甘蓝幼苗受桃蚜危害后叶片中部分酶活性的变化

对桃蚜（Myzus persicae Sulzer）危害后甘蓝（Brassica oleracea L.）幼苗叶中多酚氧化酶（PPO）、苯丙氨酸解氨酶（PAL）、过氧化物酶（POD）活性及同工酶进行了研究。结果表明,随桃蚜危害时间延长,处理叶片PPO、PAL和POD的活性与对照相比均表现出升高的趋势,方差分析表明与对照之间差异显著。同工酶电泳结果表明,POD同工酶的部分谱带随危害时间而发生变化,但EST同工酶在接虫前后则无明显的变化。     

施钾与蚜虫取食诱导的水杨酸对马铃薯抗虫性的影响

【目的】探讨施钾条件下,蚜虫取食诱导的水杨酸在促进马铃薯Solanum tuberosum抗虫性方面的作用机制,为提高作物抗虫性提供科学依据。【方法】施钾(外施硫酸钾6 g/株)、虫害(桃蚜Myzus persicae取食, 5头成虫/株)、施钾+虫害及外源水杨酸(浓度分别为15, 30和45 μmol/L,喷施量20 mL/株)条件下,测定马铃薯叶片中水杨酸和脯氨酸含量、苯丙氨酸解氨酶(PAL)活性及抗氧化酶［过氧化物酶(POD)、超氧化物歧化酶(SOD)、过氧化氢酶(CAT)］活性。【结果】结果表明：与未处理对照相比,施钾、虫害、施钾+虫害处理后马铃薯叶片中内源水杨酸含量分别增加了1.1,1.3和1.5倍,PAL活性分别增加了23.3%, 22.3%和35.0%。在施钾、虫害、施钾+虫害3个处理中,施钾+虫害处理的马铃薯叶片中内源水杨酸含量和PAL活性均为最高。用不同浓度外源水杨酸喷施马铃薯叶片,不论是否施钾,用浓度为15 μmol/L水杨酸喷施马铃薯植株后,其SOD活性均显著高于对照组。施钾后除喷施30 μmol/L水杨酸溶液外,喷施15和45 μmol/L水杨酸溶液的马铃薯植株POD活性均显著高于各自对照,活性分别为各自对照的1.7和1.8倍。施钾组中CAT活性在15和30 μmol/L水杨酸喷施后均显著高于对照,分别为对照的1.3和1.5倍。喷施15 μmol/L水杨酸后,马铃薯叶片中脯氨酸含量(1.2 OD/g pro)较对照(0.4 OD/g pro)显著升高。【结论】虫害、施钾+虫害处理均能提高马铃薯叶片中水杨酸含量和PAL活性。15 μmol/L外源水杨酸显著提高了施钾组中POD, SOD和CAT活性及脯氨酸含量,说明15 μmol/L是所用最适水杨酸浓度,该浓度下水杨酸与施钾具有正交互作用。结果提示虫害与施钾共同作用能增强水杨酸信号途径,从而提高植物的抗虫性。     

不同基因型高梁的理化特性与抗蚜性的相关性研究

通过对抗蚜的河农16和感蚜品系Tx623B、Tx622B、Tx3197B、千三、晋五及杂交种的物理特性、组织结构、生理生化特性的对比分析,研究了不同基因型高粱理化特性与抗蚜性的相关性。结果表明,高粱抗蚜品系叶片表面较感蚜品系的细胞排列整齐、致密、表皮细胞直径较感蚜品系小、叶片薄、叶片表面光滑、叶片颜色浅。感虫后各品系过氧化物酶（POD）、多酚氧化酶（PPO）活性均有升高,与蚜虫的诱导存在相关性,但不同品系感蚜前后均不存在趋势性变化;苯丙氨酸解氨酶（PAL）酶活性感虫前在抗虫的河农16及杂交种中具有高水平表达,并与其他感蚜品系存在显著差异;蚜虫侵害诱导后PAL酶活性均有上升,但抗蚜品系中表现稳定,酶活性变化幅度与叶片损伤程度存在相关性,PAL酶活性与高粱的抗蚜性存在明显的相关性。感虫前后氨基酸含量及其变化与高粱品系抗蚜性间无相关性;在感蚜虫前,抗蚜品系及其杂交种可溶性糖含量显著高于感蚜品系,接虫后感蚜品系可溶性糖含量升高显著。     

不同基因型高粱的理化特性与抗蚜性的相关性研究

通过对抗蚜的河农16和感蚜品系Tx623B、Tx622B、Tx3197B、千三、晋五及杂交种的物理特性、组织结构、生理生化特性的对比分析,研究了不同基因型高粱理化特性与抗蚜性的相关性.结果表明,高粱抗蚜品系叶片表面较感蚜品系的细胞排列整齐、致密、表皮细胞直径较感蚜品系小、叶片薄、叶片表面光滑、叶片颜色浅.感虫后各品系过氧化物酶(POD)、多酚氧化酶(PPO)活性均有升高,与蚜虫的诱导存在相关性,但不同品系感蚜前后均不存在趋势性变化;苯丙氨酸解氨酶(PAL)酶活性感虫前在抗虫的河农16及杂交种中具有高水平表达,并与其他感蚜品系存在显著差异;蚜虫侵害诱导后PAL酶活性均有上升,但抗蚜品系中表现稳定,酶活性变化幅度与叶片损伤程度存在相关性,PAL酶活性与高粱的抗蚜性存在明显的相关性.感虫前后氨基酸含量及其变化与高粱品系抗蚜性间无相关性;在感蚜虫前,抗蚜品系及其杂交种可溶性糖含量显著高于感蚜品系,接虫后感蚜品系可溶性糖含量升高显著.     

施钾马铃薯叶片对桃蚜的诱导抗性反应

本文研究了施钾条件下马铃薯两品种克新和费乌瑞它对桃蚜Myzus persicae Sulzer的抗性反应。结果表明,与对照相比,虫害、施钾与施钾+虫害处理均使两马铃薯品种中茉莉酸含量、脂氧合酶活性、蛋白酶抑制剂活性有所提高。其中虫害处理后克新中茉莉酸含量为对照的2.2倍,PI活性、脂氧合酶活性分别比对照增加了27.7%和37.3%;虫害费乌瑞它中上述生理指标的变化与克新一致,茉莉酸含量为对照的1.7倍,PI活性、脂氧合酶活性分别比对照增加了22.4%和29.1%。此外,施钾处理显著降低了克新和费乌瑞它2个品种的为害蚜量。表明施钾提高了马铃薯的诱导抗性,且克新的抗虫能力高于费乌瑞它。     

温度对桃蚜和马铃薯长管蚜实验种群生命表参数的影响

【目的】桃蚜Myzus persicae (Sulzer)和马铃薯长管蚜Macrosiphum euphorbiae (Thomas)是2种主要的马铃薯害虫。本研究旨在明确温度对这两种马铃薯蚜虫生长发育、存活、繁殖及种群增长的影响。【方法】在室内测定了5个温度（10, 15, 20, 25和30℃）下桃蚜和马铃薯长管蚜的生长发育、存活和繁殖指标,并组建了4个恒温条件下（10,15,20和25℃）的实验种群生命表。【结果】在10~25℃范围内,2种蚜虫的若蚜期、世代历期、成蚜寿命和产蚜期等均随温度的升高而缩短,而30℃高温抑制了其发育、存活和繁殖。2种蚜虫的平均世代历期（T）随温度的升高而缩短,桃蚜和马铃薯长管蚜分别从10℃的30.08 d和35.35 d缩短至25℃的14.28 d和12.95 d。桃蚜的净增殖率（R₀）在15℃时最高（86.00）,其次为20℃（73.75）,再次为25℃（62.49）,最低为10℃（51.00）;马铃薯长管蚜的R0在15℃最高（58.97）,其次为10℃（51.98）,再次为20℃（48.94）,最低为25℃（12.36）。桃蚜的内禀增长率（r_m）随温度的升高而增大,从最小10℃的0.1307增大到25℃的0.2896;马铃薯长管蚜的r_m在20℃时最大（0.2182）,其次为25℃（0.1942）,再次为15℃（0.1485）,最小为10℃（0.1118）。在相同的温度下,桃蚜的发育速率、净增殖率和内禀增长率均高于马铃薯长管蚜。【结论】温度对2种马铃薯蚜虫的生长发育、存活、繁殖及种群增长有显著的影响,桃蚜在马铃薯上的种群增长能力强于马铃薯长管蚜。这一结果为马铃薯蚜虫预测模型的建立奠定了必要的基础,并解释了桃蚜在马铃薯上发生数量多于马铃薯长管蚜的原因。     

贵州菜蚜对杀虫剂的敏感性监测

【目的】持续监测菜蚜田间种群对杀虫剂的敏感性,是菜蚜防治与抗药性治理的重要措施,本研究旨在探析贵州菜蚜对十字花科蔬菜地常用杀虫剂的敏感性【。方法】采用叶片浸渍法测定了2017-2018年贵州省贵阳市花溪区、修文县、毕节市黔西县、遵义市播州区桃蚜Myzus persicae、甘蓝蚜Brevicoryne brassicae和萝卜蚜Lipaphis erysimi田间种群对10余种常用药剂的敏感性,并分别以物种、年份、地区和杀虫剂为变量进行数据比较和统计分析。【结果】3种菜蚜对杀虫剂的敏感性差异显著,桃蚜对杀虫剂的敏感性明显低于甘蓝蚜和萝卜蚜(分别相差12.7倍和15.5倍);贵州不同地区间同种蚜虫对杀虫剂敏感性差异不明显,贵阳、黔西和息烽甘蓝蚜对杀虫剂敏感性没有差异;贵阳和遵义萝卜蚜对杀虫剂敏感性也没有差异。年度间同种蚜虫对杀虫剂敏感性发生变化,从2017-2018年桃蚜和甘蓝蚜敏感性分别下降了2.2倍和1.9倍;其中贵阳市桃蚜种群对烯啶虫胺、噻虫啉、噻虫嗪、毒死蜱、噻虫胺和溴氰虫酰胺的敏感性下降了5.6-115.0倍;贵阳市甘蓝蚜种群对功夫菊酯、氟啶虫胺腈、毒死蜱、吡虫啉和噻虫嗪的敏感性也有2.1-6.7倍不同程度的下降。【结论】多数药剂对甘蓝蚜和萝卜蚜的毒力较高,可用于这2种蚜虫的防治,优先推荐噻虫嗪和溴氰虫酰胺等交替轮换使用;桃蚜对多数杀虫剂很不敏感,且抗性上升很快,推荐氟啶虫胺腈、吡虫啉和抗蚜威等药剂暂时还可以用于防治贵州桃蚜,急需寻找新型高效药剂来交替轮换使用。     

桃蚜、萝卜蚜的种内密度和种间竞争效应

在温室内不同密度条件下,研究了桃蚜和萝卜蚜在甘蓝上的种内密度效应和种间竞争作用。结果表明：单独饲养时,在5头／株和10头／株密度下,两种蚜虫种内密度效应均较弱;而在15头／株时,桃蚜和萝卜蚜的寿命和产蚜量都随之显降低,说明当两种蚜虫达到一定的拥挤程度时,种内密度对种群均产生一定的负效应。两种蚜虫共存时,单头产蚜量均比单独饲养时显下降,种问竞争作用明显。在10、15头／株密度下,桃蚜的竞争作用大于萝卜蚜,萝卜蚜的寿命和单头产蚜量都极显低于桃蚜。     

杭州郊区菜蚜种群的数量消长规律

对杭州郊区菜蚜的数量消长规律进行了连续多年的系统调查 .结果表明 ,在杭州郊区十字花科蔬菜上发生的菜蚜只有桃蚜 (Myzuspersicae)和萝卜蚜 (Lipaphiserysimi) .2种菜蚜混生种群的数量消长 1年中有 2个明显的高峰 ,分别出现在 5～ 6月和 1 1月前后 ;一般年份高峰期田间虫量可达平均每株 50 0头以上 ,且第 2个高峰虫量较高 ,持续时间较长 .在夏末秋初气温明显偏低的年份 ,8～ 9月作物上虫量上升迅速 ,最高也可达平均每株上千头的水平 .盛夏和隆冬季节数量都很低 .每年的 1 2月至次年的 5月以桃蚜占绝对优势 ,7～ 1 0月以萝卜蚜占绝对优势 ,而 5～ 7月和 1 0～ 1 2月则 2种蚜虫的发生比例交错变换 .温度是决定菜蚜混生种群数量消长规律和导致 2种蚜虫季节消长规律差异的一个主要因子 .文中对食料、天敌等因子的作用也做了讨论 .     

施钾提高蚜害诱导的小麦茉莉酸含量和叶片相关防御酶活性

研究表明,施钾能够提高作物对蚜虫的抗性,但其机理尚不明确。试验采用营养液培养的方法,设置2 mmol/L和0.005mmol/L KCl两个钾浓度,分析不同钾水平培养下的小麦植株在蚜虫为害后,体内茉莉酸(JA)和水杨酸(SA)的含量和脂氧合酶(LOX)、多酚氧化酶(PPO)、苯丙氨酸解氨酶(PAL)和过氧化物酶(POD)等防御酶活性的变化。结果表明,低钾胁迫显著降低了小麦体内JA和SA的含量,并且诱导LOX和POD酶活性增强,但是对PPO和PAL酶活性没有显著影响。蚜虫为害48 h后,高钾小麦体内JA含量显著高于低钾植株,而SA含量没有明显变化。高钾显著提高了蚜虫为害后小麦叶片中的LOX、PAL、PPO和POD酶活性,而低钾小麦体内4种酶的活性在整个虫害调查期间均没有显著变化。研究表明,充足供钾能够显著提高小麦受到蚜虫为害后体内茉莉酸含量,激活其体内的JA信号传导途径,从而提高防御酶活性,增强其对蚜虫的抵御能力。     

Evaluation of hairy nightshade as an inoculum source for aphid-mediated transmission of potato leafroll virus

Potato leafroll virus (PLRV) causes one of the most serious aphid-transmitted diseases affecting yield and quality of potatoes, Solanum tuberosum (L.), grown in the United States. The green peach aphid, Myzus persicae (Sulzer), is considered to be by far the most efficient vector of this virus. Even the most strict aphid control strategy may not prevent the spread of PLRV unless measures also are taken to keep virus source plants within and outside the crop at a minimum. Hairy nightshade, Solanum sarrachoides (Sendtner), is one of the preferred weed hosts for green peach aphid. The potential of this weed as an aphid reservoir and virus source and its spread or perpetuation were investigated. With the use of double antibody sandwich enzyme-linked immunosorbent assay, it was confirmed that green peach aphid can transmit PLRV to hairy nightshade and that aphids can become viruliferous after feeding on infected hairy nightshade plants. Transmission from hairy nightshade to potato is 4 times the rate of potato to potato or potato to hairy nightshade. The green peach aphid preferred hairy nightshade over potato plants and reproduced at a higher rate on hairy nightshade than on potato. Therefore, a low level of PLRV-hairy nightshade infection could enhance the disease spread in the field.     

Reproduction and feeding behavior of Myzus persicae on four cereals

Green peach aphid, Myzus persicae (Sulzer), does not overwinter outdoors in Minnesota; it arrives each spring on low-level jet streams from the south. After arrival, anholocylic reproduction occurs on numerous herbaceous species, including many common weeds, before movement to potato, Solanum tuberosum L. In investigating aphid feeding behavior on barrier crops, we observed winter wheat, Triticum aestivum L., colonized by green peach aphid. The Northern Great Plains grows 94,000 ha of potatoes and 20.5 million ha of small grain cereals each year, the latter potentially providing an early emerging and widely distributed green peach aphid host to influence early season potato colonization. Life tables statistics indicated green peach aphid had its highest reproductive potential among cereals on winter wheat, with rye (Secale cereale L.) > barley (Hordeum vulgare L.) > oats (Avena sativa L.). Green peach aphid was found to colonize barley, rye, and winter wheat, but not oats. Mean generation time, net reproductive rate, doubling time, and finite rate of increase were significantly different between host plants. Electrical penetration graph technique indicated mean nonpenetration duration by green peach aphid was significantly different among plant species, and significantly longer on winter wheat than on the other cereals. Mean xylem phase duration was not significantly different among plant species but sieve element salivation was of longest duration on potato. Phloem sap ingestion (E2) was also significantly different among plant species with longest E2 duration on winter wheat. This study demonstrates that this aphid can effectively use key cereals at the vegetative stage.     

Use of silicon as inductor of the resistance in potato to Myzus persicae (Sulzer) (Hemiptera: Aphididae)

The aphid Myzus persicae (Sulzer) is an important pest of potato and causes direct harm, due to the quantity of sap extracted and for being vector of important phytovirus. This work was carried out to evaluate the action of silicon as a resistance inducer of potato to M. persicae. Four treatments were tried: foliar fertilization with silicon acid at 1%; soil fertilization with 250 ml silicic acid solution at 1%; foliar fertilization with silicon acid at 1% + soil fertilization with 250 ml silicic acid solution at 1%; and a control. The treatments were applied thirty days after the explants emergence. Fifteen days after the application of the treatments, feeding preference and some biological aspects of the aphids were evaluated. After, the content of tannins and lignin present in the leaves and the activity of the enzymes peroxidase and phenylalanine ammonia-lyase were also determined. The silicon fertilization did not affect the preference of the aphids; however it reduced fecundity and the rate of population growth of the insects. The lignin percentage increased in the leaves of plants fertilized with silicon via soil and/or foliar and the percentage of tannins increased only in the leaves fertilized via soil plus foliar. The silicon acted as a resistance inducer to M. persicae in potato.     

棉蚜对寄主的选择及寄主专化型研究

采用叶片选择法,生命表及EPG技术研究了棉蚜对寄主植物的选择和专化性,结果表明,棉花上生长的棉蚜对棉花,西葫芦和西瓜叶片均具有强选择性,而对黄瓜和南瓜选择性弱,西瓜,南瓜和黄瓜上生长的棉蚜对其原寄主选择性强,而对棉花选择性弱,棉花上的棉蚜转接到黄瓜和南瓜上,其存活率和繁殖力极低,棉蚜的取食行为在黄瓜和马铃薯,黄瓜和棉花之间存在明显的寄主专化型,黄瓜与棉花上的棉蚜相互转接均难成功,而黄瓜和马铃薯上的棉蚜转移具有不对称性。     

Effect of soil potassium availability on soybean aphid (Hemiptera: Aphididae) population dynamics and soybean yield

Studies were conducted to examine the effect of potassium (K) on soybean aphid, Aphis glycines Matsumura, population growth. A laboratory feeding assay examined the effect of K-deficient foliage on life table parameters of soybean aphids, and field experiments were designed to determine the effect of three soil K treatment levels on aphid populations and their impact on soybean yields. The feeding assay found that life table parameters differed between aphids feeding on the K-deficient and nondeficient soybean leaves. Soybean aphids in the K-deficient treatment exhibited significantly greater intrinsic rate of increase (r(m)), finite rate of increase (lambda), and net reproductive rate (Ro) relative to aphids feeding on nondeficient leaves. No significant difference was observed in mean generation time (T) between the two treatments. However, the field experiment repeated over 2 yr showed no effect of K on soybean aphid populations. Soybean aphid populations were high in unsprayed plots and feeding resulted in significant yield losses in 2002 at all three K treatment levels: when averaged across 2001 and 2002, unsprayed treatments yielded 22, 18, and 19.5% less than the sprayed plots in the low, medium, and high K treatments, respectively. No significant interaction was observed between aphid abundance and K level on soybean yields in either year. This study therefore suggests that although aphids can perform better on K-deficient plants, aphid abundance in the field may be dependent on additional factors, such as dispersal, that may affect final densities within plots.     

Polyphenol oxidase in potato. A multigene family that exhibits differential expression patterns.

Polyphenol oxidase (PPO) activity in potato (Solanum tuberosum) plants was high in stolons, tubers, roots, and flowers but low in leaves and stems. PPO activity per tuber continued to increase throughout tuber development but was highest on a fresh weight basis in developing tubers. PPO activity was greatest at the tuber exterior, including the skin and cortex tissue 1 to 2 mm beneath the skin. Flowers had high PPO activity throughout development, particularly in the anthers and ovary. Five distinct cDNA clones encoding PPO were isolated from developing tuber RNA. POT32 was the major form expressed in tubers and was found in all parts of the tuber and at all stages of tuber development. It was also expressed in roots but not in photosynthetic tissues. POT33 was expressed in tubers but mainly in the tissue near the skin. POT72 was detected in roots and at low levels in developing tubers. NOR333 was identical with the P2 PPO clone previously isolated from potato leaves (M.D. Hunt, N.T. Eannetta, Y. Haifeng, S.M. Newman, J.C. Steffens [1993] Plant Mol Biol 21: 59-68) and was detected in young leaves and in tissue near the tuber skin but was highly expressed in flowers. The results indicate that PPO is present as a small multigene family in potato and that each gene has a specific temporal and spatial pattern of expression.