Background and objectivesBoza is a traditional cereal‐based (millet, corn, rice, etc.) and fermented beverage with sweet‐sour and bread‐like taste. It is a low‐alcohol and high‐viscosity beverage. In this study, it was aimed to develop a new gluten‐free boza formulation consisting of chia (100%), quinoa (100%) and chia + quinoa mixtures (50% + 50%) and determine its characteristics. For this purpose, physical, chemical, rheological, microbiological, and sensory properties of gluten‐free boza were researched.FindingsThe highest protein (6.44%), ash (0.89%), pH (3.24%), oil (0.84%), and mineral content were determined for the chia boza samples. The highest lightness (L*) and yellowness (+b*) values were determined in quinoa boza samples (p < .05). The highest soluble dietary fiber (1.22%) and insoluble dietary fiber (1.25%) contents were determined for chia boza samples. The dietary fiber content of quinoa and chia + quinoa boza were similar (p > .05). The highest lactic acid bacteria (9.03 lab log cfu/g) and yeast mould counts (6.72) were observed for quinoa boza samples. Rheological analyses results showed that all boza samples showed pseudoplastic behavior with a flow behavior index ranging from 0.66 to 0.98. The highest viscosity belonged to chia‐containing samples.ConclusionsConsidering sensory analyses, quinoa boza samples got the highest general acceptance in terms of color, sensory, flavor, and consistency according to panelists results.Significance and noveltyGluten‐free boza production with high nutritional value and acceptable taste can be achieved. For the first time, chia and quinoa were used as raw materials in the production of boza.
Turkey is considered the homeland of olives and is one of the important olive oil producers of the world. With the increasing number of trees, the necessity to complete olive harvest in a short time, like 3-4 months, makes mechanization necessary. The use of mechanical devices during olive harvest causes an increase in the number of leaves, shoots, and branches in the harvested product. Leaf separation systems used in cleaning non-olive materials in olives are generally inadequate in cleaning olives containing dense leaves obtained due to the use of new generation harvesting machines. For this reason, to develop an innovative sorting/cleaning prototype to provide more efficient cleaning, it is necessary to determine the machine efficiency, oil efficiency, olive oil quality and composition of machines. Total phenolics, chlorophyll and carotenoid contents, induction period and DPPH antioxidant activity values of olive oil obtained after traditional suction fan system (TSFS) application were higher than olive oils obtained after new generation blown and drum sieve system (NGBDSS) application. However, the α-tocopherol content of olives was low in the samples obtained by TSFS. The fatty acid composition of olive oils obtained from both applications was similar. Our study determined that there were 13 volatile compounds in the olive oil obtained after applying the TSFS, and there were 6 volatile compounds in the olive oil obtained with the application of NGBDSS. When the sensory properties of olive oils were analyzed, it was found that olive oils obtained from both applications were similar to the fruitiness, bitterness, and pungency of olive oils obtained after applying NGBDSS.
Avokado yağı, Lauraceae familyasında yer alan ve Persea Americana Mill olarak adlandırılan meyvelerden elde edilen bir yağdır. Avokado meyvesinin hem pulp hem de çekirdek kısmı yağ içermesine rağmen, çekirdek kısmının düşük miktardaki yağ içeriği nedeniyle ticari avokado yağı meyvenin pulp kısmından ekstrakte edilmektedir. Soğuk pres avokado yağı, herhangi bir ısıl işlem veya organik çözücü kullanılmadan zeytinyağına benzer bir teknoloji ile üretilmektedir. Avokado yağının ekstraksiyonuna yönelik mikrodalga, ultrases, süperkritik akışkan ekstraksiyonu ve enzimatik ekstraksiyon gibi tekniklerin kullanıldığı araştırmalar da literatürde yer almaktadır. Avokado yağının özellikle kimyasal bileşimi ve fonksiyonel özellikleri nedeniyle son yıllarda gıda endüstrisinde kullanımı yaygınlaşmaya başlamıştır. Avokado yağının başlıca yağ asidi oleik asit olup, bunu sırasıyla linoleik ve palmitik asitler izlemektedir. Yapısında
This study investigates the effect of roasting time and temperature on the chemical parameters and bioactive compound content of fig seed oil. For this purpose, fig seeds were ground and roasted in an electrical oven at 100, 150 and 200 °C for 10 and 20 minutes. After roasting, the seeds were processed into oil using a laboratory scale mill. The obtained fig seed oil samples were evaluated for their peroxide value, K232 and K270 spectrophotometric indices; fatty acid, triacylglycerol, sterol and tocopherol profiles. That results show that peroxide values, spectrophotometric indices, α- and γ-tocopherol levels were negatively affected by the roasting process. The major tocopherol was γ-tocopherol and ranged in 3914-4016 mg kg-1. The main fatty acid was linolenic acid constituting 40% of the fatty acids; followed by linoleic (31.76-31.97%), oleic (17.06-17.30%) and palmitic (7.00-7.11%) acids. The major triglycerides were LnLO (12.27-12.46%), LnLnL (12.18-12.40%), LnLnLn (9.32-9.52%) and LnLL (9.34-9.50%) confirming the fatty acid profile. β-sitosterol was the predominant phytosterol ranging in 2985.07-3623.24 mg/kg followed by Δ-5-avenasterol (19.52-20.60%) and Δ-7-avenasterol (4.16-4.81%). The principal component analysis results enabled a clear discrimination between unroasted, mildly-roasted and intense-roasted oil samples.
The effect of microwave roasting process on the compositional parameters and bioactive contents of fig seed oil were investigated. Fig seeds were ground and roasted in a microwave oven at 350, 460 and 600 Watt for 5 and 10 minutes and the roasted seeds were processed to obtain oil. The results showed that peroxide, K232 and K270 values were adversely affected by roasting. Fig seed oil was a prosperous source of γ-tocopherol and significant losses were observed due to microwave pre-treatment. The major fatty acids in fig seed oil were linolenic, linoleic and oleic acids; whereas the major triacylglycerols were LnLO, LnLnL, LnLnLn and LnLnO, according to fatty acid profile. The most abundant sterol in the fig seed oil samples was β-sitosterol with 3235.90 to 3625.62 mg/kg, followed by Δ5- and Δ7-avenasterols. The principal component analysis and agglomerative hierarchial clustering served to differentiate between intense and mild microwave-treated oils as well as the unroasted samples.
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