ABSTRAKLimbah kulit kakao dalam jumlah banyak (75% dari dari bahan baku pengolahan coklat) menjadi permasalahan tersendiri pada industri pengolahan coklat. Pemanfaatan kulit kakao berpotensi sebagai bahan bakar alternatif terbarukan karena ketersediaanya yang cukup melimpah dan pemanfaatannya yang belum maksimal. Pemanfaatan kulit kakao sebagai biopelet menjadi salah satu solusi pengolahan kulit kakao yang tepat untuk menghindari masalah baru bagi lingkungan yaitu pembusukan karena adanya penguraian karbon oleh mikroorganisme. Karakteristik kulit kakao yang mengandung lignin sebesar 12-19% menjadikan kulit kakao sangat potensial digunakan sebagai biopelet. Tujuan dari penelitian ini adalah mengetahui pengaruh ukuran partikel dan penambahan tapioka pada pembuatan biopelet kulit kakao, menentukan perlakuan optimal serta melakukan uji karakteristik fisik dan kimia biopelet kulit kakao. Metode eksperimen dengan pengolahan data secara deskriptif kuantitatif dengan membandingkan hasil uji karakteristik biopelet dari variasi ukuran mesh dan variasi kadar perekat (tepung tapioka) untuk mencari kualitas biopelet yang optimal. Perlakuan optimal terjadi pada ukuran partikel biopelet 20 mesh dengan penambahan perekat tapioka 20% dengan kadar air 3,52%, kadar abu 6,99%, dan kerapatan 0,87 g/cm 3 dan nilai kalor 3090,1 kal/g. Pengembangan penelitian dapat diarahkan kepada penambahan campuran bahan baku yang mempunyai nilai kalor tinggi sehingga dapat meningkatkan nilai kalor biopelet yang dihasilkan.Kata kunci : biopelet, kakao, kadar air, kadar abu, nilai kalor ABSTRACT Waste of cocoa shellsare becoming a problem in cocoa processing industry in large quantities (75% of raw material). Cocoa shells are potential as a renewable alternative fuel because of its availability and not exploited yet. The utilization of cocoa shells as biopelet is one of method to convert a cocoa shell as
Introduction: Maize downy mildew (MDM) is considered as a major problem in all maize growing areas in Indonesia including the Province of Lampung. Objectives: The objectives of this study were (i) to identify the species of Peronosclerospora causing maize downy mildew (MDM) in Lampung, (ii) to determine the influence of varieties on the intensity of downy mildew and (iii) to determine the efficacy of metalaxyl to control MDM on some maize varieties. Methodology: To identify Peronosclerospora causing MDM, the pathogens were observed under light microscope and scanning electron microscope. Maize varieties response against pathogens and efficacy metalaxyl were studied in the field with the test plants exposed to plants showing MDM symptoms as the sources of inocula to mimic natural conditions. Results: Peronosclerospora sorghi, P. maydis, and P. philippinensis were found to cause MDM in Lampung. On both varieties Pioneer 27 (P-27) and NK-22, AUDPC on F1 plants was greater than that on F2 plants. On P-27, the production of F2 was higher than that of F1 plants, but there was not significant difference in production between F1 and F2 of NK-22 variety. Seed treatment using metalaxyl was not effective to control downy mildew of maize. Conclusion: Three species of Peronosclerospora were identified as disease-causing pathogen of MDM in Lampung, but these results were tentatively pending for further studies through molecular techniques. F1 plants were more susceptible than F2 plants to MDM in both P-27 and NK-22. Metalaxyl was not effective in controlling MDM.
Aeny TN, Prasetyo J, Suharjo R, Dirmawati SR, Efri, Niswati A. 2018. Isolation and Identification of actinomycetes potential as the antagonist of Dickeya zeae pineapple soft rot in Lampung, Indonesia. Biodiversitas 19: 2052-2058. This study was aimed to collect and identify actinomycetes from the rhizosphere of pineapple with the potency as a biocontrol agent of Dickeya zeae, the pathogen of pineapple soft rot. Soil samples were collected from four different pineapple plantations in Lampung Province, in December 2016. Samples were air-dried, serially diluted, and plated on modified ISP2 medium and several single characterized colonies were sub cultured and purified. The growing colonies were grouped into different colour series based on their aerial-mycelia and substrate-mycelia colors. Antagonistic activity of the actinomycetes isolates were evaluated against Dickeya zeae by agar diffusion method using the same medium agar lawn with the bacterial cultures. Selected antagonistic actinomycete isolates with the biggest clear zone formation were further characterized and identified molecularly based on 16S rDNA sequences. The results showed that as many as 34 actinomycete isolates collected from pineapple rhizosphere produced clear zones. Two isolates, namely GGF2-i5 and GGF4-i18, presented the biggest clear zone were proposed as the potential antagonist strains against D. zeae and identified as Streptomyces parvulus and Streptomyces hygroscopicus subsp. hygroscopicus, respectively. Both of the 16S rRNA gene sequences from those strains were deposited in the GenBank with the accession number MH170279 and MH170280, respectively.
This study was performed to identify Peronosclerospora species found in Indonesia based on sequence analysis of the cox2 gene. In addition, sequence data in total, 26 isolates of Peronosclerospora were investigated in this study. They were obtained from 7 provinces in Indonesia, namely Lampung, Jawa Timur, Jawa Barat, Sumatera Utara, Jawa Tengah, Yogyakarta, and Sulawesi Selatan. Sequence analysis of cox2 and phylogenetic inference were performed on all the 26 isolates. A set of primers developed in this study, PCOX2F and PCOX2R, was used for PCR amplification. Phylogenetic analyses showed that all the Indonesian isolates were divided into two groups. Group I contained 13 isolates; 9 isolates obtained from Lampung, 3 isolates from Sumatera Utara, and 1 isolate from Jawa Barat. Group II consisted of 13 isolates; 7 isolates from Jawa Timur, 2 isolates from Jawa Tengah, 1 isolate from Yogyakarta, and 3 isolates from Sulawesi Selatan. All the members of group I clustered with the ex-type sequence of P. australiensis. Meanwhile, all members of Group II formed the sister clade of isolates obtained from Timor-Leste and may represent P. maydis.
The corelations between White Rot (Rigidoporus lignosus L.) incidence and soil characters of rubber ecosystem in Penumangan Baru, Lampung. A study was conducted to evaluate the corelation between soil characters and white rot incidence. The study was done in Penumangan Lampung from June 2007 to July 2008. Seven sites were observed on the incidence of white rot of indicator plants (cassava). Physical, chemical, and biological soil characters were correlated and regressed with white rot incidence. The results showed that there were correlation between white rot incidence and soil characters such as pH KCl, number of fungal genus (fungal diversity), Ca+, total cation, CEC, and saturation base. Ion Ca+, total cation, saturation base correlated positively with white rot incidence, on the contrary, fungal diversity, cation exchange capacity, and pH KCl correlated negatively with white rot incidence. Thus, efforts to increase fungal diversity, cation exchange capacity, and pH (in acidic soil) could be used as basic strategies to develope intergrated control of white rot disease.
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