+ Site Statistics
+ Search Articles
+ PDF Full Text Service
How our service works
Request PDF Full Text
+ Follow Us
Follow on Facebook
Follow on Twitter
Follow on LinkedIn
+ Subscribe to Site Feeds
Most Shared
PDF Full Text
+ Translate
+ Recently Requested

Effect of bioagents and fungicides against Phomoposis vexans and on seed quality of brinjal

Effect of bioagents and fungicides against Phomoposis vexans and on seed quality of brinjal

Crop Improvement 32(1): 95-101

Seeds of 5 aubergine cultivars (Mohini, Green Long, ELO-2, Pusa Purple Long and Kamini) infected with Phomopsis vexans were treated with biological control agents. Pure cultures of Pseudomonas fluorescens and Trichoderma harzianum at 1x108 cfu g-1 and talcum-based formulations of Pseudomonas fluorescens (28x107 cfu g-1) at 5 g/kg of seeds and T. harzianum (19x107 cfu g-1) at 10 g/kg of seeds were used.

Please choose payment method:

(PDF emailed within 1 workday: $29.90)

Accession: 004419325

Download citation: RISBibTeXText

Related references

Effect of fungicides and bioagents against Colletotrichum capsici on seed quality of Chilli. Indian Phytopathology 59(1): 62-67, 2006

Impact of Phomopsis vexans on seed quality of Brinjal (Solanum melongena L.) and its management in vitro. International Journal of Tropical Plant Diseases 15(1): 43-51, 1997

In vitro effect of different fungicides on growth and sporulation of Phomopsis vexans (Sacc. & Sya.) Harter., the causal organism of fruit rot of brinjal. J. appl. Sci, Bihar, 1: 1, 41-2. bibl. 3, 1969

Efficacy of fungicides and bioagents against Colletotrichum melongenae causing fruit rot of Brinjal. 2012

Efficacy of certain fungicides in controlling Phomopsis vexans causing fruit rot of brinjal. Orissa Journal of Agricultural Research 7(Suppl.ary): 85-86, 1994

Effect of seed treatment fungicides and antagonistic organism on seed mycoflora and on seedling vigour in brinjal. Madras Agricultural Journal 80(10): 595-597, 1993

Location of infection of Phomopsis vexans in brinjal seed. Indian Journal of Mycology & Plant Pathology 24(3): 226, 1994

In Vitro evaluation of fungicides and biocontrol agents against Brinjal leaf blight and fruit rot pathogen Phomopsis vexans Sacc Syd Harter. 2012

Detection and transmission of seed borne inoculum of Phomopsis vexans Harter and the effect of infection on seed quality in egg plant. Seed Research (New Delhi) 21(2): 66-71, 1993 ( ), 1995

Effects of fungicides and bioagents on seed mycoflora, growth and yield of watermelon. Integrative Biosciences 9(2): 75-78, 2005

Comparative Study of Inoculation Method of Fungus Phomopsis vexans in Seed and Seedling Stage of Brinjal Under In Vitro Condition. 2013

Effect of seed extraction methods on seed quality in brinjal (Solanum melongena L.). Advances in Agricultural Research in India 2000; 10: 31-34, 1998

Effect of harvesting stages, seed extraction and drying methods on seed quality of brinjal hybrid. Crop Research 33(1-3): 129-133, 2007

Effect of growth regulators and fruit load on seed yield and quality in brinjal hybrid seed production. 2008

Effect of some fungal bioagents on root-knot nematode, Meloidogyne incognita infecting brinjal. Pakistan Journal of Nematology 20(1): 55-59, 2002