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I Nyoman Widiarta
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Resistance of Rice Varieties and Accessions to Dwarf Viruses Celvia Roza; Suprihanto Suprihanto; Dede Kusdiaman; I Nyoman Widiarta; Bambang Nuryanto; Oco Rumasa
Jurnal Fitopatologi Indonesia Vol 17 No 3 (2021)
Publisher : The Indonesian Phytopathological Society (Perhimpunan Fitopatologi Indonesia)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.14692/jfi.17.3.92-102

Abstract

Identifikasi ketahanan plasma nutfah padi terhadap virus kerdil bertujuan untuk mendapatkan informasi mengenai varietas dan aksesi yang tahan terhadap virus kerdil padi, yaitu Rice ragged stunt virus (RRSV) dan Rice grassy stunt virus (RGSV). Penelitian dilakukan di Rumah Kaca Balai Besar Penelitian Tanaman Padi pada MT1/MT2 tahun 2018. Materi genetik yang diuji yaitu 19 varietas padi yang sudah dilepas dan 50 aksesi plasma nutfah padi koleksi Balai Besar Penelitian Tanaman Padi Badan Litbang Pertanian-Kementerian Pertanian. Pengamatan mengikuti metode skoring SES IRRI 2014. Respons tanaman uji terhadap RRSV dapat dikelompokkan menjadi rentan (1 varietas dan 22 aksesi), agak tahan (18 varietas dan 22 aksesi), dan tahan {2 aksesi, yaitu MDK Karawang (800 butir/Malai) (10597), dan Pulo Hitam (10615}. Respons tanaman uji terhadap RGSV dapat dikelompokkan menjadi rentan (16 varietas dan 34 aksesi), agak tahan (3 varietas dan 11 aksesi), dan tahan (1 aksesi, yaitu Ketik 1-1062). Lebih lanjut, aksesi padi yang tahan terhadap RRSV dan/atau RGSV dapat digunakan sebagai tetua dalam perakitan varietas yang tahan terhadap virus kerdil.
Evaluasi Virulensi Virus Tungro dari Beberapa Daerah Endemi dan Uji Ketahanan Plasma Nutfah Padi Suprihanto Suprihanto; I Nyoman Widiarta; Dede Kusdiaman
Jurnal Perlindungan Tanaman Indonesia Vol 16, No 1 (2010)
Publisher : Universitas Gadjah Mada

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22146/jpti.11749

Abstract

The purpose of this study was to evaluate the level of tungro virus virulence from some endemic areas, the suitability of planting resistant varieties, and resistance of rice germplasms. Tungro virus isolates were collected from tungro-endemic areas in North Sumatra, West Java, Central Java, South Sulawesi, West Sulawesi and Central Sulawesi. Tungro virus isolates were then inoculated using green leafhoppers Nephotettix virescens (Distant) to five differential varieties: Tukad Petanu, Bondoyudo, Kalimas, Tukad Balian, and Tukad Unda, and TN1 (as susceptible check). Level of virulence of tungro virus isolates and suitability planting of resistant varieties can be evaluated. Tungro virus isolate which has the highest virulence was used to test of resistant of rice germplasms. Results of tungro virulence test can be distinguished that there are 4 variants of virulence, namely: 073 (Subang, Bulukumba, Bantaeng, andWest Sulawesi isolates), 033 (Simalungun, Temanggung, and Palu), 031 (Kuningan andMagelang), and virulence 013 (Lanrang isolate). Tukad Petanu was still appropriate varieties to be planted in throughout the tungro-endemic areas (North Sumatra, West Java, Central Java, South Sulawesi, West Sulawesi, and Central Sulawesi). Bondoyudo variety still suitables to be planted in the areas of Simalungun, Kuningan, Magelang, Temanggung, Lanrang, and Palu. While Tukad Unda variety still have the suitability of planting for areas Kuningan, Magelang, and Temanggung. Between 100 assesions of germplasm which were tested to high virulence of tungro (073) one resistant assession has been identified (Deli assesion), and as many as 25 assesions showed moderately resistant reaction.
Deteksi Keragaman Virus Tungro dari Beberapa Daerah Endemis di Indonesia dengan Teknik PCR-RFLP R. Heru Praptana; Y. B. Sumardiyono; Sedyo Hartono; I Nyoman Widiarta; Muhammad Muhsin
Jurnal Perlindungan Tanaman Indonesia Vol 15, No 1 (2009)
Publisher : Universitas Gadjah Mada

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22146/jpti.11763

Abstract

Tungro is one of rice disease caused by two different viruses (rice tungro virus=RTV) i.e. Rice tungro bacilliform virus (RTBV) and Rice tungro spherical virus (RTSV) that are transmitted only by green leafhopper. Tungro had become a serious problem in several rice productions centre in Indonesia. Various components of management effort have been applied but they were inefficient in preventing the tungro disease development. Resistance variety is the most efficient component to tungro disease management. Complexity interactions of tungro disease components are mayor constraint in tungro disease management. Detection of molecular variability in rice tungro virus from several endemic areas in Indonesia were conducted by using PCR-RFLP technique. Existence of RTBV and RTSV in the infected plants collected from several endemic areas were successfully detected by PCR. The RFLP analysis with restriction enzymes BstYI and HindIII showed that there were significant difference among the RTSV originated from Java, Bali and Sulawesi.
PENGENDALIAN PENYAKIT TUNGRO MELALUI ELIMINASI PERAN VEKTOR WERENG HIJAU DENGAN PENGENDALIAN RAMAH LINGKUNGAN Dini Yuliani; I Nyoman Widiarta
Agric Vol. 29 No. 2 (2017)
Publisher : Fakultas Pertanian dan Bisnis, Universitas Kristen Satya Wacana

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24246/agric.2017.v29.i2.p77-88

Abstract

Green leafhopper (GLH)plays an important role in tungro disease epidemics. Reduce the activity of GLHsuckasvectorsof tungro virus was effective to limit transmission of the virus. Integrated control of tungro disease may involve multiple components at once including using sambilata with entomopathogenicfungus Metarhiziumanisopliae. This research was conducted to determine the effect of sambilata and M.anisopliaein controlling the GLH as tungro virus vectors. The experiment was conducted in tungro endemic areas in Tanjungsiang,Subang District at dry season 2013 and wet season 2013/2014. Experiments using split plot design with four replications. The main plot was consists of GLH resistant varieties(IR66), tungro resistant varieties (Inpari 9), and check varieties(Ciherang). The subplots were M.anisopliae applications, sambilata, and control. Application was done on rice plant age 14, 28 and 42 days after planting (DAP).The results showed that the intensity of tungro on Ciherang showed the highest intensity compared toIR66 and Inpari9. Effect of entomopathogenic fungus M.anisopliae application to tungro disease showed a lower intensity compared with sambilata extracts and control. The intensity of tungro disease in farmers’ fields as a comparison of experiment was high enough on average between 1 until 69%. In general, the density of GLH population began to increase on the observation of 14 to 28 DAP. GLH population density was highest at 28 DAP. However, the population density of GLH decreased at 42 until 56 DAP.
PENGENDALIAN PENYAKIT TUNGRO MELALUI ELIMINASI PERAN VEKTOR WERENG HIJAU DENGAN PENGENDALIAN RAMAH LINGKUNGAN Dini Yuliani; I Nyoman Widiarta
Agric Vol. 29 No. 2 (2017)
Publisher : Fakultas Pertanian dan Bisnis, Universitas Kristen Satya Wacana

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24246/agric.2017.v29.i2.p77-88

Abstract

Green leafhopper (GLH)plays an important role in tungro disease epidemics. Reduce the activity of GLHsuckasvectorsof tungro virus was effective to limit transmission of the virus. Integrated control of tungro disease may involve multiple components at once including using sambilata with entomopathogenicfungus Metarhiziumanisopliae. This research was conducted to determine the effect of sambilata and M.anisopliaein controlling the GLH as tungro virus vectors. The experiment was conducted in tungro endemic areas in Tanjungsiang,Subang District at dry season 2013 and wet season 2013/2014. Experiments using split plot design with four replications. The main plot was consists of GLH resistant varieties(IR66), tungro resistant varieties (Inpari 9), and check varieties(Ciherang). The subplots were M.anisopliae applications, sambilata, and control. Application was done on rice plant age 14, 28 and 42 days after planting (DAP).The results showed that the intensity of tungro on Ciherang showed the highest intensity compared toIR66 and Inpari9. Effect of entomopathogenic fungus M.anisopliae application to tungro disease showed a lower intensity compared with sambilata extracts and control. The intensity of tungro disease in farmers’ fields as a comparison of experiment was high enough on average between 1 until 69%. In general, the density of GLH population began to increase on the observation of 14 to 28 DAP. GLH population density was highest at 28 DAP. However, the population density of GLH decreased at 42 until 56 DAP.
Co-Authors Bambang Nuryanto Celvia Roza Dede Kusdiaman Dede Kusdiaman Dini Yuliani Muhammad Muhsin Oco Rumasa R. Heru Praptana SEDYO HARTONO Suprihanto Suprihanto Suprihanto Suprihanto Y. B. Sumardiyono