芸薹素内酯对稻草基质育秧水稻秧苗生理特性及栽后生长的影响

【目的】筛选出机插水稻基质育秧芸薹素内酯(BR)适宜的施用方法及最佳用量。【方法】以中早39为供试材料,采用稻草基质旱育秧方式,探究BR不同处理方式和浓度对机插早稻秧苗生理特性及栽后生长的影响。【结果】施用BR可以提高秧苗的抗氧化保护酶活性,降低丙二醛含量,增加可溶性蛋白含量、总糖含量及C/N,秧苗根系活力提高了13.24%~48.31%,利于形成抗性强的健壮秧苗;喷施方式对提高秧苗超氧化物歧化酶、过氧化物酶、过氧化氢酶活性效果最佳,基施方式对降低秧苗丙二醛含量效果最好。施用适量BR也可促进秧苗机插后长出新叶、新根及返青,喷施方式效果最好;浸种、喷施方式还能增强秧苗机插后20~30 d的单株分蘖力。【结论】播种前和出苗后进行两次适量的BR处理,有利形成壮苗和栽后活棵返青及分蘖,以播前0.15 mg/L浸种和秧苗1叶1心期0.10 mg/L喷施效果为好。     

Asterosaponins: Structures,Taxonomic Distribution,Biogenesis and Biological Activities

Asterosaponins are a class of steroid oligoglycosides isolated from starfish with characteristic structures and diverse biological activities. In this review, we have attempted to combine the most important data concerning asterosaponins and give a list of these secondary metabolites with their structural peculiarities. The purpose of this review is to provide a brief but as complete as possible principal information about their chemical structures, taxonomic distribution in the marine environment, distribution in different geographical areas and depths, some properties, biological activities, and functions. Some other rare steroid metabolites from starfish, closely related in structures and probably biogenesis to asterosaponins, are also discussed.     

利用天敌防治葡萄园害虫研究进展

葡萄是一种重要的经济水果,除鲜食外还可用于酿酒、制干、制汁等。在葡萄挂果到收获期间采用化学药剂来防治园内害虫极有可能造成农药残留,危害人体健康。利用天敌防治葡萄园内害虫是确保葡萄及其制品质量安全的重要途径。总结了国内外葡萄园常见害虫的主要捕食性和寄生性天敌,以及利用天敌防治葡萄园重要虫害的策略,并探讨了该领域目前存在的问题及未来的研究方向。     

施用生物菌剂对烤烟叶片生理特征及钾、氯含量的影响

为探讨不同生物菌剂在烤烟上的施用效果,选取烤烟品种秦烟96和豫烟6号为材料,设计了对照(T1)、生物菌剂A(T2)、生物菌剂B(T3)、生物菌剂C(T4)、生物菌剂D(T5)和生物菌剂E(T6)6个处理,于2016年在河南省洛阳市(旱作烟区)和驻马店市(雨养烟区)进行了田间试验,研究了施用生物菌剂对烤烟叶片生理特征及钾、氯含量的影响。结果表明:施用生物菌剂处理与对照相比烤烟叶片中可溶性糖的含量增加了0.38%～1.43%,丙二醛(MDA)含量降低了0.3～7.36μmol·g~(-1)。除雨养烟区T5处理外,与对照相比,施用生物菌剂处理烤烟叶片过氧化氢酶(CAT)活性、超氧化物岐化酶(SOD)活性和过氧化物酶(POD)活性分别提高2.1～26.2μmol·min~(-1)·g~(-1),0.6～40 U·g~(-1)和546～2 531 U·g~(-1)。中部叶养分分析表明,施用生物菌剂处理在移栽后45 d(除雨养烟区T4处理外)全钾含量提高了0.42%～1.32%,移栽后60 d提高了0.03%～1.00%。从经济性状看,与对照相比,雨养烟区T3处理产值和上等烟比例分别增加14 708元·hm~(-2)和23.1%,旱作烟区T2处理产值和上等烟比例分别增加7 849元·hm~(-2)和13.7%。化学成分分析表明,雨养烟区T3处理和旱作烟区T2处理烟叶钾含量平均分别提高0.40%和0.57%,施用生物菌剂处理使烟叶化学成分更加协调。     

水分优化对温室葡萄产量及土壤生物学特性的影响

为揭示滴灌不同水分调控下设施栽培葡萄产量与土壤学特性等相关指标的响应关系,在甘肃省永登县设施葡萄试验基地开展葡萄滴灌不同生育期水分调控田间灌溉试验,分析水分调控对设施栽培葡萄土壤积温、蔗糖酶和淀粉酶活性、有机碳(TOC)、微生物量碳(MBC)和微生物熵(qMB)等土壤学特性的影响,基于隶属函数综合分析明确影响葡萄产量及各项土壤生物学特性指标的最佳水分优化处理。结果表明:新梢期水分胁迫的土壤积温、土壤酶、TOC、MBC、qMB均显著(P <0. 05)高于对照;新梢期水分胁迫较对照可增产44. 6%;果实膨大期作为葡萄生长的关键阶段,此时水分胁迫对土壤淀粉酶影响不显著,但对其他土壤学特性指标具有一定的抑制作用,并且可减产9.7%;隶属函数综合分析表明,土壤生物学特性指标及产量综合隶属排名为:PS﹥FS﹥CS﹥CK﹥ES。     

2019年及近年我国农药登记情况和特点分析

总结、分析了2019年及近年我国农药登记的基本情况和特点。最近7年来,每年微毒/低毒农药登记数量与当年农药登记总量的比值,及与本年度新增登记数量的比值均持续上升,其比值的年均值分别为82.0%和93.4%;环境友好的剂型在迅速增加,悬浮剂与本年度新增产品登记数量的比值一直处于领先位置,可分散油悬浮剂的比值增长突显,乳油比值在逐年递减;杀虫剂、杀菌剂和除草剂3大类农药登记数量与本年度新增登记数量的比值趋向显著平均;低风险的新农药登记数量在不断增加,生物源农药登记数量增长稳定,5年来其有效成分和产品的年均增长率分别为9.88%和9.46%。从政策和技术上促进特色小宗作物用药登记产品数量快速增加。上述特点表明,我国农药正朝着有利于人畜健康和生态环境安全的方向发展。     

Challenges facing arthropod biological control: identifying traits for genetic improvement of predators in protected crops

Biological control is an efficient pest control method but there are still limitations that are hindering its wider adoption. Genetic improvement of biological control agents (BCAs) can help to overcome these constraints, but the choice of key attributes for better performance that need to be selected is still an open question. Several characteristics have been suggested but the harsh reality is that selective breeding of BCAs has received a lot of attention but resulted in very little progress. Identifying the appropriate traits to be prioritized may be the first step to reverse this situation. In our opinion, the best way is to look at the factors limiting the performance of key BCAs, especially generalist predators (pesticide compatibility, prey‐density dependence, non‐suitable crops, and extreme environmental conditions), and according to these challenges, to choose the attributes that would allow BCAs to overcome those limitations. The benefits of selection for higher resistance to toxins, whether artificially applied (pesticides) or plant produced (plant defenses); increased fitness when feeding on non‐prey food (supplemented or plant‐derived); and better adaptation to extreme temperature and humidity are discussed. In conclusion, genetic improvement of BCAs can bring about new opportunities to biocontrol industry and users to enhance biocontrol resilience. © 2020 Society of Chemical Industry