Affandi R. DS Safei. MF Rahardjo dan Sulistiono. 1992. Ikhtiologi : Suatu Pedoman Kerja Laboratorium. Departemen Pendidikan dan Kebudayaan. Direktorat Jendral Pendidikan Tinggi. Pusat Antar Universitas Ilmu Hayat. Bogor : Institut Pertanian Bogor. Bogor.
Afrianto E. SA Rifai. E Liviawaty. H Hamdhani. 1996. Kamus Istilah Perikanan.
Kanisius. Yogyakarta.
Ahyong ST. TY Chan. YC Liao. 2008. A Catalog of The Mantis Shrimp (Stomatopoda) of Taiwan. National Taiwan Ocean University. Taiwan.
Ahyong ST. MK Moosa. 2004. Stomapod crustaea rom Anambas and Natuna Islands, South China Sea, Indonesia. The Raffles Bulletin of Zoology.
Supplement No. 11:61-66.
Ahyong ST. MV Erdmann. 2007. Two New Species of Gonodactylellus From The Western Pacific (Gonodactylidae: Stomatopoda). The Raffles Bulletin of Zoology. National University of Singapore. 55(1). 89-95.
Anggraini E. 1991. Regenerasi alat gerak, pertambahan bobot tubuh pasca lepas cangkang, dan kajian morfometrik kepiting bakau Scylla serrata (Forskal) di rawa payau muara Sungai Cikaso, Kabupaten Sukabumi [skripsi]. Jurusan Manajemen Sumberdaya Perairan. Fakultas Perikanan, Institut Pertanian Bogor. Bogor.
Azmarina. 2007. Karakteristik morfometrik udang mantis, Harpiosquilla raphidea (Fabricius 1798) di perairan Bagansiapiapi [Skripsi]. Fakultas Perikanan dan Ilmu Kelautan, Universitas Riau. Pekanbaru.
[BPS] Badan Pusat Statistik Kabupaten Tanjung Jabung Barat. 2008. Tanjung Jabung Barat dalam angka. Tanjung Jabung Barat, Jambi.
Christy JH. M Salmon. 1991. Comparative Studies of Reproductive Behavior in Mantis Shrimp and Fiddler Crab. Amer. Zool. 31: 329-337.
Dahuri R. J Rais. SP Ginting. MJ Sitepu. 1996. Pengelolaan Sumberdaya Wilayah Pesisir dan Lautan Secara Terpadu. PT. Pradanya Paramita. Jakarta.
Dahuri R. 2003. Keanekaragaman hayati laut: aset pembangunan berkelanjutan Indonesia. PT Gramedia Pustaka Utama. Jakarta. p. 115-116.
Dewantoro E. 2001. Rasio RNA/DNA, karakter morfometrik, dan komposisi daging ikan mas (Cyprinus carpio L.) strain sinyonya, karper kaca, dan hibridanya. [tesis]. Program Pasca Sarjana. Institut Pertanian Bogor. Bogor.
Dewi L. 2005. Kelimpahan dan Komposisi Fitoplankton Penghasil Geosmin dan MIB (2-Metilisoborneol) Penebab Citarasa Lumpur Pada Ikan di Waduk Cirata. Skripsi. Departemen Manajemen Sumberdaya Perairan. Fakultas Perikanan dan Ilmu Kelautan. Institut Pertanian Bogor. Bogor.
[DKP] Dinas Kelautan dan Perikanan Kabupaten Tanjung Jabung Barat. 2003.
Laporan tahunan Dinas Kelautan dan Perikanan Kabupaten Tanjung Jabung Barat Tahun 2002. Tanjung Jabung Barat. Jambi.
Effendie MI. 1997. Metode Biologi Perikanan. Yayasan Dewi Sri. Bogor.
Halomoan M. 1999. Beberapa aspek biologi reproduksi udang ronggeng (Squilla harpax de Haan) di perairan Teluk Banten, Serang, Jawa Barat [Skripsi].
Departemen Manajemen Sumberdaya Perairan, Fakultas Perikanan dan Ilmu Kelautan, Institut Pertanian Bogor. Bogor.
Hartnoll RG. 1982. Growth. Dalam : D.E. Bliss (ed.-in-chief) dan L.G.Abele (ed.). Te Biology of crustacea, vol.II, Embryology, Morphology and Genetic. Academic Press, New York. Pp. 111-195.
Hernáez P. IS Wehrtmann. 2007. Population biology of the burrowing shrimp Callichirus seilacheri (Decapoda: Callianassidae) in northern Chile. Rev. Biol.
Trop. (Int. J. Trop. Biol. ISSN-0034-7744) Vol. 55 (Suppl. 1): 141-152.
Kartini D. 1998. Parameter populasi Udang Api-Api (Metapenaeus monoceros Fabricius) yang ditangkap di Perairan Muara Angke, Teluk Jakarta [Skripsi].
Departemen Manajemen Sumberdaya Perairan, Fakultas Perikanan dan Ilmu Kelautan, Institut Pertanian Bogor. Bogor.
Imron. 1998. Keragaman morfologis dan biokimiawi beberapa stok keturunan induk udang windu (Penaeus monodon) asal laut yang dibudidayakan di tambak. [tesis]. Program Pasca Sarjana. Institut Pertanian Bogor. Bogor.
Jennings S. Kaiser M. Reynolds JD. 2001. Marine Fisheries Ecology. Alden Press Ltd.
Blackwell Publishing. United Kingdom. 417 hal.
Manning RB. 1969. A Review of the Genus Harpiosquilla (Crustacea, Stomatopoda), with Description of Three New Species. Smithsonian Institution Press.
Washington. 41 hal.
Moyle PB. JJ Cech JR. 2004. Fishes An Introduction to Ichthyology Fifth Edition.
Prentice Hall, Englewood. New Jersey. 726 hal.
Narita T. Ganmanee M. Sekiguchi H. 2007. Population Dynamics of Mantis Shrimp Oratosquilla oratoria in Ise Bay, Central Japan. Nippon Suisan Gakkaishi. 73(1):
18-31.
Nates SF. DL Felder. 1999. Growth and maturation of the ghost shrimp Lepidophthalmus sinuensis Lemaitre and Rodrigues, 1991 (Crustacea, Decapoda, Callianassidae), a burrowing pest in penaeid shrimp culture ponds. Fish. Bull. 97:526–541.
Niswari AP. 2004. Studi morfometrik kerang hijau (Verna viridis, L.) di perairan Cilincing, Jakarta Utara. [skripsi]. Program Studi Manajemen Sumberdaya Perairan, Fakultas Perikanan dan Ilmu Kelautan, Institut Pertanian Bogor.
Bogor.
Ohtomi J. M Shizumi. 1994. Theoretical growth during the recruitment period and estimation of growth parameters of the Japanese Mantis shrimp Oratosquilla oratoria in Tokyo Bay. University of Tokyo 58(1):21-27.
Sin YW. C Yau. KH Chu. 2009. Morphological and genetic differentiation of two loliginid squids, Uroteuthis (Photololigo) chinensis and Uroteuthis (Photololigo) edulis (Cephalopoda: Loliginidae), in Asia. Journal of Experimental Marine Biology and Ecology 369: 22-30.
Sumiono B. BE Priyono. 1998. Sumberdaya udang peneis dan krustase lainnya dalam: J Widodo. KA Azis. BE Priyono. GH Tampubolon. N Naamin. A Djamali, eds. Potensi dan penyebaran sumberdaya ikan laut di perairan Indonesia. Komisi Nasional Pengkajian Stok Sumberdaya Ikan Laut dan P2 O-LIPI. Jakarta.
Walpole RE. 1993. Pengantar statistika. Edisi ke-3. PT.Garmedia Pustaka Utama.
Jakarta.
Wardiatno Y. A Fajarillah. A Mashar. 2009. Kajian aspek reproduksi dan genetika udang mantis (Harpiosquilla raphidea, Fabricus 1798) di Kuala Tungkal, Kabupaten Tanjung Jabung Barat, Jambi sebagai upaya lanjutan domestifikasi udang mantis. Institut pertanian Bogor. Bogor.
Widiyanto IN. 2008. Kajian pola pertumbuhan dan ciri morfometrik-meristik beberapa spesies ikan layur (Superfamili trichiuroidea) di perairan Palabuhan Ratu, Sukabumi, Jawa Barat [skripsi]. Departemen Manajemen Sumberdaya Perairan. Fakultas Perikanan dan Ilmu Kelautan. Institut Pertanian Bogor.
Widodo J. Suadi. 2008. Pengelolaan Sumberdaya Perikanan Laut. Gadjah Mada University Press. Yogyakarta. p. 74.
Wortham-Neal JL. 2002. Reproductive morphology and biology of male and female mantis shirmp (Stomatopoda: Squillidae). Journal of Crustacean Biology 22(4):
728-741.
Lampiran 1. Matriks korelasi perbandingan ciri morfometrik pada O. Gravieri
Pjg:LCKa Pjg:LCKi Pjg:PPKi Pjg:PPKa Pjg:PCKa Pjg:PCKi PCKa:LCKa PCKi:LCKi Pjg:LCKa 1.000
Lampiran 2. Matriks korelasi perbandingan ciri morfometrik pada H. raphidea
Pjg:LCKa Pjg:LCKi Pjg:PPKi Pjg:PPKa Pjg:PCKa Pjg:PCKi PCKa:LCKa PCKi:LCKi
Pjg:LCKa 1.000
Lampiran 3. Matriks korelasi antar karakter morfometrik pada O. gravieri
Pjg bobot LCKa LCKi PCKa PCKi PPKi PPKa
Lampiran 4. Matriks korelasi antar karakter morfometrik pada H. raphidea
Lampiran 5. Analisis regresi panjang berat O. gravieri betina
SUMMARY OUTPUT Regression 1 19.01452285 19.015 1901.38 7.31227E-85
Residual 144 1.440057158 0.01
Total 145 20.45458001
Intercept -1.910341 0.057488628 -33.23 2.1E-69 -2.0240 -1.7967 -2.024 -1.7967 X Variable 1 2.892023 0.066323541 43.605 7.3E-85 2.76093 3.02312 2.7610 3.0231
Lampiran 6. Analisis regresi panjang berat O. gravieri jantan Regression 1 4.689315023 4.6893 510.995
3.24086E-35
Residual 75 0.688262772 0.0092
Total 76 5.377577796
Lampiran 7. Analisis regresi panjang berat H. raphidea betina
SUMMARY OUTPUT
Regression Statistics
Multiple R 0.91609
R Square 0.83922
Adjusted R Square 0.838734 Standard Error 0.172262
Intercept -1.7424 0.064322 -27.0887 5.51E-86 -1.86893 -1.61586 -1.86893 -1.61586
X Variable 1 2.664515 0.064104 41.56581 2E-133 2.538413 2.790617 2.538413 2.790617 t hitung =
Lampiran 8. Analisis regresi panjang berat H. raphidea jantan
SUMMARY OUTPUT
Regression Statistics
Multiple R 0.922948 R Square 0.851833
Adjusted R
Square 0.851243 Standard Error 0.147352
Observations 253
ANOVA
Db Jk Kt F
Significance F
Regresi 1 31.33193 31.33193 1443.038 4.6E-106
Sisa 251 5.449832 0.021712
Total 252 36.78176
Coefficients
Intercept -1.91489 0.076788 -24.9376 6.98E-70 -2.06612 -1.76366 -2.06612 -1.76366 X Variable 1 2.837118 0.074686 37.98734 4.6E-106 2.690027 2.984209 2.690027 2.984209
t hitung =
=24,5979, ttabel = t0,05(0,05,251)=1,9694→Tolak Ho, Allometrik Positif
Lampiran 9. Analisis regresi hubungan panjang dengan karakter morfometrik lain
SUMMARY OUTPUT b1 0.0778 0.0096 t hit
Siku Kanan b2 0.0682 0.3392
Regression Statistics se1 0.022358 0.028302
Multiple R 0.623669 se2 0.017353 Regression 1 0.154844 0.154844 12.0947 0.002519 Residual 19 0.243251 0.012803
Total 20 0.398095
Coefficients
Intercept -1.19882 0.549285 -2.18251 0.041829 -2.34848 -0.04915 -2.34848 -0.04915 X Variable 1 0.077755 0.022358 3.477743 0.002519 0.03096 0.124551 0.03096 0.124551 SUMMARY OUTPUT Regression 1 0.119185 0.119185 15.45444 0.000897 Residual 19 0.146529 0.007712
Total 20 0.265714
Intercept -0.95996 0.426317 -2.25176 0.036363 -1.85225 -0.06767 -1.85225 -0.06767 X Variable 1 0.068217 0.017353 3.931214 0.000897 0.031898 0.104537 0.031898 0.104537
SUMMARY OUTPUT Penis Kanan Gravieri
Regression Statistics b1 0.098 -0.0058 t hit
Multiple R 0.849202 b2 0.1038 -0.78105
R Square 0.721144 se1 0.007037 0.007426
Adjusted R
Square 0.717426 se2 0.002371
Standard
Error 0.099745
Observations 77 t tab 1.96729 Gatot
ANOVA
Df SS MS F
Significance F Regression 1 1.929674 1.929674 193.956 1.71E-22 Residual 75 0.746177 0.009949
Total 76 2.675852
Coefficients
Standard
Error t Stat P-value Lower 95%
Upper 95%
Lower 95.0%
Upper 95.0%
Intercept -0.2075 0.054645 -3.79718 0.000295 -0.31635 -0.09864 -0.31635 -0.09864 X Variable 1 0.098007 0.007037 13.92681 1.71E-22 0.083988 0.112025 0.083988 0.112025
SUMMARY OUTPUT Penis Kanan Raphidea
Regression Statistics Multiple R 0.940521 R Square 0.884579 Adjusted R
Square 0.884117 Standard
Error 0.126116
Observations 252 ANOVA
Df SS MS F
Significance F Regression 1 30.47414 30.47414 1915.982 3.3E-119 Residual 250 3.976309 0.015905
Total 251 34.45045
Coefficients
Standard
Error t Stat P-value Lower 95%
Upper 95%
Lower 95.0%
Upper 95.0%
Intercept -0.34524 0.027147 -12.7178 6.57E-29 -0.39871 -0.29178 -0.39871 -0.29178 X Variable 1 0.103776 0.002371 43.77193 3.3E-119 0.099107 0.108446 0.099107 0.108446
SUMMARY OUTPUT Penis Kiri Gravieri
Regression Statistics b1 0.0969 -0.0077 t hit
Multiple R 0.825218 b2 0.1046 -0.96816
R Square 0.680985 se1 0.007657 0.007953
Adjusted R
Square 0.676732 se2 0.00215
Standard
Error 0.108148
Observations 77 t tab 1.96729 Gatot
ANOVA
Df SS MS F
Significance F Regression 1 1.872505 1.872505 160.099 2.73E-20 Residual 75 0.877194 0.011696
Total 76 2.749699
Coefficients
Standard
Error t Stat P-value Lower 95%
Upper 95%
Lower 95.0%
Upper 95.0%
Intercept -0.23065 0.059477 -3.8779 0.000224 -0.34913 -0.11216 -0.34913 -0.11216 X Variable 1 0.096884 0.007657 12.65302 2.73E-20 0.08163 0.112137 0.08163 0.112137
SUMMARY OUTPUT Penis Kiri Raphidea
Regression Statistics Multiple R 0.951043 R Square 0.904482 Adjusted R
Square 0.9041
Standard
Error 0.114374
Observations 252 ANOVA
Df SS MS F
Significance F Regression 1 30.96801 30.96801 2367.318 1.7E-129 Residual 250 3.270368 0.013081
Total 251 34.23837
Coefficients
Standard
Error t Stat P-value Lower 95%
Upper 95%
Lower 95.0%
Upper 95.0%
Intercept -0.37537 0.024625 -15.2436 1.51E-37 -0.42387 -0.32687 -0.42387 -0.32687 X Variable 1 0.104632 0.00215 48.65509 1.7E-129 0.100397 0.108867 0.100397 0.108867
SUMMARY OUTPUT b1 0.5068 0.092 t hit
Panjang Capit Kiri G B b2 0.4148 3.617467
Regression Statistics se1 0.022894 0.025432
Multiple R 0.879835 se2 0.011075
R Square 0.77411 Adjusted R
Square 0.772531 t tab 1.965215 tolak Ho
Standard
Error 0.56938
Observations 145
ANOVA
Df SS MS F
Significance F Regression 1 158.8715 158.8715 490.0519 4.81E-48 Residual 143 46.35962 0.324193
Total 144 205.2311
Coefficients
Standard
Error t Stat P-value Lower 95%
Upper 95%
Lower 95.0%
Upper 95.0%
Intercept -1.13884 0.178835 -6.3681 2.45E-09 -1.49234 -0.78534 -1.49234 -0.78534 X Variable 1 0.506804 0.022894 22.13712 4.81E-48 0.46155 0.552058 0.46155 0.552058
SUMMARY OUTPUT Panjang Capit R B
Regression Statistics Multiple R 0.904999 R Square 0.819023 Adjusted R
Square 0.818439 Standard
Error 0.705814
Observations 312 ANOVA
Df SS MS F
Significance F Regression 1 698.8997 698.8997 1402.926 4.3E-117 Residual 310 154.4336 0.498173
Total 311 853.3333
Coefficients
Standard
Error t Stat P-value Lower 95%
Upper 95%
Lower 95.0%
Upper 95.0%
Intercept 0.196561 0.123007 1.59797 0.111068 -0.04547 0.438595 -0.04547 0.438595 X Variable 1 0.41484 0.011075 37.45566 4.3E-117 0.393047 0.436633 0.393047 0.436633
SUMMARY OUTPUT
Panjang Capit Kiri G J b1 0.4521 -0.0066 t hit
Regression Statistics b2 0.4587 -0.1291
Multiple R 0.789342 se1 0.041156 0.051122
R Square 0.623061 se2 0.030324
Adjusted R
Square 0.617897 Standard
Error 0.572694 t tab 1.967476 gatot
Observations 75 ANOVA
Df SS MS F
Significance F Regression 1 39.57561 39.57561 120.6652 4E-17 Residual 73 23.94245 0.327979
Total 74 63.51807
Coefficients
Standard
Error t Stat P-value Lower 95%
Upper 95%
Lower 95.0%
Upper 95.0%
Intercept -0.85958 0.320148 -2.68493 0.008973 -1.49763 -0.22152 -1.49763 -0.22152 X Variable 1 0.452093 0.041156 10.98477 4E-17 0.370068 0.534117 0.370068 0.534117
SUMMARY OUTPUT Panjang Capit Kiri R J
Regression Statistics Multiple R 0.695644 R Square 0.483921 Adjusted R
Square 0.481806 Standard
Error 1.602353
Observations 246
ANOVA
Df SS MS F
Significance F Regression 1 587.4417 587.4417 228.796 6.53E-37 Residual 244 626.4786 2.567535
Total 245 1213.92
Coefficients
Standard
Error t Stat P-value Lower 95%
Upper 95%
Lower 95.0%
Upper 95.0%
Intercept -0.20155 0.347651 -0.57974 0.562622 -0.88633 0.483231 -0.88633 0.483231 X Variable 1 0.458687 0.030324 15.126 6.53E-37 0.398956 0.518418 0.398956 0.518418
SUMMARY OUTPUT
Panjang Capit Kanan G B b1 0.4949 0.0729 t hit
Regression Statistics b2 0.422 2.724111
Multiple R 0.863605 se1 0.024508 0.026761
R Square 0.745814 se2 0.010748
Adjusted R
Square 0.743985 Standard
Error 0.595252 t tab 1.965112 tolak Ho
Observations 141
ANOVA
Df SS MS F
Significance F Regression 1 144.5089 144.5089 407.8426 3.55E-43 Residual 139 49.25119 0.354325
Total 140 193.7601
Coefficients
Standard
Error t Stat P-value Lower 95%
Upper 95%
Lower 95.0%
Upper 95.0%
Intercept -1.00737 0.193031 -5.21871 6.42E-07 -1.38903 -0.62572 -1.38903 -0.62572 X Variable 1 0.494936 0.024508 20.19511 3.55E-43 0.44648 0.543393 0.44648 0.543393
SUMMARY OUTPUT Panjang Capit Kanan R B
Regression Statistics Multiple R 0.909275 R Square 0.826781 Adjusted R
Square 0.826244 Standard
Error 0.68864
Observations 325 ANOVA
Df SS MS F
Significance F Regression 1 731.1061 731.1061 1541.687 5.3E-125 Residual 323 153.1745 0.474225
Total 324 884.2807
Coefficients
Standard
Error t Stat P-value Lower 95%
Upper 95%
Lower 95.0%
Upper 95.0%
Intercept 0.160634 0.118667 1.353651 0.176794 -0.07282 0.394093 -0.07282 0.394093 X Variable 1 0.42202 0.010748 39.26433 5.3E-125 0.400875 0.443165 0.400875 0.443165
SUMMARY OUTPUT b1 0.4448 -0.0384 t hit
Panjang Capit Kanan G J b2 0.4832 -0.74542
Regression Statistics se1 0.041603 0.051515
Multiple R 0.77914 se2 0.030381
R Square 0.607059 Adjusted R
Square 0.601749 t tab 1.967336 gatot
Standard
Error 0.586869
Observations 76 ANOVA
Df SS MS F
Significance F Regression 1 39.37473 39.37473 114.3233 1.15E-16 Residual 74 25.48676 0.344416
Total 75 64.86149
Coefficients
Standard
Error t Stat P-value Lower 95%
Upper 95%
Lower 95.0%
Upper 95.0%
Intercept -0.70896 0.323605 -2.19082 0.031614 -1.35376 -0.06416 -1.35376 -0.06416 X Variable 1 0.444825 0.041603 10.69221 1.15E-16 0.36193 0.52772 0.36193 0.52772
SUMMARY OUTPUT Panjang Capit Kanan R J
Regression Statistics Multiple R 0.709907 R Square 0.503967 Adjusted R
Square 0.501975 Standard
Error 1.613517
Observations 251
ANOVA
Df SS MS F
Significance F Regression 1 658.6252 658.6252 252.983 8.74E-40 Residual 249 648.2557 2.603437
Total 250 1306.881
Coefficients
Standard
Error t Stat P-value Lower 95%
Upper 95%
Lower 95.0%
Upper 95.0%
Intercept -0.39016 0.347962 -1.12128 0.263248 -1.07549 0.29516 -1.07549 0.29516 X Variable 1 0.483216 0.030381 15.90544 8.74E-40 0.42338 0.543051 0.42338 0.543051
SUMMARY OUTPUT
Lebar Capit Kiri G B b1 0.0353 0.0015 t hit
Regression Statistics b2 0.0338 0.674859
Multiple R 0.829713 se1 0.001984 0.002223
R Square 0.688423 se2 0.001001
Adjusted R
Square 0.686244 Standard
Error 0.049354 t tab 1.965215 gatot
Observations 145
ANOVA
Df SS MS F
Significance F Regression 1 0.769605 0.769605 315.9555 4.93E-38 Residual 143 0.34832 0.002436
Total 144 1.117924
Coefficients
Standard
Error t Stat P-value Lower 95%
Upper 95%
Lower 95.0%
Upper 95.0%
Intercept 0.032886 0.015501 2.121469 0.035607 0.002244 0.063527 0.002244 0.063527 X Variable 1 0.035274 0.001984 17.77514 4.93E-38 0.031351 0.039196 0.031351 0.039196
SUMMARY OUTPUT Lebar Capit Kiri R B
Regression Statistics Multiple R 0.886455 R Square 0.785802 Adjusted R
Square 0.785111 Standard
Error 0.063802
Observations 312 ANOVA
Df SS MS F
Significance F Regression 1 4.629411 4.629411 1137.26 9.6E-106 Residual 310 1.261907 0.004071
Total 311 5.891318
Coefficients
Standard
Error t Stat P-value Lower 95%
Upper 95%
Lower 95.0%
Upper 95.0%
Intercept 0.009849 0.011119 0.885748 0.37644 -0.01203 0.031727 -0.01203 0.031727 X Variable 1 0.033763 0.001001 33.72329 9.6E-106 0.031793 0.035733 0.031793 0.035733
SUMMARY OUTPUT Lebar Capit Kiri G J
Regression Statistics b1 0.0438 0.005 t hit
Multiple R 0.804262 b2 0.0388 1.277432
R Square 0.646837 se1 0.003792 0.003914
Adjusted R
Square 0.641999 se2 0.00097
Standard
Error 0.052766
Observations 75 t tab 1.967476 gatot
ANOVA
Df SS MS F
Significance F Regression 1 0.372264 0.372264 133.7034 3.64E-18 Residual 73 0.20325 0.002784
Total 74 0.575515
Coefficients
Standard
Error t Stat P-value Lower 95%
Upper 95%
Lower 95.0%
Upper 95.0%
Intercept -0.02599 0.029497 -0.88106 0.38118 -0.08478 0.032799 -0.08478 0.032799 X Variable 1 0.043847 0.003792 11.56302 3.64E-18 0.03629 0.051404 0.03629 0.051404
SUMMARY OUTPUT Lebar Capit Kiri R J
Regression Statistics Multiple R 0.931617 R Square 0.867911 Adjusted R
Square 0.867369 Standard
Error 0.051256
Observations 246 ANOVA
Df SS MS F
Significance F Regression 1 4.212059 4.212059 1603.236 3E-109 Residual 244 0.641042 0.002627
Total 245 4.853101
Coefficients
Standard
Error t Stat P-value Lower 95%
Upper 95%
Lower 95.0%
Upper 95.0%
Intercept -0.03773 0.011121 -3.39298 0.000807 -0.05964 -0.01583 -0.05964 -0.01583 X Variable 1 0.03884 0.00097 40.04044 3E-109 0.036929 0.040751 0.036929 0.040751
SUMMARY OUTPUT b1 0.0339 -0.0006 t hit
Lebar Capit Kanan G B b2 0.0345 -0.26729
Regression Statistics se1 0.002058 0.002245
Multiple R 0.812999 se2 0.000897
R Square 0.660967 Adjusted R
Square 0.658528 t tab 1.965112 gatot
Standard
Error 0.049981
Observations 141 ANOVA
Df SS MS F
Significance F Regression 1 0.67695 0.67695 270.99 1.86E-34 Residual 139 0.34723 0.002498
Total 140 1.02418
Coefficients
Standard
Error t Stat P-value Lower 95%
Upper 95%
Lower 95.0%
Upper 95.0%
Intercept 0.043265 0.016208 2.669358 0.008505 0.011219 0.075311 0.011219 0.075311 X Variable 1 0.033875 0.002058 16.46178 1.86E-34 0.029806 0.037944 0.029806 0.037944
SUMMARY OUTPUT Lebar Capit Kanan R B
Regression Statistics Multiple R 0.905841 R Square 0.820547 Adjusted R
Square 0.819992 Standard
Error 0.057469
Observations 325
ANOVA
Df SS MS F
Significance F Regression 1 4.877799 4.877799 1476.916 1.6E-122 Residual 323 1.06677 0.003303
Total 324 5.944569
Coefficients
Standard
Error t Stat P-value Lower 95%
Upper 95%
Lower 95.0%
Upper 95.0%
Intercept 0.00798 0.009903 0.805787 0.420959 -0.0115 0.027463 -0.0115 0.027463 X Variable 1 0.034471 0.000897 38.43066 1.6E-122 0.032706 0.036236 0.032706 0.036236
SUMMARY OUTPUT Lebar Capit Kanan G J
Regression Statistics b1 0.0424 0.0021 t hit
Multiple R 0.846007 b2 0.0403 0.644216
R Square 0.715727 se1 0.003106 0.00326
Adjusted R
Square 0.711886 se2 0.000988
Standard
Error 0.043821
Observations 76 t tab 1.967336 gatot
ANOVA
Df SS MS F
Significance F Regression 1 0.357776 0.357776 186.3134 6.67E-22 Residual 74 0.142102 0.00192
Total 75 0.499878
Coefficients
Standard
Error t Stat P-value Lower 95%
Upper 95%
Lower 95.0%
Upper 95.0%
Intercept -0.01932 0.024163 -0.79943 0.426602 -0.06746 0.02883 -0.06746 0.02883 X Variable 1 0.042402 0.003106 13.64967 6.67E-22 0.036212 0.048592 0.036212 0.048592
SUMMARY OUTPUT Lebar Capit Kanan R J
Regression Statistics Multiple R 0.932646 R Square 0.869828 Adjusted R
Square 0.869305 Standard
Error 0.052473
Observations 251 ANOVA
Df SS MS F
Significance F Regression 1 4.581302 4.581302 1663.849 3.1E-112 Residual 249 0.685605 0.002753
Total 250 5.266908
Coefficients
Standard
Error t Stat P-value Lower 95%
Upper 95%
Lower 95.0%
Upper 95.0%
Intercept -0.04719 0.011316 -4.17005 4.21E-05 -0.06948 -0.0249 -0.06948 -0.0249 X Variable 1 0.040301 0.000988 40.79031 3.1E-112 0.038355 0.042247 0.038355 0.042247