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Mungbean diseases caused by fungi, bacteria, nematodes, viruses, and mycoplasma and their control are reviewed. (THH] *0041 lwaki, M. 1979. Virus and mycoplasma diseases of leguminous crops in Indonesia. REVIEW OF PLANT PROTECTION RESEARCH, v.11:88-96, LEnJ (A:PS) Ten viruses and one mycoplasma-like disease of leguminous crops in Indonesia are described. Mungbean was infected by bean yellow mosaic virus and mungbean mosaic virus. tTHHJ *0042 Chinsawangwatanakul, A. ; Surin, P. 1980. Mungbean diseases in Thailand [Abst.j. IN: The second southeast Asian symposium on plant diseases in the tropics; Program and abstracts. Bangkok : Faculty of Agriculture, Kasetsart University. p.80 [Enj (REP.MB-2745) MEETING: Southeast Asian Symposium on Plant Diseases in the Tropics, 2nd -- Bangkok, Thailand, Oct 20-26, 1980 Two kinds of mungbean are commonly grown in Thailand, Vigna radiata and Vigna mungo. Vigna radiata is grown in larger quantities acerages than Vigna mungo. The major mungbean-producing area in Thailand is the central region. Mungbean is grown both in the wet and dry seasons. Diseases of Vigna radiata are more commonly reported. Cercospora leaf spot kCercospora canescens Ellis & Martin) is more destructive in the wet season, powdery mildew (Oidium sp.) is important in the dry season. In the wet season, damping off (Pythium sp., Sclerotium sp.), Pythium blight, flower and pod rot (Choanephora sp.), and anthracnose (Colletotrichum sp.) are commonly found. Charcoal rot (Rhizoctonia bataticola Taub) is observed at various growth stages of mungbean under water stress. On sandy loam soils in some areas of U-thai thani and Lopburi Province, root-knot nematode (Meloidogyne incognita) attacks mungbee.a which is grown after a corn planting with abundant weeds. In 1977, mungbean yellow mosaic virus invaded over 1,600 hectares of Vigna radiata in Kampang Phet Province and caused complete yield losses as reported by the local authority. Minor diseases, i.e., witches'broom, iron deficiency, and a few unknown diseases were also reported. !ASJ *0043 Thind, B.S. 1982. Control of Cercospora leaf spot, bacterial leaf spot and leaf reddening of mung bean by a common spraying schedule. INDIAN JOURNAL OF MYCOLOGY AND PLANT PATHOLOGY, v.12(I):129. [Eni (REP.MB-2643) Among the leaf diseases of mungbean, bacterial leaf spot (BLS), Cercopsora leaf spot (CLS), and leaf reddening are of great economic importance and cause heavy losses to the crops. Five chemicals were tried for 3 years at two different locations. Two sprays of Streptocycline + Bavistin followed by 2 sprays of Streptocycline + Bliotox at an interval of 10 days effectively controlled BLS, CLS and leaf reddening of mungbean. [THHJ *0044 Nawaz, R.M.S. ; Narayanasamy, P. 1983. Interaction on powdery mildew and leaf crinkle virus of black gram. MADRAS AGRICULTURAL JOURNAL, v.70(7):487-488. JEnJ (A:PS) 11
There was no difference in the development of powdery mildew between control and leaf crinkle virus infected plants. [THHJ *0045 Chatrath, M.S. ; Gupta, J.P. ; Chiranjeevi, V. 1984. Uptake and distribution of carbendazim in urd bean (Vigna mungo (L.) Hepper) following seed treatment. JOURNAL OF NUCLEAR AGRICULTURE AND BIOLOGY, v.13(3):74-77. [EnJ [En Abstj (REP.MB-2626) Direct evidence of uptake and translocation of carbendazim in blackgram (Vigna mungo) was obtained using both non-labelled and 14C-labelled carbendazim. The chemical moved unaltered into the above ground tissue from the seed and could be detected in plants only upto 30 days. There was high accumulation of 1 4 C-carbendazim in cotyledons of 7-day old seedlings as compared to hypocotyl and other aerial parts. [AS] *0046 Singh, P.P. ; Thind, B.S. 1984. Interaction between Xanthomonas campestris pv. vignaeradiatae (Sabet et al.) Dye, and Cercospora canescens Ell. et Hart. on mungbean in relation to disease development. PHYTOPATHOLOGIA MEDITERRANEA, v.23(i):75-76. [Enj (REP.MB-2707) On one-month-old mungbeans cv. ML 5 grown in pots, the disease intensity of Cercospora canescens was higher than that of Xanthomonas campestris when both pathogens were inoculated either simultaneously or one after the other. Total sugars, total phenols and protein content were higher in leaves infected with the bacterium alone than other treatments which included inoculation with C. canescens. Protease activity was higher in treatments which included inoculation with the fungus, whereas cellulase activity was similar in all treatments. C. canescens produced, both in vivo and in vitro, a toxin thought to be cercosporia. [THH] *0047 Thurston, H.D. 1984. Hungeans. IN: Thurston, H.D. Tropical plant diseases. St. Paul, MN : American Phytopathological Society. p.101 [En] (SB605.T7T49) There art a large number of pathogens which attack mungbean and blackgram in tropical and subtropical Asia. The most important diseases of mungbean and blackgram are fungi such as Uromyces appendiculatus (rust), Erysiphe polygoni (powdery mildew), Cercospora canescens and C. cruenta (leaf spots), bacteria such as Pseudomonas phaseolicola (halo blight), and several viruses of which mungbean yellow mosaic virus is the most important. [THHJ *0048 Ventura, W. ; Watanabe, I. ; Komaaa, H. ; Nishio, M. ; de la Cruz, A. ; Castillo, M.B. 1984. Soil sickness caused by continuous cropping of upland rice, mungbean, and other crops. IRRI RESEARCH PAPER SERIES, no.99:1-13. [En] (A:PS) Continuous monoculture reduced the growth and yield of rice, mungbean, and cowpea. Growth inhibition began with the second crop and increased with succeeding crops. Crop performance tended to improve slightly after extremely poor cropping seasons. No soil sickness was observed in the rice-mungbean rotation. Detrimental effects of continuous cropping were more apparent at 12
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yield. [TjIH] *0726 Chakravarthy, A
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*0732 Wolfenbarger, D. ; Sleesman,
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egards to the percentage of adult e
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*0746 Prasad, D. ; Premchand 1980.
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feature caused by thrips, Megalurot
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Trials were conducted to test the r
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*0768 Gokhale, V.G. 1973. Developme
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(P. vulgaris L.) and cowpea [Vigna
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iiAhibited when coconut and mustard
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57.55% in the seeds infested by C.
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incubator at 25 [plus or minus] 2 C
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AUTHOR INDEX *** Abu Bakar, A.K.B.
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AUTHOR INDEX *** Chang, L.H. -- 051
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AUTHOR INDEX *** Govier, D.A. -- 02
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Kaushik, H.D. - 0584 Keswani, C.L.
Page 31 and 32:
Mew, 1.2. -- 0394 Mew, i J. -- 0518
Page 33 and 34: *** AUTHOR INDEX *** Pieters, W.H.J
Page 35 and 36: AUTHOR INDEX *** Sahu, R.C. -- 0117
Page 37 and 38: AUTHOR INDEX ** Singh, Ram -- 0682
Page 39 and 40: *** AUTHOR INDEX *** van der Goot,
Page 41 and 42: *** SUBJECT INDEX *** ABSORPTION -
Page 43 and 44: *** SUBJECT INDEX *** BEAN APHID --
Page 45 and 46: *** SUBJECT INDEX *** CERCOSPORA CA
Page 47 and 48: *** SUBJECT INDEX *** CRICONEMOIDES
Page 49 and 50: *** SUBJECT INDEX *** EMPOASCA TERM
Page 51 and 52: *** SUBJECT INDEX *** 0275 0277 029
Page 53 and 54: *** SUBJECT INDEX *** LEAF-EATING I
Page 55 and 56: x** SUBJECT INDEX *** MUNG-URD MOSA
Page 57 and 58: *** SUBJECT INDEX *** PEANUT OIL --
Page 59 and 60: PLUSIA ORICHALCEA -- 0658 PLUTARCHI
Page 61 and 62: *** SUBJECT INDEX *** ROOT-KNOT NEM
Page 63 and 64: ** SUBJECT INDEX *** 0774 0775 0776
Page 65 and 66: *** SUBJECT INDEX *** VIRULENCE --
Page 67 and 68: Diseases and Insect Pests of Mungbe
Page 69 and 70: Suggested citation: Diseases ana in
Page 71 and 72: G) NEMATODES - General 147 - Roo
Page 73 and 74: Document No. Author EXPLANTORY NOTE
Page 75 and 76: enhanced epiphytotic conditions. On
Page 77 and 78: Five breeding lines showed high lev
Page 79 and 80: DISEASES AND INSECT PESTS - BIBLIOG
Page 81 and 82: diseaae development and their contr
Page 83: lentil and peas. Gram, pigeonpeas a
Page 87 and 88: Yellow mosaic, leaf crinkle, tip ne
Page 89 and 90: *0058 Narayanasamy, P. ; Jaganathan
Page 91 and 92: Twelve varieties of blackgram were
Page 93 and 94: lines were resistant, 14 moderately
Page 95 and 96: germplasm of local, exotic, and mut
Page 97 and 98: DIGEST, v.3(3/4):182-184. [En] [En
Page 99 and 100: *0099 Singh, B.V. ; Ahuja, M.R. 197
Page 101 and 102: *0108 Yadav, H.C. ; Chand, J.N. ; S
Page 103 and 104: have been produced in mungbean whic
Page 105 and 106: Induced mutations for new plant typ
Page 107 and 108: Sabarmati (PIMS 4), a new variety o
Page 109 and 110: The results of the survey on viral
Page 111 and 112: p.17-1B LEn] (SB736.R3) Causal viru
Page 113 and 114: transmitted through seeds. [THH] -
Page 115 and 116: shrunken seed production was not in
Page 117 and 118: inoculation periods required for wh
Page 119 and 120: transmission. Pre- and post-acquisi
Page 121 and 122: *0187 Thongmeearkom, P. ; Kittipako
Page 123 and 124: virus. MICROBIOLOGY AND IMMUNOLOGY,
Page 125 and 126: *0201 Narayanasamy, P. ; Jaganathan
Page 127 and 128: spread of urdbean leaf crinkle dise
Page 129 and 130: y aphids (A. pisumn and A. craccivo
Page 131 and 132: A survey of different districts of
Page 133 and 134: symptomatology, physical properties
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v.77(2):249-257. [EnJ [En It AbstJ
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sedimentation of normal antibodies
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(REP.MB-2797) Mungbean mild mosaic
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were identified as natural hosts. I
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Blackgram mottle virus (BLMV) isola
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*0276 Capoor, S.P. ; Varma, P.M. 19
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transmission was prevented by antis
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*0293 Kaiser, W.J. ; Mossahebi, G.H
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apparently did not transmit the vir
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*0309 Provvidenti, R. 1986. Seed tr
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P. atropurpureus, D. lablab, D. bif
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where research work on improvement
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spot disease of urd bean (Phaseolus
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light. PHYTOPATHOLOGY, v.55:889-894
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*0343 Gaur, R.B. ; Ahmed, S.R. 1983
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plant growth. Maximum emergence of
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*0360 Thind, B.S. ; Kumar, I. 1980.
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of Agriculture, Los Banos, the Phil
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spot diseases on Vigna mungo, V. ra
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adiata, and Protomycopsis thirumala
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(REP.MB-1567) Four fungicides were
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diameter, and characterized by gray
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The conditions that produced maximu
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*0423 Prasad, K.S. ; Rao, P.R. ; Wa
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to be poor indicators of yield loss
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of infection to environmental condi
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*0448 Moghe, S.V. ; Utikar, P.G. ;
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The blackgram (Vigna mungo) crop in
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phenylJ-3-thioallopianate were comp
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ean seedling by Rhizoctonia solani
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Both a virulent and an avirulent is
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*0488 Wu, L.C. 1968. Nitrogen mobil
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the typical lesions appeared. The d
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complete inhibition of R. solani my
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aldolase activity declined in the i
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esistance to Rhizoctonia damping-of
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*0526 Rath, G.C. ; Routray, G.N. 19
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effective against R. solani. [AS] *
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*0543 Tripathi, H.S. ; Beniwal, S.P
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tests have yet to be performed to e
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fungistatic against some pathogens.
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Initially, protein declined in its
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Colletotrichum truncatum, Fusarium
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[En] [En Abst] (REP.tB-1924) Nemato
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plants. The root-knot index was cal
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*0595 Mishra, S.D. ; Gaur, H.S. 198
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mungbean. When the previously fallo
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more cysts on striate lespedeza and
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During the 1970 kharif season, inse
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do relatively little damage. A para
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mungo to injury by important insect
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MEETING: International Symposium on
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Seeds of mungbean were treated with
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eanfly (Ophiomyia phaseoli Tryon) a
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found to reach the tolerance level
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*0663 Lal, S.S. 1985. A review of i
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MEETING: Workshop [on' Kharif Pulse
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of mubean, Vigi a radiata (L.) Wilc
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Girault and Paratrigonogastra stell
Page 253 and 254:
Field trials were conducted to asse
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*0698 Distabanjong, K. 1984. Inheri
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v.43(5):514-516. [EnJ (REP.MB-19b2)
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phorate 10G, mephosfolan 5G, disulf
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crop. [THH] *0719 Chelliah, S. ; Ba
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