annex 1). The number of interceptions per month is randomly dispersed1 (X2 =18.2, 11df) (Annex 1). 3. What is the PRA area? This PRA considers the whole EPPO region concentrating on the European and Mediterranean area, i.e. EPPO west of the Ural mountains. STAGE 2: PEST RISK ASSESSMENT 4. Does the pest occur in the PRA area or does it arrive regularly as a natural migrant? L. orbonalis does not occur in the PRA area, nor does it arrive as a natural migrant. However, it is occasionally detected in consignments of produce imported into the UK (see 2).
    [Show full text]
  • Scope: Munis Entomology & Zoology Publishes a Wide Variety of Papers
    858 _____________Mun. Ent. Zool. Vol. 8, No. 2, June 2013__________ TAXONOMIC AID TO MAJOR CRAMBID VEGETABLE PESTS FROM NORTH INDIA (LEPIDOPTERA: CRAMBIDAE) Rajesh Kumar*, Vishal Mittal**, Neeraj Kumar*** and V. V. Ramamurthy**** * Central Muga Eri Research and Training Institute, Central Silk Board, Ministry of textiles, Govt. of India, Lahdoigarh (Assam), INDIA. ** Central Sericultural research and training institute, Central Silk Board, Ministry of textiles, Govt. of India, Pampore (Jammu & Kashmir), INDIA. *** Meerut College, C.C.S. University, Meerut (Uttar Pradesh), INDIA. **** National Pusa Collection, Division of Entomology, Indian Agricultural Research Institute, New Delhi, INDIA. [Kumar, R., Mittal, V., Kumar, N. & Ramamurthy, V. V. 2013. Taxonomic aid to major crambid vegetable pests from North India (Lepidoptera: Crambidae). Munis Entomology & Zoology, 8 (2): 858-875] ABSTRACT: The six insect pest Crocidolomia binotalis Zeller, Hellula undalis (Fabricius), Leucinodes orbonalis Guenee, Maruca testulalis (Geyer), Spoladea recurvalis (Fabricius), Syllepte derogata (Fabricius) (Lepidoptera: Crambidae) reported as major pests on vegetable from North India. These pests have been reviewed taxonomically and compiled with diagnostic features. In the manuscript superfamily Pyraloidea, family Crambidae, and subfamilies Spilomelinae, Glaphyriinae, Evergestinae, characters and their major vegetable pests species treated taxonomically and illustrated with diagnostic features. Besides these, world wide distribution, host range and North Indian distribution discussed. KEY WORDS: Crocidolomia binotalis, Hellula undalis, Leucinodes orbonalis, Maruca testulalis, Spoladea recurvalis, Syllepte derogata. India is the second largest producer of vegetables in the world next only to China with an estimated production of about 50 million tonnes from an area of 4.5 million hectares at an average yield of 11.3 tonnes per hectare (Sidhu, 1998).
    [Show full text]
  • Natural Crop Protection
    An information center within the network for AGRECOL sustainable agriculture in third world countries NATURAL CROP PROTECTION based on Local Farm Resources in the Tropics and Subtropics ILEIA P.O. Box 64 r.ahv <%tnll 3830AB LEUSDEN VJttUy kJlUII The Netherlands Tel. 033 - 494 30 86 Title page: Leaf and fruits of a Neem tree Drawing by Wolfgang Lang Last page: Twig of a Neem tree Photo by Gustav Espig Preparation of herbal insecticides Photo by HEKS, Zürich Idea and text: Gaby Stoll Illustrations and layout: Katrin Geigenmüller Translation: John Coates Printing and binding: F. & T. Müllerbader Filderstadt, Germany © Margraf Verlag, 1986, 1987, 1988, 1992, 1995, 1996 P.O. Box 105 97985 Weikersheim Germany The book is also available in French, German, Spanish and Thai. ISBN 3-8236-1113-5 C O N T E N T Foreword 5 Introduction 7 How to use this book 10 Principles of preventive crop protection 14 Pests in field and store 23 Rice 25 Maize 34 Legumes 44 Vegetables 50 Fruits 64 Storage 69 Methods of crop and storage protection 80 FIELD CULTIVATIONS Insecticidal plants 81 Mixtures 122 Animal substances 124 Ashes 127 Baits and traps 129 Other methods 138 STORAGE PROTECTION Principles of preventive storage protection 141 Insecticidal plants 146 Vegetable oils 163 Mineral substances and ashes 165 Other methods 167 References 168 Index 179 Current activities 185 Request for information 188 ACKNOWLEDGEMENT I should like to express my grateful thanks to all those persons who made it possible to present this practical guide in its present form. Above all these are my colleagues Almut Hahn and Mathias Zimmermann, who were always ready to listen and talk things over, and who arranged the financial framework.
    [Show full text]
  • Leucinodes Orbonalis (Guenée)
    PEST RISK ANALYSIS Leucinodes orbonalis (Guenée) Assessors D. J. van der Gaag, Division of Integrated Crop Protection H. Stigter, Entomology Section – Diagnostics Division Co-assessor J.W. Lammers, Division of Phytosanitary Risk Management M. van der Straten, Entomology Section – Diagnostics Division Plant Protection Service, the Netherlands December 2005 1 STAGE 1: INITIATION Identify pest This section examines the identity of the pest to ensure that the assessment is being performed on a real identifiable organism and that biological and other information used in the assessment is relevant to the organism in question. Question Yes / No / Notes Score 1. Is the organism clearly a single taxonomic entity Yes Taxonomic Tree and can it be adequately distinguished from other Class: Insecta entities of the same rank ? Order: Lepidoptera if yes go to 3 Superfamily: Pyraloidea if no go to 2 Family: Crambidae Genus: Leucinodes Species: Leucinodes orbonalis (Guenée, 1854) The PRA Area The PRA area can be a complete country, several countries or part(s) of one or several countries. 3. Clearly define the PRA area. Go to 4. The PRA area is the Netherlands Earlier analysis The pest, or a very similar pest, may have been subjected to the PRA process before, nationally or internationally. This may partly or entirely replace the need for a new PRA. 4. Does a relevant earlier PRA exist ? No if yes go to 5 if no go to 7 3 STAGE 2. PEST RISK ASSESSMENT Section A: Qualitative criteria of a quarantine pest Geographical criteria This section considers the geographical distribution of the pest in the PRA area.
    [Show full text]
  • Leucinodes Orbonalis Eggplant Borer Published
    Eggplant Borer Leucinodes orbonalis Figure 1. Late instar caterpillar of Leucinodes orbonalis Background Leucinodes orbonalis (Guenée) (Lepidoptera: Crambidae) is frequently intercepted by the Plant Health Service in England and Wales on imports of aubergine from Asia and Africa. Between 1999 and 2008 it was intercepted on 104 occasions, 60 of these on Solanaceae from Asia. The caterpillar feeds inside the fruit, and so may not be detected until the damage is severe and secondary damage, such as rot, has taken effect. This damage can cause yield losses of more than 65% on aubergine in Asia. Whilst it is predominantly a tropical species, there is increasing concern that it could become established in the European Union, either in the Mediterranean member states, or in protected areas of cultivation in northern areas. One adult moth was caught in the UK at a light trap in Suffolk in 2006, but the origins of the specimen are unknown. Leucinodes orbonalis was added to the European and Mediterranean Plant Protection Organisation (EPPO) alert list in January 2008. Geographical Distribution Leucinodes orbonalis is found south of the Sahara in Africa. It has been recorded from Burundi, Cameroon, Congo, Ethiopia, Ghana, Kenya, Lesotho, Malawi, Mozambique, Nigeria, Rwanda, Sao Tome and Principe, Sierra Leone, Somalia, PLANT PEST FACTSHEET South Africa, Tanzania, Uganda, Zaire, Zambia and Zimbabwe. In Asia it is widespread, recorded from Bangladesh, Brunei Darussalam, Cambodia, China, India, Indonesia, Japan, Laos, Malaysia, Myanmar, Nepal, Pakistan, Philippines, Singapore, Sri Lanka, Taiwan, Thailand and Vietnam. There are also records from Saudi Arabia in the Middle East. Leucinodes orbonalis is currently absent from Europe, Oceania and North and South America.
    [Show full text]