 |
| |
|
Title of Thesis
Epidemiology and Management of Cercospora Leaf
spot of peanut (Arahis hypogaea L.) in Punjab |
|
Author(s)
Muhammad Ijaz |
Institute/University/Department
Details
Department of Plant Pathology, Faculty of Crop
and Food Sciences / Pir Mehr Ali Shah Arid Agriculture University,
Rawalpindi |
Session
2011 |
Subject
Plant Pathology |
Number of Pages
215 |
Keywords (Extracted from title, table of contents and
abstract of thesis)
Determination, Rains, Disease,
Epidemiology, Thermal, Aggressive, Genotypes, Carbendazim,
Cercospora, Management, Peanut, Humid |
|
Abstract
Cercospora leaf spot
(CLS) of peanut caused by Cercosporidium personatum (Berk. & M. A.
Curtis) Deighton and Cercospora arachidicola Hori is the most
important disease in Pakistan. It frequently inflicts colossal yield
losses of more than 50% on unsprayed peanuts. CLS of peanut is a
potential threat in early monsoon areas of Pothowar region. Keeping
in view the economic importance of this disease, the current studies
emphasized upon Infection percentage and distribution of the disease
in Punjab, influence of weather variables on CLS epidemic on peanut
genotypes and management strategies to mitigate the losses caused by
the disease. Disease Infection percentage was greater in high
rainfall zones of district Attock 87.17 -94.2% and Rawalpindi 74.00
to 82.25%. Early summer rains in low rainfall zones resulted in
higher disease Infection percentage (71.62%) when these coincided
with early sown crop. Studies on pathogen-environment interaction
indicated that higher amount of rainfall, rainfall events and
relative humidity in Rawalpindi zone favoured CLS Infection
percentage while in Talagang zone these weather variableswere less
conducive for the disease development.
Determination of pathogen species shows Cercosporidum personatum is
more significant then Cercospora arachidicola in rainfed regions of
Punjab. Cercosporidum personatum isolates have variation for AUDPC,
epidemic rate, final severity and sporulation under different
environments. Isolates of Cercospora arachidicola and Cercosporidum
personatum from Hafizabad in general are more aggressive then
isolates from other locations.The variation observed indicates some
physiological strains of CLS may be present in the peanut ecosystem.
Influence of weather variables on CLS epidemic revealed that monsoon
rains making humid thermal ratios (HTR) quite favourable for disease
development resulted in significantly higher infection percentage on
all genotypes. It was suggested that six fortnight periods from last
week of June to mid of September are most critical for the crop as
HTR values are likely to remain the most suitable for significant
increase in CLS Infection percentage. The model based on days with
HTR>3.1 gave a good fit to the data In this model, the onset point
of the epidemic was reached 3.5 days with HTR>3.1. Cercospora leaf
spot incidence in Chakwal varies from year to year due to
environmental conditions. In our model HTR explains most of the
observed variation in peanut leaf spot epidemics. HTR>3.1 was best
humidity and temperature based weather variable describing peanut
leaf spot epidemics.
Generally higher disease scores were recorded at late crop growth
stages. Peanut genotypes evaluated against CLS under different
ecological conditions exhibited variable reaction at different
locations and periods depending upon fluctuations of environments.
More than 80% germplasm available in the country was Virginia type
and late maturing. The germplasm, 20-70% fell under moderately
resistant group at flowering stages while at pod development stage
50-80% germplasm became susceptible to CLS. Valencia type plants had
lower spots per leaf, sporulation values and reaction indices of
spots per leaf X sporulation, spots per leaf X diseased area per
leaf and defoliation X spots per leaf, than Virginia and Spanish
botanical type plants. Reaction indices of spots per leaf X
sporulation can be used for CLS resistance determination for
Virginia, Valencia and Spanish botanical peanut types. Crop rotation
with non host crops delayed CLS initiation for 25-34 and 89-108 days
in residual and fallow plots, respectively. 46- 90% variation in
peanut yield (Kg/ha) was described by days to disease initiation
influenced by change in date of sowing. CLS mitigation by
Carbendazim, Benomyl, Mancozeb, Thiophanatemethyl and Mancozeb +
Benomyl fungicides significantly reduced CL Infection
percentage at final assessment stage. Peanut genotype BARD-699 was
better responsive under protective disease conditions with higher
yields than Accession No. 334. |
|
