Tabel Lampiran 10. Perhitungan potensial nitrifikasi
Perlakuan 1. Kaempferia galanga
S C
S-C S-C2511000100105
Inkubasi 0 0.046677
0.040202 0.006476
0.289473715 Inkubasi 5
0.052039 0.010334
0.041704 1.86429819
Inkubasi 10 0.020836
0.002807 0.01803
0.805978601 Inkubasi 15
0.044125 0.040019
0.004107 0.183580026
Inkubasi 20 0.028789
0.025811 0.002978
0.133142393 2. Tithonia diversifolia
Inkubasi 0 0.067085
0.047952 0.019133
0.85528629 Inkubasi 5
0.066168 0.040841
0.025326 1.132148547
Inkubasi 10 0.048977
0.02507 0.023906
1.068677166 Inkubasi 15
0.022564 0.015254
0.00731 0.326767617
Inkubasi 20 0.02871
0.025875 0.002834
0.126691015 3. Tephrosia candida
Inkubasi 0 0.056059
0.045912 0.010147
0.453615749 Inkubasi 5
0.147184 0.035525
0.111659 4.991446454
Inkubasi 10 0.025555
0.006605 0.01895
0.84713654 Inkubasi 15
0.029663 0.02581
0.003853 0.172245203
Inkubasi 20 0.048736
0.045235 0.003501
0.156506054 4. Kontrol
Inkubasi 0 0.712348
0.678766 0.033582
1.501198033 Inkubasi 5
0.775061 0.663218
0.111843 4.999687081
Inkubasi 10 0.718995
0.662929 0.056066
2.506303084 Inkubasi 15
0.68287 0.666281
0.016589 0.741555655
Inkubasi 20 0.681281
0.670732 0.010549
0.471546714
Tabel Lampiran 11. Analisis statistika
A. Potensial Nitrifikasi
1. Uji F ANOVA
Analysis of Variance for Potensial-Nitrifikasi, using Adjusted SS for Tests
Analysis of Variance for Pot-Nt, using Adjusted SS for Tests Source DF Seq SS Adj SS Adj MS F P
A 3 18.8801 18.8801 6.2934 8358.55 0.000 I 4 58.5062 58.5062 14.6265 1.9E+04 0.000
AI 12 18.3553 18.3553 1.5296 2031.55 0.000 Error 40 0.0301 0.0301 0.0008
Total 59 95.7717
Ket. : NS = Berpengaruh tidak nyata P0.05
S = Berpengaruh nyata 0.01P0.05
HS = Berpengaruh sangat nyata P0.01 Di bawah ini hanya keterangan tambahan dari ANOVA di atas
Least Squares Means for Pot-Nt Perlk Rata-rata
A Mean SE Mean 0 0.68210 0.006669
1 0.64978 0.006669
2 0.69265 0.006669 3 1.10242 0.006669
I 0 0.65859 0.007456
1 2.14507 0.007456 2 0.77528 0.007456
3 0.21970 0.007456 4 0.11004 0.007456
AI 0 0 0.99117 0.014912
0 1 1.80510 0.014912 0 2 0.36370 0.014912
0 3 0.19497 0.014912 0 4 0.05557 0.014912
1 0 0.29830 0.014912 1 1 1.86343 0.014912
1 2 0.79160 0.014912 1 3 0.18377 0.014912
1 4 0.11180 0.014912 2 0 0.85550 0.014912
2 1 1.13917 0.014912 2 2 1.02547 0.014912
2 3 0.32463 0.014912 2 4 0.11847 0.014912
3 0 0.48940 0.014912 3 1 3.77257 0.014912
3 2 0.92037 0.014912 3 3 0.17543 0.014912
3 4 0.15433 0.014912
2. UJI DMR
POT_NITR
Duncan
a
15 .6498
15 .6821
15 .6926
15 1.1024
.204 A
1.00 .00
2.00 3.00
Sig. N
1 Subset
for alpha = .05
Means for groups in homogeneous subsets are displayed. Uses Harmonic Mean Sample Size = 15.000.
a.
Kolom perlakuan. Urutan perlakuan sesuai dengan rata-rata perlakuan dari
terkecil ke rata-rata terbesar.
POT_NITR
Duncan
a
12 .1100
12 .2197
12 .6586
12 .7753
12 2.1451
.588 .564
1.000 I
4.00 3.00
.00 2.00
1.00 Sig.
N 1
2 3
Subset for alpha = .05
Means for groups in homogeneous subsets are displayed. Uses Harmonic Mean Sample Size = 12.000.
a.
Cara membaca : Terdapat 3 kolom, kolom 1 menunjukkan
kolom notasi a , kolom 2 menunjukkan kolom notasi b dan kolom 3 menunjukkan
notasi c. Jadi jika perlakuan mempunyai nilai rata-rata hanya di satu kolom saja maka
notasinya sesuai dengan kolom yang ditunjukkan. Misal I3, mempunyai nilai di
kolom 1 saja, maka I3 notasinya a., begitu seterusnya.
POT_NITR
Duncan
a
3 .1118
3 .1185
3 .1543
.1543 3
.1754 3
.1838 3
.2983 3
.3246 3
.4715 3
.4894 3
.7416 3
.7916 3
.8555 3
.9204 3
1.0255 3
1.1392 3
1.5050 3
1.8634 3
2.5063 3
3.7726 3
4.9979 .079
.223 .247
.429 1.000
1.000 1.000
1.000 1.000
1.000 1.000
1.000 1.000
1.000 1.000
AI 5.00
10.00 15.00
14.00 4.00
1.00 9.00
20.00 11.00
19.00 3.00
6.00 13.00
8.00 7.00
16.00 2.00
18.00 12.00
17.00 Sig.
N 1
2 3
4 5
6 7
8 9
10 11
12 13
14 15
Subset for alpha = .05
Means for groups in homogeneous subsets are displayed. Uses Harmonic Mean Sample Size = 3.000.
a.
B. Bakteri NH
