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香蕉黑斑尾孢霉[Cerospora musae Zimm]是闽南香蕉叶斑病的主要病原,4~5月的流行盛期叶发病率为40~100%.本文通过对多菌灵、代森锰锌等国内外十种杀菌剂进行抑菌和田间小区筛选表明:50%速克灵1500倍液和多菌灵加代森锰锌(2:1)800倍液在5~7月份喷药三次,每月一次,能控制该病的危害,防效分别为70.9%和69.3%.大面积使用成本较低的国产多菌灵加代森锰锌混合剂,防效达71%,是目前防治香蕉叶斑病较为理想的杀菌剂. 相似文献
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香蕉叶斑病 (香蕉黄条叶斑病、灰纹病和煤纹病 )是香蕉最严重的叶部病害之一 ,在华南香蕉种植区广泛流行 ,受害面积常占片总面积的 2 0 - 4 0 %,严重时达80 %以上 ,严重影响蕉株的光合作用 ,产量大减 ,品质下降。本试验探讨 43%大生富悬浮剂防治香蕉叶斑病的防治效果。一、供试作物 ,防治对象和供试药剂1.供试作物 ,漳选一号香蕉 ( 99年4月 2 0日种植 )2 .防治对象 ;香蕉叶斑病3.供试药剂 :43%大生富悬浮剂 ,美国罗门哈斯生产70 %甲基托布津可湿性粉剂 ,日本生产70 %代森锰锌可湿性粉剂 ,河北辛集生产二、试验时间和地点1.试验时间 :1999年 … 相似文献
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香蕉叶斑病的为害直接或间接地影响香蕉产量和质量,造成严重的经济损失.70年代以来,国外及我国台湾、广东等省的香蕉主产区在叶斑病的研究上取得了很大的进展,发现了叶斑病原真菌约有20余种.80年代以来,由于蕉区面积迅速扩大,推广的品种越来越多,因此对现阶段我市香蕉叶斑病的种类、分布、为害情况及防治技术等问题需作进一步的研究.为此,笔者 相似文献
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花生叶斑病是我国花生上常发和普发性病害。田间成害的叶斑病有褐斑、网斑、黑斑和焦斑4种,其中为害最重的有褐斑和网斑。花生受害后一般减产15-30%,严重时可达50%。花生叶面喷施杀菌剂是防治花生叶斑病的有效措施。为了筛选防治花生叶斑病经济有效的新农药,对北京军区红旗激素厂研制的新杀菌剂抗枯宁进行了田间药效测定。 相似文献
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花生叶斑病的发生规律及药剂防治新技术的研究与应用 总被引:4,自引:0,他引:4
在花生上进行防治叶斑病5个不同药剂试验说明,花生生长中、后期采用杀菌剂与富尔655叶面肥混合喷施,是防治花生叶斑病,提高产量的有效措施. 相似文献
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生物药剂对花生叶斑病的防治研究 总被引:1,自引:0,他引:1
为了花生叶斑病防治筛选出安全、高效的生物药剂,经室内外试验测定了7种生物杀菌剂对花生叶斑病的毒力和药效。丁子香酚、申嗪霉素对花生褐斑、黑斑、网斑病菌菌丝生长均有明显的抑制作用,其EC50值均小于1mg/L,明显低于生产上常用化学药剂多菌灵的EC50值。1%申嗪霉素悬浮剂600、800、1000倍的田间防效均在80%以上,优于对照药剂多菌灵的防效。3%多抗霉素可湿性粉剂600倍、80%乙蒜素乳油1000倍防效达到45%,与对照药剂防效相当。1%申嗪霉素悬浮剂、3%多抗霉素可湿性粉剂、80%乙蒜素乳油是防治花生叶斑病的有效生物杀菌剂。 相似文献
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几种药剂防治香蕉叶斑病药效试验报告 总被引:1,自引:1,他引:0
香蕉叶班病是我区香蕉上为害较严重的一种病害。严重影响蕉果的产量和质量。叶斑病病原苗上要有尾孢属(Ceroosporamusac)、小窦氏霉(Deightoniellatorulosa)、暗双孢零(Cordanamusae)和大茎点霉(Macroplomamusae)等4种真菌。这些病菌都引起枯叶、早衰、穗小和减产,果实失去商品价值。产区蕉农试用波尔多液、多菌灵、托布津、百菌清等常用杀菌剂进行防治,却未能控制病害的流行,为此,本站对几种新引进的杀菌剂进行防治试验,以筛选药效高的药剂,进行推广应用,控制购斑病的流行。现将1996年试验结果简介如下:材料和方法试验地… 相似文献
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通过对香蕉抽蕾前20d,抽蕾期、抽蕾后20d连续用必扑尔防治处理叶斑病的试验结果表明,必扑尔防治香蕉叶斑效果良好,可大量推广使用。 相似文献
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不同杀菌剂对花生叶斑病防治效果及产量影响的研究 总被引:4,自引:0,他引:4
为筛选出有效防治花生叶斑病的新型药剂,以传统药剂多菌灵为对照,采用三次叶面喷雾法测定了12种新型杀菌剂对叶斑病的防治效果及产量影响,结果表明:12种新型杀菌剂对花生叶斑病的防治效果在18.27%~44.24%之间,其中有效成分为25%吡唑醚菌酯、60%唑醚·代森联、32.5%嘧菌酯·苯醚甲、12%氟环唑、490g/L丙环·咪鲜胺、30%苯甲·丙环唑、46.1%氢氧化铜的防治效果较好,达到30%以上。从产量结果来看,各处理对花生产量增幅在10.53%~25.00%之间,其中增产效果最好的是75%肟菌·戊唑醇、25%吡唑醚菌酯、60%唑醚·代森联,增产效果分别为25%、20.8%和20.3%,显著优于其他药剂。总体来看,12种杀菌剂对花生叶斑病的防治效果与增产效果呈一致趋势。 相似文献
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为了筛选对花生褐斑病田间防治效果好的杀菌剂,结合室内毒力测定(菌丝生长速率法和载玻片萌发法)和田间小区药效试验对四种杀菌剂与常规使用的杀菌剂多菌灵进行了比较。结果表明,室内毒力测定中,多菌灵对菌丝的抑制效果最强,抑菌率为91.4%;其余四种供试杀菌剂中以咪酰胺效果最好,抑菌率达85.6%;王铜效果最差;多菌灵对分生孢子的抑制率为60.9%,其余四种杀菌剂效果差异不显著。田间药效试验结果显示,咪酰胺2 000mg/kg对花生褐斑病的田间防治效果达60.62%,远远高于对照药剂多菌灵(15.53%)以及其它三种供试杀菌剂(王铜、爱可和戊唑醇)。此外咪酰胺比清水对照增产32.28%,也远远高于其它几种药剂。通过室内毒力试验和田间药效试验表明,田间杀菌剂防治花生褐斑病时,咪酰胺比对照药剂多菌灵具有更好的防治效果,适用于花生褐斑病重病地区。 相似文献
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芝麻棒孢叶斑病是芝麻常发性病害,严重影响着芝麻的产量和品质。为确定芝麻棒孢叶斑病防治的最佳时期,制定有效的药剂防治措施,2017-2019年对黄淮芝麻主产区平舆县的棒孢叶斑病发生情况进行了监测,并测定了16种杀菌剂的室内毒力和田间防效。结果表明,芝麻棒孢叶斑病的发生初期为现蕾期-初花期,病情发展的转折期为初花期-盛花初期(黄淮产区为7月20日-31日,此时田间发病率小于3%或病情指数小于1)。16种供试杀菌剂中己唑醇、咪鲜胺、氟硅唑、戊唑醇、苯醚甲环唑、腐霉利、噻呋酰胺和咯菌腈对芝麻棒孢叶斑病菌的毒力较强,EC50分别为1.5734×10-4、0.1248、0.7128、1.3922、2.0014、2.7323、5.4327、6.1285 mg/L;噻呋酰胺、己唑醇、嘧菌酯、戊唑醇和苯醚甲环唑的田间防效和增产效果较好,防效分别为67.19%、65.86%、61.17%、60.87%、61.83%,增产率分别为38.96%、36.86%、39.72%、34.96%、38.56%;苯醚甲环唑、己唑醇、嘧菌酯和戊唑醇施药2次的防效和增产效果最佳。综合研究结果,芝麻棒孢叶斑病防治的最佳时期为初花期-盛花初期(黄淮产区7月20日-31日),或在田间发病率达到3%或病情指数达到1之前进行防治,建议选择噻呋酰胺、己唑醇、嘧菌酯、戊唑醇和苯醚甲环唑等杀菌剂,同一杀菌剂连续施用次数不超过2次,施药间隔10 d。为减少农药残留和防止病原菌产生抗(耐)药性,不同药剂可交替轮换使用。 相似文献
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从广西南宁市采集香蕉棒孢霉叶斑病样本,用常规组织分离法获得3个菌株,经柯赫氏法则验证确定其为香蕉叶斑病的病原菌。该菌的形态特征在分离培养前后变化较大,自然病斑上的分生孢子和分生孢子梗均较短,经PDA培养基分离培养后显著变长,培养后的病原菌形态特征与前人对Corynespora cassiicola的描述一致。根据形态特征及rDNA-ITS区序列比对结果,确定该病原菌株为多主棒孢菌[Corynespora cassiicola(Berk&Curt)Wei]。 相似文献
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S. Gremillion A. CulbreathD. Gorbet B. Mullinix Jr.R. Pittman K. StevensonJ. Todd M. Condori 《Crop Protection》2011,30(6):698-704
Early and late leaf spot (caused by Cercospora arachidicola and Cercosporidium personatum, respectively) are major yield-reducing diseases of peanut (Arachis hypogaea L.) in the southeastern U.S. Effective suppression of both early and late leaf spot, collectively called ‘leaf spot’, can be reached with integrated disease management (IDM) systems utilizing peanut cultivars with moderate levels of resistance to these pathogens. A Bolivian landrace cultivar, Bayo Grande, and a series of progeny breeding lines were evaluated under two IDM systems consisting of various reduced application fungicide regimes and/or tillage treatments in field experiments over two years. In the absence of fungicides or when averaged across fungicide regimes, Bayo Grande and breeding lines had better leaf spot resistance when compared to cultivars Georgia Green, MDR-98 and C-99R in all experiments across years. The addition of three or four fungicide applications to Bayo Grande and several of the breeding lines suppressed leaf spot to levels similar to those genotypes and Georgia Green under the full regime. Conservation tillage reduced the need for fungicides in most genotypes in both years. Yields were higher for Bayo Grande and the breeding lines compared to Georgia Green in three of the four experiments across years. When compared across genotype, yields were greatest for the full season fungicide regime, except in 2002 when yields were similar for all treatments. Leaf spot severity was reduced in conservation tillage compared to conventional tillage in most varieties in the absence of fungicides. However, yields tended to be lower in conservation tillage treatments than in conventional tillage. Under conservation tillage, yields of Bayo Grande and two of the breeding lines were negatively impacted in one year and were overall lower in the other year. Several of these new Bolivian-derived genotypes show promise for use in a reduced fungicide and/or conservation tillage IDM system with the potential to lessen fungicide use compared to standard production practices while maintaining low leaf spot levels and high yields. 相似文献
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为探讨“碧护”在香蕉生产上的应用效果,通过碧护0.136%赤·吲乙·芸可湿性粉剂在福建省漳州市香蕉主栽品种天宝高蕉的喷施试验,表明“碧护”能显著提高香蕉的抗叶斑病力和抗寒力,消除或减轻田间肥害或药害,促进香蕉平衡生长发育,还可明显提高香蕉果实的外观质量和商品性能,而对蕉株及其生长发育均无任何不良影响。“碧护”在香蕉生产上的使用是安全的,可大力推广应用。 相似文献
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叶斑类病害是危害大田期烟草的主要病害之一,大多由真菌侵染所致,病害易暴发流行,对烟草的品质及产量造成重大影响。本研究采用组织分离法从广西‘K326’烟叶具有典型病斑的叶片上分离、纯化获得菌株,通过致病性测定结合形态学特征以及分子生物学手段对病原菌进行鉴定,同时采用菌丝生长速率法测定不同培养基、温度、pH、碳源、氮源、光照,致死温度处理以及10种常用化学药剂对病原菌菌丝生长的影响。该叶斑病的典型病症为:初期烟叶产生灰白色小圆斑,病害加重圆斑逐渐扩散成不规则状,病斑中心形成穿孔,颜色为灰白色,边缘棕褐色,伴随褪绿的黄色晕圈。通过分离纯化获得2个菌株,分别命名为HZFC36和HZZS76。致病性测定结果表明,2个菌株均可在叶片无伤条件下导致健康‘K326’烟叶部产生病斑。结合形态学特征和多基因位点(LSU、ITS、RPB2和TUB2)系统发育进化分析将引起广西烟草叶斑病的病原菌鉴定为Epicoccum latusicollum。该病原菌在CMA培养基上生长最快,最适生长温度为28℃,最适pH为6,最佳碳源、氮源为蔗糖和牛肉浸粉,全光照条件更利于病原菌的生长,致死温度为47℃,水浴10 min。室内药剂初步筛选结果显示,50%啶酰菌胺和25%吡唑醚菌酯对病原菌的抑制效果最好,平均EC50值分别为4.752×10-2、4.989×10-2 mg/L。本研究结果为E. latusicollum引起烟草叶斑病的田间防控奠定了一定的理论基础。 相似文献
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Among extracts of 33 plant species screened against Mycosphaerella eumusae, the causal agent of Eumusae leaf spot disease of banana, water extract of Cassia senna, Zimmu (Interspecific hybrid between Allium cepa × Allium sativum) and Rhincanthus nasutus provided 100% inhibition of spore germination and 1.7–2.0 cm zone of inhibition of mycelial growth under in vitro conditions. The maximum efficacy of mycelial inhibition was observed with Zimmu leaf extract. When Zimmu leaf extract was tested at different concentrations (5, 10, 25, 50 and 100% w/v), all tested concentrations provided complete inhibition of mycelial growth of the pathogen. The field evaluation of Zimmu leaf extract at different concentrations in cv. Grand Naine showed that the application of the water extract of Zimmu leaf at 50% concentration (w/v) provided 55% reduction of disease severity compared to the unsprayed control. Besides, the application of Zimmu leaf extract increased the value of youngest leaf spotted-0 (up to 60.5%) as well as increased the yield of banana (up to 46.8%) as compared to control. The effect of Zimmu in increasing the value of YLS-0 and the bunch yield was comparable with the chemical fungicide Propiconazole 25% EC (0.1%). Thin layer chromatography (TLC) analysis showed that among different major compounds, two lipid compounds (LP-B1 and LP-B2) extracted using methanol had the ability to inhibit M. eumusae growth (0.7–1.5 cm zone of inhibition). The gas chromatography–mass spectrometry (GC–MS) analysis of lipid bands revealed the presence of six different lipid compounds, which may be responsible for the growth inhibition of the pathogen. Since the application of water extract of Zimmu was found to be not only effective in controlling the leaf spot disease severity but also increased the number of green leaves and yield of banana fruits, the Zimmu extract can be used effectively in integrated disease management of Eumusae leaf spot disease for enhancing banana production in an ecologically sustainable manner. 相似文献
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