Development and Optimization of Djulis Sourdough Bread Using Taguchi Grey Relational Analysis.

Pei-Ling Chung,Ean-Tun Liaw,Ho-Hsien Chen,Mohsen Gavahian

doi:10.3390/foods9091149

Pei-Ling Chung, Ean-Tun Liaw + Show 2 more

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https://doi.org/10.3390/foods9091149

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Abstract

Bakery products made from naturally fermented sourdough show a diversified flavor and nutritional profile. Djulis (Chenopodium formosanum), known as red quinoa or Taiwan djulis, originally cultivated by Taiwanese indigenous people in mountain areas in eastern and southern Taiwan, has a high nutritional value and characteristic properties. In the present study, a new bakery product (djulis sourdough bread) was developed and a combination of the Taguchi method coupled with grey theory was utilized to optimize the baking parameters (product formulation). Five main factors, i.e., djulis sourdough (A), hulled djulis (B), oil type (C), a mixture of bread flour (wet gluten content of 29.0%) and a high-gluten flour (wet gluten content of 35.5%) (D), and honey (E), (each at four levels) were chosen for the Taguchi experiment design (L16(4)5). Dependent parameters were the data from texture profile analysis (brittleness, springiness, cohesiveness, gumminess, and chewiness), color analysis (L*, a*, and b*), and sensory evaluation (appearance, aroma, bitterness, sourness, chewiness, and overall acceptance) of the final product. Taguchi grey relational analysis successfully determined the optimal conditions based on combined parameters (5 factors), which highlighted the advantages of this innovative optimization technique. The result shows that the optimal formula for producing a djulis sourdough bread with the best texture, color, and sensory qualities was A3B1C1D2E2, i.e., 20% djulis sourdough, 0% addition of hulled djulis, 8% unsalted butter, 80% wheat flour + 20% high-gluten flour, and 10% honey, respectively. Such a novel application could be a reference for improving the quality of bakery products in the industry. Moreover, it seems that the new bakery product developed in this study has good potential to be commercially produced after further nutritional and economic analysis.

Highlights

Djulis (Chenopodium formosanum Koidz.) belongs to the Amaranthaceae family and Chenopodium genus
The other 12 types of samples that were prepared with the addition of djulis sourdough had smaller sizes, that is, the average length, width, and height of these sourdough breads were 29.9, 10.0, and 11.88 cm, respectively
These observations suggest that the incorporation of djulis in the sourdough bread may reduce the loaf rising

Summary

Introduction

Djulis (Chenopodium formosanum Koidz.) belongs to the Amaranthaceae family and Chenopodium genus. According to Encyclopedia Britannica, the Amaranthaceae family includes about 175 genera and more than 2500 species. Many species, including beets and quinoa, are considered staple food crops, and some are cultivated as garden ornamental plants [1]. Amaranth grain can be processed to be added into several products including baby food, cakes, and cookies. Amaranth grain has a high concentration of lysine, that is, an essential amino acid for the biosynthesis of proteins, which is vital for human tissue development and healing. This grain is rich in calcium, phosphorus, iron, potassium, zinc, vitamin E, and vitamin B-complex [2].

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