Crop weather relationship in Okra
By: Kavitha S.
Contributor(s): Kesava Rao A V R (Guide).
Material type:
BookPublisher: Vellanikkara Department of Agricultural Meteorology, College of Horticulture 1999DDC classification: 630.251 Online resources: Click here to access online Dissertation note: MSc Abstract: CROP WEATHER RELATIONSllP IN OKRA (Abelmoschus esculentus [L.}
Moench), VARIETY 'ARKA ANAMIKA'
The experiment was conducted during 1998-1999 at the College of
Horticulture, Vellanikkara to find out the crop weather relationships of okra, 'Arka
Anamika'. The experiment was laid out in randomised block design with three
replications. The treatments consisted of twelve monthly sowing, starting from 21 st
April 1998 to 21 st March 1999.
Observations on morphological, phenological and yield attributes were
recorded during the course of investigation. The daily values of weather elements
viz., rainfall, number of rainy days, maximum and minimum surface air
temperatures. bright sunshine, mormng and afternoon relative humidity, pan
evaporation and wind speed were collected from the Principal Agricultural
Meteorological Station, College of Horticulture, Vellanikkara, to work out the crop
weather relationships of okra.
March, April and September sown crops were significantly superior in
terms of fruit yield per plant, number of harvests and crop duration. April sown crop
was also superior in plant height, number of nodes on mainstem, and number of
primary branches.
The fruit yield was significantly associated with the plant height, number
of nodes on main stem, number of primary branches, number of harvests and
duration of the crop.
A multiple regression equation was worked out for predicting fruit yield
based on plant characters and it is as follows:
Y = 3.08 XI + 11.15 X2 - 210.14 (R2 = 0.94)
Where, XI is the duration of the erop in days, X2 is the number of harvests and Y is
the yield per plant (g).
Based on the association between weather elements and crop yield of
okra, a multiple regression equation was worked out and given below:
Y = 50.7 XI - 28.69 X2 + 16.11 X3 - 0.058 X4 - 456.29 (R2 = 0.76)
Where, Y = yield per plant (g), X, - Minimum temperature (OC) during vegetative
phase (6,h to 7th week after sowing), X2 - Maximum temperature (OC) during
reproductive phase (6th to 9th week after sowing), X3 - Bright sunshine (h per day)
during vegetative phase (4th to 6th week after sowing) and X.4 - Rainfall (mm) during
vegetative phase (5th to 6th week after sowing).
| Item type | Current location | Call number | Status | Date due | Barcode |
|---|---|---|---|---|---|
Theses
|
KAU Central Library, Thrissur Theses | 630.251 KAV/CR (Browse shelf) | Available | 171634 |
MSc
CROP WEATHER RELATIONSllP IN OKRA (Abelmoschus esculentus [L.}
Moench), VARIETY 'ARKA ANAMIKA'
The experiment was conducted during 1998-1999 at the College of
Horticulture, Vellanikkara to find out the crop weather relationships of okra, 'Arka
Anamika'. The experiment was laid out in randomised block design with three
replications. The treatments consisted of twelve monthly sowing, starting from 21 st
April 1998 to 21 st March 1999.
Observations on morphological, phenological and yield attributes were
recorded during the course of investigation. The daily values of weather elements
viz., rainfall, number of rainy days, maximum and minimum surface air
temperatures. bright sunshine, mormng and afternoon relative humidity, pan
evaporation and wind speed were collected from the Principal Agricultural
Meteorological Station, College of Horticulture, Vellanikkara, to work out the crop
weather relationships of okra.
March, April and September sown crops were significantly superior in
terms of fruit yield per plant, number of harvests and crop duration. April sown crop
was also superior in plant height, number of nodes on mainstem, and number of
primary branches.
The fruit yield was significantly associated with the plant height, number
of nodes on main stem, number of primary branches, number of harvests and
duration of the crop.
A multiple regression equation was worked out for predicting fruit yield
based on plant characters and it is as follows:
Y = 3.08 XI + 11.15 X2 - 210.14 (R2 = 0.94)
Where, XI is the duration of the erop in days, X2 is the number of harvests and Y is
the yield per plant (g).
Based on the association between weather elements and crop yield of
okra, a multiple regression equation was worked out and given below:
Y = 50.7 XI - 28.69 X2 + 16.11 X3 - 0.058 X4 - 456.29 (R2 = 0.76)
Where, Y = yield per plant (g), X, - Minimum temperature (OC) during vegetative
phase (6,h to 7th week after sowing), X2 - Maximum temperature (OC) during
reproductive phase (6th to 9th week after sowing), X3 - Bright sunshine (h per day)
during vegetative phase (4th to 6th week after sowing) and X.4 - Rainfall (mm) during
vegetative phase (5th to 6th week after sowing).
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