Enhacement of the Viability of  &lt;i&gt;Lactobacillus&lt;/i&gt;  &lt;i&gt;plantarum&lt;/i&gt; during the Preservation and  Storage Process Based on the Response  Surface Methodology

Simulated impact damage testing was investigated by fractal image analysis using response surface methodology (RSM) with a central composite design (CCF) on quality of ‘Glom Sali’ guava for drop heights (0.2, 0.4, and 0.6 m), number of drops (1, 3, and 5) and storage temperature conditions (10, 20, and 30 °C). After 48 h, impacted fruit were determined and analyzed for bruise area (BA), bruise volume (BV), browning index (BI), total color difference (∆E), image analysis for bruise area (BAI), and fractal dimension (FD) at the bruising region on peeled guava. Results showed that the correlation coefficient (r = −0.6055) between ∆E and FD value was higher than ∆E and either BA (r = 0.3132) or BV (r = 0.2095). The FD variable was determined as a better indicator than conventional measurement (BA or BV) for pulp browning and impact bruising susceptibility. The FD variable also exhibited highest R2adj value (81.69%) among the other five variables, as the highest precision model with high determination coefficient value (R2adj) (>0.8) for impact bruising prediction. Recommended condition of the FD variable to minimize impact bruising was drop height of 0.53 m for five drops under storage at 30 °C. FD variable assessed by image analysis was shown to be a highly capable measurement to determine impact bruising susceptibility in guava fruit.

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Effect of Chelators, Organic Acid and Storage Temperature on Growth of Escherichia coli O157: H7 in Ground Beef Treated with Nisin, Using Response Surface Methodology

Journal of Food and Drug Analysis ◽

10.38212/2224-6614.2835 ◽

2020 ◽

Vol 8 (3) ◽

Author(s):

T.J. Fang ◽

Y.-T. Hsueh

Keyword(s):

Escherichia Coli ◽

Response Surface Methodology ◽

Organic Acid ◽

Response Surface ◽

Storage Temperature ◽

Ground Beef ◽

Escherichia Coli O157 ◽

And Storage

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Development and storage stability of buckwheat chips using response surface methodology (RSM)

Journal of Food Science and Technology ◽

10.1007/s13197-018-3445-y ◽

2018 ◽

Vol 55 (12) ◽

pp. 5064-5074

Author(s):

Charu Goel ◽

Anil Dutt Semwal ◽

Padmashree Ananthan ◽

Gopal Kumar Sharma

Keyword(s):

Response Surface Methodology ◽

Response Surface ◽

Storage Stability ◽

And Storage

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Optimization of ozone concentration and storage time in green asparagus (Asparagus officinalis L.) using response surface methodology

Revista Vitae ◽

10.17533/udea.vitae.v28n3a346752 ◽

2021 ◽

Vol 28 (3) ◽

Author(s):

Carla Pretell ◽

Luis Márquez-Villacorta ◽

Raúl Siche ◽

María Hayayumi-Valdivia

Keyword(s):

Response Surface Methodology ◽

Response Surface ◽

Storage Time ◽

Asparagus Officinalis ◽

Phenol Content ◽

Mesophilic Bacteria ◽

Gaseous Ozone ◽

Fresh Vegetables ◽

And Storage ◽

Green Asparagus

Background: Asparagus (Asparagus officinalis L.) green is a vegetable with a great demand worldwide, and likewise, it is highly perishable due to its high respiration rate that accelerates its senescence. Disinfection of vegetables after their harvest is an obligatory practice that can reduce losses by decomposition due to the attack of microorganisms. Therefore, it is vital to preserving its microbiological and sensory characteristics to reach the final consumer. Objective: To evaluate the effect of gaseous ozone (0 to 10 ppm) and storage time (0 to 30 days) on phenol content, overall appearance, count of molds, psychrophilic bacteria, and viable mesophilic aerobes. Methods: the response surface methodology was used, applying a rotatable central composite design. Results: The results indicated that there was a significant influence (p <0.05) of the independent variables on the characteristics studied, as well as an adequate lack of fit of the quadratic regression model (p> 0.05). By means of the contour superposition technique, it was determined that the optimal conditions for the highest retention of phenol content (16.99 mg/g) and overall appearance (7.61 points) and lower counts of viable aerobic mesophilic bacteria (5.3 x 103 CFU/g) they corresponded to 10 ppm of gaseous ozone up to 25.91 days of storage, with adequate quality characteristics in the shoots. Conclusion: the region of interest was determined for optimal retention of phenol content and overall appearance, and a lower count of viable aerobic mesophilic bacteria in green asparagus during postharvest, suggesting to use the initial application of ozone gas at 10 ppm allowing 25.9 days storage at 1 °C. The results indicate that this technology is a good alternative in the conservation of fresh vegetables.

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Effects of storage and processing parameters on pasting properties of Ofada for production of boiled and mashed rice

Czech Journal of Food Sciences ◽

10.17221/121/2017-cjfs ◽

2018 ◽

Vol 36 (No. 3) ◽

pp. 239-245

Author(s):

Oludare Olumuyiwa Adekoyeni ◽

Rahman Akinoso ◽

Adekola Felix Adegoke ◽

Stephen Akintunde Fagbemi

Keyword(s):

Response Surface Methodology ◽

Response Surface ◽

Processing Parameters ◽

Pasting Properties ◽

Processing Conditions ◽

Storage Duration ◽

Pasting Characteristics ◽

Pasting Temperature ◽

Positive Coefficients ◽

And Storage

This study was designed to determine the effect of storage duration and processing conditions on pasting characteristics of Ofada rice and to determine the optimum pasting parameters for the production of boiled and mashed rice. The interactions of variables (storage, soaking, parboiling and drying) were studied using response surface methodology and pasting responses (final viscosity, trough, setback viscosity, breakdown, pasting temperature and pasting time) were analysed. The coefficient of R<sup>2 </sup>and adequate precision ranged between 0.994–0.7374 and 26.825–5.375, respectively, which indicate good fitness of the model. Parboiling temperature, drying temperature and storage duration significantly influenced the pasting properties of grain as revealed by positive coefficients in the model. The pasting requirements for boiled rice are storage of paddy for nine months, soaking for two days and 19 h, parboiling at 90.42°C and drying at 30°C, while for mashed rice storage of paddy for one month followed by soaking for five days, parboiling at 80°C and drying at 54.22°C are required.

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