Effects of Different Density and Nitrogen Fertilizer on Seed Production of Mianyou 11

Effects of Different Density and Nitrogen Fertilizer on Seed Production of Mianyou 11

2 Results and Analysis

2. The relationship between yield and density and nitrogen fertilizer

Table 2 Quadratic Regression Orthogonal Rotational Combination Design Variance Analysis Table

variation

return

Degree of freedom

expect

F value

Significant

F0.05

F0.01

source

sum of square

Mean square

X1

703.75

1

703.75

0.25

<1

4.96

10.04

X2

20880.03

1

20880.03

7.51*

X1X2

14890.10

1

14890.10

5.35*

X11

16078.73

1

16078.73

5.78*

X22

168446.59

1

168446.59

60.58**

return

220999.20

5

44199.84

15.90**

3.33

5.64

Remaining

27806.86

10

2780.69

Misunderstood

8296.82

3

2765.61

0.99

4.35

8.45

error

19510.04

7

2787.15

Total variation

248806.06

15

As can be seen from Table 2, F1=0.99 F0.01 = 5.64, indicating that the regression equation reflects the objective reality of rapeseed production, and the mathematical model is also relatively good.

Through calculation, the regression equation is obtained:

Y=1537.03+9.38X1-51.09X2-61.0lXlX2-44.83Xl2.-145.11X22

Regression coefficients for insignificant levels are eliminated from the equation to obtain the optimal regression equation:

Y=1537.03-51.09X2-61.01X1X2-44.83X12-145.11X22

By fixing another factor to a zero level, a regression equation for the factor and yield is obtained. The main effect regression equation of density:

Y1=l537.03+9.38X1-44.83Xl2

The main effect regression equation of nitrogen fertilizer:

Y2=1537.03-51.09X2-145.11X22

Table 3 Main Effect Analysis Table

project

-γ

-1

0

1

Gamma

X1

1434.11

1482.82

1537.03

1501.58

1460.63

X2

1319.07

1443.01

1537.03

1340.84

1174.57

From the above two main effects regression equations and Table 3, it can be seen that as the density increases, the seed production further increases, but the seed production decreases when the density approaches 1; the nitrogen fertilizer application has the effect of increasing production, with the use of nitrogen fertilizer. As a result of the increase, the seed production further increased, but when the density exceeded 0, the yield of seed production decreased, so the excess output of nitrogen decreased.

Table 4 Synthetic Analysis Table of X1 and X2

X2

X1

coding

Y average

S

CV(%)

-γ

-1

0

1

Gamma

Code-γ

1094.13

1178.58

1319.07

1369.90

1364.70

1265.28

123.02

9.72

-1

1253.80

1327.79

1443.01

1468.57

1452.90

1389.22

94.02

6.77

0

1434.11

1482.82

1537.03

1501.58

1460.63

1483.23

39.23

2.64

1

1324.19

1347.64

1340.84

1244.37

1178.16

1287.04

73.52

5.71

Gamma

1193.67

1206.65

1174.57

1052.84

976.15

1120.78

101.38

9.05

Y average

1259.98

1038.69

1362.91

1327.45

1286.51

S

128.83

122.01

136.58

183.27

207.47

CV(%)

10.22

9.32

10.02

13.81

16.13

Automatic Aerosol Filling Machines

Automatic Aerosol Filling Machines,Fill-One Aerosol Filling Machine,Fill-One Aerosol Filling System,Automatic Aerosol Filling Production

Jinhu Fuda Machinery Co.,Ltd , https://www.efuda.com