Sensory-directed flavor analysis of key odorants compounds development of French fries and oils in the break-in,optimum and degrading frying stage

The flavor is a decisive sensory characteristic that determines the popularity of French fries(FFs).During high-oleic rapeseed oil(RO)frying,the flavor development of FFs showed three noticeable stages including break-in(3.5%-7.5%of total polar compounds(TPC)),optimum(7.5%-22.18%of TPC),and degrading stages(above 22.18%of TPC).Further,in order to distinguish the key aroma compounds in each stage,the FFs prepared in RO at TPC of 3.5%(FF4),14.5%(FF15),and 26.96%(FF27)and their relevant oils(RO4,RO15,RO27)were selected for sensory-directed analysis.The results revealed that the FF4 had low contents of(E,E)-2,4-decadienal(deep-fried odor)which also caused lower sensory score in FF4 sample.The higher contents of(E,E)-2,4-decadienal in FF15 induced its higher deep-fried odor.The FF27 had higher hexanoic acid(sweaty odor),heptanoic acid,nonanoic acid,benzene acetaldehyde(stale odor),and trans-4,5-epoxy-(E)-2-decenal(metallic odor)compared with FF4 and FF15,thus leading to the undesirable flavor of FF27.Moreover,the decrease of 2,5-dimethylpyrazine and 2-ethyl-6-methyl-pyrazine in FF27 induced the lower roasty flavor,which may also lead to the decline of the sensory score.Similarly,the higher contents of(E)-2-undecenal,hexanoic acid,heptanoic acid,and nonanoic acid in RO27 lead to increase its rancid score and thus lower the sensory score.

No evidence of predator odor avoidance in a North American bird community

Recent advances in our understanding of avian chemical communication have highlighted the importance of olfaction in many aspects of avian life.Prior studies investigating predator avoidance behaviors in response to predator odor cues have produced mixed results across species and contexts.Here we assess if a community of birds in eastern Pennsylvania displays avoidance behaviors towards predator odor cues in a natural foraging setting.We use clay caterpillars to measure foraging activity by birds in the presence of predator(bobcat)urine,non-predator(rabbit)urine,and water controls in two different environmental contexts(field vs.forest).Although we detected a weak trend for birds to forage less at predator urine-treated sites,we found no significant difference in avian foraging between the site types.We did find that foraging rates between environmental contexts changed significantly over the course of the experiment,with forest sites showing decreasing foraging rates and field sites showing increasing foraging rates.Our results reinforce the published literature that avoidance of predator odors by birds may not be ubiquitous across contexts and species.

Progress in Research on Insect Olfactory Perception of Habitat Odor Molecules

A highly sensitive olfactory system allows insects to precisely identify and position volatile compounds from different sources in their habitats,and plays a crucial role in their foraging,mating,and oviposition activities.During evolution,insects have successfully developed a large and complex olfactory system to adapt to heterogeneous environments,enabling the maintenance of inset population.A comprehensive examination of the olfactory system of insects may therefore yield novel insights into the development of innovative pest control and prevention strategies,as well as the study of olfactory mechanisms in vertebrates and even humans.This paper outlines the current state of research into the signal transduction mechanism by which insects perceive the olfactory molecules of their habitats.The aim of this review is to provide a reference point for future studies into the olfactory perception mechanism and its potential applications in pest management.

Volatile Solid and Bury Period Influence on Odorous Material Production in Simulating Landfill Treatment

Odor pollution in landfill area has attracted more social attention in China. It is very important to control the generation of odor pollutants in situ. Analyzing odorous materials production form buried waste, simulated columns of different volatile solid (VS) content and different buried period waste were designed. Gas compounds produced from the columns were collected and analyzed by comprehensive two-dimensional gas chromatography (GC × GC) method. It has remarkable relationship between VS content and concentrations of odorous material. When VS content more than 40%, the total amount of odorous compounds increases remarkably. It can be inferred that reduced VS content of original waste may effective decreasing odorous materials production in landfill area. The old rubbish produced more odorous compounds than that of fresh one in simulated columns.

Structure,Binding Characteristics,and 3D Model Prediction of a Newly Identified Odorant-Binding Protein from the Cotton Bollworm,Helicoverpa armigera (Hübner)

The full-length sequence of the odorant binding protein 5 gene,HarmOBP5,was obtained from an antennae cDNA library of cotton bollworm,Helicoverpa armigera （Hübner）.The cDNA contains a 444 bp open reading frame,encoding a protein with 147 amino acids,namely HarmOBP5.HarmOBP5 was expressed in Escherichia coli and the recombinant protein was purified by affinity chromatography.SDS-PAGE and Western blot analysis demonstrated that the purified protein can be used for further investigation of its binding characteristics.Competitive binding assays with 113 odorant chemicals indicated that HarmOBP5 has strong affinity to some special plant volatiles,including （E）-β-farnesene,ethyl butyrate,ethyl heptanoate,and acetic acid 2-methylbutyl ester.Based on three-dimensional （3D） model of AaegOBP1 from Aedes aegypti,a 3D model of HarmOBP5 was predicted.The model revealed that some key binding residues in HarmOBP5 may play important roles in odorant perception of H.armigera.This study provides clues for better understanding physiological functions of OBPs in H.armigera and other insects.

A conserved odorant receptor identified from antennal transcriptome of Megoura crassicauda that specifically responds to cis-jasmone

Herbivore-induced plant volatiles(HIPVs)play a key role in the interactions between plants and herbivorous insects,as HIPVs can promote or deter herbivorous insects’behavior.While aphids are common and serious phloem-feeding pests in farmland ecosystems,little is known about how aphids use their sensitive olfactory system to detect HIPVs.In this study,the antennal transcriptomes of the aphid species Megoura crassicauda were sequenced,and expression level analyses of M.crassicauda odorant receptors(ORs)were carried out.To investigate the chemoreception mechanisms that M.crassicauda uses to detect HIPVs,we performed in vitro functional studies of the ORs using 11 HIPVs reported to be released by aphid-infested plants.In total,54 candidate chemosensory genes were identified,among which 20 genes were ORs.McraOR20 and McraOR43 were selected for further functional characterization because their homologs in aphids were quite conserved and their expression levels in antennae of M.crassicauda were relatively high.The results showed that McraOR20 specifically detected cis-jasmone,as did its ortholog ApisOR20 from the pea aphid Acyrthosiphon pisum,while McraOR43 did not respond to any of the HIPV chemicals that were tested.This study characterized the ability of the homologous OR20 receptors in the two aphid species to detect HIPV cis-jasmone,and provides a candidate olfactory target for mediating aphid behaviors.

Characterization of the key aroma compounds in four varieties of pomegranate juice by gas chromatography-mass spectrometry(GC-MS),gas chromatography-olfactometry(GC-O),odor activity value(OAV),aroma recombination,and omission tests

P omegranate(Punica granatum L.)has attracted considerable attention in world markets due to its valuable nutrients and highly appreciated sensory properties.The aroma profiles of 4 varieties of pomegranate juice,including Dahongtian(DP),Jingpitian(JP),Luyudan(LP),and Tianhonngdan(TP),were investigated via gas chromatography-mass spectrometry(GC-MS)and gas chromatography-olfactometry(GC-O)analyses.A total of 43 volatile compounds were identified by using GC-MS.Among these compounds,16 were considered as potential aroma-active compounds as detected by GC-O.These compounds belonged to the classes of terpinenes,alcohols,and aldehydes.Eleven volatile compounds were defined as the main contributors to the overall aroma of pomegranate juice due to their high odor activity values(OAVs≥1).Aroma recombination and omission tests confirmed thatβ-myrcene,1-hexanol,and(Z)-3-hexen-1-ol were the key aroma compounds,and limonene,1-octen-3-ol,linalool,and hexanal were important aroma-active compounds in DP samples.

Ligand-binding properties of three odorant-binding proteins of the diamondback moth Plutella xylostella

Strategies for insect population control are currently targeting chemical communication at the molecular level. The diamondback moth Plutella xylostella represents one of the most serious pests in agriculture, however detailed information on the proteins mediating olfaction in this species is still poor. This species is endowed with a repertoire of a large number of olfactory receptors and odorant binding proteins（OBPs）. As a contribution to map the specificities of these chemical sensors in the moth and eventually unrave l the complexity of chemodetection, we have measured the affinities of three selected OBPs to a series of potential odorants. Three proteins are highly divergent in their amino acid sequences and show markedly different expression profiles. In fact, PxylOBP3 is exclusively expressed in the antennae of both sexes, PxylOBP9 is male specific and present only in antennae and reproductive organs, while PxylOBP19, an unusual OBP with nine cysteines, is ubiquitously present in all the organs examined. Such expression pattern suggests that the last two proteins may be involved in non-chemosensory functions. Despite such differences, the three OBPs exhibit similar binding spectra, together with high selectivity. Among the 26 natural compounds tested, only two proved to be good ligands, retinol and coniferyl aldehyde. This second compound is particularly interesting being part of the chemical pathway leading to regeneration of lignin, one of the defense strategies of the plant against insect attack, and might find applications as a repellent for P. xylostella and other pests.

20 ppm Anhydrous Ammonia Odor Agent Proposed for Hydrogen Fuel for Safe Detection of Leaks

Preferably 20 ppm anhydrous ammonia (NH3) is proposed to be added to hydrogen fuel (H) made from renewable energy sources (green hydrogen), so that H leaks may be easily detectable by smell, but not dangerously toxic. Including this odor agent, would allow H to be distributed safely in pipes, as required by law, and it would allow H to be safely stored, transported, and exported for sale, and widely commercialized. Further research is suggested to identify optimum pressure, temperature, and automated technique for injecting NH3 into H, and to chart the minimum concentration needed, as a function of temperature and humidity. An application to make hypersonic H burning aircraft safer for ground maintenance crews is proposed. An ability to make, store and distribute H, made from local sources of renewable energy, would reduce a need for fossil fuels, especially in poor, remote communities, where it could improve their economy by creating an export product for sale, while reducing pollution.

Opto-Chemical Ring Resonator Sensor Based on Morphology Dependent Resonances for Detecting Gas Odorant

A novel Opto-Chemical Ring Resonator （OCRR） has been presented for detecting gas odorant. The sensor is designed based on Morphology Dependent Resonances （MDR） which follows Maxwell＇s electromagnetic equations. In this paper, we have presented a novel technique to integrate chemical science and optical technology by using OCRR. Optical resonances of electromagnetic wave propagations in dielectric micro-ring resonator have been developed based on asymptotic approach. Parametric studies based on developed asymptotic expression have been presented to determine the resonance frequency at particular chemical composition. Finite element simulation is used to predict the performance of the sensor and found encouraging results for odorant sensing. Parametric studies show that present study will help to develop novel OCRR sensors tbr micro/nano technology and biomedical applications.

豆浆豆腥味形成机理及其去除方法的研究进展

豆浆是一种营养价值丰富且能防治高血脂、高血压、动脉硬化、缺铁性贫血等疾病的理想植物蛋白饮料,经常食用可以增进和保护人体健康,甚至可以作为预防新冠的优质食品。但是大豆中天然存在的豆腥味降低了消费者的接受度,同时也限制了豆制品进一步的研发。本文针对能对豆浆豆腥味有贡献的挥发性化合物(醛类、醇类、呋喃类、酮类)及导致其形成的反应途径进行了系统的综述,并进一步阐述了豆腥味对豆浆开发的影响。随后从物理、化学、生物、遮蔽四个方面探讨了豆浆去腥工艺的发展现状,对当前豆腥味研究中存在的问题以及未来的研究方向做了归纳与展望,以期为开发低豆腥或无豆腥味豆制品及推动大豆类产品消费提供理论依据。

Study on the Antibacterial and Deodorization Effect of 4,4-Dichloro-2-Hydroxydiphenyl Ether in Laundry Gel Beads

In the formulation development of laundry gel beads,4,4-dichloro-2-hydroxydiphenyl ether(HP-100)was used as a bacteriostatic agent,and the effect of HP-100 dosage on the bacteriostatic rate of laundry gel bead samples with different formulation systems was examined by the suspension quantification method;the long-lasting bacteriostatic performance of laundry gel bead samples added with HP-100 was investigated by the absorption method for evaluating the antimicrobial performance of textiles;the effect of HP-100 on the odor control of laundry gel bead samples was investigated by filling out surveys and questionnaires using the actual measurement method.Questionnaire was used to investigate the effect of HP-100 on odor control.The test results showed that the antibacterial rate of the two laundry gel samples against S.aureus increased with the increase of HP-100 dosage,and the antibacterial rate of Formula 1 reached 99.9%when the dosage of HP-100 was 0.3%;the antibacterial rate of cotton cloth washed with the laundry gel sample of Formula 1+0.3%HP-100 was more than 50%after 24 h,and still had the antibacterial effect;the antibacterial rate of cotton cloth washed with the sample of laundry gel with HP-100 was more than 50%after 24 h,and still had the antibacterial effect;the antibacterial effect of the sample with HP-100 was more than 50%after 24 h,and still had the antibacterial effect.The fabrics washed with HP-100 added laundry gel beads had better odor control than those treated with laundry gel beads without HP-100,and the addition of HP-100 to laundry gel beads could have antibacterial and deodorizing effects.

我国城市水源水库水质风险成因及对策

我国城市水源中约40%为湖泊或水库,且大部分为水库,因此水源水库的水质状况对我国城市安全极其关键。本文综述了我国水源水库水质问题研究进展,分析了22个代表性水源水库的周年水质状况。结果发现,当前我国城市水源水库水质风险类型主要是异味问题、藻类水华、铁锰超标、有机质偏高、营养盐超标等。引发水源水库水质问题的主要原因包括流域开发强度过大、库底淤积及内源释放、生态系统结构失衡、气候与水文异常变化等。针对上述主要问题,提出了构建在线水质监测预警体系、控制流域土地开发强度、构建面源拦截及流域净化系统、疏浚底泥、优化生态系统结构、实施应急曝气与控藻工程、完善流域生态保护法律法规等多种水源水库水质安全保障技术措施。鉴于水源水库水质及水生态对暴雨、高温热浪等极端气象响应敏感而复杂,在当前极端天气事件频发、强度不断增加的气候背景下,还应加强水库生态学基础研究,以深入理解水源水库水质对气候变化的响应机制,提高水库水安全保障科技支撑能力,满足我国城市高质量发展的水资源需求。

橘汁发酵过程中柑橘香气及其贡献化合物的分析

柑橘香气是柑橘果酒重要香气属性之一。为研究柑橘果酒加工过程中柑橘香气形成及影响机制,采用固相萃取法和正向硅胶色谱法结合气相色谱嗅闻仪、气相色谱质谱仪和感官评价对柑橘香气及其贡献化合物和异味物质在橘汁发酵中的变化趋势进行分析。结果表明,从橘汁中共鉴定出29种关键香气物质,主要为果香气、柑橘香气、花香气、清香气和乳脂香气化合物,其中月桂烯、庚醛、柠檬烯、γ-松油烯、癸醇、辛醛、辛醇、香茅醇和橙花醇被鉴定为柑橘香气重要贡献化合物。在橘汁发酵前4 d,柑橘香气强度呈显著增加的趋势,随后显著减弱。Pearson相关性分析显示,柑橘香气强度的变化与柠檬烯、γ-松油烯、辛醇和橙花醇含量增减密切相关(P<0.05)。伴随着柑橘香气化合物含量降低,异丁酸、丁酸、2-甲基丁酸、戊酸、己酸、庚酸和辛酸等酸败刺激性气味物质含量显著增加,这些异味物质对柑橘香气的形成具有显著的遮盖作用。研究结果可为今后柑橘果酒工艺改进及香气品质提升提供一定的理论依据。

不同提取工艺对鸡油理化性质与挥发性风味物质的影响

为了探究不同提取工艺对鸡油理化性质与挥发性风味物质的影响。本研究分别采用干法、湿法和微波熬制三种工艺提取鸡油,并对不同工艺提取鸡油的理化性质进行综合比较,同时采用顶空-气相色谱-质谱联用仪测定其挥发性风味物质构成,结合相对气味活度值、主成分分析和聚类分析明确不同提取工艺鸡油中的关键挥发性风味成分组成差异。结果表明,干法熬制的鸡油亮度最低,颜色更红、更黄,丙二醛含量较低;湿法熬制的鸡油亮度最高,颜色偏绿、偏黄,酸价较低;微波熬制的鸡油亮度稍暗,黄色和红色较浅,提取率较高,氧化稳定性较好且熬制时间短。不同提取工艺鸡油样品中共鉴定出49种挥发性风味物质,其中干法、湿法和微波法三种不同工艺所提取的鸡油中挥发性风味物质分别有39种、41种和44种,共有挥发性风味物质30种。结合ROAV和PCA,确定了(E,E)-2,4-庚二烯醛、1-辛烯-3-醇、己醛、(E)-2-癸烯醛、1-戊醇、辛醛、(E,E)-2,4-癸二烯醛、3-甲基丁醛为鸡油的主要特征风味物质。微波法提取鸡油的特征性风味物质含量较高且种类较多。本研究表明微波工艺相对而言具有耗时短、得率高、氧化稳定好以及鸡油特征性风味物质含量较高且种类多等优点,是一种值得深入研究与探索的鸡油提取工艺。

土臭素对淡水鱼品质的影响及控制策略研究进展

水产品味道鲜美,营养丰富,是人类摄取食物蛋白的重要来源。但以土腥味为代表的特殊异味在淡水养殖的鱼类中经常出现,不但影响水产品的风味,更降低了消费者的消费意愿,制约着水产品养殖行业的稳定发展。而科学控制和预防水产品中的土腥味是保障水产品质量的重要手段,对满足产业需求具有重要意义,仍需深入研究。本文综述了水产品中以土腥味为典型代表的特殊异味,探讨了以土臭素为代表的异味物质在水产品中造成土腥味的机理,并结合目前控制土腥味的常用方法,对未来水产品异味防控发展趋势进行展望,以期消除水产品中的异味物质,尤其是淡水养殖的水产品中存在的土腥味。

减少猪场臭气生成的饲粮配制技术与养殖技术研究进展

随着养殖规模和集约化程度的不断提高,养殖场产生的臭气严重危害人畜健康和周边生态环境,臭气污染问题备受关注。解决猪场臭气污染的重要途径之一是减少臭气物质产生,而改进饲粮技术和养殖技术是减少猪场臭气物质生成的关键技术措施。本文综述了猪场臭气组成及产生途径、猪场中关键致臭物质及筛选方法、有效减少臭气生成的饲粮技术和养殖技术,旨在为加强猪场臭气方面的基础研究及减排技术的推广提供参考,进一步推进养猪业的高质量发展。

基于电子鼻和气质联用分析萌芽大蒜挥发性物质差异

为探究萌芽期大蒜挥发性物质的差异,采用电子鼻、捕集阱顶空-气质联用仪(Trap head space-gas chromatography-mass spectrometry,HS-Trap-GC-MS)结合正交偏最小二乘法判别分析(Orthogonal partial least squares discriminant analysis,OPLS-DA)、香气活度值、差异性热图、相关性分析分析大蒜萌芽在0、24、48、72、96 h挥发性物质的差异。电子鼻结合OPLS-DA建立预测模型其预测能力达96.00%。GC-MS分析表明:含硫化合物是不同萌芽期大蒜的主要共有挥发性物质,含硫化合物的相对含量随萌芽时间的延长而呈递减趋势,而种类呈现出递增趋势;二烯丙基二硫醚是样品在萌芽过程中含量降低最多的物质。二烯丙基四硫醚、烯丙硫醇是样品共有关键化合物。差异性热图分析显示:除共有物质含量差异外,硫化丙烯、己醛、叠氮二羧酸二叔丁酯、丙烯醇、6-甲基-2-庚炔、5-甲基噻二唑、2-亚乙基-1,3-二硫烷、2-丙-2-炔基磺酰基丙烷、2,5-二甲基噻吩、2,5-二甲基呋喃、1-戊烯-3-醇、1,3-二噻烷的缺失进一步加大了未萌芽和萌芽大蒜气味的差异。萌芽大蒜主要共有挥发性物质的种类随萌芽时间的延长呈现递增趋势。大蒜主要挥发性物质与电子鼻大多数传感器存在显著相关性。大蒜的气味强度会随萌芽时间的延长而逐步减弱。

养殖池塘水体异味物质土臭素与环境因子关系解析

本研究旨在分析淡水鱼产品消费和加工中的主要障碍之一——土腥味,特别是其关键异味物质土臭素(GSM)的影响因素。通过对江苏省84个养殖池塘的GSM浓度及其水体环境因子(包括盐度、pH、溶氧、温度、总悬浮物、总氮、总磷和高锰酸盐指数)的检测,采用相关性分析和通径分析方法,筛选出影响GSM的关键环境因子。结果显示,全部池塘中GSM检出率高达97.6%,检出的含量均值为(27.83±20.06)ng/L,大范围超过人类感知阈值;盐度和高锰酸盐指数对GSM产生较大的负向影响,且盐度和高锰酸盐指数的直接作用都大于间接作用,2个因子较为独立地对养殖池塘中的GSM起着负调控作用。因此,在水产养殖管理过程中,可以将盐度和高锰酸盐指数作为养殖池塘水体环境监测的重点环境因子,针对性地采取管理措施,进而改善养殖池塘水质,更有效、更方便地解决养殖水体和养殖产品的土腥味问题。

不同种类道路沥青材料异味特征及析源分析

随着我国社会经济逐渐向绿色可持续转型,沥青路面铺筑过程中的异味污染成为不可忽视的环境问题。本研究针对八种不同的道路沥青材料使用过程中产生的挥发性物质,通过气相色谱-质谱联用仪(GC-MS)和气体检测仪进行定性与定量分析。在此基础上,结合异味阈值计算各物质异味活度值(OAV),通过异味活度值加和(SOAV)的方法对沥青异味进行分析,并对异味污染物中各组分及其异味贡献进行进一步的析源工作。研究结果表明,沥青挥发物的浓度与异味活度值加和并没有完全的正相关关系,胶粉改性沥青挥发物浓度及异味活度值加和相较于其他沥青均有显著提高。对八种不同种类道路沥青材料异味特征进行分析得出:六种组分对沥青异味的产生有贡献,其中,苯系物、醛类以及硫化氢对沥青异味的贡献较大,烯烃类以及酮类是胶粉改性沥青挥发物中特有的异味贡献组分。