Estimation of Heritability of Several Genotype of Soil (Arachis Hypogaea L.) and Tolerance Test of Shade and Drought Stress
Abstract
This study aims to determine the heritability estimation of several peanut genotypes and to test tolerance to shade and drought stress. The research was carried out in 3 stages, the first stage from May to July 2019 in Sigerongan village, Lingsar District, West Lombok Regency, the second phase from August to October 2019 in Sigerongan village, Lingsar District, West Lombok Regency, and the third stage from July to September 2020 in Nyiurlembang village, Narmada District, West Lombok Regency, West Nusa Tenggara. The experimental design used in estimating heritability was a randomized block design (RAK) consisting of 20 peanut genotypes, namely G2T5, G3D6, G2D2, G5-UII, G300-II, G2T3, G11-UI, G3T4, G200-I, and G12. -UI, G2T1, G2D7, G3T10, G3D8, G7-UII, G7-UIII, G3T7, G16-UI, G7-UI and G2D3. Tolerance test of peanut genotypes to shade and drought stress used a Randomized Block Design (RBD) with a Split Plot Design. The results showed that the genetic diversity value of peanut genotypes against the tested parameters showed that all peanut genotypes were ineffective for further tests on the parameters of plant height, number of leaves and number of branches, while the parameters of the number of filled pods and dry weight of pods all genotypes showed moderate criteria which means that it is effective for further selection. Shade treatment was more influential than treatment without shade. The parameters of pod dry weight and number of filled pods showed a significant difference between the two. Genotypes sensitive to shade stress are G2T5, G3D6, G2T3, G200-I, G2T1, G2D7, G3D8, G7-UII, TAKAR, G3T7, mildly tolerant genotypes, namely G2D2, G5-UII, G300-II, G11-UI, G3T4, G12-UI, G3T10, G7-UI, and G2D3 and the shade tolerant is G16-UI. Plant genotypes that were sensitive (P) to drought stress were G2T5, G3D6, G2D2, G5-UII, G2T3, G11-UI, and G3T4. And the genotypes that are somewhat tolerant are G200-I and G12-UI. Meanwhile, the drought tolerant genotype was G300-II.
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Adisarwanto T. 2003. Meningkatkan Produksi Kacang Tanah di Lahan Sawah dan Lahan Kering. Penebar Swadaya, Jakarta.
Allard, R.W. 1960. Principles of plant breeding. John Wiley & Sons Inc., New York. 485p.
Anggraini, Novita., Faridah, Eny., Dan Indrioko, Sapto. 2015. Pengaruh Cekaman Kekeringan Terhadap Perilaku Fisiologi Dan Pertumbuhan Bibit Black Locust (Robinia Pseudoacacia). Jurnal Ilmu Kehutanan. Vol. 9 No. 1 Hal : 41-46.
Arrisworo, D.2006. Ilmu Pengetahuan Alam. Grafindo. Jakarta.
Baharsyah, J. S, Suwardi, D dan Irsal Las. 1985. Hubungan Iklim dengan Pertumbuhan Kedelai.Badan penelitian dan pengembangan tanaman pangan.Pusat penelitian dan pengembangan tanaman pangan. Bogor.
Barmawi, M., A. Yushardi, dan N. Sa’diyah. 2013. Daya waris dan harapan kemajuan seleksi karakter agronomi kedelai Generasi F2 hasil persilangan antara Yellow bean dan Taichung. J. Agrotek Tropika 1(1):20-24.
Barus J, Yusuf K. 2004. Seed yield determination of peanut crops under water deficit: Soil strengtheffects on pod set, the source–sink ratio and radiation use efficiency. Field Crops Research 109: 24–33
Badan Pusat Statistik. 2018. Badan Pusat Satistik Indonesia. http://www.bps.go.id. [28 November 2018].
Cahyono, B. 2002. Wortel Teknik Budidaya dan Analisis Usaha Tani. Kanisius. Yogyakarta.
Chapman SC, Ludlow MM, Blamey FPC, Fisher KS. 1993. Effect ofdrought at pod filling on utilization of water and growth of cultivarsof groundnut. Field Crop Res 32: 243-255.
Collino DJ, Dardanelli JL, Sereno R, Racca RW. 2000. Physiologicalresponses of argentine peanut varieties to water stress. Water uptakeand water use efficiency. Field Crop Res 68: 133-142.
Deptan. 2013. Budidaya Aneka Kacang dan Umbi Irektorat Jenderal Tanaman Pangan.
Deptan. 2016. Produksi, Luas Panen, dan Produktifitas Padi Palawija. Departemen Pertanian. Jakarta. httpwww.pertanian.go.id. Indikator tabel-1-prod-lspnprodvitas-padi-palawija. Diunduh: 22 Oktober 2016.
Devaiah, K.M.; G. Bali, T.N. Athmaram, and S.M. Basha. 2007. Identification of Two New Genes from Drought Tolerant Peanut Up-Regulated in Responsse to Drought. Plant Growth Regulation. 52:249–258.
Falconer, D.S. 1989. Introduction to Quantitative Genetics. Longman. London.
Fitranty, N., F. Nurilmala, D. Santoso, H. Minarsih. 2003. Agobacterium neutransfer gen PSCS ke dalam kalus tebu klon PS851. Menara Perkebunan 71: 16-27.
Fischer R.A dan Maurer R. 1978. Drought Resistence in Spring Wheat Cultivars. I.Grain Yield Responses. Aust J Agr Res 29:897-912.
Gardner, F.P.R.1991. Fisiologi Tanamanan Budidaya. Universitas Indonesia Press : Jakarta.
Hakim, L. 2010. Keragaman genetik, heritabilitas dan korelasi beberapa karakter agronomi pada galur F2 hasil persilangan kacang hijau (Vigna radiate (L.) Wilezek).Pusat Penelitian dan Pengembangan Tanaman Pangan Bogor. Berita Biologi 10(1)-April 2012.
Haris A. 1999. Karakteristik Iklim Mikro dan Respon Tanaman Padi Gogo pada Pola Tanam Sela dengan Tanaman Karet (Tesis). Bogor : Progam Pascasarjana, Institut Pertanian Bogor.
Hanafi, D.N., S. Umar dan I. Bachri. 2005. Pengaruh tingkat naungan pada berbagai pastura campuran terhadap produksi hijauan. Jurnal agibisnis Peternakan, 1(3): 101-105.
Hanafiah et al. 2016. Induced mutations by gamma ray irradiation to Argomulyo soybean (Glycine max) variety. Nusantara Bioscience, 2(3), 121–125.
Hapsari, R. T. 2016. Pendugaan keragaman genetik dan korelasi antara komponen hasil kacang hijau berumur genjah. Buletin Plasma Nutfah, 20 (2), 51.
Hemon, A.F., 2006. Efektifitas Seleksi In Vitro Berulang untuk Mendapatkan Plasma Nutfah KacangTanah Toleran Terhadap Cekaman Kekeringan dan Resisten Terhadap Penyakit Busuk Batang Sclerotiumrolfsi. Disertasi. Sekolah Pasca Sarjana IPB. Bogor. 200h.
Hemon, A.F. 2009. Pertumbuhan tanaman kacang tanah hasil seleksi in vitro Pada media polietilena glikol terhadap cekaman Larutan polietilena glikol.Crop Ago, Vol. 2. No.1
Hemon AF, Hanafi AB, Sumarjan. 2012-2016. Seleksi dan uji adaptasigalur hasil induksi mutasi dengan iradiasi sinar gamma padapenanaman di lahan sawah dan tegalan untuk mendapatkan kultivarkacang tanah toleran cekaman kekeringan dan berdaya hasil tinggi.Penelitian Hibah Bersaing, 2012-2016. Universitas Mataram, Mataram.
Hemon AF, Ida Wahyuni, Kisman, Sumarjan, Hanafi Abdurrachman. 2018. Penampilan Genotipe mutan kacang tanah yang ditanam pada cekaman kekeringan dan naungan. Submit. Prosiding seminar nasional masyarakat biodiversitas Indonesia. Bandung.
Hemon et al. 2020. Pengaruh intensitas cahaya rendah pada berbagai fase pertumbuhan terhadap karakter morfologi dan daya hasil kacang tanah. Seminar Nasional Peragi 2020.
Herdiana N, Siahaan H, Rahman TS. 2008. Pengaruh Arang Kompos dan Intensitas Cahaya terhadap Pertumbuhan Bibit Kayu Bawang. penelitian Hutan Tanaman 5(3): 1-7.
Humpreys, L.R. 1979. Tropical Pasture Seed Production FAO, Rome Italy.
Jogloy S, Patanothai A, Toomsan S, Isleib TG. 1996. Breeding peanut tofit into Thai cropping systems. Proc. of the Peanut Collaborative Research Support Program-International. Research Symposium andWorkshop, Two Jima Quality Inn, Arlington, Virginia, USA, 25-31 March, 1996: 353-362.
Kasno, A. A. Bahri, A. Mattjik, Subandi dan S. Somaatmaja. 1995. Pendugaan parameter genetik sifatsifat kuantitatif kacang tanah dalam beberapa lingkungan tumbuh dan penggunaannya dalam seleksi. Pen. Pert. Bogor 3(1): 44-48.
Kephard KD, Buxton DR., 1993. Forage Quality Response of C3 and C4 Perennial Gasses to Shade. Crop Sci.
Kumaga F.K., S.G.K. Adiku, and K. Ofori. 2003. Effect of post-flowering water stress on dry matter and yield of three tropical grain legumes. Internat. J. of Agric. & Biol. 5(4):405–407.
Lestari. A. D.. W. Dewi.. W.A Qosim. M. Rahardja. N. Rostini dan R. Setiamihardja. 2006. Variabilitas Genetik Dan Heritabilitas Karakter Komponen Hasil Dan Hasil Lima Belas Genotip Cabai Merah. Zuriat 17 (1):97-98.
Lubis A., 2014. Respon Pertumbuhan dan Produksi Tanaman Kacang Tanah Yang Diinokulasi Fungi Mikoriza Arbuskular. USU Medan.
MC. Whirter, K. S. 1979. Breeding of crass polination crop. In. R. Knight (ed). Plant breeding, Brisbance Australian Vicc-chancellors Committee pp. 79-111.
Myers DA, Jordan DN, Vogerman TC., 1997. Inclination of Sun and Shade Leaves Influenced Choloroplast Light Harvesting and Utilization. Plant Physiol
Purba, K. R., Bayu, E. S., & Nuriadi, I. 2013. Induksi mutasi radiasi sinar gamma pada beberapa varietas kedelai hitam (Glycine max (L.) Merril). Jurnal Online Agroekoteknologi, 1(2), 67–75.
Rahmianna A.A., A. Taufiq, and E. Yusnawan. 2009. Pod yield and kernel quality of peanut grown under two different irrigations and two harvest times. Indonesian J. of Agric. 2(2):103–109.
Samsudin dan Saleh. 2009. Penentuan Indikator Seleksi Untuk Perbaikan Hasil dan Mutu.J. Agroland 12(4): 339-445.
Sexton PJ, Benett JM, Boote KJ. 1997. The effect of dry use efficiencyand carbon I sotope discrimination in peanut under pegging zone soilon pod formation. Peanut Sci 24: 19-24.
Sundari, T., Soemartono., Tahari dan W. Mangoendidjojo. 2005. keragaan hasil dan toleransi genotipe kacang hijau terhadap penanungan. Jurnal ilmu pertanian, 12 (1) : 12-19.
Sofi, L., Masnenah, E., Murdaningsih H.K., R. Setiamihardja, W. Astika, dan A. Baihaki. 2008. Parameter genetik karakter- karakter ketahanan terhadap penyakit karat kedelai dan beberapa karakter lainnya. Zuriat 8 (2), 57-63.
Song, Nio Dan Banyo, Yunia. 2011. Konsentrasi Klorofil Daun Sebagai Indikator Kekurangan Air Pada Tanaman. Jurnal Ilmiah Sains Vol. 11 No. 2. Hal 169-170.
Suparman dan Abdurrahman. 2003. Teknik Pengujian Galur Kacang Tanah Toleran naungan dibawah Pohon Kelapa. Buletin Teknik Pertanian vol.8.no.2:76-79.
Sutaryo dan Sudaryono. 2010. Keragaan Fenotip Dan Beberapa Parameter Genetik Hasil Dan Karakter Agronomi Enam Padi Hibrida Di Lahan Kering Masam. Balai Pengkajian Teknologi Pertanian, Yogyakarta.
Sutjahjo, S.H., dkk. 2007. Kajian Genetik Dan Seleksi Genotipe S5 Kacang Hijau (Vigna Radiata) Menuju Kultivar Berdaya Hasil Tinggi Dan Serempak Panen. Departemen Agronomi dan Hortikultura, Faperta IPB. Bogor.
Suwardi. 2002. Teknologi Produksi dan Pascapanen Benih Unggul Jagung Hibrida. Prosiding Seminar Nasional Seralia. Vol 7 (2): 307-312.
Uchimiya, H. 2001. Genetic engineering for abiotic stress tolerance in plants.SCOPAS. http://www. sciencecouncil.cgiar.org. [11 Februari 2010].
Whirter K.S. 1979. Breeding of cross-pollinatedcrops.In a. course manual in plant breeding.Knight. R. (Ed). Australian videchancellor’s Committee. P77-121.
Yang CW, Kao CH. 1999. Importance of ornithine-δ-transferase to proline accumulation caused by water stress in detached rice leaves. Plant Growth Reg 27:189-192.
DOI: http://dx.doi.org/10.18415/ijmmu.v8i5.2517
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