+ Most Popular
Cunninghamia lanceolata plantations in China
Mammalian lairs in paleo ecological studies and palynology
Studies on technological possibilities in utilization of anhydrous milk fat for production of recombined butter-like products
Should right-sided fibroelastomas be operated upon?
Large esophageal lipoma
Apoptosis in the mammalian thymus during normal histogenesis and under various in vitro and in vivo experimental conditions
Poissons characoides nouveaux ou non signales de l'Ilha do Bananal, Bresil
Desensitizing efficacy of Colgate Sensitive Maximum Strength and Fresh Mint Sensodyne dentifrices
Administration of fluid by subcutaneous infusion: revival of a forgotten method
Tundra mosquito control - an impossible dream?
Schizophrenia for primary care providers: how to contribute to the care of a vulnerable patient population
Geochemical pattern analysis; method of describing the Southeastern limestone regional aquifer system
Incidence of low birth weights in a hospital of Mexico City
Graded management intensity of grassland systems for enhancing floristic diversity
Microbiology and biochemistry of cheese and fermented milk
The ember tetra: a new pygmy characid tetra from the Rio das Mortes, Brazil, Hyphessobrycon amandae sp. n. (Pisces, Characoidei)
Risk factors of contrast-induced nephropathy in patients after coronary artery intervention
Renovation of onsite domestic wastewater in a poorly drained soil
Observations of the propagation velocity and formation mechanism of burst fractures caused by gunshot
Systolic blood pressure in a population of infants in the first year of life: the Brompton study
Haematological studies in rats fed with metanil yellow
Studies on pasteurellosis. I. A new species of Pasteurella encountered in chronic fowl cholera
Dormancy breaking and germination of Acacia salicina Lindl. seeds
therapy of lupus nephritis. a two-year prospective study

Evaluation of different fungicides for the control of anthracnose of mango

Evaluation of different fungicides for the control of anthracnose of mango

International Journal of Tropical Plant Diseases 6(2): 263-264

Anthracnose of mango is caused by Colletotrichum gloeosporioides Penz. (Glomerella cingulata (Ston.) Spauld and Shrenk). It is endemic in tarai regions of Uttar Pradesh [India]. A trial was conducted during 1985 and 1986 at Bhira, Lakhimpur Kheri district and 10 fungicides were evaluated. Three to four sprays of bavistin 0.1 per cent at 15-20 days interval, game best results in both years. Derosal, cuman L, jkstein, captan, blitox, zeropal, saprol, devicopper and dithane M-45 also significantly checked the disease.

Please choose payment method:

(PDF emailed within 1 workday: $29.90)

Accession: 001828602

Download citation: RISBibTeXText

Related references

Evaluation of the mango anthracnose prediction models for the control of anthracnose and soft-brown rot in mango. South African Mango Growers' Association Yearbook, Volume 19 and 20, 1999-2000: 40-47, 2000

Control of Mango anthracnose by fungicides. Indian Phytopath 21(2): 212-216, 1968

Improvement of screening method for fungicides to control mango anthracnose disease. Plant Protection 27(4): 25-27, 2001

Efficacy of some fungicides and hot water in control of anthracnose and Aspergillus rot of mango fruits. Indian Phytopathology 29(3): 315-317, 1976

Evaluation of selected fungicides against mango anthracnose Colletotrichum gloeosporioides Penz. Tropical Fruits Newsletter 35: 9-11, 2000

Efficacy of some fungicides and hot water in control of anthracnose and aspergillus niger rot of mango fruits. Indian Phytopathology 29(3): 315-317, 1976

Effect of hot water treatment on mango fruits sprayed with fungicides for anthracnose control. Proceedings of the annual meeting of the Florida State Horticultural Society 104(104): 114-115, 1992

Screening of microbial culture filtrates, plant extracts and fungicides for control of mango anthracnose. Agronomía Colombiana 30(2): 222-229, 2012

In-vitro and in-vivo evaluation of different fungicides against Colletotrichum gloeosporioides - causal agent of mango anthracnose. Environment and Ecology 25S(Special 2): 318-321, 2007

In vitro response to the effect of fungicides to control anthracnose Colletotrichum gloeosporioides Penz, in mango fruits. Agronomia Tropical Maracay 56(2): 219-235, 2006

Efficacy of fungicides to control of post-harvest anthracnose (Colletotrichum gloeosporioides) and stem-end rot (Lasiodiplodia theobromae) of mango. Bangladesh Journal of Plant Pathology 19(1/2): 87-92, 2003

Evaluation of germplasm, fungicides and biocontrol agents against anthracnose (Colletotrichum gloeosporioides) in mango (Mangifera indica) nursery. Indian Journal of Agricultural Sciences 90(6): 1125-1129, 2020

Control of anthracnose and powdery mildew of mango with systemic and non-systemic fungicides. Tropical Agriculture 50(3): 245-248, 1973

Control of mango d anthracnose colletotrichum gloeosporioides by fungicides zineb fungic bordeaux mixture fungic. Indian Phytopathology 21(2): 212-216, 1968

Study on the biological control of mango anthracnose (II). Control effect of Penicillium waksmanii Zaleski (T-141) on mango fruits and leaves. Japanese Journal of Tropical Agriculture 49(2): 147-153, 2005