ADLN Perpustakaan Universitas Airlangga. Lampiran : Uji ANAVA jumlah tubuh buah dalam satu rumpun jamur tiram. One-Sample Kolmogorov-Smirnov Test

ADLN Perpustakaan Universitas Airlangga

Lampiran : Uji ANAVA jumlah tubuh buah dalam satu rumpun jamur tiram.

NPar Tests One-Sample Kolmogorov-Smirnov Test Unstandardized Residual N

27

Normal Parameters

a,b

Mean

.0000000

Std. Deviation Most Extreme Differences

1.63710536

Absolute

.132

Positive

.132

Negative

-.079

Kolmogorov-Smirnov Z

.688

Asymp. Sig. (2-tailed)

.731

a. Test distribution is Normal. b. Calculated from data.

Univariate Analysis of Variance Between-Subjects Factors N frekuensi

konsentrasi

1.00

9

2.00

9

3.00

9

1.00

9

2.00

9

3.00

9 a

Levene's Test of Equality of Error Variances Dependent Variable:respon F 1.807

df1

df2 8

Sig. 18

.142

Tests the null hypothesis that the error variance of the dependent variable is equal across groups. a. Design: Intercept + frekuensi + konsentrasi + frekuensi * konsentrasi

Skripsi

Aplikasi Pupuk Hayati untuk Meningkatkan Pertumbuhan dan Produktivitas Jamur Tiram (Pleurotus ostreatus),

Pradita Kirana


Tests of Between-Subjects Effects Dependent Variable:respon Source

Type III Sum of Squares

df

Mean Square

F

Sig.

Corrected Model

119.034

a

8

14.879

28.614

.000

Intercept

2800.926

1

2800.926

5386.396

.000

frekuensi

7.576

2

3.788

7.285

.005

konsentrasi

69.816

2

34.908

67.131

.000

frekuensi * konsentrasi

20.020

.000

41.641

4

10.410

Error

9.360

18

.520

Total

2929.320

27

128.394

26

Corrected Total

a. R Squared = .927 (Adjusted R Squared = .895)

Post Hoc Tests konsentrasi Homogeneous Subsets respon a,b

Duncan

konsentrasi

Subset N

1

2

K3

9

7.9111

K2

9

11.3111

K1

9

11.3333

dimensi on1

Sig.

1.000

.949

Means for groups in homogeneous subsets are displayed. Based on observed means. The error term is Mean Square(Error) = .520. a. Uses Harmonic Mean Sample Size = 9.000. b. Alpha = .05.

Skripsi


Pradita Kirana


frekuensi Homogeneous Subsets respon a,b

Duncan

frekuensi

Subset N

1

2

K3

9

9.7778

K2

9

9.8444

K1

9

dimensi on1

10.9333

Sig.

.847

1.000

Means for groups in homogeneous subsets are displayed. Based on observed means. The error term is Mean Square(Error) = .520. a. Uses Harmonic Mean Sample Size = 9.000. b. Alpha = .05.

tubuhbuah a,b

Duncan

perlakuan

Subset for alpha = 0.05 N

1

2

3

K3I3

3

6.1333

K3I2

3

6.5333

K2I1

3

10.4000

K1I3

3

10.8000

10.8000

K3I1

3

11.0667

11.0667

K1I1

3

11.3333

11.3333

K1I2

3

11.4667

11.4667

K2I1

3

11.5333

11.5333

K2I3

3

dimensi on1

Sig.

12.0000 .482

.086

.071

Means for groups in homogeneous subsets are displayed. a. Uses Harmonic Mean Sample Size = 3.000.

Skripsi


Pradita Kirana


Lampiran : Uji ANAVA berat basah jamur tiram

NPar Tests One-Sample Kolmogorov-Smirnov Test Unstandardized Residual N

27

Normal Parameters

a,b

Mean

.0000000

Std. Deviation Most Extreme Differences

12.08222489

Absolute

.175

Positive

.175

Negative

-.154

Kolmogorov-Smirnov Z

.909

Asymp. Sig. (2-tailed)

.380

a. Test distribution is Normal. b. Calculated from data.

Univariate Analysis of Variance Between-Subjects Factors N frekuensi

konsentrasi

1.00

9

2.00

9

3.00

9

1.00

9

2.00

9

3.00

9

a

Levene's Test of Equality of Error Variances Dependent Variable:beratbasah F 3.465

df1

df2 8

Sig. 18

.114

Tests the null hypothesis that the error variance of the dependent variable is equal across groups.

Skripsi


Pradita Kirana


a

Levene's Test of Equality of Error Variances Dependent Variable:beratbasah F

df1

3.465

df2

Sig.

8

18

.114

Tests the null hypothesis that the error variance of the dependent variable is equal across groups. a. Design: Intercept + frekuensi + konsentrasi + frekuensi * konsentrasi Tests of Between-Subjects Effects Dependent Variable:beratbasah Source

Type III Sum of Squares

df

Mean Square

F

Sig.

a

8

1089.381

129.140

.000

Intercept

266356.376

1

266356.376

31574.996

.000

frekuensi

1646.697

2

823.349

97.603

.000

konsentrasi

5574.736

2

2787.368

330.426

.000

frekuensi * konsentrasi

1493.613

4

373.403

44.265

.000

Error

151.842

18

8.436

Total

275223.266

27

8866.889

26

Corrected Model

8715.047

Corrected Total

a. R Squared = .983 (Adjusted R Squared = .975)

Post Hoc Tests konsentrasi Homogeneous Subsets beratbasah a,b

Duncan

konsentrasi

Subset N

1

2

K3

9

79.0133

K1

9

108.8889

K2

9

110.0667

dimensi on1

Sig.

Skripsi

1.000

.401


Pradita Kirana


Means for groups in homogeneous subsets are displayed. Based on observed means. The error term is Mean Square(Error) = 8.436. a. Uses Harmonic Mean Sample Size = 9.000. b. Alpha = .05.

Frekuensi Homogeneous Subsets beratbasah a,b

Duncan

frekuensi

Subset N

1

2

I2

9

92.7022

I3

9

94.9778

I1

9

dimensi on1

Sig.

110.2889 .114

1.000

Means for groups in homogeneous subsets are displayed. Based on observed means. The error term is Mean Square(Error) = 8.436. a. Uses Harmonic Mean Sample Size = 9.000. b. Alpha = .05.

Skripsi


Pradita Kirana


Berat_basah a,b

Duncan

perlakuan

Subset for alpha = 0.05 N

1

2

3

4

K3I3

3

65.6000

K3I2

3

66.8400

K1I2

3

104.1333

K3I1

3

104.6000

K2I2

3

107.1333

107.1333

K2I3

3

108.6667

108.6667

K1I3

3

110.6667

110.6667

K1I1

3

111.8667

111.8667

K2I1

3

dimensi on1

Sig.

114.4000 .607

.095

.082

.153

Means for groups in homogeneous subsets are displayed. a. Uses Harmonic Mean Sample Size = 3.000.

Skripsi


Pradita Kirana


Lampiran : Perhitungan nilai RAE (Relative Agronomic Effectiveness) berat basah jamur tiram (Pleurotus ostreatus) RAE K1I1 =

=

RAE K1I2 = =

RAE K1I3 = =

RAE K2I1 =

=

RAE K2I2 =

=

Pupuk alternatif – kontrol negatif x 100% Pupuk standart – kontrol negatif 111.87- 99.53 x 100% = 116.41% (pupuk hayati efektif) 110.13 - 99.53

Pupuk alternatif – kontrol negatif x 100% Pupuk standart – kontrol negatif 104.13 - 99.53 x 100% = 43.39% (pupuk hayati tidak efektif) 110.13 - 99.53

Pupuk alternatif – kontrol negatif x 100% Pupuk standart – kontrol negatif 110.67- 99.53 x 100% = 105.09% (pupuk hayati efektif) 110.13 - 99.53

Pupuk alternatif – kontrol negatif x 100% Pupuk standart – kontrol negatif 114.40 - 99.53 x 100% = 140.28% (pupuk hayati efektif) 110.13 - 99.53

Pupuk alternatif – kontrol negatif x 100% Pupuk standart – kontrol negatif 107.13- 99.53 x 100% = 71.69% (pupuk hayati tidak efektif) 110.13 - 99.53

Pupuk alternatif – kontrol negatif RAE K2I3 = x 100% Pupuk standart – kontrol negatif

Skripsi


Pradita Kirana


=

RAE K3I1 =

=

RAE K3I2 =

=

RAE K3I3 =

=

Skripsi

108.67 - 99.53 x 100% = 86.22% (pupuk hayati tidak efektif) 110.13 - 99.53

Pupuk alternatif – kontrol negatif x 100% Pupuk standart – kontrol negatif 104.60 - 99.53 x 100% = 47.83% (pupuk hayati tidak efektif) 110.13 - 99.53

Pupuk alternatif – kontrol negatif x 100% Pupuk standart – kontrol negatif 66.84 - 99.53 x 100% = 110.13-99.53

Pupuk alternatif – kontrol negatif x 100% Pupuk standart – kontrol negatif 65.60 - 99.53 x 100% = 110.13 - 99.53


Pradita Kirana


Lampiran : Data jumlah mikroba penyusun pupuk hayati yang diperoleh dari perhitungan TPC (Total Plate Count). Jumlah Mikroba (CFU/mL) Azotobacter sp. 3,60.106 Rhizobium sp. 7,92.106 Mikroba pelarut fosfat (Bacillus sp dan Pseudomonas sp.) 6,57.106 Cellulomonas sp 9,26.106 Lactobacillus plantarum 3,65.106 Saccharomyces cereviceae 3,88.106 *Kriteria pupuk hayati cari yang efektif menurut Baku Mutu Pupuk Hayati Balitbang-Deptan adalah jumlah masinng-masing bakteri minimal 106 Jenis Mikroba

Skripsi


Pradita Kirana


Lampiran : Media selektif untuk pertumbuhan mikroba untuk perhitungan TPC (Total Plate Count) Jenis Mikroba Azotobacter sp.

Rhizobium sp.

Nama dan Komposisi Media Selektif Media NFB (semi solid) Komposisi: 1. Malic acid: 1 gram 2. KOH: 0,8 gram 3. K2HPO4: 0,1 gram 4. FeSO4.7H2O: 0,01 gram 5. MnSO4.7H2O: 0,002 gram 6. Bacto agar: 0,36 gram 7. MgSO4.7H2O: 0,02 gram 8. NaCl: 0,004 gram 9. CaCl2: 0,004 gram 10. N2MoO2:0,002 gram 11. BTB: 2 mL *untuk 1 liter media Media Yeast Ekstract Manitol Agar Komposisi: 1. K2HPO4: 0,5 gram 2. MgSO4.7H2O: 0,2 gram 3. NaCl:0,1 gram 4. Manitol: 10 gram 5. Yeast ekstrak: 0,5 gram 6. Agar: 15 gram 7. Congored 0,25%: 10 mL

*untuk 1 liter media Mikroba pelarut fosfat Media Pikopskaya (Bacillus sp. dan Komposisi: Pseudomonas sp.) 1. Glukosa: 10 gram 2. Ca3PO4: 5 gram 3. (NH4)SO4: 0,5 gram 4. KCl: 0,2 gram 5. MgSO4: 0,1 gram 6. MnSO4: 0,1 gram 7. FeSO4: 0,1 gram 8. Agar: 15 gram 9. Yeast ekstrak: 0.5 gram

Indikator Positif Terbentuk cincin pelikel.

Koloni bulat, warna krem, elevasi konveks

Koloni memiliki zona halo

*untuk 1 liter media

Skripsi


Pradita Kirana


Cellulomonas sp.

Lactobacillus plantarum

Saccharomyces cereviceae

Media CMC Komposisi: 1. CMC: 10 gram 2. KNO3: 1 gram 3. NaCl: 2 gram 4. Agar: 10 gram *untuk satu liter media Media MRSA Komposisi: 1. MRS: 20 gram 2. Glukosa: 20 gram 3. Yeast ekstrak: 20 gram 4. Agar: 18 gram *untuk 1 liter media Media PDA Komposisi: 1. PDA: 39 gram

Koloni bulat kecil, warna putih susu

Koloni bulat, warna putih kekuningan

Koloni putih susu, memiliki aroma khas

*untuk 1 liter media

Skripsi


Pradita Kirana

ADLN Perpustakaan Universitas Airlangga. Lampiran : Uji ANAVA jumlah tubuh buah dalam satu rumpun jamur tiram. One-Sample Kolmogorov-Smirnov Test

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