Efektivitas Pengendalian Penyakit Tungro secara Terpadu dengan Pendekatan Pengendalian Biointensif

<p>Tungro disease is one of the obstacles to increase the national rice production program. In some areas, this important disease is endemic. On the one hand, some farmers in controlling plant pests and diseases still use pesticides, which negatively impact health and the environment. On the other hand, environmentally friendly tungro disease control technology is available. This study aims to determine an environmentally friendly integrated control technique for tungro disease consisting of resistant varieties, biopesticides, and conservation of natural enemies with flowering plants in suppressing green leafhopper populations and the incidence of tungro transmission in infection-sensitive plant stage. The test area is located in Lanrang,Sidrap at the Experimental field of Tungro Disease Research Station, Lanrang Sidrap, South Sulawesi, Indonesia from April to September 2017, using a split-plot design. Main plots are: 1) Biointensive control plots, using flowering plants (refugia) and pest control with andrometa which is a mixture of the entomopathogenic fungus Metharizium anisopliae and sambiloto extract; 2) Conventional plots, without flowering plants and pest control using pesticides. As sub-plots are rice varieties: 1) TN1, 2) IR64, and 3) Inpari-9 Elo which differ in resistance to tungro. Observations were made at 2, 4, 6, and 8 weeks after planting (MST). The results showed that the population of green leafhoppers in the TN1, both in the bio-intensive control plot and in the conventional control plot, was higher than the other two varieties. The population of natural enemies in bio-intensive control consists of 10 predator families and the conventional control consists of 9 predator families. The effectiveness of bio-intensive control has an effect on decreasing the population of green leafhoppers and the diversity of natural enemies, and has no significant effect on the incidence of tungro transmission, and has no effect on grain yield. Therefore, biointensive control needs to be developed to create a pesticide-free agricultural environment.</p>

Sustainable Partnerships in Cassava Production and Industrial Sector: A Heckprobit Analysis of Indonesian Farmers

<p>Partnerships are instruments to overcome the inability of individual smallholders to solve the development problems associated with agricultural sectors and commodity chains. While vigorously advocated, a sustainable partnership is rare in the Indonesian cassava production and industrial sector. Knowledge of partnership from the sector is also limited. This study explores the reasons for previous partnerships in the cassava production and industrial sector discontinued and examine what factors determine farmers' willingness to partake in partnerships. The study administered a systematic random sampling to survey for 140 cassava farmers in Central and East Lampung Districts from November 2018 to April 2019. Farmers were interviewed and given a structural questionnaire. The quantitative data were analyzed by heckprobit regression. The results of the study show that the partnership ends because the two parties do not have the same vision for working together. Various variables (barriers to selling to non-industries, low prices, inaccurate weighing scales, high transaction costs, and discounted prices.) indicate the complexity of farmers' considerations for joining the partnership. This research impliesthat it is difficult to create partnerships in the future if farmers and industry have different visions and priorities.</p>

Hubungan Antara Profil Protein Populasi Vektor Wereng Hijau Nephotettix virescens dan Gejala Penularan Tungro pada Tanaman Padi

Nephotettix virescens is the most effective vector for transmitting tungro disease to rice plants. Two different viral particles cause Tungro transmission. Disease control was often not anticipated in the field, especially when planting is asynchronous, that cause been detected lately. At the cellular level, vector interactions with viruses indicate vector proteins response to viral in the body of vector insects which involved in virus transmission in plants. This study aims to describe the relationship between the differentiation of N. virescens vector protein profiles on the types of tungro symptoms resulting from the transmission to develop techniques for early detection and control of the transmission process. The workflow of this study is screening on vector insects to obtain protein candidates thought to have a role in tungro transmission that had never been previously reported. The results of this study suggested that proteins with estimated molecular weights of 132, 73, and 49 kDa are candidates for proteins that can be used for screening purposes or virulent vector tracing as an early warning alternative to control tungro disease in endemic areas.