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Canrea Journal: Food Technology, Nutritions, and Culinary Journal
Published by Universitas Hasanuddin
ISSN : -     EISSN : 26219468     DOI : -
Core Subject : Agriculture,
Agriculture, Biological Sciences & Forestry
Canrea Journal: Food Technology, Nutritions, and Culinary Journal (E-ISSN 2621-9468) merupakan publikasi ilmiah bidang pangan sebagai media komunikasi dan informasi yang mencakup aspek hulu dan hilir pangan yang diharapkan dapat berkontribusi terhadap perkembangan pangan dan intelektual. Artikel yang dipublikasikan bersifat original berupa hasil penelitian murni atau terapan 5 tahun terakhir, review (ulasan), analisa kebijakan (analysis policy), dan catatan penelitian (research note) dalam bahasa indonesia.
Arjuna Subject : Ilmu Pertanian dan Biologi (Semua) - Ilmu Makanan
Articles 12 Documents
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Search results for , issue "VOLUME 8 ISSUE 1, JUNE 2025" : 12 Documents clear
Chemical and sensory properties of single-origin chocolate made from cocoa beans with different fermentation durations Sunarharum, Wenny Bekti; Wahyuni, Nuril L; Saputro, Arifin D.; Dimas RA, Muhammad; Efrat, Novianus
jurnal1 VOLUME 8 ISSUE 1, JUNE 2025
Publisher : Hasanuddin University Food Science and Technology Study Program

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20956/canrea.v8i1.1753

Abstract

Cocoa is an important agricultural commodity, with global demand rising due to its central role in chocolate production. As the world’s third-largest cocoa producer, Indonesia plays a significant role in the global market, with cocoa beans as an essential export commodity. Recently, single-origin chocolate has gained popularity due to its unique sensory qualities, particularly its aroma and flavor, which are influenced by volatile compounds produced during fermentation. This study investigating the proximate composition, volatile compounds, and aroma profiles of single-origin chocolate derived from cocoa beans subjected to different fermentation treatments or durations: nonfermented/NF, half-fermented/HF (3-day fermentation), and fully fermented/FF (6-day fermentation). The proximate composition of the cocoa beans, nibs, and chocolate products was analyzed, while the chocolate products were further examined for volatile compounds using GC‒MS and sensory aroma profiles through descriptive analysis. The length of the fermentation process affects the chemical and sensory characteristics of single-origin chocolate. Fully fermented cocoa beans and nibs contain the highest fat and protein, along with the least carbohydrates. Chocolate that is unfermented, partially fermented, or fully fermented can be identified by the distinct differences in their volatile compound profiles. These results underscore the critical role of fermentation timing in developing desirable chemical and aromatic characteristics, providing valuable insights for enhancing the production of high-quality single-origin chocolate.
Physicochemical properties of corn flour modified by mixed-culture (Aspergillus sp. and Lactobacillus fabifermentans) fermentation Sukainah, Andi; Putra, Reski Praja; Tawakal, Intan Syafinaz Mohamen Amin; Fadilah, Ratnawaty
jurnal1 VOLUME 8 ISSUE 1, JUNE 2025
Publisher : Hasanuddin University Food Science and Technology Study Program

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20956/canrea.v8i1.1788

Abstract

Corn flour has undergone numerous modifications, however, the use of fermentation with Indigenous mixed cultures (molds and bacteria) followed by pregelatinization has not been extensively explored. The aim of the study was to assess the impact of fermentation with indigenous mixed cultures, specifically Aspergillus sp. (AS) and Lactobacillus fabifermentans (LF), on the physicochemical properties of modified corn flour, as well as its application in product quality. Corn flour was fermented using mixed cultures of AS and LF in a Complete Random Design (CRD) at five different ratios (AS: LF) of 1:0, 1:1, 1:2, 1:3, and 0:1. Each culture was incubated for 120 hours for AS and 48 hours for LF, then diluted by mixing 1 mL of the culture with 10 mL of sterile water. This diluted solution (according ratio) was aseptically added to a sterile corn flour dispersion at a ratio of 1:2 (w/v) and fermented under microaerophilic conditions for 48 hours. The fermented dispersions were dried and subsequently steamed (80°C) for 15 minutes at a 30% (w/v) ratio to prepare samples for analysis of amylose content, starch content, pasting, and rheological properties. The optimal AS: LF ratio determined through statistical analysis was 1:3, resulting in a final pH of 3.60 ± 0.10. The physicochemical properties of the corresponding steamed samples were as follows: amylose content (%), 17.45 ± 0.62; starch content (%), 68.94 ± 0.69; apparent consistency index (cP), 25,286 ± 512.9; and apparent power-law index, 0.32 ± 0.005, indicating pseudoplastic rheological behavior. The modified corn flour (AS: LF at 1:3) was then used in a 50% formulation for making bread and noodles. The resulting products showed potential for larger-scale development.

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