LAMPIRAN LAMPIRAN LAMPIRAN 1

(1)

59 LAMPIRAN – LAMPIRAN

LAMPIRAN 1

Deskripsi Varietas Kedelai

Varietas Tanggamus

Dilepas Tahun : 22 Oktober 2001

SK Mentan : 536/Kpts/ TP. 240/ 10/ 2001

No. Induk : K 3911 – 66

Asal : Hibrida (Persilangan Tunggal)

Kerici x No. 3911

Hasil rata-rata : 1, 22 t /ha

Warna Hipokotil : Ungu

Warna Epikotil : Hijau

Warna Kotiledon : Kuning

Warna Bulu : Coklat

Warna Bunga : Ungu

Warna Kulit Biji : Kuning

Warna Polong Masak : Coklat

Warna Hilum : Coklat Tua

Bentuk Biji : Oval

Bentuk Daun : Lanceolate

Tipe Tumbuh : Determinet

Umur Berbunga : 35 Hari

Umur Saat Panen : 88 Hari

Tinggi Tanaman : 67 cm

Percabangan : 3-4 Cabang

Bobot 100 Biji : 11.0 g

Ukuran Biji : Sedang

Kandungan Protein : 44,5 %

Kandungan lemak : 12.9 %

Kandungan Air : 6,1 %

Kerebahan : Tahan Rebah

(2)

Sifat-sifat Lain : Polong Tidak Mudah Pecah

Wilayah Adaptasi : Lahan Kering Masam

Pemulia : Darman M A,. M. Muclish Adie, Heru Kuswantoro dan Purwanto (Suhartina,

2005).

(3)

LAMPIRAN 2

Konversi perlakuan pupuk.

Bobot tanah per pot = 6 kg

Di dalam 1 ha terdapat 200.000 – 250.000 tanaman.

Jumlah tanaman per pot = 2 tanaman

Berat 1 hektar lapisan olah tanah (HLO)

1 ha = 10.000 m2 = 10

8

m

2

Berat isi tanah = 1 g cm

-3

Berat 1 HLO = 10

8

m

2

x 20 cm x 1 g cm

-3

= 2.10

9

g

= 2.10

6

kg tanah ha

-1

Kebutuhan pupuk rekomendasi per ha

P2 = 100 kg SP 36/ha

SP36 per pot ( 6 kg)

= 6 x 100.000 kg

2.10

6

kg

= 3 g SP36 per pot

P3 = 200 kg SP 36/ha

SP36 per pot ( 6 kg)

= 6 x 200.000 g

2.10

6

kg

= 6 g SP36 per pot

(4)

LAMPIRAN 3

DESAIN KERJA

DILABORATORIUM

DI RUMAH KACA

ALAT

DI STERILISASI

PEMBUATAN

MEDIA

NA CAIR

PICOVSKAYA

DI AMATI

MEDIA TANAH

BENIH KEDELAI

DI TANAM,

PEMBERIAN

PENYULAMAN

PENJARANGAN

PEMELIHARAAN

BIAKAN

BAKTERI

DI INOKULASIKAN

PADA TANAMAN

SAMPEL

TANAH

PENGAMATAN

HASIL PANEN

PEMANENAN

(5)

LAMPIRAN 4

FOTO KEGIATAN

1. ALAT DAN BAHAN

Pupuk Organik Cair

Bahan Pembuatan Media

Autoclave

Bio P 200 Z

(6)

Petridish dalam Autoclaf

Laminar Flow

(7)

2. Pelaksanaan Kegiatan

Persiapan Tanah

Kedelai Umur I Minggu

(8)

(9)

LAMPIRAN 5

Hasil Analisis Tinggi Tanaman

UNIANOVA data BY SP36 Inokulasi organik ulangan /METHOD=SSTYPE(3)

/INTERCEPT=EXCLUDE /CRITERIA=ALPHA(0.05)

/DESIGN=SP36 Inokulasi organik Inokulasi*SP36*organik ulangan.

Univariate Analysis of Variance

[DataSet1] D:\dokument\smt 7\privas\skrip-skrip\skripsi 2\perbaikan 1 TT.sav Between-Subjects Factors N SP36 1 30 2 30 3 30 Inokulasi 1 18 2 18 3 18 4 18 5 18 organik 1 45 2 45 ulangan 1 30 2 30 3 30

Tests of Between-Subjects Effects

Dependent Variable:data Source

Type III Sum of

Squares df Mean Square F Sig.

Model 372517.987a 32 11641.187 695.631 .000 SP36 92.031 2 46.016 2.750 .072 Inokulasi 259.625 4 64.906 3.879 .007 organik 8.281 1 8.281 .495 .485 SP36 * Inokulasi * organik 1021.261 22 46.421 2.774 .001 ulangan 73.621 2 36.810 2.200 .120 Error _970.613 ₅₈ _16.735 Total 373488.600 90

a. R Squared = ,997 (Adjusted R Squared = ,996)

SAVE OUTFILE='D:\dokument\smt 7\privas\skrip-skrip\skripsi 2\perbaikan SPSS\tinggi tanaman.sav'

(10)

A. Post Hoc Tests

Perlak

Homogeneous Subsets

data Duncan Perlak N Subset 1 2 3 4 5 3 58.8333 9 3 59.3500 59.3500 4 3 59.8333 59.8333 10 3 60.3333 60.3333 7 3 60.8333 60.8333 60.8333 3 3 60.9167 60.9167 60.9167 2 3 63.8333 63.8333 63.8333 63.8333 1 3 64.5000 64.5000 64.5000 64.5000 8 3 64.5000 64.5000 64.5000 64.5000 6 3 65.3333 65.3333 65.3333 65.3333 11 3 66.0000 66.0000 66.0000 66.0000 13 3 67.3333 67.3333 67.3333 67.3333 12 3 67.8333 67.8333 67.8333 14 3 69.0000 69.0000 15 3 70.1667 Sig. .051 .051 .058 .136

Means for groups in homogeneous subsets are displayed. Based on observed means.

The error term is Mean Square(Error) = 18,823.

B. Post Hoc Tests

Perlak

Homogeneous Subsets

data

(11)

Duncan Perlak N Subset 1 2 3 4 3 54.8333 1 3 60.7167 60.7167 5 3 61.5500 61.5500 9 3 61.6667 61.6667 6 3 62.2667 62.2667 15 3 62.3333 62.3333 14 3 63.0000 2 3 63.8333 63.8333 7 3 66.1667 66.1667 13 3 66.5000 66.5000 3 3 66.8333 66.8333 10 3 66.8333 66.8333 8 3 68.5000 68.5000 12 3 71.1667 11 3 71.5000 Sig. .050 .052 .050

(12)

Hasil Analisis Berat Kering Tanaman

UNIANOVA data BY SP36 Inokulasi organik ulangan /METHOD=SSTYPE(3)

/DESIGN=SP36 Inokulasi organik Inokulasi*SP36*organik ulangan.

Univariate Analysis of Variance

[DataSet1] D:\dokument\smt 7\privas\skrip-skrip\skripsi 2\perbaikan 1 BTK.sav Between-Subjects Factors N SP36 1 30 2 30 3 30 Inokulasi 1 18 2 18 3 18 4 18 5 18 organik 1 45 2 45 ulangan 1 30 2 30 3 30

Type III Sum of

Model 554.418a 32 17.326 277.309 .000 SP36 .634 2 .317 5.075 .009 Inokulasi 1.187 4 .297 4.752 .002 organik .026 1 .026 .416 .521 SP36 * Inokulasi * organik 19.390 22 .881 14.107 .000 ulangan .280 2 .140 2.243 .115 Error _3.624 ₅₈ _.062 Total 558.042 90

SAVE OUTFILE='D:\dokument\smt

7\privas\skrip-skrip\skripsi 2\perbaikan SPSS\DEAL\Berat Kering '+ 'Tanaman.sav'

(13)

A. Post Hoc Tests

Perlak

Homogeneous Subsets

data Duncan Perlak N Subset 1 2 3 4 5 6 7 4 3 1.3567 5 3 1.6156 1.6156 2 3 1.6733 1.6733 1 3 1.6867 1.6867 3 3 2.0367 2.0367 9 3 2.3983 2.3983 10 3 2.4744 2.4744 6 3 2.6278 2.6278 8 3 2.6333 2.6333 13 3 2.7100 2.7100 2.7100 7 3 2.7300 2.7300 2.7300 14 3 2.7300 2.7300 2.7300 12 3 3.1133 3.1133 3.1133 11 3 3.1456 3.1456 15 3 3.3133 Sig. .168 .080 .061 .187 .052 .077 .385

(14)

B. Post Hoc Tests

Perlak

Homogeneous Subsets

Data Duncan Perlak N Subset 1 2 3 4 5 4 3 1.8667 3 3 1.9256 1.9256 5 3 1.9711 1.9711 1.9711 6 3 2.0056 2.0056 2.0056 2 3 2.3711 2.3711 2.3711 1 3 2.4000 2.4000 9 3 2.4600 10 3 2.5067 11 3 2.5967 15 3 2.5967 14 3 2.6350 7 3 2.6867 2.6867 12 3 2.8100 2.8100 13 3 2.8267 2.8267 8 3 3.0967 Sig. .539 .052 .061 .064 .073

(15)

Hasil Analisis Hasil Biji

UNIANOVA data BY SP36 Inokulasi Organik Ulangan /METHOD=SSTYPE(3)

/DESIGN=SP36 Inokulasi Organik Inokulasi*Organik*SP36 Ulangan.

Univariate Analysis of Variance

Between-Subjects Factors N SP36 1 30 2 30 3 30 Inokulasi 1 18 2 18 3 18 4 18 5 18 Organik 1 45 2 45 Ulangan 1 30 2 30 3 30

Type III Sum of

Model 2829.995a 32 88.437 113.916 .000 SP36 .796 2 .398 .512 .602 Inokulasi 11.528 4 2.882 3.712 .009 Organik 1.671 1 1.671 2.152 .148 SP36 * Inokulasi * Organik 50.987 22 2.318 2.985 .000 Ulangan 2.178 2 1.089 1.403 .254 Error 45.027 58 .776 Total _2875.023 ₉₀

a. R Squared = ,984 (Adjusted R Squared = ,976) b.

SAVE OUTFILE='D:\dokument\smt 7\privas\skrip-skrip\skripsi 2\perbaikan SPSS\DEAL\Berat Biji '+ 'total.sav'

(16)

A. Post Hoc Tests

Perlak

Homogeneous Subsets

data Duncan Perlak N Subset 1 2 3 4 3 4.0700 5 3 4.1733 1 3 4.2633 3 3 4.4067 2 3 4.6900 4.6900 15 3 5.1967 5.1967 5.1967 6 3 5.2800 5.2800 5.2800 8 3 5.3867 5.3867 5.3867 10 3 5.6156 5.6156 5.6156 11 3 5.6889 5.6889 5.6889 9 3 6.2178 6.2178 13 3 6.2989 6.2989 12 3 6.4722 14 3 6.4867 7 3 6.8183 Sig. .064 .062 .063

(17)

B. Post Hoc Tests

Perlak

Homogeneous Subsets

Data Duncan Perlak N Subset 1 2 3 4 10 3 4.3700 8 3 4.8744 4.8744 2 3 4.9233 4.9233 4 3 5.1033 5.1033 5.1033 6 3 5.1289 5.1289 5.1289 1 3 5.2000 5.2000 5.2000 3 3 5.4633 5.4633 5.4633 15 3 5.5533 5.5533 5.5533 5 3 5.6944 5.6944 5.6944 11 3 5.9489 5.9489 5.9489 5.9489 9 3 6.0567 6.0567 6.0567 6.0567 14 3 6.2267 6.2267 6.2267 12 3 6.4711 6.4711 6.4711 13 3 6.7717 6.7717 7 3 7.5000 Sig. .057 .072 .060 .068

(18)

Hasil Analisis Berat 100 Biji

UNIANOVA Data BY SP36 Inokulasi Organik Ulangan /METHOD=SSTYPE(3)

/DESIGN=SP36 Inokulasi Organik Inokulasi*Organik*SP36 Ulangan.

Univariate Analysis of Variance

[DataSet1] D:\dokument\smt 7\privas\skrip-skrip\skripsi 2\perbaikan SPSS\-konv 1 baru spss.sav

Between-Subjects Factors N SP36 1 30 2 30 3 30 Inokulasi 1 18 2 18 3 18 4 18 5 18 Organik 1 45 2 45 Ulangan 1 30 2 30 3 30

Dependent Variable:Data Source

Type III Sum of

Model 4104.686a 32 128.271 373.419 .000 SP36 .000 2 8.898E-5 .000 1.000 Inokulasi 3.743 4 .936 2.724 .038 Organik 5.329 1 5.329 15.514 .000 SP36 * Inokulasi * Organik 28.993 22 1.318 3.836 .000 Ulangan 7.739 2 3.870 11.265 .000 Error 19.923 58 .344 Total _4124.609 ₉₀

SAVE OUTFILE='D:\dokument\smt

7\privas\skrip-skrip\skripsi 2\perbaikan SPSS\DEAL\Konversi 100 '+ 'Biji.sav'

(19)

A. Post Hoc Tests

Perlak

Homogeneous Subsets

Data Duncan Perlk N Subset 1 2 3 15 3 5.5400 1 3 5.9883 5.9883 11 3 6.0033 6.0033 10 3 6.2300 6.2300 6.2300 6 3 6.4150 6.4150 13 3 6.4467 6.4467 12 3 6.4600 6.4600 2 3 6.4611 6.4611 4 3 6.5156 6.5156 3 3 6.6789 6.6789 9 3 6.6800 6.6800 5 3 6.7678 6.7678 14 3 6.8233 6.8233 7 3 6.9967 8 3 7.0433 Sig. .108 .074 .081

(20)

B. Post Hoc Tests

Perlak

Homogeneous Subsets

Data Duncan Perlak N Subset 1 2 3 4 10 3 5.3283 9 3 5.7625 5.7625 8 3 6.1225 6.1225 6.1225 11 3 6.7042 6.7042 6.7042 6.7042 14 3 6.7050 6.7050 6.7050 6.7050 13 3 6.8417 6.8417 6.8417 6.8417 1 3 6.8883 6.8883 6.8883 6.8883 15 3 6.9000 6.9000 6.9000 6.9000 2 3 6.9533 6.9533 6.9533 12 3 7.2000 7.2000 7.2000 5 3 7.5778 7.5778 3 3 7.7250 7.7250 6 3 7.8075 4 3 7.9122 7 3 7.9550 Sig. .056 .081 .054 .133