LAMPIRAN
Lampiran 1. Korelasi
Pearson Fenotipik Antar Karakter Produksi Getah dan
Karakter Lainnya
Correlations
1 ,590** ,461** ,491** ,307** ,324** ,434** ,195 ,440** ,465** ,296** ,000 ,000 ,000 ,002 ,001 ,000 ,052 ,000 ,000 ,003 100 100 100 100 100 100 100 100 100 100 100 ,590** 1 ,006 ,045 -,079 -,076 ,026 ,214* -,440** -,177 -,018 ,000 ,951 ,653 ,433 ,452 ,800 ,033 ,000 ,077 ,857 100 100 100 100 100 100 100 100 100 100 100 ,461** ,006 1 ,869** ,738** ,708** ,643** -,002 ,496** ,816** ,730** ,000 ,951 ,000 ,000 ,000 ,000 ,981 ,000 ,000 ,000
100 100 100 100 100 100 100 100 100 100 100 ,491** ,045 ,869** 1 ,680** ,684** ,713** ,075 ,487** ,799** ,734** ,000 ,653 ,000 ,000 ,000 ,000 ,458 ,000 ,000 ,000
100 100 100 100 100 100 100 100 100 100 100 ,307** -,079 ,738** ,680** 1 ,910** ,624** ,081 ,409** ,886** ,536** ,002 ,433 ,000 ,000 ,000 ,000 ,424 ,000 ,000 ,000
100 100 100 100 100 100 100 100 100 100 100 ,324** -,076 ,708** ,684** ,910** 1 ,685** ,060 ,440** ,841** ,492** ,001 ,452 ,000 ,000 ,000 ,000 ,555 ,000 ,000 ,000
100 100 100 100 100 100 100 100 100 100 100 ,434** ,026 ,643** ,713** ,624** ,685** 1 ,055 ,468** ,727** ,499** ,000 ,800 ,000 ,000 ,000 ,000 ,590 ,000 ,000 ,000
100 100 100 100 100 100 100 100 100 100 100 ,195 ,214* -,002 ,075 ,081 ,060 ,055 1 -,014 ,033 ,001 ,052 ,033 ,981 ,458 ,424 ,555 ,590 ,893 ,747 ,994 100 100 100 100 100 100 100 100 100 100 100 ,440** -,440** ,496** ,487** ,409** ,440** ,468** -,014 1 ,709** ,349** ,000 ,000 ,000 ,000 ,000 ,000 ,000 ,893 ,000 ,000
100 100 100 100 100 100 100 100 100 100 100 ,465** -,177 ,816** ,799** ,886** ,841** ,727** ,033 ,709** 1 ,631** ,000 ,077 ,000 ,000 ,000 ,000 ,000 ,747 ,000 ,000
100 100 100 100 100 100 100 100 100 100 100 ,296** -,018 ,730** ,734** ,536** ,492** ,499** ,001 ,349** ,631** 1 ,003 ,857 ,000 ,000 ,000 ,000 ,000 ,994 ,000 ,000
100 100 100 100 100 100 100 100 100 100 100 Pearson Correlation
TTB TBC DBH TKB PTj LTj JCPT SCPT TT LuasT P
Correlation is significant at the 0.01 level (2-tailed). **.
Lampiran 2. Uji KMO dan Eigenvalue Keragaman Karakter Pertumbuhan
a. Uji KMO
KMO and Bartlett's Test
Kaiser-Meyer-Olkin Measure of Sampling Adequacy. ,752
Bartlett's Test of Sphericity Approx. Chi-Square 1230,602
df 55
Sig. ,000
b. Principal Component Analysis: TTB; TBC; DBH; TKB; PTj; LTj; JCPT;
SCPT; TT; Lua
Eigenanalysis of the Correlation Matrix
Eigenvalue 5,9160 1,7103 0,9320 0,8820 0,6686 0,4077 0,2273 0,1167
Proportion 0,538 0,155 0,085 0,080 0,061 0,037 0,021 0,011
Cumulative 0,538 0,693 0,778 0,858 0,919 0,956 0,977 0,987
Eigenvalue 0,0981 0,0264 0,0147 Proportion 0,009 0,002 0,001 Cumulative 0,996 0,999 1,000
Variable PC1 PC2 PC3 PC4 PC5 PC6 PC7 PC8 TTB 0,224 -0,503 -0,038 -0,520 -0,118 -0,173 -0,101 0,022 TBC -0,016 -0,728 0,268 0,033 -0,151 -0,053 -0,065 -0,007 DBH 0,370 -0,017 0,181 0,043 0,199 -0,149 0,547 -0,631 TKB 0,369 -0,070 0,126 0,030 0,263 0,144 0,510 0,665 PTj 0,354 0,068 -0,043 0,346 -0,322 -0,315 -0,131 -0,125 LTj 0,353 0,066 -0,051 0,294 -0,406 -0,119 -0,116 0,302 JCPT 0,330 -0,044 0,003 -0,004 -0,190 0,882 -0,144 -0,216 SCPT 0,029 -0,357 -0,815 0,329 0,305 0,036 0,033 -0,055 TT 0,266 0,249 -0,351 -0,629 0,044 -0,083 -0,077 0,020 LuasT 0,393 0,109 -0,090 -0,035 -0,118 -0,144 -0,088 -0,036 P 0,301 0,004 0,281 0,121 0,664 -0,066 -0,600 0,009
Lampiran 3. Hasil Model Pendugaan Regresi Linear Berganda
a. Uji Normalitas Residual
b. Uji Multikolinearitas
Coefficientsa
Model
Unstandardized
Coefficients
Standardiz
ed
Coefficient
s
t Sig.
Correlations
Collinearity
Statistics
B Std. Error Beta
Zero-order Partial Part
Toleran
ce VIF
1 (Consta
nt)
182,705 114,475 1,596 ,114
TTB -13,003 15,931 -,265 -,816 ,417 ,296 -,086 -,054 ,042 23,662
TBC 7,879 15,680 ,163 ,502 ,617 -,018 ,053 ,034 ,042 23,689
DBH 7,712 3,081 ,383 2,503 ,014 ,730 ,256 ,167 ,190 5,256
TKB 296,106 114,924 ,410 2,577 ,012 ,734 ,263 ,172 ,176 5,698
PTj -19,581 29,084 -,180 -,673 ,503 ,536 -,071 -,045 ,062 16,037
JCPT -,768 1,577 -,054 -,487 ,628 ,499 -,052 -,032 ,368 2,721
SCPT -1,301 52,854 -,002 -,025 ,980 ,001 -,003 -,002 ,889 1,125
TT -2,788 16,981 -,052 -,164 ,870 ,349 -,017 -,011 ,045 22,265
LuasT 1,614 ,978 ,540 1,650 ,102 ,631 ,172 ,110 ,041 24,098
a. Dependent Variable: Produksi
c. Uji Autokorelasi
Model Summaryb
Model
R R Square
Adjusted R
Square
Std. Error of the
Estimate Durbin-Watson
1 ,777a ,604 ,560 113,53032 2,004
a. Predictors: (Constant), Sudut Cabang, Diameter Batang, Tinggi Bebas Cabang, Jumlah
Cabang, Tinggi tajuk, Panjang Tajuk, Tebal kulit Batang, Lebar Tajuk, Tinggi Total, Luas
Tajuk
Lampiran 4. Perhitungan Nilai Heritabilitas
3. Tinggi Bebas Cabang (TBC)
δ
2f = 11,19 ; δ
2b = 0,12 ; δ
26. Sudut Cabang Pertama (SCPT)
= 7,69/ (7,69 + 2,05/2 + 4,23)
= 0,59
9. Lebar Tajuk (LTj)
δ
2f = 5,20 ;
δ
2b = 1,65 ;
δ
2e = 3,31
h
2= δ
2f / (δ
2f + δ
2b + δ
2e)
= 5,20/ (5,20 + 1,65 + 3,31)
= 0,51
h
2f = δ
2f/(δ
2f+ δ
2b/nb+δ
2e)
= 5,20/ (5,20 + 1,65/2 + 3,31)
= 0,56
10. Tinggi Tajuk (TT)
δ
2f = 0,69 ;
δ
2b = 0,69 ;
δ
2e = 9,30
h
2= δ
2f / (δ
2f + δ
2b + δ
2e)
= 0,69/ (0,69 + 0,69 + 9,30)
= 0,06
h
2f = δ
2f/(δ
2f+ δ
2b/nb+δ
2e)
= 0,69/ (0,69 + 0,69/2 + 9,30) =
0,07
11. Luas Tajuk ( LuasT)
δ
2f = 6554 ;
δ
2b = 1314,5 ;
δ
2e =
7004
h
2= δ
2f / (δ
2f + δ
2b + δ
2e)
= 6554/ ( 6554 + 13314,5 + 7004)
= 0,44
h
2f = δ
2f/(δ
2f+ δ
2b/nb+δ
2e)
= 6554/ ( 6554 + 13314,5/2 +
7004)
Lampiran 5. Hasil analisis varians dan harapan kuadrat tengah dari single tree plot
design untuk suatu karakter
1. General Linear Model: TTB (Tinggi Total)
Analysis of Variance
Source DF Adj SS Adj MS F-Value P-Value Famili 2 22,867 11,4333 0,71 0,499 Blok 1 16,133 16,1333 1,01 0,325 Error 26 416,467 16,0179
Lack-of-Fit 2 0,467 0,2333 0,01 0,987 Pure Error 24 416,000 17,3333
Total 29 455,467
2. General Linear Model: TBC (Tinggi Bebas Cabang)
Analysis of Variance
Source DF Adj SS Adj MS F-Value P-Value Famili 2 61,250 30,625 3,72 0,038 Blok 1 8,008 8,008 0,97 0,333 Error 26 214,317 8,243
Lack-of-Fit 2 24,117 12,058 1,52 0,239 Pure Error 24 190,200 7,925
Total 29 283,575
3. General Linear Model: DBH (Diameter Batang)
Analysis of Variance
Source DF Adj SS Adj MS F-Value P-Value Famili 2 1144,0 572,0 4,28 0,025 Blok 1 110,6 110,6 0,83 0,371 Error 26 3474,2 133,6
Lack-of-Fit 2 268,5 134,2 1,00 0,381 Pure Error 24 3205,7 133,6
Total 29 4728,8
4. General Linear Model: TKB (Tebal Kulit Batang)
Source DF Adj SS Adj MS F-Value P-Value Famili 2 0,3167 0,1583 1,23 0,310 Blok 1 0,2613 0,2613 2,02 0,167 Error 26 3,3567 0,1291
Lack-of-Fit 2 0,6647 0,3323 2,96 0,071 Pure Error 24 2,6920 0,1122
Total 29 3,9347
5. General Linear Model: PTj (Panjang Tajuk)
Analysis of Variance
Source DF Adj SS Adj MS F-Value P-Value Famili 2 31,045 15,5223 3,67 0,040 Blok 1 0,133 0,1333 0,03 0,861 Error 26 110,089 4,2342
Lack-of-Fit 2 2,245 1,1223 0,25 0,781 Pure Error 24 107,844 4,4935
Total 29 141,267
6. General Linear Model: LTj (Lebar Tajuk)
Analysis of Variance
Source DF Adj SS Adj MS F-Value P-Value Famili 2 27,428 13,7141 4,15 0,027 Blok 1 0,003 0,0028 0,00 0,977 Error 26 85,979 3,3069
Lack-of-Fit 2 2,615 1,3075 0,38 0,690 Pure Error 24 83,364 3,4735
Total 29 113,410
7. General Linear Model: JCPT (Jumlah Cabang Pembentuk Tajuk)
Analysis of Variance
Source DF Adj SS Adj MS F-Value P-Value Famili 2 743,2 371,6 1,49 0,243 Blok 1 869,4 869,4 3,49 0,073 Error 26 6474,2 249,0
Lack-of-Fit 2 535,6 267,8 1,08 0,355 Pure Error 24 5938,6 247,4
Total 29 8086,8
8. General Linear Model: TT (Tinggi Tajuk)
Analysis of Variance
Source DF Adj SS Adj MS F-Value P-Value Famili 2 21,35 10,675 1,15 0,333 Blok 1 44,41 44,408 4,77 0,038 Error 26 241,82 9,301
Lack-of-Fit 2 28,02 14,008 1,57 0,228 Pure Error 24 213,80 8,908
9. General Linear Model: LuasT (Luas Tajuk)
Analysis of Variance
Source DF Adj SS Adj MS F-Value P-Value Famili 2 40224 20112 2,87 0,075 Blok 1 9633 9633 1,38 0,252 Error 26 182092 7004
Lack-of-Fit 2 15321 7661 1,10 0,348 Pure Error 24 166771 6949
Total 29 231949
10. General Linear Model: SCPT (Sudut Cabang Pembentuk Tajuk)
Analysis of Variance
Source DF Adj SS Adj MS F-Value P-Value Famili 2 0,21780 0,10890 4,48 0,021 Blok 1 0,01243 0,01243 0,51 0,481 Error 26 0,63236 0,02432
Lack-of-Fit 2 0,03610 0,01805 0,73 0,494 Pure Error 24 0,59626 0,02484
Total 29 0,86259
11. General Linear Model: P (Produksi Getah)
Analysis of Variance
Source DF Adj SS Adj MS F-Value P-Value Famili 2 539782 269891 4,78 0,017 Blok 1 120333 120333 2,13 0,156 Error 26 1469132 56505
Lack-of-Fit 2 108972 54486 0,96 0,397 Pure Error 24 1360160 56673