丹参田花期昆虫群落结构及多样性研究

为明确丹参田花期昆虫群落结构,本文采用马氏网对丹参花期的昆虫进行收集,分类鉴定后开展群落结构及多样性分析。结果表明,丹参花期共收集到昆虫5438头,隶属于膜翅目Hymenoptera、双翅目Diptera、半翅目Hemiptera、鳞翅目Lepidoptera、鞘翅目Coleoptera、直翅目Orthoptera、脉翅目Neuroptera 7目52科,双翅目、膜翅目昆虫为优势类群,群落丰盛度、丰富度指数较高,Shannon-Wiener多样性指数、Pielou均匀度指数较为稳定,Simpson优势度指数较低,可见丹参田花期昆虫种群结构较为稳定。

Impact Assessments of Transgenic cry1Ab Rice on the Population Dynamics of Five Non-Target Thrips Species and Their General Predatory Flower Bug in Bt and Non-Bt Rice Fields Using Color Sticky Card Traps

A 2-yr field study was conducted to assess the effects of transgenic japonica rice（KMD1 and KMD2） with a synthetic cry1 Ab gene from Bacillus thuingiensis Berliner on population dynamics and seasonal average densities of five thrips species including Stenchaetothrips biformis（Bagnall）,Frankliniella intonsa（Trybom）,F.tenuicornis（Uzel）,Haplothrips aculeatus（Fabricius）,Haplothrips tritici（Kurd） and their general predatory flower bug,Orius similis Zheng as compared to the parental control rice line using the white,blue and yellow sticky card traps.Population dynamics and seasonal average densities of these five thrips species and their general predatory flower bug were not significantly affected by rice type.Additionally,the white sticky card trap was suggested to be the most suitable for monitoring the population of these five thrips species and their general predator.These results show that our tested Bt rice lines do not interrupt the population of non-target thrips species and their general predatory flower bug in the field,and also cannot result in more occurrence of these thrips species in the rice ecosystem.

Transgenic cry1Ab/vip3H+epsps Rice with Insect and Herbicide Resistance Acted No Adverse Impacts on the Population Growth of a Non-Target Herbivore, the White-Backed Planthopper, Under Laboratory and Field Conditions

Numerous Bt rice lines expressing Cry protein derived from Bacillus thuringiensis Berliner （Bt） have been developed since 1989. However, the potential risks posed by Bt rice on non-target organisms still remain debate. The white-backed planthopper （WBPH）, Sogatella furcifera （Horváth）, is one of the most economically important insect pests of rice in Asian countries and also one of the main non-target herbivores of transgenic rice. In the current study, impacts of transgenic cry1Ab/vip3H＋epsps rice （G6H1） with both insect and herbicide resistance on WBPH were evaluated to ascertain whether this transgenic rice line had potential risks for this sap-sucking pest under laboratory and ifeld conditions. The laboratory results showed that no signiifcant difference in egg developmental duration, nymphal survival rate and female fecundity was found for WBPH between G6H1 and its non-transgenic isoline （XS110）. However, the development duration of nymphs was signiifcantly shorter and female longevity signiifcantly longer when WBPH fed on G6H1 by comparison with those on its control. To verify the results found in laboratory, a 3-yr ifeld trial was conducted to monitor WBPH population using both the vacuum-suction machine and beat plate methods. Although the seasonal density of WBPH nymphs and total density of nymphs and adults were not signiifcantly affected by transgenic rice regardless of the sampling methods, the seasonal density of WBPH adults in transgenic rice plots was slightly lower than that in the control when using the vacuum-suction machine. Based on these results both from laboratory and ifeld, it is clear that our tested transgenic rice line will not lead higher population of WBPH. However, long-term ifeld experiments to monitor the population dynamics of WPBH at large scale need to be conducted to conifrm the present conclusions in future.

车辆后向防追尾预警系统设计与控制的研究

针对汽车跟车距离过近致使追尾事故频发的问题,提出了一种自车实时向后方车辆发出防撞警示信号的系统。系统分别利用了激光雷达和非接触式路面状况传感器对行车间距与行车环境进行监控,通过单片机程序以监控后车跟车距离,并据此通过控制制动灯、主动头枕以及座椅靠背角度以警示后车及时制动及保护自车乘员安全。所提方法具有较好的工程实用性。

PPR蛋白在玉米子粒发育中的研究进展

PPR蛋白在真核生物中广泛存在,是最大的蛋白家族之一。该蛋白由一系列重复单位(形成两个反向平行的α螺旋)串联而成。PPR蛋白可与RNA特异性结合,参与细胞器RNA的加工和编辑。玉米中有约521个PPR蛋白成员,他们在子粒发育、叶片发育及胁迫响应等生物学过程中发挥重要作用,但多数分子功能尚未被鉴定。另外,PPR蛋白编码基因的突变体大多导致发育异常表型,如发育迟缓、子粒缺陷、叶色异常等。

基于生态调控的小麦害虫综合治理研究进展

中国是小麦种植面积最大的国家。近年来,受全球气候变化、农业产业结构调整等因素的影响,小麦虫害问题趋于严重。而目前化学农药是小麦害虫防治的主要手段,过度依赖化学农药带来了环境污染、害虫抗性等一系列问题。针对这些问题,我国科学家在阐明小麦害虫区域性灾变规律和机理的基础上,发展了小麦害虫生态调控技术,并构建了基于农田景观设计的生态调控工程。本文综述了我国小麦害虫治理的新进展,并基于国际上小麦害虫治理的发展趋势,展望了我国小麦害虫治理的未来发展方向。

害虫防治的生态经济阈值及其估算方法

害虫经济阈值(Economic threshold,ET)作为农业害虫管理关键决策依据,是主要基于挽回作物损失的价值和防治费用的农业害虫防治经济阈值。在实践应用中,由于对害虫防治措施的生态代价考虑不足,往往导致阈值指标偏低,防治次数和农药使用量偏多。本文利用农药生态效应评估的最新研究进展,提出了充分考虑防治费用和防治生态代价的农业害虫防治生态经济阈值(Ecological and economic threshold,EET)概念,给出了基于农药生态风险指数的简便易行的数学模型和估算方法。生态经济阈值的提出与推广应用,不仅为现代农业害虫防治决策提供了科学依据,而且有助于我国的农药减量目标的实现。

壁蜂生物学特性与传粉服务功能

壁蜂是对蜜蜂总科(Apoidae)切叶蜂科(Megachilidae)壁蜂属(Osmia)的统称,主要分布北半球的温带区域,在自然生态系统和农田生态系统中均发挥着重要的传粉生态服务功能。壁蜂群居筑巢、接受人类提供的巢穴、一年一代的习性,使它们很容易被大量饲养,并且人们可以通过调节其在春节破茧羽化的时间与作物花期同步,为多种目标作物授粉。本文综述壁蜂的生物学和生态学特性、传粉功能及其影响因子,旨在于为发挥壁蜂的传粉功能提供参考。

昆虫经山东省向南迁飞的种类及迁飞路线探讨

【目的】山东省地处我国昆虫南北季节性迁飞的主要通道,明确迁飞性害虫在山东省的迁飞过程和迁飞规律,对于全国迁飞性害虫监测与防控均具有重要意义。【方法】2018年在山东省14个地区设置监测站点,利用探照灯诱虫器和地面灯诱虫器对迁飞性昆虫进行了实时监测,分析了9月初-10月底迁飞性昆虫的种群动态,首次探讨了昆虫经山东省向南迁飞的种类及迁飞路线。【结果】诱集到棉铃虫Helicoverpa armigera(Hübner)、玉米螟Ostrinia nubilalis(Hübner)、桃蛀螟Conogethes punctiferalis Guenée、劳氏粘虫Leucania loreyi等重要害虫以及中华通草蛉Chrysoperla sinica、大草蛉Chrysop pallens等天敌。根据迁飞性昆虫种群数量“突增突减”的现象,以及探照灯诱虫器和地面灯诱虫器诱集数量比值,明确了棉铃虫、亚洲玉米螟、桃蛀螟、劳氏粘虫、黄地老虎Agrotis segetum、大地老虎Agrotis tokionis、甜菜夜蛾Spodoptera exigua、斜纹夜蛾Spodoptera litura、银纹夜蛾Ctenoplusia agnata、甘薯天蛾Agrius convolvuli、瓜绢野螟Diaphania indica、甜菜白带野螟Hymenia recurvalis、黄翅缀叶野螟Botyodes diniasalis(Walker)、豆荚斑螟Limabean podborer、东方蝼蛄Gryllotalpa orientalis、中华通草蛉、大草蛉17种昆虫出现了明显的迁飞过程,这些昆虫由北向南迁飞时,主要途经地点是宁津(25.90%)和济阳(20.81%),其次为庆云(12.31%)、曹县(9.26%)、菏泽(7.09%)、临清(5.47%)。【结论】经山东省向南迁飞的昆虫种类丰富,主要从山东西部通过。

山东省探照灯诱虫器和地面灯诱虫器诱集昆虫群落结构

【目的】山东省是昆虫南北迁飞的关键路径,了解山东省的迁飞性昆虫群落结构,对明确迁飞性昆虫种类,并对其进行预测预报具有重要意义。【方法】在山东省14个地区建立监测点,每个监测点于2018年9月-10月利用探照灯诱虫器和地面灯诱虫器诱集昆虫。【结果】14个监测点共诱捕到昆虫有12目54科408种,其中探照灯诱虫器诱集到11目45科388种,地面灯诱虫器诱集到12目46科365种,探照灯诱虫器诱集的主要昆虫类群为鳞翅目(79.12%)、鞘翅目(9.42%)、直翅目(8.14%)和脉翅目(2.26%)。地面灯诱虫器诱集的主要昆虫类群为鳞翅目(68.84%)、鞘翅目(23.46%)、膜翅目(3.69%)、直翅目(1.50%)、半翅目(1.14%)。探照灯诱虫器诱集昆虫数量显著多于地面灯诱虫器。【结论】阐明了山东省昆虫群落结构和多样性,并证实了许多重大昆虫在山东省存在迁飞性。

棉花生境面积及其破碎化对烟粉虱种群的影响

【目的】阐明棉花生境面积变化及其破碎化对烟粉虱Bemisia tabaci种群的作用规律,为合理利用作物布局进行害虫生态调控提供理论支撑。【方法】采用国际流行的微景观试验模型系统(Experimental model landscape system,EMLS)进行试验设计,田间条件下连续两年研究了棉花生境面积变化(20%、40%、60%、80%和100%;其他为玉米生境面积)及2种极端破碎化(完全连通C clumped:H=1.0;完全破碎F fragmented:H=0.0)下烟粉虱种群数量变化,采用广义线性模型(GLM)分析各因素对烟粉虱种群数量的影响。【结果】棉花生境面积及其破碎化单独作用时均对烟粉虱种群数量无显著影响,而取样时间则有显著影响。烟粉虱种群数量也没有受到取样时间与棉花生境面积、取样时间与破碎化以及三者交互作用的显著影响。但是,棉花生境面积与破碎化的互作效应则存在年度变化,2014年无显著作用,2015年显著影响烟粉虱种群。当棉花生境面积较小(20%)或较大(80%)时,破碎化程度高,烟粉虱种群数量少;棉花生境面积中等(40%和60%)时,破碎化程度低,烟粉虱种群数量少。【结论】烟粉虱种群对棉花生境面积变化有较强的适应性,而生境破碎化只能在一定程度上产生影响。

区域性景观组成对玉米苗期捕食性天敌的生态学效应

【目的】明确区域性景观组成对玉米苗期捕食性天敌的生态学效应,可为开展玉米田有害生物生态调控提供理论基础。【方法】以山东省92块玉米田为研究区域,基于玉米苗期捕食性天敌种群数量、试验点的遥感影像和土地覆盖类型分类数据,运用混合效应模型分析了耕地、居住工业交通、草地、林地、水体5种土地覆盖类型的面积比例对玉米苗期捕食性天敌种群数量的影响。【结果】共调查到3744头捕食性天敌,其中草间小黑蛛Erigonidium graminicolum(55.29%),龟纹瓢虫Propylaea japonica(25.32%),小花蝽Orius similis(6.73%),八斑球腹蛛Theridion octomaculatum(4.01%),异色瓢虫Harmonia axyridis(3.58%)和三突花蛛Misumenops tricuspidatus(3.47%)为主要捕食性天敌。发现林地和水体生境对龟纹瓢虫的种群数量有显著的正效应,草地和水体生境对三突花蛛的种群数量有显著的正效应,水体和林地生境对捕食性天敌的总数量有显著正效应。【结论】华北农田景观中非作物生境作为捕食性天敌的资源库,在玉米苗期捕食性天敌维持中起重要作用。