“四念四化”构建校企合作育人模式的探索与实践——以内蒙古商贸职业学院食品加工技术专业为例

食品加工技术专业是典型的应用型专业,人才培养目标是应用型高技能人才,其培养目标的关键是强化实践教学,搭建好校企合作平台,从而达到实践育人、协同育人的目的。内蒙古商贸职业学院食品加工技术专业以选择具有管理水平一流、生产工艺先进、研发能力领先的食品制造类高端企业,通过引企入校、工学交替、理实一体教学提高了学生的培养质量,同时创新形成了“四念四化”的教育教学模式。     

不同送风和载物方式作用下冲击式速冻设备中虾仁冻结过程的比较

以明虾虾仁为研究对象,利用数值模拟结合实验验证的方法,研究两种送风方式(单侧送风和双侧送风)和两种载物方式(板带载物和网带载物)对虾仁冻结过程的影响,找到使虾仁冻结时间最短的送风和载物方式。研究发现:对于虾仁冻结来说,采用双侧送风+网带载物可以使虾仁表面流场流速更大,有利于提高换热效率,减少虾仁冻结时间,相对于其他送风方式和载物方式来说可缩短虾仁冻结时间的14%～25%;双侧送风有助于低速侧形成提高虾仁下表面流速的涡流,而网带载物可以避免在虾仁下侧面与网带交界处以及虾仁头部形成射流"真空区",上述均有助于提高虾仁表面风速,缩短虾仁冻结时长;但是冻结速度越快,虾仁冻结均匀性则越差。在本次实验中,虾仁内外最大温差出现在实验组D(双侧送风+网带载物),最大温差可达13.02℃。     

微流控芯片在农产品安全检测中的应用

近年来,随着食品工业的迅猛发展,国内外食品安全事故也频繁发生。开发安全可靠、便携有效的检测方法对食品安全至关重要。微流控芯片集样品前处理、分离和检测等过程为一体,实现了样品前处理和检测分析的自动化、集成化、小型化、低消耗、高效率和便携化,满足了现场、实时检测的需求。本研究对微流控芯片在食品成分、农药残留、兽药残留、食品添加剂和重金属检测中的应用进行归纳总结,为农产品安全检测提供参考。     

Site‐specific management is crucial to managing Mikania micrantha

Increasingly, weeds have been taking on global distributions. With the proliferation of invasive weeds has come the challenge of managing these species over broad geographical regions, with diverse habitats and political jurisdictions. Here, we review the management of Mikania micrantha Kunth (Asteraceae; mile‐a‐minute) throughout its invaded range, extending through most of the Pacific islands and southern and south‐east Asia. Context matters when determining the best course of action for managing M. micrantha, as it has invaded a large variety of agricultural and natural systems. In Queensland, Australia and Florida, USA, M. micrantha has been targeted in relatively successful eradication campaigns, highlighting the importance of early detection and rapid response methods, while elsewhere in its invaded range, populations are either still increasing or showing limited signs of decline. An inter‐regional approach to research and management should incorporate successful management strategies employed throughout the invaded range including, but not limited to, chemical and cultural control practices, manual and mechanical control, classical biological control using the rust fungus Puccinia spegazzinii, plant–plant competition and integrated approaches utilising two or more control methods concurrently. Additional knowledge of M. micrantha genetics is required to determine if management approaches could be fine‐tuned for particular populations. Countries bordering the Mekong River formed a network in 2011 to co‐ordinate the management of invasive species such as M. micrantha. Expanding such a collaborative approach to other regions could further reduce populations of M. micrantha and limit its spread.     

防御信号途径在B型烟粉虱取食烟草诱导抗蚜防御中的作用

B型烟粉虱取食能够诱导烟草产生对烟蚜的抗性反应,为了明确水杨酸和茉莉酸防御信号途径与烟粉虱诱导抗蚜防御之间的关系,采用生化分析、实时定量PCR、蚜虫生物活性测定等方法比较了烟粉虱若虫取食对烟草水杨酸、茉莉酸含量、通路下游防御基因表达水平的影响及外源水杨酸、茉莉酸对烟蚜生长发育的影响。结果显示：烟粉虱侵染能够显著激活水杨酸防御途径,在取食15天后,水杨酸水平较对照升高1.40倍,水杨酸下游防御基因PR-1a及PR-2a分别较对照升高3.22和0.74倍;然而烟粉虱侵染后烟草叶片茉莉酸含量与对照相比无显著变化,JA下游防御基因PI-II和TPI的转录水平分别较对照降低73.91%和56.73%。生测结果显示,外源施用水杨酸对烟蚜的存活率和相对平均生长率具有显著不利影响。烟草叶片施用1 mmol/L水杨酸后,蚜虫的存活率及相对生长率分别较对照降低43.2%和11.54%;然而喷施茉莉酸甲酯对蚜虫的生长发育无不利影响。上述结果表明,水杨酸介导的防御应答在B型烟粉虱取食诱导烟草的抗蚜防御中起重要作用。     

中国粮食进口安全综合评价研究——基于超效率DEA模型

在对粮食及粮食进口安全内涵加以界定的基础上,从粮食数量、粮食质量、粮食价格、粮食贸易、国家经济、生态环境6个方面分析中国粮食进口安全的影响因素,基于超效率DEA模型构建中国粮食进口安全评价模型。对1992—2015年中国粮食进口安全状况进行评价,结果表明,1992—2015年中国粮食进口处于安全状态,粮食进口对我国粮食价格安全和生态安全的影响程度较小,对数量安全、质量安全、贸易安全和经济安全的影响程度较大。     

沼液淹没土壤抑制根结线虫及对土壤线虫群落的影响

为探索沼液抑制根结线虫的效果,本研究通过盆栽试验,以番茄为试供作物,对比了种植前沼液淹没土壤(BSS)、种植期间浇灌沼液(BS)和加热(HE)3种方法对根结线虫的防控效果。结果表明,与不采取任何措施的对照(CK)处理相比, BSS处理抑制根结线虫效果最为明显,防效高达97.1%,根结指数分别比HE和BS处理降低96.9%和92.9%。HE处理尽管在处理土壤后显著降低了根结线虫数量,但在最后破坏性取样时(结束试验)出现反弹,根结线虫数量甚至高于CK处理。对于土壤线虫群落,CK处理中以植食性线虫为主(81.8%);两个沼液处理中食细菌线虫占优势(平均78.3%),且其中的杂食捕食性线虫在土壤前处理后消失,在试验结束时又重新出现,但所占比例依然非常低。沼液淹水方式的高效防控效果揭示了利用沼液防控根结线虫的关键期在于线虫入侵到植物根部之前的幼虫期。然而,在盆栽系统中,沼液淹水的方式也对作物生长表现出了一定的抑制趋势。高量沼液施用防控病害的同时引发的植物毒害作用以及环境污染风险,需要进一步开展田间研究。     

植物病原镰刀菌产生的毒素种类及其危害

镰刀菌(Fusarium spp.)是多种重要农作物的病原体，不仅可造成农作物产量和品质的严重损失还可在离体培养条件下或植物寄主体内产生一系列被称为镰刀菌毒素的次生代谢产物。这些毒素一方面作为致病因子与镰刀菌对宿主植物的致病力密切相关，另一方面可导致家畜生产性能下降和相关病症的出现，进而影响农业生态系统并对人类健康造成威胁。鉴于镰刀菌毒素对农作物生产的影响及其对家畜和人类的毒性作用，目前已有较多关于镰刀菌侵染粮食作物后产生毒素种类的研究，但关于镰刀菌侵染豆科牧草后产生的毒素种类以及毒素在镰刀菌对豆科牧草致病力方面作用的研究则较少。本文对引起主要粮食和饲料作物病害的常见镰刀菌物种产生的主要毒素，以及这些毒素对植物、家畜和人类的危害进行了综述，并对豆科牧草中镰刀菌毒素的研究前景及意义进行了展望。     

Tomato brown rugose fruit disease: current distribution,knowledge and future prospects

Tomato is the most economically important fruit/vegetable crop grown worldwide. However, viral diseases remain an important factor limiting its productivity, with estimated quantitative and qualitative yield losses in tomato crops often reaching up to 100%. Many viruses infecting tomato have been reported, while new viral diseases have also emerged. The climatic changes the world is experiencing can be a contributing factor to the successful spread of newly emerging viruses, as well as the establishment of disease in areas that were previously either unfavourable or where the disease was absent. Because antiviral products are not available, strategies to mitigate viral diseases rely on genetic resistance/tolerance to infection, control of vectors, improvement in crop hygiene, roguing of infected plants and seed certification. Tomato brown rugose fruit virus (ToBRFV) is an emerging viral threat to tomato productivity and is currently spreading into new areas, which is of great concern to the growing global production in the absence of mitigation measures. This review presents the current knowledge about ToBRFV and future prospects for an improved understanding of the virus, which will be needed to support effective control and mitigation of the impact it is likely to cause.