DOCSLIB.ORG

Distribution Maps of Plant Diseases

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Distribution Maps of Plant Diseases Distribution Maps of Plant Diseases Oidium mangiferae Berthet Fungi: Ascomycota: Erysiphales Compiled by CABI in association with EPPO www.cababstractsplus.org/dmpd Hosts: mango (Mangifera indica). Map No. 1081 Edition 1 Issued April 2010 C C C ( ( C ( C ( CC C C C( C ( C ( C( C ( ( C C ( C C ( C (( ( ( C ( ( ( C ( ( ( ( ( ( ( C C ( C ( C ( C ( ( Map No. 1081 ( Present: national recordC Present: subnational record CABI/EPPO (2010) Oidium mangiferae. Distribution Maps of Plant Diseases No. 1081. CABI Head Office, Wallingford, UK. ISSN 0012-396X© CAB International 2010 CABI is a trading name of CAB International April 2010 Oidium mangiferae Map No. 1081 (Edition 1) Records are based on bibliographic data from the CAB ABSTRACTS database, specimens in the IMI fungus collection and plant quarantine information compiled by EPPO X: Present, no details A: Present: widespread B: Present, restricted distribution C: Present, few occurrences (D): Absent, formerly present (E): Eradicated (F): Intercepted only EUROPE Tiwari, R. K. S.; Ashok Singh; Rajput, M. L.; Bisen, R. K. (2006) Advances in Plant Sciences 19 (1), 181-183. Greece - X IMI (1990) [Pachmarhi]. Crete X Bourbos, V. A.; Skoudridakis, M. T. (1995) Plant Disease 79 (10), 1075. [First record. Glasshouse only.] Maharashtra X Arora, R. K.; Ramanatha Rao, V. (eds) (1998) Proceedings of the IPGRI-ICAR-UTFANET Regional Training Course on the Conservation and Use of Germplasm of Tropical Fruits in Asia, Bangalore, Spain - X India, 18-31 May 1997. International Plant Genetic Resources Institute, Rome, Italy. Canary Islands X Hernandez Hernandez, J.; Gallo Llobet, L.; Jaizme Vega, M. C. (1985) Anales del Instituto Nacional Khaire, V. A.; Kolhe, D. S.; Patil, J. D. (1987) Haryana Journal of Horticultural Sciences 16 (3-4), de Investigaciones Agrarias, Agricola 28 (Suppl.), 171-180. 214-217. [Ganeshkhind.] Punjab X Arora, R. K.; Ramanatha Rao, V. (eds) (1998) Proceedings of the IPGRI-ICAR-UTFANET Regional ASIA Training Course on the Conservation and Use of Germplasm of Tropical Fruits in Asia, Bangalore, India, 18-31 May 1997. International Plant Genetic Resources Institute, Rome, Italy. Bangladesh - X ProMED (2009) Mildew, mango - Bangladesh: (Rajshahi). Archive no.: 20090614.2207. http://www.promedmail.org. [Chapainawabganj district.] Verma, K. S.; Kaur, D. R. (1997) Plant Disease Research 12 (1), 28-29. China - X Li, G. Z.; Qin, D. G.; Wang, Y. L. (2003) South China Fruits 32 (3), 38. Sikkim X Srivastava, L. S. (2000) Journal of Hill Research 13 (1), 41. Guangdong X Zhuang, W. Y. (ed) (2001) Higher Fungi of Tropical China. Mycotaxon Ltd., Ithaca, NY, USA, 485 Tamil Nadu X Arora, R. K.; Ramanatha Rao, V. (eds) (1998) Proceedings of the IPGRI-ICAR-UTFANET Regional pp. Training Course on the Conservation and Use of Germplasm of Tropical Fruits in Asia, Bangalore, India, 18-31 May 1997. International Plant Genetic Resources Institute, Rome, Italy. Yunnan X Zhuang, W. Y. (ed) (2001) Higher Fungi of Tropical China. Mycotaxon Ltd., Ithaca, NY, USA, 485 pp. Bappammal, M.; Hosagoudar, V. B.; Udaiyan, K. (1995) New Botany 22, 81-175. [Source: http://nt.ars-grin.gov/fungaldatabases.] India - X Arora, R. K.; Ramanatha Rao, V. (eds) (1998) Proceedings of the IPGRI-ICAR-UTFANET Regional Training Course on the Conservation and Use of Germplasm of Tropical Fruits in Asia, Bangalore, Uttar Pradesh X Arora, R. K.; Ramanatha Rao, V. (eds) (1998) Proceedings of the IPGRI-ICAR-UTFANET Regional India, 18-31 May 1997. International Plant Genetic Resources Institute, Rome, Italy. Training Course on the Conservation and Use of Germplasm of Tropical Fruits in Asia, Bangalore, India, 18-31 May 1997. International Plant Genetic Resources Institute, Rome, Italy. Paul, Y. S.; Thakur, V. K. (2006) Indian Erysiphaceae. Scientific Publishers (India), Jodhpur, India, 134 pp. [On monkeybush (Abutilon indicum). Source: http://nt.ars-grin.gov/fungaldatabases.] Misra, A. K. (2001) Journal of Applied Horticulture (Lucknow) 3 (1), 63-68. [Lucknow.] Prakash, O. (2004) In: Diseases of Fruits and Vegetables Volume I (Ed. by Naqvi, S.A.M.H.), 511- Misra, A. K.; Prakash, O. M.; Ramasubramanian, V. (2004) Indian Journal of Agricultural Sciences 619. Springer Netherlands, Amsterdam, Netherlands. 74 (2), 84-87. [Lucknow.] Andhra Pradesh X Arora, R. K.; Ramanatha Rao, V. (eds) (1998) Proceedings of the IPGRI-ICAR-UTFANET Regional Uttarakhand X Azizur Rahman, S. K. M.; Gajendra Singh (2002) Indian Journal of Plant Protection 30 (1), 63-66. Training Course on the Conservation and Use of Germplasm of Tropical Fruits in Asia, Bangalore, [Pantnagar.] India, 18-31 May 1997. International Plant Genetic Resources Institute, Rome, Italy. West Bengal X Kaiser, S. A. K. M.; Saha, B. (2005) Journal of Mycopathological Research 43 (2), 233-237. Delhi X Sinha, P.; Anupam Varma (2002) Annals of Plant Protection Sciences 10 (2), 291-294. [New Delhi.] Ray, S. K. (2003) Journal of Mycopathological Research 41 (2), 153-155. Gujarat X Arora, R. K.; Ramanatha Rao, V. (eds) (1998) Proceedings of the IPGRI-ICAR-UTFANET Regional Iran - X Zakii, Z.; Ershad, D.; Safavi, M. (1993) Applied Entomology and Phytopathology 60 (1-2), 30. [Tis.] Training Course on the Conservation and Use of Germplasm of Tropical Fruits in Asia, Bangalore, Iraq - X IMI (1976). India, 18-31 May 1997. International Plant Genetic Resources Institute, Rome, Italy. Israel - X Palti, J.; Pinkas, Y.; Chorin, M. (1974) Plant Disease Reporter 58 (1), 45-49. Vala, D. G.; Solanky, K. U.; Desai, V. D.; Joshi, H. U. (1989) Acta Horticulturae 231, 544-548. Reuveni, M.; Harpaz, M.; Reuveni, R. (1998) European Journal of Plant Pathology 104 (9), 853-860. Haryana X Arora, R. K.; Ramanatha Rao, V. (eds) (1998) Proceedings of the IPGRI-ICAR-UTFANET Regional [Golan region.] Training Course on the Conservation and Use of Germplasm of Tropical Fruits in Asia, Bangalore, India, 18-31 May 1997. International Plant Genetic Resources Institute, Rome, Italy. Reuveni, M.; Reuveni, R. (1995) Crop Protection 14 (4), 311-314. Gupta, P. C.; Dang, J. K. (1980) Indian Phytopathology 33 (4), 631-632. Myanmar - X Thaung, M. M. (2007) Australasian Plant Pathology 36, 543-551. [Source: http://nt.ars- grin.gov/fungaldatabases.] Himachal Pradesh X Sharma, I. M. (1992) Plant Disease Research 7 (2), 282-283. Nepal - X Dahal, G.; Amatya, P.; Manandhar, H. (1992) Revue of Plant Pathology 71, 797-807. [Source: Jammu and X Arora, R. K.; Ramanatha Rao, V. (eds) (1998) Proceedings of the IPGRI-ICAR-UTFANET Regional http://nt.ars-grin.gov/fungaldatabases.] Kashmir Training Course on the Conservation and Use of Germplasm of Tropical Fruits in Asia, Bangalore, India, 18-31 May 1997. International Plant Genetic Resources Institute, Rome, Italy. IMI (1965) [Shreemahal]. Karnataka X Arora, R. K.; Ramanatha Rao, V. (eds) (1998) Proceedings of the IPGRI-ICAR-UTFANET Regional Pakistan - X Akhtar, K. P.; Khan, I. A.; Shakir, A. S.; Khan, S. M. (1998) Pakistan Journal of Phytopathology 10 Training Course on the Conservation and Use of Germplasm of Tropical Fruits in Asia, Bangalore, (1), 26-29. India, 18-31 May 1997. International Plant Genetic Resources Institute, Rome, Italy. Ihsan, J.; Ahmed, I.; Sajid, M. N.; Muhammad, F.; Saleem, A. (1999) Pakistan Journal of Desai, S. A. (1998) Karnataka Journal of Agricultural Sciences 11 (1), 244-245. Phytopathology 11 (1), 67-69. [Punjab.] ProMED (2009) Powdery mildew and undiagnosed fungus - India (Karnataka). Archive no.: ProMED (2007) Powdery mildew, mango - Pakistan. Archive no.: 20070611.1900. 20090326.1177. http://www.promedmail.org. http://www.promedmail.org. [Punjab.] Saju George; Hegde, M. R.; Paripurna, A.; Balakrishna, B.; Khandekar, N. (2008) Environment and Raheel, M.; Anwar, S. A.; Javed, N.; Ilyas, M. B.; Iqbal, M.; Zia, A. (2008) Pakistan Journal of Ecology 26 (4A), 1718-1721. [Sreenivaspura taluk, Kolar district.] Phytopathology 20 (1), 173-174. Madhya Pradesh X Arora, R. K.; Ramanatha Rao, V. (eds) (1998) Proceedings of the IPGRI-ICAR-UTFANET Regional Taiwan - X Anon. (1979) List of plant diseases in Taiwan. Plant Protection Society, Beijing, China, 404 pp. Training Course on the Conservation and Use of Germplasm of Tropical Fruits in Asia, Bangalore, [Source: http://nt.ars-grin.gov/fungaldatabases.] India, 18-31 May 1997. International Plant Genetic Resources Institute, Rome, Italy. Page 2 April 2010 Oidium mangiferae Map No. 1081 (Edition 1) Records are based on bibliographic data from the CAB ABSTRACTS database, specimens in the IMI fungus collection and plant quarantine information compiled by EPPO X: Present, no details A: Present: widespread B: Present, restricted distribution C: Present, few occurrences (D): Absent, formerly present (E): Eradicated (F): Intercepted only Thailand - X Limkaisang, S.; Cunnington, J. H.; Wui, L. K.; Salleh, B.; Sato, Y.; Divarangkoon, R.; Fangfuk, W.; McGuire, J. U. Jr.; Crandall, B. S. (1967) Survey of insect pests and plant diseases of selected food To-anun, W.; Takamatsu, S. (2006) Mycoscience 47, 327-335. [Source: http://nt.ars- crops of Mexico, Central America and Panama. International Agricultural Development Services, grin.gov/fungaldatabases.] ARS, USDA-AID, 157 pp. [Source: http://nt.ars-grin.gov/fungaldatabases.] Yemen - X IMI (1977). USA - X Anon. (2006) Importation of fresh mango fruit (Mangifera indica L.) from India into the continental United States: a qualitative, pathway-initiated pest risk assessment, APHIS-USDA, Raleigh, NC, USA, 99 pp. AFRICA California X BPI (1944) [Encinitas, San Diego County]. Egypt - X Nofal, M. A.; Haggag, W. M. (2006) Crop Protection 25 (5), 480-486. Florida X BPI (1934) [Ft. Myers]. IMI (1935) [Forashia]. Hawaii X Anon. (2009) Widely Prevalent Fungi of the United States. University of Georgia, Center for Invasive Ethiopia - X Castellani, E.; Ciferri, R. (1950) Mycoflora Erythraea, Somala et Aethipica Supplement 1. Atti Species and Ecosystem Health, Georgia, USA. http://www.prevalentfungi.org. dell'Istituto Botanico e del Laboratorio Crittogamico dell'Universita di Pavia, Pavia, Italy, 52 pp. ProMED (2009) Powdery mildew, mango - USA (Hawaii).
Load more

Recommended publications
  • Evaluation of Certain Mineral Salts and Microelements Against Mango Powdery Mildew Under Egyptian Conditions
    Journal of Phytopathology and Pest Management 3(3): 35-42, 2016 pISSN:2356-8577 eISSN: 2356-6507 Journal homepage: http://ppmj.net/ Evaluation of certain mineral salts and microelements against mango powdery mildew under Egyptian conditions Fatma A. Mostafa*, S. A. El Sharkawy Plant Pathology Research Institute, Agricultural Research Center, Giza, Egypt. Abstract During the two successive seasons 2014 and 2015, three mineral salts used as commercial fertilizers (Potassium di -hydrogen orthophosphate, Potassium bicarbonate (85%), Calcium nitrate (17.1%)) and four microelements (Magnesium sulfate, Iron cheated (Fe-EDTA 6%), Zinc cheated (Zn-EDTA 12%), Manganese cheated (Mn-EDTA 12%)) were evaluated against powdery mildew of mango caused by Oidium mangiferea. Data obtained showed that all materials reduced significantly the disease severity percentage of mango powdery mildew disease comparing the control. Compared fungicides; Topsin M 70 (Thiophanate methyl) and Topas 10% (Penconazole) showed the most superior effect against the disease followed by potassium di-hydrogen orthophosphate. Tested microelements were arranged as zinc, iron and manganese, respectively due to their efficiency. Calcium nitrate and magnesium sulfate revealed the less effect. Evaluated microelements showed the higher efficacy than mineral fertilizers during the two experimental seasons except potassium monophosphate. While, two compared fungicides were the most efficiency to control the disease, tested materials reduced significantly the disease severity of mango powdery mildew disease and showed ability to reduce the number of required applications with conventional fungicides. Key words: Mango, powdery mildew, mineral salts, microelements, thiophonate methyl, penconazole. Copyright © 2016 ∗ Corresponding author: Fatma A. Mostafa, E-mail: [email protected] 35 Mostafa Fatma & El Sharkawy, 2016 Introduction addition, plant diseases play a limiting role in agricultural production.
    [Show full text]
  • Mangifera Indica L.) DEL BANCO DE GERMOPLASMA DEL INIA-CENIAP, MARACAY
    Bioagro 28(3): 201-208. 2016 DIVERSIDAD DE HONGOS EN CINCO CULTIVARES DE MANGO (Mangifera indica L.) DEL BANCO DE GERMOPLASMA DEL INIA-CENIAP, MARACAY Carlos Pacheco1, María Suleima González2 y Edward Manzanilla2 RESUMEN El Campo Experimental del INIA-CENIAP, en Maracay, Venezuela, dispone de un banco de germoplasma con una elevada diversidad de cultivares de mango, pero en años recientes se ha detectado la muerte de gran cantidad de árboles en diferentes accesiones. Entre los factores asociados se encuentran la ocurrencia de enfermedades, particularmente las inducidas por hongos. Este trabajo tuvo como objetivo determinar la diversidad de hongos en hojas y ramas en los cultivares Criollo, Hadden, Hilacha, Kent y Tommy Atkins. Para cada cultivar se evaluaron cinco plantas y en cada árbol se tomaron al azar muestras de diez hojas provenientes de cinco ramas. Los hongos en sustrato natural fueron identificados por comparación de las estructuras de valor taxonómico, con la literatura especializada. Se registró la riqueza y se calcularon los índices de frecuencia, diversidad de Shannon-Wierner y de Margalef, equitatividad de Pielou y similaridad de Sorensen. La riqueza total resultó en 48 especies. El cultivar Kent presentó la mayor riqueza, y los más altos índices de diversidad y equitatividad. Los cultivares con mayor similaridad fueron Kent y Tommy Atkins. Se registran por primera vez Anopletis venezuelensis y Neofusicoccum mangiferae en hojas y N. parvum en ramas, asociado a muerte de éstas en mango. Palabras clave adicionales: Abundancia, equitatividad, índices de diversidad, Mangifera indica, riqueza, similaridad ABSTRACT Fungi diversity in five mango cultivars from germplasm bank of INIA-CENIAP, Maracay The experimental field of the Centro Nacional de Investigaciones Agropecuarias (CENIAP), INIA, Maracay, Venezuela, poses a germplasm bank, with a very high mango diversity, but lately, the death of several accessions has been detected.
    [Show full text]
  • Symptoms: Pathogen Attacks the Inflorescence, Leaves, Stalk of In
    IPM - SCHEDULE ON MANGO 1. Powdery mildew (Oidium mangiferae ) Symptoms: Pathogen attacks the inflorescence, leaves, stalk of inflorescence and young fruits with white superficial powdery growth of fungus resulting in its shedding. The sepals are relatively more susceptible than petals. The affected flowers fail to open and may fall prematurely (Fig 1). Dropping of unfertilized infected flowers leads to serious crop loss. Initially young fruits are covered entirely by the mildew. When fruit grows further, epidermis of the infected fruits cracks and corky tissues are formed. Fruits may remain on the tree until they reach up to marble size and then they drop prematurely (Fig 2 & 3.). Fig 1. Mildew on flowers Fig 2. Mildew on fruits / pedicel Fig 3. Necrotic lesions on shoulder Fig 4. Mildew on Lower Surface of and dropping from stalk end Leaf Infection is noticed on young leaves, when their colour changes from brown to light green. Young leaves are attacked on both the sides but it is more conspicuous on the grower surface. Often these patches coalesce and occupy larger areas turning into purplish brown in colour (Fig. 4). The pathogen is restricted to the area of the central and lateral veins of the infected leaf and often twists, curl and get distorted. Management • Prune diseased leaves and malformed panicles harbouring the pathogen to reduce primary inoculum load. • Spray wettable sulphur (0.2%) when panicles are 3-4” in size. • Spray dinocap (0.1%) 15-20 days after first spray. • Spray tridemorph (0.1%) 15-20 days after second spray. • Spraying at full bloom needs to be avoided.
    [Show full text]
  • Effect of Powdery Mildew on Mango Chlorophyll Content and Disease Control
    Egypt. J. Agric. Res., 92 (2), 2014 451 EFFECT OF POWDERY MILDEW ON MANGO CHLOROPHYLL CONTENT AND DISEASE CONTROL ABO REHAB, M. E. A., NADIA A. SHENOUDY AND H.M.ANWAR Plant Pathol. Res. Inst., ARC, Giza, Egypt (Manuscript received 3 March 2013) Abstract Powdery mildew caused by Oidium mangiferae is a serious disease of Mango. Survey of the disease was conducted during seasons 2011 and 2012 in Sharkeya, Behera, Ismailía and Giza as well as Noubareya district. The highest disease severity (%) was observed in Ismailía being (46.6%) and the lowest in Giza (23.6%). Five different fungicides namely Punch, Bayleton, Kema-Z, Colis, Billis and one biocide ( AQ 10) were used as spraying treatments to control the disease on four Mango cultivars (Langara, Zebda, Alphonso and Fagri Kelan) grown at Noubareya district. Punch gave the highest efficiency in controlling the disease being (78.9 and 79.4% in 2011 and 2012, respectively) whereas AQ 10 gave the lowest efficiency (57.o % and 55.3%). Using the fungicides tested and the biocide maintained the chlorophyll content at comparative level with the healthy tissue. The untreated infected control showed reduced in chlorophyll content. The yield increased by using fungicides and biocides ranging from 307.4% to 35.5% depending on the treatment and cultivar. The increase in income occurred as a result of reducing disease severity which led to maintaining chlorophyll content and photosynthesis. INTRODUCTION Mango (Mangifera indica L.) is universally one of the most popular edible fruit crops. In Egypt, the areas cultivated reached 222838 feddans (169068 feddan as fruiting trees) with an approximate production of 598084 metric tons (Anonymous, 2011).
    [Show full text]
  • 3Ijilosopi)J> E! R in {{ BOTANY
    STUDIES ON POWDERY MILDEWS OF SOME ECONOMICALLY IMPORTANT CRUCIFEROUS PLANTS DISSERTATION SUBMITTED IN PARTIAL FULFILMENT OF THE REQUIREMENTS FOR THE AWARD OF THE CERTIFICATE OF / iWaisiter of |3ijiloSopi)j> E! r IN {{ BOTANY ^A BY PUNIT VARSHNEY DEPARTMENT OF BOTANY ALIGARH MUSLIM UNIVERSITY ALIGARH (INDIA) 2000 \ Ace. N<j *'-v,..i u.i' DS3147 €di(Xjd€€l to of Dr. MOHD. AKRAM /^^\ Mycology and Plant Pathology M.sc.Ph.D. (Alio) F.P.s. 1: F.B s CIcEl)*) Laborotories ^^?*^/ DEPARTMENT OF BOTANY Principal Investigator -^>s^£^ ALIGARH MUSLIM UNIVERSITY UGC. (Mildew) Project ALIGARH-202001 (INDIA) Re^.No - •P"'^'^- /^A//>^^/ Certificate /d id to certlttA tkat Ifl/lv. J-^vivilt warikneiA had worked in tkid department a6 a iKeiearck S^ckolar under miA 6uperui6ion and auidance. ^J^i6 work Studied on powderij mildew of dome economicallu important cruciferoud planti id upto-date and oriaina allowed to dul?mit kid diddertation for tke condideration of tke award of tke ,Jjeqree of l/vladter of j-^kilodopku in U^otaniA. cttdeStfte^A to^ nuf ^c^fiected M^'wUon., 'Di. 'VtoAd. ;4^%CMt. I^eciciei m tAe 'Dcfi^%tm€*tt o^ 3otcM4f. /iiCc^'tA ^)ftc(4lCtK 7iitiu€n^<ttf, ;4Uc^nA dediccLtiatt to c<^a%^. 'r^C^ ^dtcence <iftd ^tfmpdtnctic attitude aa-d catitcKuau^ CtiteicAt n^ue (^nrCatitf CitA^Oied mc in co^tnfi^ictifK^ t^C^ a^ *Dcp'<i%tM,e(i.t a^ ^otci^tttf ^a^ fr%a(Kdc*t^ mc ^cUX^^ie tci6-(^%aX(^%(f. attd <iemcftai ^ccUtce<i^. ^ am c^%cct,tt(f t^tt^^(d t(y <iU t^e %e^ficcted teac^itic^ a,</td ttatt te<^c^c(tc^ <it<i^^ ^<^% meii ^eifi and e«tco^cc%<x<ji^eM'etit dwimc^ w^ dtudie^ avtd t<^ M m(f deal lj%ieMd<i.
    [Show full text]
  • Universiv Micronlms Intemationcil Q U I N N , Ja M E S Ali E N
    INFORMATION TO USERS This was produced from a copy of a document sent to us for microfilming. While the most advanced technological means to photograph and reproduce this document have been used, the quality is heavily dependent upon the quality of the material submitted. The following explanation of techniques is provided to help you understand 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 tiie 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 you of complete continuity. 2. When an image on the Him is obliterated with a round black mark it is an indication that the film inspector noticed either blurred copy because of movement during exposure, or duplicate copy. Unless we meant to delete, copyrighted materials that should not have been filmed, you will find a good image of the page in the adjacent f ame. 3. When a map, drawing or chart, etc., is part of the material being photo­ graphed the photographer has followed a definite method in “sectioning” the material. 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. 4. For any illustrations that cannot be reproduced satisfactorily by xerography, photographic prints can be purchased at additional cost and tipped into your xerographic copy.
    [Show full text]
  • Fungicide Efficacy for Control of Mango Powdery Mildew Caused By
    et International Journal on Emerging Technologies 12 (1): 80-86(2021) ISSN No. (Print): 0975-8364 ISSN No. (Online): 2249-3255 Fungicide efficacy for control of Mango Powdery Mildew caused by Oidium mangiferae Abdul Qayoom Majeedano 1,2 , Absar Mithal Jiskani 1,* , Muhammad Ibrahim Khaskheli 3, Muhammad Mithal Jiskani 1, Tariq Majidano 4 and Sayed Sajjad Ali Shah 1 1Department of Plant Pathology, Sindh Agriculture University, Tandojam, Pakistan. 2Department of Forest Protection, Collage of Forestry, Sichuan Agriculture University, Chengdu, China. 3Department of Plant Protection, Sindh Agriculture University, Tandojam, Pakistan. 4Department of Plant Breeding and Genetics, Sindh Agriculture University, Tandojam, Pakistan. (Corresponding author: A. M. Jiskani) (Received 26 September 2020, Revised 23 December 2020, Accepted 20 January 2021) (Published by Research Trend, Website: www.researchtrend.net) ABSTRACT: Mango is vulnerable to numerous diseases at all stages of development. Among these diseases, powdery mildew caused by Oidium mangiferae is one of the most serious and widespread disease. The purpose of this study was to investigate the efficacy of different fungicides on Mango powdery mildew. The experiment was conducted on four different varieties, viz. Sindhri (V1), Siroli (V2), Dasehri (V3), and Chunsa (V4) grown in four different mango orchards located in Tando Allah Yar, Pakistan. A total of four fungicides, i.e., Cabriotop at Ghaffar Bachani Agriculture Farm (Farm 1), Correct at Shah Agriculture Farm (Farm 2), Nativo at Hyder Shah Fruit Farm (Farm 3) and Topas at Anwar Bachani Agriculture & Fruit Farm (Farm 4) were applied to evaluate their performance by determining disease incidence percent (DI %) and disease severity index (DSI) for susceptibility/resistance of different varieties in order to study the efficacy of different fungicides on Mango powdery mildew caused by Oidium mangiferae .
    [Show full text]
  • Redalyc.Powdery Mildews in Agricultural Crops of Sinaloa: Current Status on Their Identification and Future Research Lines
    Revista Mexicana de Fitopatología E-ISSN: 2007-8080 [email protected] Sociedad Mexicana de Fitopatología, A.C. México Félix-Gastélum, Rubén; Maldonado-Mendoza, Ignacio Eduardo; Beltran-Peña, Hugo; Apodaca-Sánchez, Miguel Ángel; Espinoza-Matías, Silvia; Martínez-Valenzuela, María del Carmen; Longoria- Espinoza, Rosa María; Olivas-Peraza, Noel Gerardo Powdery mildews in agricultural crops of Sinaloa: Current status on their identification and future research lines Revista Mexicana de Fitopatología, vol. 35, núm. 1, enero, 2017, pp. 106-129 Sociedad Mexicana de Fitopatología, A.C. Texcoco, México Available in: http://www.redalyc.org/articulo.oa?id=61249777006 How to cite Complete issue Scientific Information System More information about this article Network of Scientific Journals from Latin America, the Caribbean, Spain and Portugal Journal's homepage in redalyc.org Non-profit academic project, developed under the open access initiative Powdery mildews in agricultural crops of Sinaloa: Current status on their identification and future research lines Las cenicillas en cultivos agrícolas de Sinaloa: Situación actual sobre su identificación y líneas futuras de investigación 1Rubén Félix-Gastélum*, 2Ignacio Eduardo Maldonado-Mendoza, 1Hugo Beltran-Peña, 1Miguel Ángel Apodaca-Sánchez, 4Silvia Espinoza-Matías, 1María del Carmen Martínez-Valenzuela, 3Rosa María Lon- goria-Espinoza, 1Noel Gerardo Olivas-Peraza, 1Universidad de Occidente, Unidad Los Mochis, Departamen- to de Ciencias Biológicas, Blvd. Macario Gaxiola y Carretera Internacional s/n, CP 81223. Los Mochis, Sina- loa, México; 2Instituto Politécnico Nacional (IPN), Departamento de Biotecnología Agrícola, CIIDIR-Sinaloa. Blvd. Juan de Dios Bátiz Paredes Nº 250, CP 81101. Guasave, Sinaloa, México; 3Universidad de Occidente, Unidad Guasave, Departamento de Ciencias Biológicas, Av. Universidad s/n, CP 81120.
    [Show full text]
  • Some Common Diseases of Mango in Florida
    Plant Pathology Fact Sheet PP-23 Some Common Diseases of Mango in Florida Ken Pernezny and Randy Ploetz, Professor of Plant Pathology, Everglades Re- search & Education Center, Belle Glade, Fl 33430; and Professor of Plant Pathol- ogy, Tropical Research and Education Center, Homestead,Fl 33031 University of Florida, 1988, Revised March 2000. Florida Cooperative Extension Service/ Institute of Food and Agricultural Sciences/ University of Florida/ Christine Waddill, Dean The mango (Mangifera indica), produces tissue is young when originally infected, spots a tree fruit well-known and widely consumed can enlarge to form extensive dead areas (Fig. throughout the tropical world. Demand for 2). Lesions that begin in older leaves are usu- mangoes is increasing in Florida as more ally smaller with a maximum diameter of 1/2 people become aware of its unique flavor and inch (6 mm); they appear as glossy dark brown as the Latin American population grows. to black angular spots. Fruit infection commonly occurs and can re- The number of diseases affecting mango sult in serious decay problems in the orchard, in Florida is relatively small but can seriously in transit, at the market, and after sale. The fun- limit production if not adequately controlled. gus invades the skin of fruit and remains in a This fact sheet concentrates on the symptoms “latent” (a living but nonsymptom-producing) of the important mango diseases, the weather state until fruit ripening begins. Ripe fruit, ei- conditions conducive to disease development, ther before or after picking, can then develop and methods for control. Due to frequent prominent dark-brown to black decay spots changes in the availability and use restrictions (Fig.
    [Show full text]
  • Fungal Pathogens of Mango (Mangifera Indica L.) Inflorescences1,2 Lydia I
    Fungal pathogens of mango (Mangifera indica L.) inflorescences1,2 Lydia I. Rivera-Vargas3, Manuel Pérez-Cuevas4, Irma Cabrera- Asencio5, María R. Suárez-Rozo6 and Luz M. Serrato-Díaz7 J. Agric. Univ. P.R. 104(2):139-164 (2020) ABSTRACT This is the first comprehensive study to identify fungal pathogens of mango (Mangifera indica L.) inflorescences in Puerto Rico. A total of 452 mango inflorescences were collected from four cultivars at seven developmental stages during two blooming seasons. Samples were gathered from the germplasm collection at the Agricultural Experiment Station of the University of Puerto Rico in Juana Díaz, Puerto Rico. Eight different symptoms were observed: cankers, flower abortion, powdery mildew, rachis necrotic lesions, rachis soft rot, tip blight, vascular wilt, and insect perforations with necrotic borders. Necrosis was the most prevalent symptom (47%), followed by powdery mildew (19%) and tip blight (6%). Symptoms of malformation were never observed in the field. Using a modified Horsfall and Barratt scale, data on all mango cultivars pooled from two blooming seasons showed that the full bloom stage, the last inflorescence developmental stage (G), displayed the highest mean disease severity (42.67%). This severity value was significantly higher than those of the other developmental stages evaluated (P<0.05). Early inflorescence developmental stages were asymptomatic or showed the lowest percentage of disease severity. An ANOVA was performed to compare disease severity among all mango cultivars regardless of developmental stage. Results showed that there were significant differences (P<0.05) between mean disease severity of cultivars ‘Parvin’ and ‘Haden’. Mean disease severity was higher in ‘Haden’ (20%) when compared to ‘Parvin’ (10.7%).
    [Show full text]
  • A Revised List of South African Erysiphaceae (Powdery Mildews) and Their Host Plants
    566 S.Afr.J.Bot., 1993, 59(6): 566 - 568 A revised list of South African Erysiphaceae (powdery mildews) and their host plants G.J.M.A. Gorter Mycology Unit, Biosystematics Division, Plant Protection Research Institute, Private Bag X134, Pretoria, 0001 Republic of South Africa Received 17 May 1993; revised 5 July 1993 A new list of South African Erysiphaceae, wh ich includes nomenclatural changes and newly recorded species and host plants, is presented with a few introductory remarks. 'n Nuwe Iys van Suid-Afrikaanse Erysiphaceae word aangebied wat behalwe nomenklatuurveranderings en nuut aangetekende spesies en gasheerplante, ook enkele inleidende opmerkings bevat. Keywords: Erysiphaceae, host plants, South Africa. Introduction be maintained as a separate species. The more recently The monumental new monograph of the Erysiphales by described P. cassiae Gorter & Eicker (1986) and P. gorteri Braun (1987), a publication which only recently became Eicker (1988) have aberrant spore shapes as well and are available to the author, has necessitated some nomenclatural therefore considered separate taxa. changes in the scientific names recorded by me in my com­ With regard to Uncinula praeterita Marasas & Schumann, pilation of South African powdery mildew fungi published after due consideration of all taxonomically relevant fea­ in 1988 (Gorter 1988). The description of new local taxa tures, I am of the opinion that Braun has been premature in (Eicker 1988; Gorter 1989b; Gorter & Marasas 1988) as giving it the status of a variety of Uncinula udaiparensis well as the recording of more host plants, of which some Bhatnagar & Kothari. Although both Uncinulas are no doubt have already been published (Gorter 1989a), are additional closely related, there are clear differences in the size of the reasons for presenting a new list.
    [Show full text]
  • Inheritance of Resistance to Dieback Disease in Mango (Mangifera Indica)
    AJCS 12(03):467-471 (2018) ISSN:1835-2707 doi: 10.21475/ajcs.18.12.03.pne949 Inheritance of resistance to dieback disease in mango (Mangifera indica) Washington Carvalho Pacheco Coelho1, Carlos Antonio Fernandes Santos2*, Diogenes da Cruz Batista2 2017 - 1State University of Feira de Santana, State of Bahia, Brazil NOV - 2Brazilian Agricultural Research Corporation (Embrapa Semiarid), Petrolina, State of Pernambuco, Brazil 08 *Corresponding author: [email protected] Abstract The fungi Lasiodiplodia theobromae and Neofusicoccum parvum are pathogens responsible for causing dieback disease in mangoes. 2017 | ACCEPTED: 2017 | - Studies on the inheritance of resistance to these fungal diseases in mango are quite limited. The objective of the present study was OCT to evaluate the inheritance of resistance to dieback disease in three pseudo-F2 progenies to assist in mango breeding programs. - 3 6 1 Young branches containing young leaves were selected, and suspension of 10 conidia/mL of L. theobromae or N. parvum was sprayed separately. After inoculation, leaves were protected in a plastic wet chamber for 48 hours. The infection was estimated by taking the branches without symptoms/total number of inoculated branches. Plants without disease symptoms in more than 90% of the branches, in three different inoculation periods, were considered as resistant. Keitt, Haden, and Espada cultivars were | REVISED: resistant to both fungi, while 'Tommy Atkins' was susceptible to both pathogens. Monogenic resistance, conferred by recessive alleles, was observed for L. theobromae for the three crossings evaluated, despite the 13:3 segregation detected for 'Keitt' x 2017 - 'Tommy Atkins'. For N. parvum, recessive resistance with 3:1 monogenic segregation was observed in the crossing 'Keitt' x 'Tommy Atkins', and 9:7 epistatic segregation was reported in the crossing ‘Haden’ x ‘Tommy Atkins’ and ‘Espada x ‘Tommy Atkins’.
    [Show full text]