活性炭吸附汽油机冷起动HC排放的实验

为控制汽油机的冷起动HC排放,开发了一个活性炭吸附器,用于吸附车用汽油机冷起动阶段排放的HC。吸附材料采用煤质蜂窝状定型活性炭块,吸附器外表面用薄钢板焊接封装,整个吸附器串接在排气管上。进行汽油机冷起动排放实验,测量起动后200s内的HC排放量,实验结果表明,在冷却水温度为20U、40℃、60℃和85℃时,活性炭吸附器对HC的吸附率分别达到86．64％、70．34％、79．69％、77．45％。     

解决夏季母猪“饥而不饿”的营养招数

夏季来临,温度是影响猪群健康的第一要素,尤其对于母猪,在高温下其对营养的吸收利用及代谢均会发生改变,导致母猪代谢不畅而不愿采食,这将严重影响猪群健康及繁殖成绩。文章将从营养调节角度分析,并结合生产实践来解决这一问题,以期为猪场夏季母猪健康养殖提供借鉴和参考。     

试论《三国志》裴松之注“凿空语怪”的文学意义

《三国志》裴松之注因为引用了几则具有志怪性质的材料,而被历来史家批评其“凿空语怪”、“坐长烦芜”。事实上,裴松之在引援这些注文时并非是不加选汰而盲目采用的。裴松之用审慎的态度和隐蔽的手段,把自己对历史人物及事实的评价暗蕴于注解之中。而且,其保存小说材料和用小说注史之功,是不可泯没的。《三国志》裴松之注将历史与小说相结合,则对当下的玄幻小说创作具有一定的启迪意义。     

甜菜SCoT核心引物的筛选

【研究目的】为了筛选出适合甜菜品种遗传多样性分析的SCoT引物,为SCoT引物得以在甜菜中进行深入应用奠定基础,本研究甜菜以8个来自不同国家的甜菜品种为材料对80条SCoT引物进行扩增【方法】扩增方法采用SCoT-PCR最优反应体系包含2.0 μL的10×PCR buffer（含Mg2+）、10 ng的DNA、0.5 U的Taq DNA聚合酶、10 μmol/L的引物2 μL以及0.1 μL的dNTPs (2.5 mmol/L each)。【结果】结果从80条SCoT引物中筛选出20条多态性高的引物,这20条引物最多扩增出16条多态性条带,最少扩增出2条多态性条带,扩增总条带155条,其中多态性条带为134条,多态性条带的百分比为86.5%。【结论】通过对核心引物的有效性验证,表明筛选出的20个核心引物非常适合用于甜菜指纹图谱的构建。     

职业大学的新开端新思路

从职业大学的现状和我国社会经济发展的形势出发 ,提出职业大学面向 2 1世纪的发展目标和应有的新开端、新思路 ,并着重对职业大学的人才培养模式、产学合作机制、继续教育、办学形式等进行了带有设想性的分析。     

液黏传动及其在人造板生产设备中的应用探讨

液体黏性传动是一门新兴技术，是利用液体的黏性来传递动力的一种传动装置。将其应用于人造板生产中的大功率、大转矩设备上，可以降低电动机的额定功率，改善设备的启动性能及调节性能，节约能源，值得在人造板生产设备中应用和推广。     

利用SCoT对甜菜种质资源的鉴定及遗传多样性分析

为了研究SCoT分子标记技术对甜菜种质资源鉴定的可行性。利用80条SCoT引物对48份甜菜种质资源进行鉴别,同时对种质资源进行了遗传多样性分析和亲缘关系的鉴定。结果表明,80条SCoT引物中有6条能够扩增出清晰、且多态性高的条带,分别为SCoT1、SCoT12、SCoT13、SCoT14、SCoT17和SCoT23,其中引物SCoT1、SCoT12、SCoT14和SCoT23单独使用均可鉴别全部的48份种质资源,引物SCoT13和SCoT17共同使用可以鉴别48个种质资源;聚类分析结果表明,在遗传距离0.15处,95.8%的种质资源均聚为一类,从分子角度上表明甜菜种质资源遗传距离较小。本研究为利用SCoT分子标记技术鉴别甜菜种质资源、对种质资源进行亲缘关系鉴定、杂交组合亲本选配以及分子标记辅助育种等提供相关科学依据。     

不同包装方式对酸地参储藏品质的影响

为研究不同包装方式对酸地参储藏期间品质的影响,以地参为试验材料,通过乳酸菌发酵,定期测定PE+PA复合真空包装、铝箔复合真空包装和PET塑料瓶包装酸地参的亚硝酸盐、VC、pH、单宁、总酸等成分含量,并进行感官评价。结果表明:4℃条件下储藏15 d时,铝箔复合真空包装的酸地参品质最好,其感官评分、VC含量、pH、单宁含量和总酸含量最高,分别为89分、0.15 mg/100 g、3.21、13.02 mg/kg和2.34 g/kg,同时其亚硝酸盐最低,为0.15 mg/kg;PE+PA复合真空包装的酸地参品质次之,而PET塑料瓶包装效果最差。因此,铝箔复合真空包装比较适合酸地参的储藏。     

桑蚕春用品种贵蚕2号的选育

采用双测交育种方法,育成了强健优质春用蚕品种贵蚕二号（827·渝5×826·渝3）,系四元杂交种。经多次鉴定、农村饲养、试繁结果表明：该品种体质强健好养,制种性能好,茧大而匀,茧丝质良好,综合经济性状优良,四龄万蚕收茧量23．03kg,四龄万蚕茧层量5．86kg,茧成率25．43％,茧丝长1446m,解舒丝长1253m,鲜毛茧出丝率19．93％,净度96．88分。适宜贵州省春季用种．     

Deficit irrigation based on drought tolerance and root signalling in potatoes and tomatoes

Agriculture is a big consumer of fresh water in competition with other sectors of the society. Within the EU-project SAFIR new water-saving irrigation strategies were developed based on pot, semi-field and field experiments with potatoes (Solanum tuberosum L.), fresh tomatoes (Lycopersicon esculentum Mill.) and processing tomatoes as model plants. From the pot and semi-field experiments an ABA production model was developed for potatoes to optimize the ABA signalling; this was obtained by modelling the optimal level of soil drying for ABA production before re-irrigation in a crop growth model. The field irrigation guidelines were developed under temperate (Denmark), Mediterranean (Greece, Italy) and continental (Serbia, China) climatic conditions during summer. The field investigations on processing tomatoes were undertaken only in the Po valley (North Italy) on fine, textured soil. The investigations from several studies showed that gradual soil drying imposed by deficit irrigation (DI) or partial root zone drying irrigation (PRD) induced hydraulic and chemical signals from the root system resulting in partial stomatal closure, an increase in photosynthetic water use efficiency, and a slight reduction in top vegetative growth. Further PRD increased N-mineralization significantly beyond that from DI, causing a stay-green effect late in the growing season. In field potato and tomato experiments the water-saving irrigation strategies DI and PRD were able to save about 20-30% of the water used in fully irrigated plants. PRD increased marketable yield in potatoes significantly by 15% due to improved tuber size distribution. PRD increased antioxidant content significantly by approximately 10% in both potatoes and fresh tomatoes. Under a high temperature regime, full irrigation (FI) should be undertaken, as was clear from field observations in tomatoes. For tomatoes full irrigation should be undertaken for cooling effects when the night/day average temperature >26.5 °C or when air temperature >40 °C to avoid flower-dropping. The temperature threshold for potatoes is not clear. From three-year field drip irrigation experiments we found that under the establishment phase, both potatoes and tomatoes should be fully irrigated; however, during the later phases deficit irrigation might be applied as outlined below without causing significant yield reduction:

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Potatoes

°

After the end of tuber initiation, DI or PRD is applied at 70% of FI. During the last 14 days of the growth period, DI or PRD is applied at 50% of FI.

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Fresh tomatoes

°

From the moment the 1st truce is developed, DI is applied at 85-80% of FI for two weeks. In the middle period, DI or PRD is applied at 70% of FI. During the last 14 days of the growth period, DI or PRD is applied at 50% of FI.

•

Processing tomatoes

°

From transplanting to fruit setting at 4th-5th cluster, the PRD and DI threshold for re-irrigation is when the plant-available soil water content (ASWC) equals 0.7 (soil water potential, Ψ_soil = −90 kPa). During the late fruit development/ripening stage, 10% of red fruits, the threshold for re-irrigation for DI is when ASWC = 0.5 (Ψ_soil = −185 kPa) and for PRD when ASWC (dry side) = 0.4 (Ψ_{soil, dry side} = −270 kPa).

The findings during the SAFIR project might be used as a framework for implementing water-saving deficit irrigation under different local soil and climatic conditions.