香蕉中噻唑膦残留分析方法研究

建立香蕉中噻唑膦的超高效液相色谱串联质谱法(UPLC-MS/MS)残留测定方法。香蕉样品采用乙腈提取和PSA+C18分散固相萃取,采用UPLC-MS/MS多反应模式(MRM)进行分析测定。噻唑膦在添加水平0.01~1.0 mg/kg范围内,平均回收率为94.3%~107.5%,相对标准偏差为7.9%~11.0%。采用外标法定量,方法的检出限为0.001μg/m L,定量限为0.005 mg/kg。该方法简单、准确、重复性较好且节省溶剂,适用于香蕉中噻唑膦的残留检测。     

养猪场沼渣制备包膜缓释肥理化性质表征

文章以分散式养猪场沼渣为应用研究对象,以8%聚乙烯醇为包膜材料,改性斜发沸石为肥料载体和缓控释材料调理剂,通过添加不同沸石量制备3种复混包膜缓释肥。利用红外光谱、扫描电镜及三维荧光对3种缓释肥的进行表征。结果表明:添加改性沸石的复混包膜肥除了增加显著的沸石红外特征谱外,其余红外光谱图差异不明显,表明添加沸石对有机质(富里酸和腐殖酸)结构和化学键型并未产生明显的影响,即不影响沼渣理化性质;添加改性沸石可以使聚乙烯醇完整的覆盖在肥料表面,膜壳更加平整光滑,膜层更加致密;三维荧光光谱显示复混包膜肥Ⅰ浸出富里酸和腐殖酸浓度最大,复混包膜肥Ⅲ浓度最低,表明添加沸石有减缓肥料养分释放的效果。该研究对于利用养猪场沼渣制备包膜缓释肥有一定的参考价值。     

长链酰胺化纳米纤维素增强聚乳酸复合材料

以纳米纤维素(NCC)为原料,先采用四甲基哌啶氮氧化物(TEMPO)氧化制备氧化纳米纤维素(TONC),再与不同链长脂肪胺在催化剂作用下发生反应,得到脂肪胺改性纳米纤维素,当脂肪胺为十二胺(DOA)、十四胺(TEA)、十六胺(HEA)、十八胺(OCA)时,分别制得DOATONC、TEATONC、HEATONC和OCATONC。傅里叶变换红外光谱(FT-IR)、X射线衍射(XRD)和元素分析表明:脂肪链接枝成功,改性后纳米纤维素的晶形没有发生改变,为原有Ⅰ型晶型;接触角和分散性测试表明:随着脂肪链的增长,改性纳米纤维素表面的亲水性明显下降(接触角由65.8°上升至93.9°),而分散率由25.17%先降至11.97%,再升至71.71%。将1%的改性纳米纤维素添加到聚乳酸(PLA)中制得复合膜,机械性能测试结果表明:随着脂肪链的增长,复合膜的机械性能明显提高,其中PLA/OCATONC复合膜的拉伸强度和断裂伸长率分别达到40.2 MPa和6.39%。     

氮磷钾用量对小麦冠层不同层次光截获和干物质分配的影响

为明确不同氮、磷、钾用量对小麦冠层不同层次光截获和干物质分配的影响，以济麦22为供试材料，设置F0（不施肥）、F1（N 180 kg·hm^-2，P₂O₅ 75 kg·hm^-2，K₂O 60 kg·hm^-2）、F2（N 225 kg·hm^-2，P₂O₅ 120 kg·hm^-2，K₂O 105 kg·hm^-2）和F3（N 270 kg·hm^-2，P₂O₅ 165 kg·hm^-2，K₂O 105 kg·hm^-2）4个施肥量处理，比较分析开花后不同氮、磷、钾用量对小麦叶面积指数、冠层不同层次光截获特性和成熟期干物质分配的影响。结果表明，F1处理下叶面积指数显著高于F0处理，而与F2和F3处理间无显著差异；开花后15 d，F1处理下小麦冠层不同层次及总PAR截获率和截获量均显著高于F0处理，而与F2和F3处理间无显著差异。F1处理下成熟期干物质在小麦冠层不同层次营养器官中的分配量、籽粒中的分配量及总干物质积累量显著高于F0处理，而与F2和F3处理间无显著差异。成熟期干物质在小麦冠层不同层次营养器官和籽粒中的分配量以及总干物质积累量与冠层上层（顶部至株高2/3）、中层（株高2/3至株高1/3）和总PAR截获率均呈显著正相关。F1处理（N 180 kg·hm^-2，P₂O₅ 75 kg·hm^-2，K₂O 60 kg·hm^-2）为本试验条件下的最优处理。     

钾肥和硅肥对油用亚麻茎秆抗倒伏特性的影响

为了优化油用亚麻抗倒伏的肥料运筹措施,以‘陇亚11号’和‘定亚23号’为试验材料,通过裂区设计,研究了钾肥（不施钾、52.5 kg K₂O/hm²和105 kg K₂O /hm² 3个水平）和硅肥（不施硅和90 kg SiO₂/hm² 2个水平）用量对油用亚麻茎秆形态学、力学抗倒伏特性及产量的影响。结果表明：‘陇亚11号’的株高、重心高度及茎粗、壁厚、抗折力均显著大于‘定亚23号’,茎秆形态学及力学抗倒伏特性的综合影响下,‘陇亚11号’较‘定亚23号’倒伏率提高21.24%而产量降低9.43%。钾肥显著改善了抗倒的茎秆表观形态学特性,施钾后茎粗、壁厚、茎秆抗折力、抗倒伏指数提高而株高和重心高度降低,千粒重和籽粒产量分别提高7.35%和9.34%。硅肥对茎秆形态学、力学特性及籽粒产量均无主效应,但硅肥与钾肥的互作使茎粗显著增加。抗倒伏指数与茎粗、壁厚呈显著正相关,与株高、重心高度呈显著负相关。品种间的茎秆抗倒伏特性差异较大,施用钾肥显著改善了抗倒的茎秆表观形态学特性,优化了茎秆机械性能,增强了油用亚麻的抗倒伏能力;供钾量较低时,硅肥与钾肥对茎粗的互作正效应明显。     

有机肥对土壤特性及农产品产量和品质影响研究进展

施用有机肥是农业生产的重要措施,对绿色农业发展起到积极作用,而且越来越广泛施用。本文介绍了目前有机肥基本概况,重点综述了有机肥对提高土壤肥力、提高作物产量和品质、促进养分利用以及对病虫害发生影响等方面研究的最新进展,分析了当前有机肥施用对耕地质量和农产品安全风险、施肥效率低、以及有机肥品种研发不足、相关质量标准滞后等问题,并对当前有机肥推广应用的形势和发展前景进行了分析和展望。     

花生硬脂酰-ACP酸脱饱和基因FAB2表达的分子机制

FAB2位于油酸合成通路的上游,编码硬脂酰-ACP脱饱和酶,调控硬脂酸(C18:0)向油酸(C18:1)转化。本研究发现高油酸品种开农176种子发育前期FAB2的表达量升高,而成熟期油酸过量积累会抑制FAB2的表达。利用开农176与开农70构建F2杂交群体,发现当植株油酸含量超过60%时会从整体水平上抑制FAB2的表达。种子发育前期,油酸不断积累会导致过氧化物酶活性升高,并且活性氧含量随之增加;但是在种子发育后期均降低,该结果与FAB2的表达量变化趋势相同。亚细胞定位结果表明, FAB2与FAD2分别定位于叶绿体与内质网。FAB2编码区序列多态性分析显示,该蛋白序列氮端的氨基酸结构缺失可能会导致硬脂酸含量升高。FAB2启动子序列存在大量AT碱基的富集区域,并且含有光响应、激素调控、转录因子结合的保守顺式元件。本研究发现过量积累的油酸会激活过氧化物酶介导的活性氧信号途径,进而通过细胞核内的未知转录因子调节上游基因FAB2的表达量,该结果不仅拓展了对FAB2的功能认知,也为培育高油酸花生品种提供了相关的理论指导。     

Kernel vitreousness and protein content: Relationship,interaction and synergistic effects on durum wheat quality

Four sets of durum samples were used in this study to further understand the interrelationships among hard vitreous kernels (HVK), protein content, and pigment concentration, with a focus on the interaction and synergistic effects of protein content and vitreousness on durum quality. HVK level increases with higher protein content in the range of 9.5–12.5%, but this relationship is less evident in durum samples with high protein content (12.5–14.5%). Both protein content and kernel vitreousness can significantly affect durum milling quality. White starchy kernels (WSK) in low protein durum have a very detrimental impact on milling and pasta processing quality, but high protein content can mitigate the adverse impact of WSK on durum quality. Although protein content plays a dominant role, higher HVK might contribute positively to pasta firmness. There was no significant difference in yellow pigment content between HVK and WSK. However, pigment loss from semolina to dough was higher for WSK than HVK. Despite the difference in protein content, HVK and WSK have little difference in gluten strength. The monomeric protein was preferentially accumulated in HVK. The glutenin proteins of HVK and WSK were similar in the ratios of 1Bx/1By and HMW/LMW-GS.     

Differential regulation on C5 expression in goose versus mammals by glucose/palmitate provides a potential protection for goose fatty liver

Goose fatty liver is a specific type of nonalcoholic fatty liver that is protected from harmful effects associated with severe steatosis. Our previous findings suggest that suppression of the complement C5 may be relevant, but the mechanism is unclear. Therefore, in this study, we first verified the expression pattern of complement genes (including C5) during goose fatty liver formation and then determined the liver fat content and fatty acid composition by high-performance liquid chromatography (HPLC), followed by selecting the differential metabolites to treat HepG2, goose and mouse primary hepatocytes, aiming to explore the mechanism of C5 and inflammation suppression in goose fatty liver. The data confirmed the suppression of complement genes (including C5) in goose fatty livers. Moreover, fat content was significantly higher in fatty liver versus normal ones, with oleic acid and palmitic acid dominantly accounting for the difference. In line with this, high concentration of palmitate led to down regulation of C5 expression in goose primary hepatocytes whereas upregulation in mouse primary hepatocytes and HepG2 cells. In conclusion, regulation on C5 expression by fatty liver related factors including high level of palmitic acid may contribute to the protection of goose liver from severe hepatic steatosis.