combating wilt susceptibility in chickpea – a success story and challenges ahead
TRANSCRIPT
Combating wilt susceptibility in Chickpea – A Success story and Challenges ahead
D.R. SaxenaPrincipal Scientist (Plant Pathology)
All India Coordinated Research project on ChickpeaMain Centre, R.A.K. College of Agriculture, RVSKVV
SEHORE 466001 (M.P.) [email protected]
ICP 2016 ICARDA Marrakech, Morocco
Status of Chickpea Area
[lakh ha]Production[lakh tons]
Yield[kg/ha]
World 148.04 142.49 962.25India 107.40 (72%) 98.00 (68%) 912.48M.P. 28.53 (27%) 29.64 (30%) 1040.00
FAOSTAT (2014)
India
Madhya Pradesh (M.P.)
1. AICRP Main Chickpea Centre2. IIPR Regional Centre3. ICARDA Centre on Pulses4. Pulses Directorate
2000-01
2001-02
2002-03
2003-04
2004-05
2005-06
2006-07
2007-08
2008-09
2009-10
2010-11
2011-12
2012-13
2013-14
2014-15
0
200
400
600
800
1000
1200
1400
India; 875
M.P.; 1040
Productivity of chickpea in 21st Centuary Kg
/ha
About wilt
• Wilt has remained a major limiting factor of chickpea production in the Mediterranean Basin and the Indian Subcontinent (Jalali and Chand 1992). – Fusarium oxysporum Schlechtend.:Fr. f. sp. ciceris (Padwick)
Matuo & K. Sato (FOC).• Annual yield losses range from 10 to 15% (Trapero-
Casas and Jimenez-Diaz,1985).
• Fusarium wilt epidemics can be devastating and cause 100% loss under favorable conditions (Navas-Cortes et al. 2000).
The nature of pathogen (FOC)• The fungus is soil-borne and can survive in
soil for several years• Attacks plant at seedling and flowering
stages.• Exhibits significant pathogenic variability,
eight races of Fusarium oxysporum f. sp. ciceris (races 0, 1A, 1B/C, 2, 3, 4, 5, and 6) have been reported.
• Races 0, 1A, 5, and 6 can be identified by means of specific molecular markers in PCR assays (Jimenez-Gasco and Jimenez-Diaz, 2003).
• Identification of races 1B/C, 2, 3, and 4, or new races of F. oxysporum f. sp. ciceris, as well as the characterization of resistance reactions in chickpea germplasm are dependent on traditional pathogenicity test.
(Sharma, et al. 2005 )
The nature of pathogen…..• The Races reaction of FOC is
Influenced by temperature and soil moisture conditions (Landa et al. 2006) .
• Difficult to manage this disease through crop rotation or application of chemicals.
• Cultivation of varieties possessing resistance to specific races of the pathogen is most economical disease management strategy.
Survival of wilt resistant chickpea cultivar in sick plot
Efforts: Identification of sources of wilt resistance
• How to maintain inoculum potential: A prerequisitePrior Sowing of highly wilt susceptible JG 62 and mixing of wilted plants before sowing in soil is found one of the best method to maintain the IP (3 x 10 5 CFU /g soil).
• Use of susceptible check after two tests rows– The reaction of check ensures proper spread of inoculum in sick plot, JG 62
was identified as most susceptible check
Check JG 62
Chickpea wilt sick plot at Sehore
Wilt sick plots
Development of wilt resistant chickpea genotypes…A Success
• In 1970’s – Collection of land races ad their
evaluation for immediate use as potential varieties (JG 62, JG 1, JG 5 and JG 221)
– JG 62 suffered heavily due to wilt and presently used as national susceptible check.
(Identified by its double pod character)
• In 1980’s– Identification of wilt resistant
genotypes JG 315 and JG 74– JG 315 globally known for its
multi race resistant behavior.– JG 74 is being used for
differentiating races of FOC.
JG 62
JG 315
Chronological development of wilt resistant chickpea genotypes
• In 1990’s – Development of JG 218 and JG 322– Gulabi Chickpea JGG 1 – Release of wilt resistant variety JG 11 in
1999.• Significant impact in changing scenario of
chickpea cultivation in India. It has covered more than 75 per cent area in Southern India.
• In 2000’s – Release of wilt resistant early maturing
JG 16, JG 130, JAKI 9218 and JG 6 varieties has made tremendous impact in chickpea cultivation in Madhya Pradesh which witnessed with the increase in area, production.
Chronological development of wilt resistant chickpea genotypes……..
• In 2010’s– Wilt resistant, thermo-
tolerant varieties were developed which were suitable for late planting with over 2t/ha yield potential RVG 201, RVG 202 and RVG 203
– Sources for wilt resistance in kabuli types were identified and RVKG 101 and RVSJKG 102
Recent developments
• Identification of donors for wilt resistance– In deshi types
• JSC 35• JSC 40
– In kabuli Types• RVKG 37
– Recommended as National Donors
Identification of FOC pathotypes
Chickpea differentials reaction (12 nos.) indicated presence of race 2 and 4 of F. oxysporum f. sp. ciceri in M.P.
Prevalence of FOC races in M.P.
Alternative approach to manage chickpea wilt and root
Boost plant health Through Micronutrient application …
Incidence of wilt/root can be reduced by the application of 1g Ammonium molybdate/Kg of seed along with PSB and Rhizobium
• Use of 1g Ammonium molybdate/Kg seed as
seed treatment along with PSB and Rhizobium
Challenges Ahead….• Effect of climatic changes on
expressivity of FOC races • Development of new pathotypes
of FOC• Increasing incidence of other
soil-borne pathogens like Rhizoctonia bataticola and Sclerotium rolfsii.
• Lake of durable wilt resistance in Extra large kabuli types
• Legume v/s legume cropping system in Central India (Soybean vs. Chickpea)
Wilt Root rot
Collar rot
• Identification of cause of chickpea mortality at early stage
• In soybean based chickpea cropping system mortality in chickpea at pre-flowering stage was observed
• The cause was identified as Colletotrichum dematium
(A New threat to this cropping system)
• Some of the known wilt resistant varieties like JG 315 was susceptible,
causing 40-50 % loss during 2010-11.
0
20
40
60
80
100
120
Weather data during rabi 2010-11
Max. Temp.Min. Temp.Max. Humi.Min. Humi.Rain fall
Dates
Wea
ther
par
amet
ers
Challenges Ahead….
Challenges ahead…• Wilt coupled with root rot is posing threat to
chickpea cultivation.• Intensity of wilt/root rot is more in rain-fed
conditions.• Climatic changes are influencing inoculum
potential of wilt and expressivity of FOC races.• There is need of incorporating multiple
disease resistance for wilt and root rot.
Conclusion
• The traditional method of screening chickpea germplasm and identifying races by the use of differentials has to be continued, till the MAS become affordable.
• The races picture of FOC is not very clear in some parts of India, needs attention.
• Climatic changes influencing races of FOC. • Root rot is emerging as a potential threat to chickpea
cultivation due to climatic changes.• Regular monitoring of diseases is essential.
ThanaThanks for your kind attention