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由于甘蔗生长后期植株高大,存在手工操作难、作业效率低、喷药风险大的问题,为探索植保无人机在甘蔗害虫防治上的应用效果,2018年在云南陇川进行了试验示范。结果表明,在甘蔗根施农药防治的基础上,在蓟马大发生期,选用植保无人机喷33%氯氟·吡虫啉SC 240 mL/hm2对甘蔗蓟马的防治效果较好,与防治前相比,相对防效为83.5%,与根施70%噻虫嗪ZF 240 mL/hm2相比,相对防效为67.6%;在甘蔗螟虫蛀茎危害初期,选用植保无人机喷40%氯虫·噻虫嗪WG 240 g/hm2对甘蔗螟虫的防治效果显著,与根施4%吡虫·毒死蜱GR 30 kg/hm2相比,对螟害株率的相对防效91.2%,对螟害节率的相对防效为96.1%,与根施2%吡虫啉GR+0.4%氯虫苯甲酰胺GR 30 kg/hm2+30 kg/hm2相比,对螟害株率的相对防效52.0%,对螟害节率的相对防效53.8%。说明植保无人机进行甘蔗害虫防治上具有作业效率高、对甘蔗安全和防效好的优势。 相似文献
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为验证喷雾助剂激健在除草剂、叶面肥和杀虫剂减量增效上的效果,探索新的农药减量使用技术及为今后大面积推广提供可靠的科学依据,本实验选取3种高效除草剂、1种叶面肥和1种杀虫剂,进行田间喷雾试验。结果表明,在减少除草剂1/3用量添加激健的株防效为93.7%,鲜重防效为98.7%,比当地常规药剂处理区的株防效为93%,鲜重防效为98%,高0.7个百分点。在叶面肥减少1/3用量添加激健的处理后平均株高124.4厘米,比空白对照29.2厘米,增加30.6%;比常规用量处理的平均株高122.5厘米,增高1.9厘米。应用激健混用杀虫剂在减少1/3用量的虫食率比常规处理和空白对照都低,虫食率仅为0.1%,防效为96.8%;比常规处理的防效91.3%高出5.5个百分点。应用激健减少除草剂、叶面肥和杀虫剂1/3用量的大豆平均亩产为244.4公斤/亩,比空白对照亩增产91.7公斤,增产率是60.1%;比当地常规药剂处理区的大豆平均亩产225.8公斤/亩,亩增产18.6公斤,增产率是8.2%。综上所述,大豆田可以使用激健来达到减药增效控害增产的目的。 相似文献
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烟草抗根结线虫内生细菌的筛选及防效研究 总被引:1,自引:0,他引:1
《中国烟草学报》2015,(6)
为筛选到能在烟草体内稳定定殖并且对烟草根结线虫(Meloidogyne spp.)具有明显抑杀活性的烟草内生生防细菌,从5株对全齿复活线虫(Panagrellus redivivus)具有明显致死活性的供试内生细菌中筛选出对根结线虫校正致死率达99%以上的活性菌株WY7和CJ20。活性菌株发酵液的杀线虫活性在12 h内随处理时间的延长而升高,随着稀释倍数的的增加而降低。温室盆栽试验结果表明,5株杀线虫内生细菌中有4株对烟草根结线虫病防效大于50%,其中,以CJ20对烟草根结线虫病的防效最好,防效为67.5%。烟草内生菌是一类重要的烟草根结线虫生防资源。 相似文献
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几种防治烟草普通花叶病药剂的田间药效 总被引:2,自引:0,他引:2
为给防治烟草普通花叶病的药剂选择提供依据 ,进行了“毒消”6 0 0倍、“病毒必克”5 0 0倍 (药剂 )和氨基酸 30 0倍、“丰农”5 0 0倍 (叶面肥 )田间防效试验。结果表明 ,烟株发病初期开始施药 ,“毒消”6 0 0倍在首次施药后防效达 73.2 4 % ,第 3次施药后各药剂防效下降并在停止施药后 30d病情发生反弹 ;烟株发病中期开始施药 ,首次施药后“病毒必克”5 0 0倍防效达 75 .90 % ,此后各药剂防效均下降 ;氨基酸30 0倍和“丰农”5 0 0倍防效较差 相似文献
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云南省烟草赤星病菌致病力分化及生物防治研究 总被引:11,自引:3,他引:8
从省内烟草种植区分离到烟草赤星病菌39株,利用离体叶片悬滴法,在感病品种RG17上进行致病力分化测定。结果表明,上述病菌的致病力按照病情指数可分为4种类型:即强、中、弱、不致病。从上述代表不同致病力的菌株中选取7株菌,采用对峙法与18株木霉菌对峙培养,从中筛选出一株对赤星病菌具极强拮抗作用的菌株TV-1。TV-1与赤星病菌的孢子混和液在PDA平板上的孢子萌发试验表明,TV-1不能抑制病菌孢子的萌发但能抑制其芽管的伸长。用TV-1制成的菌剂进行离体叶片、烟草苗期、大田期防效测定。结果表明:该菌剂为10^5个/mL时,具有抑制离体叶片病斑扩展的作用;浓度达10^7个/mL时,可明显防止病斑出现;同时它还能促进烟苗生长,其中苗期施用量,TV-1菌剂:营养土=1:15,促生效果显;苗期防猝倒病与对照相比防效达86.5%;大田营养袋亩施颗粒剂31kg、62kg,叶面喷施孢子液剂10^4个/mL4次,与对照相比对赤星病的防效分别高达60.57%、70.53%。 相似文献
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炭疽病是影响香蕉采后货架寿命限制因子。为了寻找国家标准允许使用的控制香蕉采后炭疽病的方法,从腐烂香蕉上分离炭疽病菌,并进行鉴定。对纯水中炭疽病菌添加消毒剂和臭氧进行处理,在培养基上分别添加多种食品防腐剂、消毒剂和臭氧处理,抑制该菌孢子的萌发和菌丝的生长,筛选出抑制效果好的处理。对香蕉用所选防腐剂、消毒剂和臭氧处理进行保鲜试验,结果发现3 mg/kg的桂醛、50 mg/kg的戊二醛、10 mg/kg的二氧化氯、10 g/h臭氧处理对纯水中炭疽病菌的消毒效果很好,但对培养基上炭疽病菌消毒效果不好。0.24%亚硫酸氢钠可以完全抑制炭疽病孢子萌发,且对炭疽病菌丝生长抑制作用最强。12 mg/kg对羟基苯甲酸乙酯有较强的抑制炭疽病孢子萌发和菌丝生长作用。山梨酸钾、双乙酸钠、苯甲酸钠、脱氢醋酸钠、丙酸钙对香蕉炭疽病菌抑制效果较差。10 g/h臭氧处理香蕉10 min,12 mg/kg对羟基苯甲酸乙酯洗果3 min,与500 mg/kg多菌灵抑菌效果类似,消毒处理均显著好于对照。先臭氧处理或戊二醛、桂醛、二氧化氯处理,后对羟基苯甲酸乙酯处理,可以控制香蕉炭疽病,延长香蕉货架寿命。 相似文献
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Biocontrol of Postharvest Anthracnose of Mango Fruit with Debaryomyces Nepalensis and Effects on Storage Quality and Postharvest Physiology 下载免费PDF全文
Anthracnose is presently recognized as one of the most important postharvest disease of mango worldwide. To control the disease, chemical fungicides for a long time was widely used among fruit farmers, but recently found that pathogen had developed increasingly resistance to it. With people's growing desire of healthy and green food, finding new and environmentally friendly biological control approach was very necessary. In this paper, we provided a kind of new antagonistic yeast which enriched the strain resources and the efficacy of Debaryomyces nepalensis against postharvest anthracnose of mango fruit and the influence on quality parameters were investigated. The results showed that the decay incidence and lesion diameter of postharvest anthracnose of mango treated by D. nepalensis were significantly reduced compared with the control fruit stored at 25 °C for 30 d or at 15 °C for 40 d, and the higher concentration of D. nepalensis was, the better the efficacy of the biocontrol was. Study also found that 1 h was the best treatment duration and antagonistic yeast inoculated earlier had good biocontrol effect on anthracnose. Meanwhile, treatment by D. nepalensis could significantly reduce postharvest anthracnose of mango, delay the decrease in firmness, TSS, TA, and ascorbic acid value, and do not impair surface color during postharvest storage. Moreover, the increase in MDA (malondialdehyde) content and increase in cell membrane permeability of fruit treated by D. nepalensis was highly inhibited. The results suggested D. nepalensis treatment could not only maintain storage quality of mango fruit, but also decrease the decay incidence to anthracnose disease. All these results indicated that D. nepalensis has great potential for development of commercial formulations to control postharvest pathogens of mango fruit. 相似文献
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烟草野火病拮抗生防菌的筛选、鉴定与应用 总被引:1,自引:0,他引:1
为筛选出烟草野火病拮抗生防菌,开发防治烟草野火病的新型生物农药,降低烟叶农药残留,提高烟叶的安全性,从烟田采集的健康烟草叶片经平板划线法分离和纯化后得到287个细菌分离物,从中筛选到14个对烟草细菌性野火病有抑制作用的拮抗生防菌,测得其中具有较强抑制作用的菌株抑菌带宽度为9.3 mm,经16S rDNA序列鉴定,该菌属于枯草芽孢杆菌Bacillus subtilis。烟草叶片经该拮抗菌液诱导后接种,叶片内主要防御酶苯丙氨酸解氨酶(PAL)、过氧化物酶(POD)、多酚氧化酶(PPO)活性均显著增强。防效测定表明:施用生防剂后接种野火病菌的处理,拮抗菌株防治效果达97.54%,对照农用链霉素防治效果为41.44%。先接种野火病菌后施生防剂的处理,拮抗菌株防治效果达51.40%,对照农用链霉素防治效果为50.69%。说明该拮抗菌株的预防效果高于当前生产上使用的农用链霉素,且其预防效果优于治疗效果。 相似文献
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烟草青枯病颉颃细菌的筛选及其防病效果研究 总被引:2,自引:1,他引:1
从安徽、浙江等地的烟草、蕃茄和辣椒等茄科作物根标、根围土壤和病、健植株组织中,分离纯化到168个细菌菌株,通过室内异步培养法和平板扩散法,筛选出17个对烟草青枯病菌具有一定颉颃作用的菌株,其中,AQB—46和AQB一33两菌株抑菌能力最强,抑菌圈直径分别为33.7mm和30.6mm。盆栽防病结果表明,这2个菌株对青枯病的防治效果在接种青枯菌后的30d内一直维持在54.2%64.7%。菌株AQB-62室内抑菌试验效果明显低于AQB-46和AQB一33,但盆栽防病的效果在接种后的20d内也一直维持在49.9%53.0%的水平。接种前3d喷施颉颃菌的各处理,其防病效果远高于接种后3d喷施颉颃菌的各处理,前者防效最高为64.7%,而后者最高仅为15.0%,说明颉颃菌对烟草青枯病的防治主要表现为预防。此外,颉颃菌的防病作用主要表现为减轻发病程度,而对发病率没有影响。颉颃菌除具有直接的抑制青枯菌定殖、繁衍、扩展外,有的菌株如AQB—62还具有一定的诱导抗性作用。AQB-46,AQB-33和AQB-62等3个菌株可望研制成生物农药,使之更有效地防治烟草青枯病。 相似文献
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Trichoderma harzianum-TrH40 isolated from soil samples from rambutan (Nephelium lappaceum) orchards had antagonistic effects with combination of CaCl2 salts on growth, activity, and infection of rambutan fruits by anthracnose (Colleotrichum gloeosporioides). Lower growth rate of spore germination, radial mycelial growth, and infectivity of anthracnose pathogen was observed at higher molar concentration of CaCl2 by in vitro studies. Germination rate was 0.5%?when 1M CaCl2 was combined with T. harzianum-TrH40 spore suspension. The disease incidence and severity of anthracnose were least on wounded fruits that had been dipped in a solution containing of 1,100 mg of CaCl2 per liter and T. harzianum-TrH40, which contained 106 spores/ml. Furthermore, disease incidence and severity with combined treatments were correlated significantly and effectively reduced infection in vivo in rambutan fruits. 相似文献
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利用从原生态枇杷果实上分离筛选并鉴定的、能显著抑制炭疽病的季也蒙毕赤酵母Y35-1菌株,研究其抑菌抗腐效果,并将其制成液体和固体型菌剂在枇杷贮藏保鲜方面应用。结果表明:拮抗酵母Y35-1菌株能够有效抑制枇杷炭疽病胶孢炭疽菌孢子的萌发,能够在病原菌菌丝上寄生而抑制菌丝的正常生长,不接触对峙培养实验显示Y35-1菌株能够有效抑制病原菌菌丝的扩展和生长。保鲜应用表明:酵母Y35-1液体和活性冻干粉菌剂均能明显抑制枇杷果实贮藏期间的病害腐烂发生率,贮藏至第20天时,两处理组果实腐烂指数分别仅为2.25%和3.60%;且这两种生防菌剂对枇杷的硬度、质量损失率、可溶性固形物、果皮细胞膜透性、总糖含量、总酸含量、VC含量均起到了一定的维持作用。Y35-1酵母液体菌剂在4℃条件下、活性冻干粉菌剂在-20℃条件下最适宜存放,且海藻糖对Y35-1酵母贮藏期间生活力和生防效力起到了保护作用。研究结果显示Y35-1菌株对采后枇杷胶孢炭疽菌有明显的抑菌作用,液体和固体剂型的生防制剂均对采后枇杷具有抑腐保鲜效果。 相似文献
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Identification of endophytic bacterial strain MGP1 selected from papaya and its biocontrol effects on pathogens infecting harvested papaya fruit 总被引:1,自引:0,他引:1
Jingying Shi Aiyuan Liu Xueping Li Shujie Feng Weixin Chen 《Journal of the science of food and agriculture》2010,90(2):227-232
BACKGROUND: Traditional approaches to the control of diseases of papaya fruit rely on the use of synthetic chemicals, which can cause serious human health and environmental problems. Endophytes might be used as an alternative to chemicals to effectively control diseases of harvested papaya fruit. RESULTS: MGP1 was one of the biological control agents that was selected from the pericarp of papaya and identified as Pseudomonas putida biovar A. The bacterium was able to colonise in the lamina, leafstalk, pericarp and pulp of papaya and strongly inhibit ten kinds of phytopathogen. Positive control effects were achieved when fruits were challenged with Phytophthora nicotianae at 24 and 48 h after MGP1 treatment. The control effect of MGP1 on anthracnose of harvested papaya fruit reached 54%. The application of MGP1 at five preharvest stages of papaya significantly reduced the disease index of anthracnose, with the best control effect reaching 63% after application at the florescence stage. However, the rate of latent infection of Colletotrichum gloeosporioides was significantly reduced only after application at the florescence stage. CONCLUSION: The results indicated the powerful ability of MGP1 as a biological agent. Copyright © 2009 Society of Chemical Industry 相似文献
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从采后发病番木瓜果实上分离炭疽病的病原菌,同时采用平板对峙法和滤纸片法从番木瓜果园土壤中筛选得到炭疽菌的拮抗菌W-2。通过形态学和分子生物学分别鉴定了病原菌和拮抗菌相关种属,并测试了拮抗菌W-2的拮抗活性。结果表明:番木瓜炭疽病病原菌鉴定为番木瓜炭疽菌Glomerella magna,拮抗菌W-2为萎缩芽孢杆菌(Bacillus atrophaeus)。拮抗菌W-2能够引起Glomerella magna菌丝体膨大和孢子畸形,且W-2浓度为1×108 CFU/mL时,对菌丝生长抑制作用最强,浓度为1×108和1×109 CFU/mL时,对孢子萌发的抑制作用最为显著(P<0.05)。活体生防实验表明,浓度为1×108 CFU/mL的W-2菌悬液处理能够有效控制番木瓜果实炭疽病病斑的扩展,并显著降低果实的发病率(P<0.05)。 相似文献
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