《粮油食品科技》杂志社

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Most Cited

Special Topic

Development of New Quality Productivity in the Grain Industry: Connotation Characteristics, Practical Challenges, and Implementation Paths

ZHANG Shu-juan, YANG Yu-ping*

2024,32(6):1-7, DOI:

Abstract (4) HTML (0) PDF (560.09 K) (4)

Abstract

Food security is a matter of great importance for the nation. The high-quality development of the grain industry is the key to maintaining national food security, and new quality productivity is an important driving force for achieving high-quality development of the grain industry. This article has systematically reviews the existing research on agricultural new quality productivity. It aimed to analyze the formation mechanism of new quality productive forces from a theoretical perspective, and defined the basic connotation of new quality productive forces in the food industry. It explained the typical characteristics of new quality productivity in the grain industry from three levels: high technology, high efficiency, and high quality. From a practical perspective, this article pointed out the current challenges faced by the development of new quality productivity in China's grain industry, including insufficient technological level, severe resource and environmental constraints, prominent quality and safety issues, and a shortage of professional and technical talents. Corresponding suggestions of implementation paths have been proposed, including strengthening technological innovation and application, optimizing various resource allocation, strengthening quality and safety supervision, and emphasizing talent cultivation and introduction, to promote the sustainable, healthy, and high-quality development of the grain industry.

Analysis of the Construction of China’s Grain Supply Chain System in 2023

HONG Tao

2024,32(6):8-18, DOI:

Abstract (2) HTML (0) PDF (747.35 K) (2)

Abstract

The paper analyzed the current state of China's grain supply chain in 2023, highlighting the continuous innovations in various aspects, including production, import and export, storage, transportation, processing, and sales. It summarized the exploration of various supply chain models in practice, such as the futures market, group enterprises, wholesale markets (National Grain Trade Centers), logistics companies, new retail enterprises, digital technology companies, production bases, fertilizer companies, exhibitions, "grain logistics channels," provincial regional brands, and the grain logistics supply chain, etc. The paper analyzed the existing problems in China's grain supply chain innovation and application, and identified seven major trends in the development of the grain supply chain, namely digitalization, greening, safety, globalization, coordination, intelligence, and standardization. It also put forward policy recommendations for China's grain supply chain innovation.

Research on the Influencing Factors and Promotion Strategies of Food Supply Chain Resilience

HAN Guang-he, PAN Xin, ZHANG Xin, SUN Wei-ren

2024,32(6):19-27, DOI:

Abstract (1) HTML (0) PDF (539.59 K) (1)

Abstract

The resilience of food supply chain is related to food security. It is of practical significance to explore the influencing factors of the resilience of food supply chain. Based on the literature research method and expert interview method, 20 important factors affecting the resilience of food supply chain were identified from four dimensions, including prediction ability, resistance ability, recovery ability and growth ability. The comprehensive DEMATEL-ISM model was constructed and the ISM hierarchical structure diagram is drawn. On the basis of exploring the importance and influence of each factor on the resilience of food supply chain, the key influencing factors were identified, and the ISM was used to divide each factor into levels and clarify the interaction between each factor. The results showed that the four factors of policy support, policy and market changes, information sharing ability, digital technology application and innovation were the key influencing factors of food supply chain resilience, and they were also the deepest fundamental factors. Predictive capability and growth capability affect the resistance and recovery capabilities of the grain supply chain resilience, and serve as the foundation of resilience capability, directly influencing the resilience of the grain supply chain. Based on the research conclusions, targeted suggestions are provided for enhancing the resilience of China’s grain supply chain.

Analysis on the Role and Pathway of Digital Technology in Reducing Food Loss and Waste

LIN Hai, GUAN Meng-di*

2024,32(6):28-39, DOI:

Abstract (1) HTML (0) PDF (629.36 K) (1)

Abstract

Ensuring food security requires not only increasing production but also reducing food loss and waste (FLW). In recent years, China's total grain production has continuously reached a new high, but the problem of FLW is still prominent. The control of FLW reduction also still needs in-depth development. The development of digital technology plays an important role in FLW reduction. This paper has briefly reviewed the current situation of FLW reduction and the application of digital technology in food supply chain, and analyzed the pathway of digital technology in FLW reduction from four fields of food production, food circulation, food sales and consumption. It also proposes corresponding countermeasures and suggestions for China's work on FLW reduction. In order to further leverage the role of digital technologies in FLW reduction of all links of the food supply chain, efforts should be made to improve the monitoring and assessment of FLW and establish a regular FLW investigation system. Policy guidance should be strengthened to establish and improve the long-term management mechanism of FLW. The digital literacy and skills of all subjects in the food supply chain should be cuitivated to promote the soft power of FLW with the digital technology management. Leverage digital technologies to promote grain conservation and loss reduction by addressing each link in the grain supply chain.

Construction of Information Sharing Incentive Model of Food Supply and Demand Network Based on Cross-chain

HE Jing, CAI Yong-qi*, ZONG Chuan-hong

2024,32(6):40-49, DOI:

Abstract (1) HTML (0) PDF (2.83 M) (1)

Abstract

With the diversification of food varieties and the rise in consumer demands, food production processes have become more complex, and communication between supply chains has increased. The interactions among relevant enterprises, food supply chains, and industry institutions have formed a complex food supply-demand network structure. Information sharing among members of the food supply-demand network is beneficial for enterprises to fully cooperate and achieve long-term development. However, many enterprises still lack awareness of information sharing and are unable to communicate information effectively. The application and development of cross-chain technology in blockchain could provide a new perspective for information sharing in the food supply-demand network. According to the complexity of the food supply-demand network, blockchain technology and reputation incentive mechanisms have been introduced. Reputation was quantified and managed, and the reputation incentive mechanism was automated through the combination of blockchain smart contract technology. Furthermore, the introduction of blockchain cross-chain technology has broken down the transaction barriers between blockchains of different industries and regions, which could build an information-sharing reputation incentive model for the food supply-demand network based on blockchain cross-chain technology. The cross-chain information-sharing reputation incentive process was illustrated using the pork supply-demand network as an example. This incentive model not only ensured the security and accuracy of shared information but also protected enterprise privacy and maximizes the protection of the interests of transaction parties. It broke down the barriers that prevented information sharing, stimulating the enthusiasm of food supply-demand network enterprises to participate in information sharing. Not only does it has achieved information exchange and value interoperability between heterogeneous blockchains within the food supply-demand network, but it also has provided a new perspective for the development of value information exchange and interoperability in the food supply-demand network.

Grain Processing

Study on the Relationship between Wheat Flour Quality Characteristics and Processing Quality of Leavened Pancake

LI Yi, TIAN Xiao-hong, WANG Jia-ya, JIANG Ping, TAN Bin*

2024,32(6):50-58, DOI:

Abstract (1) HTML (0) PDF (768.64 K) (1)

Abstract

In order to select suitable wheat flour raw materials for industrial processing of dough, 12 wheat varieties with a wet gluten content of 24.4%~32.7% were selected. The physicochemical properties, flour properties, viscosity properties, and fermentation rheological properties of wheat flour were measured, and the correlation between wheat flour properties and dough quality was analyzed. The results showed that as the wet gluten content increased, the fermentation height, total volume, retention coefficient (R), and specific volume of the dough all increased (P<0.05). The maximum shear force of dough showed a trend of first increase and then decrease, while the sensory evaluation score showed a trend of first decrease and then increase. Through correlation analysis, it was found that the wet gluten content, peak viscosity, minimum viscosity, final viscosity, retrogradation value, peak time, flour quality index, maximum fermentation height (Hm), and final fermentation height (h) of flour were significantly positively correlated with the specific volume of the dough, while the starch content and gluten index were negatively correlated with the specific volume of the dough. The starch and protein content of flour were negatively correlated with the maximum shear force of dough, while the wet gluten content was positively correlated with the maximum shear force of dough. Wheat flour with a gluten content of 30.0%~33.0%, a gluten index of 70~78, a flour index of 58.5~ 69.5, an Hm of 38.1~55.1 mm, and an R of over 95% could be more suitable for making leavened pancakes.

Preparation of Noodles with High Mung Bean Content and Selection of Suitable Mung Bean Cultivars for Processing

LI Ruo-ning, LIU Xing-hao, LI Chun-hong, HOU Dian-zhi, ZHOU Su-mei*

2024,32(6):59-66, DOI:

Abstract (2) HTML (0) PDF (1.09 M) (2)

Abstract

Mung bean noodles are traditional multigrain noodles in China, but generally, the addition of green beans is relatively low. Six mung bean cultivars from major production areas were selected to prepare noodles with a high mung bean content of 70%. Then, we screened suitable mung bean raw material varieties for processing based on principal component analysis (PCA). The cooking properties, texture properties, and sensory characteristics of the processed mung bean noodles were analyzed, and relevant data on these properties was collected for analysis. The quality of processed noodles of different mung bean cultivars was evaluated based on PCA. Three types of principal components were extracted from the PCA, and the key indicators of total starch, protein, water absorption, hardness, chewiness and adhesiveness were determined and scored. Finally, we ranked the processing suitability scores for different mung bean varieties and selected the excellent cultivar Weilv 7 to produce high mung bean content noodles.

Changes in Rheological, Thermal, and Structural Properties of Simulated Dough from Heat Induced Corn Starch

KONG Qing-xia, KUANG Ji-wei*, YANG Xi-juan

2024,32(6):67-76, DOI:

Abstract (1) HTML (0) PDF (2.13 M) (1)

Abstract

The purpose of this study was to investigate the effects of different structures of corn starch (high amylose corn starch, normal corn starch, and waxy corn starch) on the processing quality of dough. The rheological properties, thermal properties, microstructure and physicochemical properties of gluten proteins in the simulated dough of corn starch were determined. The results showed that the viscoelasticity of the high-amylose corn starch mock dough was significantly higher than that of the normal/waxy cornstarch mock dough, which was attributed to its non-gelatinization and highly filling characteristics. Waxy corn starch significantly inhibited the thermal aggregation of gluten proteins through competitive water absorption, resulting in a relatively loose structure of the dough after heat treatment. The results of molecular weight distribution and intermolecular interactions also confirmed that waxy corn starch mainly inhibited the formation of high molecular weight gluten proteins by hindering the crosslinking of disulfide bonds, leading to the transition of gluten proteins from a rigid α-helix to a disordered β-turn structure. This study helps to gain a deeper understanding of the interaction mechanism between starch and gluten proteins, and provides a reference for improving the processing quality of flour products by regulating the structural characteristics of starch.

Research Progress on Separation and Purification Technology of Quinoa Saponins

ZHOU Xue-yong, NIU Yan, YANG Li-yan, WEI Zuo-fu, ZHANG Li-hong, WU Bao-mei

2024,32(6):77-83, DOI:

Abstract (1) HTML (0) PDF (569.13 K) (1)

Abstract

Quinoa saponins are a kind of pentacyclic triterpenoids with important physiological and pharmacological activities. Due to the wide variety and wide polarity span, the conventional purification and separation methods not only require a lot of work, but also easily lead to the omission of some rare saponins. There have been some experimental studies on the purification of quinoa saponins at home and abroad. However, the introduction time of quinoa in China is relatively short, and the related accumulation is relatively weak. In order to better sort out and promote the relevant research on the separation and purification technology of quinoa saponins, it is necessary to summarize the methods for purifying quinoa saponins domestically and internationally, and analyze the key technical points (such as n-butanol extraction, macroporous resin adsorption, C18 chromatographic column purification, HPLC system purification, foam collection purification, ultrafiltration concentration purification, etc.). This paper also introduced the separation methods of monomer saponins from the total saponins, and prospected the significance of bioactivity-oriented separation of saponins monomers. This review has the important reference value for the isolation and purification of quinoa saponins.

Oil Processing

Research Advances on Aqueous Enzymatic Extraction of Featured Vegetable Oil

GUAN Meng-zhen, CHEN Fu-sheng*, WANG Ying-ying

2024,32(6):84-91, DOI:

Abstract (3) HTML (0) PDF (564.59 K) (2)

Abstract

Featured vegetable oils contain unique fatty acids and bioactive compounds that are highly beneficial to human health. Developing and utilizing characteristic vegetable oils can not only meet consumer demand but also promote the high-end development of vegetable oils in China. The aqueous enzymatic method, as an efficient technique for extracting vegetable oils and proteins, has advantages including simple process, environmental friendliness, and high quality of extracted vegetable oils and proteins. This article introduced the nutritional components of characteristic vegetable oil materials, and then comprehensively reviewed the principles, process characteristics, process conditions, and quality of vegetable oils and proteins obtained by the aqueous enzymatic method. Finally, it had provided an outlook on the development of aqueous enzymatic extraction of characteristic vegetable oils, aiming to provide a theoretical reference for the application and development of this method.

Chemometrics Analysis of the Components of Artemisia dracunculus L. Essential Oil with Growth Time

SUN Yi-ming, YANG Jia-lu, HOU Chun-jing*, LI Shou-zhu, WANG Lin-qing, GAO Han-ze

2024,32(6):92-98, DOI:

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Abstract

To explore the differences in the quality of Artemisia dracunculus L essential oil at different growth times, gas chromatography-mass spectrometry (GC-MS) was used to analyze the chemical components of Artemisia annua essential oil. The influence of growth time on its chemical composition and relative content was verified through orthogonal partial least squares discriminant analysis (OPLS-DA) and polymer thermal map analysis. The GC-MS analysis results showed that there were a total of 25 substances at each growth time, including 13 terpenes, 9 alcohols, and 3 other substances. In addition, esters, fatty acids, and ketones were also detected at individual growth times. Cluster heatmap analysis showed that most substances had higher content in S1 and S2, followed by S3 and S4, and S5 and S6 had the lowest content. The overall trend of terpenes was that they first decreased, followed by increasing, and then decreased. The total relative content of terpenes was relatively high in April, followed by May, and the lowest of that was in June. The content of alcohol substances was relatively higher before S4 at various growth times, but decreased after S4. At the same time, the content of α-tocopherol was also higher before S4, and Variable Importance for the Projection (VIP) analysis showed that there were a total of 5 substances with VIP greater than 1, namely oleiferin α- Pinene, 3-Carene γ-Sitosterol β-Sitosterol, respectively. Therefore, havesting Artemisia annua and extracting essential oil before late May cauld yield Artemisia annua essential oil of relatively better quality.

Food Processing

Preparation of Taro Paste Fermented with Lactobacillus and Its Effect on Bread Quality

WANG Jin-hui, WANG Yu, FANG Jia-jun, XIONG He-sheng, TU Jin, XIAO Jian-hui*

2024,32(6):99-107, DOI:

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Abstract

In order to broaden the use of taro paste resources and improve its nutritional value, taro paste was used as a fermentation substrate and fermented by Lactobacillus plantarum type TR22, followed by adding it to the dough to make bread. Based on the changes in the nutrient composition of the substrate during the fermentation process, the effects of different additions (0%, 5%, 10% and 15%, w/w) of taro paste on the flour properties, rheological properties and bread quality were investigated. The results showed that taro paste fermented by Lactobacillus fermentation had up to 8.39×106 CFU/mL of Lactobacillus colonies, 5.21 mg/g of lactic acid and 4.96 mg/g of acetic acid, respectively, and extracellular polysaccharides increased from 1.43 to 2.38 g/kg, with varying degrees of increase in amino acid content. The addition of fermented taro paste enhanced the water absorption, elasticity and softness of the dough, and to some extent increased the specific volume and air holding capacity of the bread, resulting in a softer state of organization and a reduction in the number of air holes in the core capsule. In conclusion, the addition of Lactobacillus fermented taro paste can improve the quality of bread, providing a theoretical basis for the use of fermented taro paste in bread products.

Visual Analysis of Research Progress on Protein Deamidation Based on CiteSpace Knowledge Map

LIU Xing-li, REN Chen-hui, LIU Yang, WANG Hong-wei, ZHANG Yan-yan, ZHANG Hua*

2024,32(6):108-116, DOI:

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Abstract

In order to explore the research hotspots and development trends of protein deamidation, this paper systematically searched 133 Chinese literatures and 337 English literatures on protein deamidation in the CNKI and WOS databases, and the CiteSpace software was used to draw knowledge graphs and visual analysis of publication trends, author collaboration networks, national collaboration networks, institutional cooperation network, keywords and other content. The results showed that the volume of Chinese publications was relatively low and showed a steady trend, while the volume of English publications showed a wave-like upward trend, with a rapid increase from 2020 to 2023, exceeding 30 publications per year. In addition, both Chinese and English literature formed relatively fixed author clusters with close collaborations within the groups, but limited collaborations between clusters. The research hotspots in this field were generally consistent domestically and internationally, mainly focusing on the influence of deamidation on the structure and functional characteristics of proteins. Some research has also been conducted on the mechanisms underlying the influence on functional characteristics and the sensitization of proteins. In recent years, the application of protein glutaminase in the field of protein deamidation has become a new research hotspot.

The Flavor Change Mechanism of Gushi Goose Nuggets at Different Processing Stages Analyzed by GC-MS Combined with Chemometrics

ZHOU Zhou, LIU Cheng-gang, CAO Meng, YAO Heng-zhe, LI Fei, DU Xian-feng*

2024,32(6):117-124, DOI:

Abstract (2) HTML (0) PDF (605.59 K) (2)

Abstract

To explore the flavor changes of Gushi goose nuggets of Henan, Xinyang during processing, GC-MS was used to analyze the volatile components of Gushi goose block samples at four different processing stages, and a comparative study was conducted by combining chemometrics methods. The results showed that a total of 24 volatile compounds were identified by GC-MS, which could be divided into aldehydes, ketones, esters, thioethers, alcohols and others. Among them, the proportion of alcohol volatile flavor substances reached 83.38% and 83.39% after stewing and sterilization, respectively, with high proportions of ethanol and acetaldehyde. The proportion of ketone volatile flavor substances increased gradually with the progression of processing stages, imparting fruity, fresh, and buttery aromas to the goose cubes. Multivariate statistical analysis showed that there were statistical differences in the characteristic flavor components of different samples. The ROAV method determined 7, 5, 4, and 4 key volatile flavor substances for each sample, respectively, among which aldehydes were the key volatile flavor components for all four processing stages, positively contributing to the flavor of Gushi goose cubes at different processing stages. Based on the results of GC-MS, the orthogonal partial least squares discriminant analysis model, principal component analysis and cluster analysis showed that the flavor of the samples after stewing and sterilization was close, indicating that the sterilization had a great influence on the flavor of Gushi goose products. This study is of great significance to improve the deep processing level and large-scale production of Xinyang Gushi goose blocks, as well as enhance the added value of Xinyang dishes.

Quality & Nutrition

Effect of Silver Carp Protein Hydrolysate on Quality Properties of Frozen Dough and Bread

TIAN Jin-he, WANG Yan-jie*, WU Yue, GUO Rui-rui, WANG Li-long, SUN Yu-bo

2024,32(6):125-133, DOI:

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Abstract

In order to expand the application of silver carp protein hydrolysate in frozen dough, this paper investigated the effects of silver carp protein hydrolysates on the freezable water content, water distribution and migration, microstructure, rheological properties, fermentation properties of frozen dough during frozen storage, and analyzed specific volume, textural properties and sensory score of bread. The DSC and LF-NMR results showed that the addition of silver carp protein hydrolysate inhibited the increase of freezable water content and water fluidity of dough during the frozen storage. The SEM, rheological and fermentation properties results showed that the addition of silver carp protein hydrolysate reduced the mechanical damage of gluten network structure, and increased the proportion of elastic properties and fermentation volume of dough during frozen storage. The results of specific volume and texture showed that the addition of silver carp protein hydrolysate improved the specific volume and elasticity of bread, and reduced its hardness and chewability. Silver carp protein hydrolysate also improved sensory score of bread. In conclusion, it can be seen that silver carp protein hydrolysate can effectively improve the quality of frozen dough and bread.

Comparison of the Nutritional Values of Quinoa in Four Different Colors

LIU Jian-lei, ZHANG Dong, WANG Wen-juan, YANG Wei-qiao, SUN Hui, DUAN Xiao-liang*

2024,32(6):134-142, DOI:

Abstract (1) HTML (0) PDF (542.64 K) (1)

Abstract

To compare the nutritional values of different colored quinoa, four main varieties of white, black, red, and gray quinoa from China's major quinoa-producing provinces were selected. Their nutrient contents were comprehensively compared, and hierarchical cluster analysis was further used to classify the samples and nutritional indicators. The results showed that compared with staple foods such as wheat flour and rice, as well as other grains like oats, buckwheat, millet, and highland barley, quinoa had higher crude protein, crude fat, ash, insoluble dietary fiber (IDF), P, K, Zn, and lower total starch content. Quinoa had higher vitamin B1 and B2 levels than wheat flour and rice but lower levels than buckwheat, millet, and highland barley. Among the different colored quinoa, gray quinoa had the greatest distinction from the other three colors, while red and black quinoa were the most similar. The contents of total dietary fiber (TDF), IDF, Cu, Zn, total starch, Mn, and K were higher in dark-colored quinoa such as black and red varieties. The contents of vitamin B1, soluble dietary fiber (SDF), and Se were higher in light-colored quinoa such as gray and white varieties. The contents of total flavonoids, Fe, and crude fat were higher in gray and red quinoa. The contents of vitamin B2 and crude protein were higher in white and red quinoa. The contents of Ca, Mg, and P were higher in gray and black quinoa. In summary, the nutritional characteristics of different colored quinoa were complementary to some extent, and a mixture of different colored quinoa could provide more comprehensive nutritional profiles.

Effects of Electron Beam Irradiation on Physicochemical Properties and Edible Quality of Highland Barley Rice

CHEN Xue-cong, YANG Xi-juan, ZHANG Wen-gang, MA Ping, ZHOU Wen-ju, DANG Bin*

2024,32(6):143-150, DOI:

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Abstract

In order to assess the impact of electron beam irradiation on the physicochemical properties and edible quality of highland barley rice, an investigation was conducted to identify the optimal irradiation dose for barley and rice processing. In this study, a series of analyses were conducted on barley rice samples subjected to electron beam irradiation at four doses (0, 0.5, 1.0 and 1.5 kGy). These analyses included the determination of basic nutrients, colony and mold counts, storage indexes, pasting characteristics, rheological properties and edible quality. The results demonstrated that electron beam irradiation at a dose of 0~1.5 kGy had no significant impact on the composition and content of basic nutrients and amino acids in barley and rice. Furthermore, the total number of colonies and molds were significantly reduced (P<0.05), and the inactivation rate at 1.5 kGy reached 83.75% and 54.09%, respectively. After electron beam irradiation, the acid value of highland barley increased to 20.21 mg KOH/100 g, and the propanal value increased to 0.53 mg/kg, while the peroxide value showed no significant change. Additionally, after treatment with 0.5 kGy, the lipase activity of highland barley was significantly reduced by 7.54%. The peak viscosity, valley viscosity, disintegration value, final viscosity, and regrowth value of barley rice were significantly reduced (P<0.05). The elastic modulus and storage modulus of highland barley increased, but there was no significant impact on its texture and sensory quality. The water absorption rate and volume expansion rate during heating generally showed a decreasing trend, with no significant impact at 0.5 kGy. Therefore, the irradiation dose for highland barley processing should not exceed 1 kGy, and an irradiation dose of 0.5 kGy was more suitable.

Germinated Sesame Extract Improving Anxiety and Gut Inflammation in Salmonella Typhimurium-infected Mice

ZHANG Zi-long, YANG Ya-xian, LI Jing-meng, LI Jing, WANG Yu-tang, YUAN Tian, GUO Rui, LIU Zhi-gang*

2024,32(6):151-160, DOI:

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Abstract

Sesame is a widely cultivated crop in China, which contains a large amount of fat and protein, as well as dietary fiber, sesame lignans,γ- Aminobutyric acid(GABA) and other active nutrients. In recent years, many studies have pointed out that GABA and sesamol from sesamin could possess anxiolytic and anti-inflammatory properties, but their specific roles and mechanisms during foodborne pathogenic bacterial infections remain unexplored. We analyzed the extract obtained from ethanol-soaked germinated sesame and found that the contents of sesamol and GABA were 6 times and 4 times higher, respectively, compared to non-germinated sesame. Constructing an animal model by infecting mice with Salmonella typhimurium SL1344, and exploring the effects of germinating sesame extract, sesamol, and GABA on Salmonella typhimurium infection in mice. It was found that germinating sesame extract could reduce weight loss in Salmonella infected mice, and improve anxiety behavior in Salmonella infected mice. Germinating sesame extract also reduced Salmonella infection in mouse spleen, and increased colon villus length and mucin content in Salmonella infected mice, which could inhibit colitis factors, and increase acetic acid and propionic acid content in feces. Germinated sesame extract alleviated anxiety and protected the gut in mice infected with Salmonella. This study was aimed to provide a theoretical reference for dietary intervention to alleviate anxiety and protect the gut.

Food Safety

Research Progress on Non-destructive Detection Techniques for Potatoes Quality

YANG Guang-hui, LI Hong-ling*, ZHANG Hua, LI Hui, LIU Xiao-long, JIA Shang-yun, HU Bo, SHANG Yi-bo

2024,32(6):161-169, DOI:

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Abstract

Since the “14th Five-Year Plan”, with the continuous deepening of the “three rural work”, the quality inspection and grading of potatoes have played a decisive role in the expansion of the potato industry and the development of the processing industry. Aiming at the problems of traditional manual potato quality classification, such as high labor intensity, low efficiency, easy to cause secondary damage, and inability to judge internal quality, this article elaborated on the research progress of domestic and foreign hyperspectral detection technology, near-infrared spectroscopy detection technology, machine vision detection technology, and ultrasonic detection technology in the application of internal and external quality detection of potatoes. Through research and analysis, the problems facing non-destructive detection technology for potato quality were proposed, and prospects for the selection of imaging systems, multimodal detection technology, algorithm optimization, and intelligent detection technology were discussed, which could provide a reference for in-depth research and practical application of non-destructive detection technology for potato quality.

Improving the Prediction Accuracy of Peony Seed Oil Adulteration Concentration Based on Near-infrared Raman Spectroscopy Combined with LSTM-CNN Model

ZHANG Kai-ping, YANG Qing-bo

2024,32(6):170-179, DOI:

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Abstract

To establish a method applicable for online monitoring of adulteration of corn oil with penony seed oil in the market, this paper studied the potential of portable 785 Raman spectroscopy technology for quality inspection in the first-line market and prepared 525 corn oil adulterated peony seed oil products. The stability of the portable near-infrared Raman spectroscopy data set of each kind of mixed oil and the differences of Raman spectrum peaks of 21 types of mixed oil were evaluated. The vibration attribution of Raman spectrum peaks was analyzed. The Raman spectral data sets of 16 kinds of oil mixtures were randomly selected to train the quantitative model, and the Raman spectral data sets of the remaining 5 kinds of oil mixtures were used to test the quantitative model. Significant difference existed between the near-infrared Raman spectra of peony seed oil and corn oil. According to the attribution of characteristic peaks, the difference in Raman spectra peaks could well reflect the difference in fatty acid content between vegetable oils. A model combining long short-term memory network and convolutional neural networks (LSTM-CNN) was proposed for quantitative prediction of corn oil adulterated with peony seed oil, and its prediction performance was compared with the partial least squares regression algorithm. The results show that the portable 785 nm Raman spectrometer had good stability and could achieve online and rapid quantification of peony seed oil adulteration levels. Combined with the LSTM-CNN model, it could predict the content of corn oil adulterated peony seed oil. The model evaluation parameter's coefficient of determination (R2) was 0.990 8, and the root mean square error (RMSE) was 0.029 9. Portable near-infrared Raman spectroscopy combined with the LSTM-CNN model is a fast, efficient, and feasible method to identify the adulteration of corn oil with peony seed oil.

Construction of Quality and Safety Control System for Tsampa Production Process Based on HACCP

HU Yun, JIANG Peng-li, WANG Xin-xin, YANG Jie, ZHANG Yi-fan, LI Liang*, LIU Zhen-dong, LUO Zhang

2024,32(6):180-188, DOI:

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Abstract

Tsampa, as an essential traditional food in Tibet, demands strict quality and safety assurances during its industrial production process. In order to ensure the food safety of the public, it is urgent to establish a comprehensive quality and safety control system aimed at enhancing the food quality and safety of Tsampa. This study conducts a systematic hazard analysis on the entire production process of Tsampa from raw materials to finished products, identifies critical control points, sets critical limits and corrective measures, and ultimately formulate and verify a HACCP (Hazard Analysis and Critical Control Point) plan. By applying the HACCP system to the production processes of local Tibetan Tsampa enterprises, five critical control points, including raw material acceptance, raw material storage, roasting, packaging, and finished product storage, were identified and subjected to in-depth analysis of significant hazards. Corresponding control measures and critical parameters were established for various hazards. The effective implementation of the HACCP system within the actual production processes ensures comprehensive control over the quality and safety of Tsampa, thereby promoting the sustainable development of the Tibetan Tsampa industry.

Storage logistics

Study on the Effects of Air Conditioning Temperature Control on Air Characteristics and Quality of Wheat Grain Bulk

ZHAO Ming-hui, LUO Xiao-hong, WU Jian-zhang, LI Xing-jun*, JIANG Yu-shan, LI Li

2024,32(6):189-195, DOI:

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Abstract

This study investigated the effects and evaluation indicators of air conditioning temperature control for summer storage of wheat in large flat storage silos. In the second and third years after wheat was stored in Silo No. 19 of Luliang Jituan Pingyuan Grain Storage Depot, the air conditioning was set to 25 ℃, and the conditions were compared with those in the control Silo No. 17. The temperatures at the surface, second layer, third layer, and fourth layer of the grain bulk were reduced by 3.4 ℃, 2 ℃, 1.5 ℃, and 1.35 ℃, respectively. The moisture content, relative humidity (RH), and wet-bulb temperature were reduced by 3.85 g/kg and 1.5 g/kg, 3.55% and 3.85%, and 3.65 ℃ and 2.2 ℃ for the surface grain and the entire grain bulk, respectively. No significant differences were observed in the thermal characteristic parameters of the grain bulks in the two silos. Compared with Silo No. 17, the peak viscosity, breakdown, and final viscosity of wheat in Silo No. 19 slightly decreased, and the texture parameters, such as hardness, adhesiveness, springiness, gumminess, and chewiness, also slightly decreased. Principal component analysis identified the gelatinization end temperature and peak height measured by DSC, the gelatinization temperature and peak time measured by RVA, and texture parameters such as hardness, gumminess, and chewiness as preferred indicators for evaluating the summer storage of wheat under temperature control. In-depth scanning electron microscopy analysis revealed that the cross-sections of wheat kernels in Silo No. 19 were more compact with uniformly distributed micropores, and the longitudinal sections had fewer small starch granules between large starch granules compared to those in Silo No. 17. The results indicated that operating air conditioning in large flat storage silos during summer helped reduce the dry-bulb temperature of the grain bulk and the air characteristics in the interstitial space between kernels. It also slowed the growth and development of storage pests, and maintained the microstructure of wheat kernels, which could delay quality deterioration.

A Method for Choosing the Opportunity of Reducing Grain Moisture Ventilation by Specific Enthalpy and Absolute Humidity of Air

YIN Guo-bin

2024,32(6):196-202, DOI:

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Abstract

In this paper, a new method has been proposed to determine the timing of reducing grain moisture ventilation by specific enthalpy and absolute humidity of air. Specifically, a chart for selecting the timing of aeration for grain drying has been plotted with the air specific enthalpy as the x-axis and the corresponding absolute humidity as the y-axis, by adding lines representing the equilibrium absolute humidity for grain desorption and the allowable range for aeration. This chart can then be used to select the timing of aeration for grain drying. Compared with the commonly used air enthalpy-humidity chart, the proposed chart incorporated the parameters for allowable conditions for grain aeration specified in national industry standards. It visually presented the allowable range for aeration at different grain temperatures, moisture contents, air temperatures, relative humidities, and specific enthalpies, facilitating users in selecting the timing of aeration and conducting related research. This method could effectively assist in ensuring grain storage safety, improving the efficiency of aeration for grain drying, and reducing energy consumption costs.

The Study of Numerical Simulation on the Effect of Potato Stacking Forms in Packaging Boxes on Storage Efficiency

ZHEN Qi, MA Lin-huan, TA Na*, YAN Cai-xia, SUN Yun-feng, XU Chao

2024,32(6):203-210, DOI:

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Abstract

With the gradual use of packaging boxes for potato storage, the influence of different stacking methods on the storage effect of potatoes was studied. This study used direct computational fluid dynamics numerical methods to simulate the models of potatoes in packaging boxes under different stacking forms. By comparing and analyzing the gas velocity and temperature distribution uniformity in various stacking forms, the impact on the storage effect was analyzed, and the optimal stacking method was determined. The results showed that the gas velocity in the intermediate layer of the packaging box was relatively high, resulting in a lower temperature of the potatoes. The gas velocity in the other planes was lower, and the temperature of the potatoes was higher than that in the intermediate layer but with a more uniform distribution. After 300 minutes of ventilation, the temperature of the potatoes in the packaging box decreased to 3~5 ℃, meeting the expected requirements and demonstrating good ventilation effects. For different stacking patterns, when arranged in a staggered pattern, the maximum gas flow velocity on the upper and lower planes was 2.5 times the minimum value, and the maximum temperature difference was 0.2 °C. On the middle plane, the maximum gas flow velocity was 4.8 times the minimum value, with a difference of about 2.85 m/s, and the gas flow velocity inside the bin was uniform, with a good cooling effect. For the storage of boxed potatoes, the staggered arrangement stacking method should be prioritized to achieve better storage results.

Visualization Analysis of Research Status and Hot Spots of Phosphine Based on CiteSpace (2004—2023)

ZHANG Hui-yan, LI Yan-yu*, ZI Jia-yu, CHEN Xin, CUI Peng-cheng, ZHOU Gui-ming, TAO Hai-hua, TIAN Xiao-wei*

2024,32(6):211-218, DOI:

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Abstract

Phosphine plays an important role in chemistry, materials science, physics, agriculture and other fields, and is widely used in semiconductor, plastic industry and storage fumigation. In order to systematically sort out the research hotspots of phosphine and deeply understand the research trends in the field of agriculture, this paper has utilized the Web of Science Core Collection database and employed CiteSpace for bibliometric analysis from dimensions such as annual publication output, keywords, authors, and institutions. The results showed that the publication output on phosphine research generally exhibited an upward trend, with research mainly concentrated in fields like chemistry and materials science. In the agricultural field, the United States, Australia, China, Greece, and Brazil occupy leading positions. In addition, attention should be focused on ' Journal of Stored Products Research ', ' Journal of Economic Entomology ' and ' Pest Management Science ' to keep up with the latest research trends in this field. In terms of research hotspots, current efforts are primarily centered on optimizing phosphine fumigation methods and investigating mechanisms of phosphine resistance. The application of RNAi technology in phosphine research may become one of the frontier hotspots in the future. This bibliometric study has emphasized elucidating the research dynamics of phosphine in the agricultural field, providing a systematic analysis of current research that can be utilized by industry professionals and researchers interested in this domain.

Study on the Distribution Characteristics of Tribolium Castaneum in Wheat Grain Heap

ZHANG Ze-yu, ZHOU Guo-xin, CUI Miao, WANG Zhong-ming*

2024,32(6):219-225, DOI:

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Abstract

Using a new type of insect probe trap, the activity and distribution of Tribolium castaneum in wheat grain bulks inside experimental silos were collected and analyzed to investigate its distribution patterns and main influencing factors within the grain bulks. An equation for estimating insect population density was established to provide a scientific basis for accurate monitoring and early warning. The results showed that the daily capture of Tribolium castaneum did not change significantly over time. When the insect population density was low, Tribolium castaneum was mainly distributed in the top and middle layers of the grain bulk. When the insect population density was high, Tribolium castaneum was uniformly distributed within the grain bulk. Tribolium castaneum exhibited thermophilic and hygrophilic behaviors, with an optimal activity temperature range of 22~30 ℃ and a relative humidity range of 40%~53%. By comprehensively analyzing the spatial and temporal distribution patterns of the insect population and the effects of temperature and humidity, the actual insect population density could be estimated based on the number of insects captured by the probe traps. The equation for estimating the insect population density was: y = 10.566 – 0.321 × x1 – 0.017 × x2 + 0.026 × x3, x1: temperature (℃), x2: relative humidity (%), x3: number of insects captured.

Studies on the Phototropic Behavior to LED Light of Six Stored Grain Insects

YUAN Qing-jiao, LV Jian-hua*, BAI Chun-qi, HAN Zhi-qiang, ZHANG Feng, ZHANG Yuan-quan

2024,32(6):226-233, DOI:

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Abstract

Light trapping is an environmentally friendly pest insect monitoring method. Deeply understanding the influence of different wavelengths and light intensities of light source on the phototaxis of stored grain insects is very helpful for improving light trapping effectiveness. Thus, the phototaxis of adults of Sitophilus oryzae (Linnaeus) (Coleoptera: Curculionidae), Tribolium castaneum (Herbst) (Coleoptera: Tenebrionidae), Lasioderma serricorne (F.) (Coleoptera: Ptinidae), Cryptolestes ferrugineus (Stephens) (Coleoptera: Laemophloeidae), Tribolium confusum (Jacquelin du Val) (Coleoptera: Tenebrionidae) and Sitophilus zeamais (Motschulsky) (Coleoptera: Curculionidae) to LED lights of different wavelengths and intensities were investigated in laboratory, respectively. The results showed that S. oryzae adults had the highest phototactic ratio (81.11%) to LED lights with a wavelength of 590 nm and a light intensity of 170 lx. T. castaneum adults had the highest phototactic ratio (92.22%) to LED lights with a wavelength of 520 nm and a light intensity of 120 lx. L. serricorne adults had the highest phototactic ratio (77.78%) to LED lights with a wavelength of 460 nm and a light intensity of 170 lx. C. ferrugineus adults had the highest phototactic ratio (93.33%) to LED lights with a wavelength of 365 nm. T. confusum adults had the highest phototactic ratio (84.44%) to LED lights with a wavelength of 460 nm and a light intensity of 120 lx, and S. zeamais adults showed the highest phototactic ratio (88.89%) to LED lights with a wavelength of 365 nm. These results have reference value for effectively designing integrated pest management (IPM) strategies utilizing the phototaxis of stored grain insects.

Industrial Economy

The Spatio-temporal Coupling Analysis of Grain Production and Processing Based on the Center of Gravity Model

WANG Xiao-cong, JIN Meng-meng*

2024,32(6):234-239, DOI:

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Abstract

To ensure food security, the focus has shifted from increasing food production to transforming and upgrading the food industry, and retaining the added value of the food industry and its main entities in the production areas is an effective way to increase the enthusiasm for grain production in these areas. Using the gravity model, this study analyzed the evolution trends and spatiotemporal coupling degree of the gravity centers of grain production and processing at the national level from 2017 to 2020, and evaluated the spatial pattern of the coupling and coordination level between grain production and processing in China. The results showed that the agglomeration gravity center of grain production in China has generally shifted northwestward, while the agglomeration gravity center of grain processing has generally shifted northeastward. The gravity centers of grain production and processing have overall shifted northward, showing consistency in their movements, with the migration distance of the agglomeration gravity center of grain processing being greater than that of grain production. The spatial distance between the agglomeration gravity centers of grain production and processing has been decreasing yearly, indicating better spatial coupling between grain production and processing. Major grain-producing provinces should leverage their advantages in grain production and tap into the development potential of the grain processing industry.

Research on the Linkage between Economic Policy Uncertainty and Time-frequency Risk of Agricultural Futures Market

LIN Ling, YAN Jie*

2024,32(6):240-248, DOI:

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Abstract

Based on the analysis of large overlapping discrete wavelet transform, this paper constructed the TVP-VAR time-varying volatility risk spillover index to study the time-varying risk linkage effect between economic policy uncertainty and wheat and corn futures markets in China. The results showed that the risk linkage between the economic policy uncertainty and the futures market prices of wheat and corn in China was strong, and the spillover effect showed asymmetric, time-varying and heterogeneous characteristics. Periodic characteristics exhibited in the medium and long term. Secondly, economic policy uncertainty mainly acted as the issuer of risk spillover, while wheat and corn futures prices play the role of receivers. The spillover effect on wheat futures prices is larger than that on corn futures prices. Finally, during uncertain events such as the financial crisis, “cash crunch” and the Russia-Ukraine conflict, the medium and long-term spillover component dominated, while the short-term spillover components have become increasingly prominent drivers after the stock market crash crisis.

Research Hotspots, Current Status and Outlook of Prepared Dishes in China——Visualization Analysis Based on CiteSpace

WANG Pu-qing, ZHANG Ren-yi*, BIE Xiao-wei

2024,32(6):249-258, DOI:

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Abstract

CiteSpace software was used to conduct a visual metrological analysis of 310 pieces of research literature on prepared dishes in the China Knowledge Network (CNKI) database from 2014 to 2024. Through in-depth analysis of the basic characteristics of the research literature on prepared dishes and the hot areas of research, the dynamic trend of the field was revealed. It was found that the number of literature published within the field of prepared dishes have increased year by year, and the network density of author collaboration and institutional collaboration was low (0.015 2 and 0.004 9, respectively, less than 0.1), indicating that most of the authors were independent in their research, and inter-institutional collaboration was limited. Research hotspots and trends revolve were around prepared dishes, industrial status and development, food safety, rural revitalization, etc. However, there are still deficiencies in the existing research areas, and future research can explore in-depth hotspot issues, such as consumer perceptions and consumption willingness.

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