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1.
室内毒力测定结果表明,植物源化合物奥麦丁锌(ZPT)对油菜菌核病菌菌丝生长具有显著的抑制作用,EC50值为1.5μg/mL。ZPT在离体油菜叶片上对油菜菌核病具有明显的防病效果。25%奥麦丁锌可湿性粉剂200、500μg/mL对油菜叶片菌核病病斑扩展抑制率分别达到83.2%和100%。田间药效试验结果表明,25%奥麦丁锌可湿性粉剂100g/666.7m2兑水喷雾,对油菜菌核病具有80%左右的防治效果。 相似文献
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采用实验室测定和温室盆栽方法研究了8种杀菌剂对大豆疫霉菌(Phytophthora sojae)菌丝生长和繁殖的影响及它们对大豆疫霉根腐病的接种防治效果。结果表明,50%烯酰吗啉可湿性粉剂、97%甲霜灵可湿性粉剂和58%甲霜灵锰锌可湿性粉剂对大豆疫霉菌的菌丝生长和繁殖具有很好的抑制作用,该3种药剂能够明显抑制菌丝生长,抑制中浓度(EC50)值依次为0.1208μg/mL、0.1563μg/mL和0.3603μg/mL。浓度为10.0μg/mL时,对孢子囊形成和萌发的抑制率均为100%,对卵孢子形成抑制率分别为64.5%、59.5%和55.0%。接种防治试验结果显示,以上3种药剂喷药后7d防效依次为73.4%、68.8%和60.5%,其余的5种杀菌剂防治效果相对较差。 相似文献
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油菜菌核病菌对腐霉利的抗性诱变及抗药菌株的生物学特性 总被引:1,自引:1,他引:0
从江苏省镇江市和扬州市采集菌核病植株的茎,从中分离获得油菜菌核病菌(Sclerotinia sclerotiorum)单菌核菌株。32个野生型菌株药剂敏感性(EC50)频率分布数据显示,病菌对腐霉利的敏感基线EC50值为0.1981 ± 0.0220 µg/mL,MIC(最小抑菌浓度)值为 1.1 ± 0.1595µg/mL。实验未发现田间抗腐霉利菌株。通过室内紫外线和药剂诱导,获得多株高抗腐霉利突变体(EC50>1000µg/mL)。这些抗性突变株经转管培养5~20代后抗药性稳定。它们对同类药剂异菌脲和有机磷类甲基立枯磷也表现高抗,但对苯并咪唑类多菌灵敏感。与野生型敏感菌株相比,抗腐霉利突变株菌丝生长较慢,对油菜茎杆和叶片的致病力均较弱。 相似文献
4.
选择75%百菌清可湿性粉剂(WP)、36%甲霜灵锰锌悬浮剂(SC)、70%恶霉灵可湿性粉剂(WP)、50%甲基硫菌灵可湿性粉剂(WP)、6%春雷霉素可湿性粉剂(WP)、22.5%抑霉唑乳油(EC)6种杀菌剂对3种马铃薯枯萎病病原菌进行室内毒力测定。结果表明:6种药剂对病原菌菌丝生长的抑制效果差异很大,50%甲基硫菌灵(WP)和22.5%抑霉唑(EC)对3种病原菌的抑菌效果均很好,EC50分别为1.69、5.59、5.03μg/mL和3.60、5.17、1.58μg/mL。 相似文献
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6种药剂防治稻飞虱试验结果表明,呋虫胺20%可湿性粉剂30 g/667 m2、烯啶·吡蚜酮60%水分散粒剂12 g/667 m2、烯啶·吡蚜酮80%水分散粒剂10 g/667 m2对单季晚稻稻飞虱均有不错的防治效果,尤其是对低龄若虫。烯啶·吡蚜酮60%水分散粒剂12 g/667 m2、烯啶·吡蚜酮80%水分散粒剂10 g/667 m2对高龄若虫表现最为突出,速效性好,同时对天敌几乎无影响。吡蚜酮50%可湿性粉剂30 g/667 m2速效性较一般,但持效性较好。吡虫啉10%可湿性粉剂50 g/667 m2的防效较差,对高龄若虫几乎不起作用。毒死蜱40%水乳剂100 mL/667 m2加氟啶虫胺腈22%悬浮剂14 mL/667 m2速效性一般,持效性较差,却对天敌影响较大。以六(4)代褐飞虱为主的稻田为例,需掌握低龄若虫或卵孵高峰期,科学选用吡蚜酮50%可湿性粉剂、呋虫胺20%可湿性粉剂、烯啶·吡蚜酮60%水分散粒剂、烯啶·吡蚜酮80%水分散粒剂进行轮换防治。 相似文献
8.
江苏省油菜菌核病菌对多菌灵的敏感性 总被引:6,自引:0,他引:6
为监测目前油菜菌核病菌对多菌灵抗性现状,对从江苏省各地采集的油菜菌核病病原菌菌株以及海安、苏州和高淳三地的油菜菌核病病原菌田间群体菌株进行了多菌灵的敏感性测定。结果表明,江苏省油菜菌核病菌对多菌灵的抗药性已经产生,不同地区菌株对多菌灵的抗性比率不同。在苏州的田间菌株群体中抗性菌株的比率达到28.12%,而在高淳等地的菌株中没有检测到抗性菌株的存在。抗性菌株都表现为高抗,其EC50 >100µg/ml。对抗性菌株的β-微管蛋白基因进行PCR扩增和酶切的结果表明,所有抗性菌株的β-微管蛋白基因的198位都发生突变,从而导致油菜菌核病菌对多菌灵抗性的产生。从江苏省范围来看,继续使用多菌灵防治油菜菌核病菌可能会导致抗性频率上升、抗性范围扩大。 相似文献
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乙虫腈悬浮剂防治田间稻飞虱试验结果表明,施用100 g/L乙虫腈悬浮剂600、525 、450 g/hm2对稻飞虱的防治效果均极显著优于对照药剂25% 噻嗪酮可湿性粉剂,药后第1、3、7天的防效分别达90.25%、92.40%、90.65%。100 g/L乙虫腈悬浮剂高效、安全,是防治稻飞虱的理想药剂,可大面积推广应用。 相似文献
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为了筛选出适合大田防治番木瓜疮痂病的药剂,采用菌丝生长速率法对8种药剂进行室内药效筛选。结果表明:8种药剂对菌丝生长的抑制效果不同,从方差分析结果来看,25% 咪鲜胺乳油、10% 苯醚甲环唑可湿粉填料、50% 多菌灵可湿性粉剂和25% 丙环唑乳油的EC50极显著或显著差异优于70% 甲基托布津可湿性粉剂、50% 异菌脲可湿性粉剂、80% 代森锰锌可湿性粉剂和50% 福美双可湿性粉剂;而25% 咪鲜胺乳油、10% 苯醚甲环唑可湿粉填料和50% 多菌灵可湿性粉剂间的EC50无显著差异,其中25% 咪鲜胺乳油的EC50最小。建议在生产上推广使用25% 咪鲜胺乳油、10% 苯醚甲环唑可湿粉填料和50% 多菌灵可湿性粉剂。 相似文献
11.
The response of winter barley to broad-spectrum fungicides applied at first node stage [growth stage (GS) 31] or as two-spray programmes [first node stage and flag leaf to ear emergence (GS 39–59)] was examined at 22 sites over five years during 1986–1990. Single sprays were also applied at an intermediate timing [third node to flag leaf emerging (GS 33–37)] at all sites in 1989 and 1990. The mean response to the single spray at GS 30–31 was 0.86 t ha−1 but ranged from 0.25 to 3.03 t ha−1 (4–80%). With the addition of a late spray (GS 39–59) of propiconazole plus tridemorph to the spring treatment, mean response was 1.25 t ha−1 [range 0.35–3.32 t ha−1 (5–87%)]. There were some differences between fungicides and fungicide mixtures applied at GS 31 and a prochloraz component was needed for effective control of eyespot. Seasonal differences in the mean response to the GS 39–59 treatment reflected differences in disease pressure after GS 59. The GS 30–31 treatment failed to maintain disease control up to the milky ripe stage (GS 75) in years when disease pressure was high. Yield responses were correlated with disease severity on leaf 2 at the time of the spring (GS 31) application and with the degree of control of eyespot on the stem base and of foliar diseases on the flag leaf at GS 75. A single spray applied at GS 33–37 gave comparable yields to the two-spray programmes and has potential to improve profitability where disease levels are low at the first node stage. 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... 相似文献
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采用土壤施用和叶面喷施2种方式将球孢白僵菌(Beauveria bassiana)菌株Bb202接种至玉米,研究不同接种方式及处理浓度对玉米生长的影响。结果表明,2种喷施方式对玉米苗均存在促生作用,且这种促生作用与孢子接种浓度密切相关。在叶面喷施处理中,白僵菌仅对玉米地上部分生长指标有促进作用,而对玉米苗的根长无显著影响;其中1.0×10~4孢子/m L处理组对玉米苗的促生效果最佳,其株高、叶长、叶宽、鲜重指标比蒸馏水对照组分别高出7.47%、15.42%、25.70%和16.85%。在土壤喷施处理中,白僵菌对玉米苗地上与地下部分均有显著促生作用;其中1.0×106孢子/m L和1.0×10~8孢子/m L处理组,玉米株高、叶长、根长、生物量指标较蒸馏水对照组分别提高了28.66%和29.59%、30.66%和37.85%、43.08%和33.60%、28.35%和32.55%。从对玉米苗的促生作用来看,用1.0×106孢子/m L的白僵菌悬浮液处理土壤,可以取得最经济、最显著的促生效果。 相似文献
14.
Foliar pathogens such as Zymoseptoria tritici and Puccinia striiformis causing septoria leaf blotch and yellow rust respectively can cause serious yield reduction in winter wheat production, and control of the diseases often requires several fungicide applications during the growing season. Control is typically carried out using a constant fungicide dose in the entire field although there may be large differences in crop development and biomass across the field. The objective of the study reported in this paper was to test whether the fungicide dose response curve controlling septoria leaf blotch and other foliar diseases in winter wheat was dependent on crop development and biomass level. If such a biomass dependent dose response was found it was further the purpose to evaluate the potential to optimize fungicide inputs in winter wheat crops applying a site-specific crop density dependent fungicide dose. The study was carried out investigating fungicide dose response controlling foliar diseases in winter wheat at three biomass densities obtained growing the crop at three nitrogen levels and using variable seed rates. Further the field experiments included three fungicide dose rates at each biomass level, an untreated control, and 75%, 50% and 33% of the recommended fungicide dose rate and the experiments were replicated for three years. Crop biomass had a significant influence on occurrence of septoria and yellow rust with greater disease severity at increasing crop biomass. In two of three years, the interaction of crop biomass and fungicide dose rate had a significant influence on disease severity indicating a biomass-dependent dose response. The interaction occurred in the two years with high yield potential in combination with severe disease attack. If the variation in crop density and biomass level obtained in the study is representative of the variation found cultivating winter wheat in heterogeneous fields, then there seems to be scope for optimizing fungicide input against foliar diseases site-specific adapting the dose according to crop density/biomass. 相似文献
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Since the production of durum wheat in the drier areas of the Mediterranean Basin is characterized by high variability in terms of yield and grain quality, there is also considerable interest in developing durum wheat in the northern regions, where the pedo-climatic conditions can offer the possibility of obtaining grain yields with higher technological quality and stability. However, the climatic conditions in the northern regions make durum wheat more prone to fungal foliar disease, particularly to Septoria Tritici Blotch (Septoria tritici Rob.) and to Fusarium Head Blight (Fusarium graminearum Petch and Fusarium culmorum Sacc.), with the consequent occurrence of DON in grains.Field experiments have been conducted over two growing seasons at four sites in North West Italy to evaluate the effect of fungicides and foliar nitrogen fertilizer application on durum wheat yield and grain quality. Five combinations of foliar application were compared at each site and each year (untreated control, azole fungicide application at heading, strobilurin fungicide at the stem elongation stage and/or at heading, the addition of a foliar N fertilizer to a fungicide programme). The following parameters were analysed: Septoria Tritici Blotch (STB) severity, flag leaf greenness using a chlorophyll meter, grain yield, test weight, grain protein content, ash content, vitreousness, Fusarium Head Blight (FHB) incidence and severity and deoxynivalenol (DON) contamination. The collected data underline that the cultivation of durum wheat at the climatic conditions of North Italy is actually risky and needs a direct control of fungal disease, which would be able to reduce the development of both foliar and head attacks. The double treatment, with a strobilurin application during the stem elongation stage and azole at heading, results to be an essential practice and showed advantages in terms of the delay of flag leaf senescence (+27%), STB control (+31), FHB control (+11%), yield (+32%) and DON contamination (−45%), compared to the untreated control. Other foliar treatments at heading, such as strobilurin or foliar N fertilizer applications, do not seem to provide any further advantage, for either grain yield or quality. No significant effect of fungicide or foliar N fertilizer application was recorded on the protein or ash concentration or vitreousness. 相似文献
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A foliar spray of 1% (w/v) solution of the fertilizer mono-potassium phosphate (MKP) (KH2PO4) on the upper surfaces of lower leaves of greenhouse-grown peppers induced local and systemic control against Leveillula taurica, as compared with control plants. This protection was expressed by a reduction in the leaf area covered with sporulating colonies and in conidial production on leaf tissue, 24 or 48 h post-treatment, when MKP was applied on lower leaves of plants that had been exposed to the source of inoculum. Foliar application of MKP, initiated before or after exposure to heavily diseased plants as the source of inoculum, was effective in controlling powdery mildew. Application of MKP efficiently suppressed powdery mildew as expressed by inhibition of the development of new sporulating colonies, as well as the conidial production of the fungus on infected tissue. Microscopic examination indicated destruction of both hyphae and conidial structures on MKP-treated leaves. The efficacy of MKP in controlling powdery mildew on greenhouse-grown plants was compared with a sterol-inhibiting systemic fungicide. Both treatments significantly inhibited powdery mildew as compared with non-treated control plants, although the fungicide-based treatment seemed to be slightly more effective (not significant) in controlling the disease. Phosphate solutions were not phytotoxic to plant tissue and did not affect the yield, as compared with the fungicide treatment. However, a lower yield was recorded for the non-treated control plots because of mildew infection on leaves. These data indicate that MKP spray may be applied as an alternative practice for the control of powdery mildew in peppers. 相似文献
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Four fungicides for seed treatments and one as foliar spray were tested in replicated field experiments in a strip plot design to determine the effect of fungicides on Helminthosporium leaf blight (caused by Cochliobolus sativus and Pyrenophora tritici-repentis) severity and grain yield of wheat. Wheat seed cv. RR 21 was treated with fungicides, carbendazim (Areestin), triadimenol (Baytan), tebuconazole (Raxil), and carboxin + thiram (Vitavax 200B). Single foliar application of propiconazole (Tilt) was sprayed at flowering stage. Controls were included for both factors and treatments were replicated four times. Triadimenol and carboxin + thiram increased seed germination in both years. Triadimenol, tebuconazole, and carboxin + thiram reduced the number of infected seedlings and seedling root rot severity in both years. Number of tillers was higher in carboxin + thiram treated plots compared to other seed treatments. Compared to the control, carboxin + thiram increased grain yield by 9% and 8% in 2004 and 2005, respectively, and triadimenol by 6% in both years. The foliar spray of propiconazole significantly reduced Helminthosporium leaf blight severity and increased thousand-kernel weights. Propiconazole spray increased grain yield by 15% and 14% in 2004 and 2005, respectively. Therefore, seed treatment either with triadimenol or carboxin + thiram in combination with single post-flowering foliar spray of fungicides should minimize grain yield loss due to wheat foliar blight in South Asia. The findings of this study could be useful in developing strategies to manage Helminthosporium leaf blight in South Asia and other warm wheat growing regions of the world. 相似文献
18.
Grain yields of winter wheat (Triticum aestivum L.) in the southern Great Plains are often reduced by the presence of foliar diseases. This study was conducted to determine whether the application of foliar fungicides is an economically optimal management strategy. The effects of fungicide treatment on commercially available hard red winter wheat varieties with differing levels of genetic resistance (i.e., resistant, intermediate, and susceptible) to foliar diseases were investigated at two locations, Apache and Lahoma, OK, USA, for the harvest years 2005–2012. Two fungicides were rotated between the two locations and applied at approximately Feekes growth stage 9–10.5. When averaged across years, plots to which fungicide was applied generated greater average net returns than plots that did not receive fungicide for susceptible varieties at Apache, and for resistant, intermediate, and susceptible varieties at Lahoma. However, foliar fungicide application was not economical in every year at either location suggesting fungicide use should be reassessed each year given that profitability depends on year specific yield potential, prices, and foliar disease conditions. At both locations high disease incidence occurred in all but one site-year when the average March through May relative humidity exceeded 65%. Additional research would be required to determine the relationship between weather, including relative humidity, and disease incidence, and to develop an economic threshold for treatment decision aid. 相似文献
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Inadequate disease control on citrus foliage and fruit is often attributed to insufficient fungicide spray deposition on target surfaces. This study describes a novel spray deposition assessment protocol and determines deposition benchmarks indicative of the biological effectiveness for better interpretation of spray deposition results. Suitability of a yellow fluorescent pigment as tracer for copper oxychloride deposition was demonstrated through its similar particle concentration and size. Spray deposition assessment of spray targets, which were sprayed with a mixture that included the fluorescent pigment, involved photomacrography of whole leaf or fruit surfaces, followed by digital image analyses. This protocol proved to be very accurate in determining the quantity and quality of deposition. To determine deposition benchmarks, detached young ‘Nova’ mandarin leaves were sprayed with copper oxychloride and fluorescent pigment at different concentrations (0.1–2 times the recommended concentration) and spray deposition assessed. Subsequently, leaves were spray inoculated with a spore suspension of Alternaria alternata [causal agent of Alternaria brown spot (ABS) of mandarins], moist-incubated for c. 48 h and symptom expression rated. A very good linear relationship was found between fungicide concentration, leaf area covered by fluorescent pigment particles (%FPC) (r = 0.879) and Cu residue analysis (r = 0.992). A von Bertalanffy growth curve best fitted the relation between ABS control and deposition quantity (%FPC) data (91% of the percentage variance accounted for) with a good correlation between observed and predicted values (r = 0.825). Benchmarks for 50% and 75% disease control were calculated as 2.07 %FPC and 4.14 %FPC, respectively. These corresponded with Cu residue levels of 59.4 and 91.0 mg kg−1, respectively. These FPC benchmarks can be used to evaluate spray technology research, specifically for control of ABS and similar citrus fruit and foliar diseases. 相似文献
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The control of citrus black spot (CBS) caused by Phyllosticta citricarpa relies mainly on fungicide sprays. Generally, high and non-standardized spray volumes are adopted and the sprays are based on litre per tree or per hectare. However, the tree canopy volume may vary with age, density and variety, and this is expected to impact on the spray volume and fungicide rates needed for disease control. This study evaluated the efficacy of different fungicide spray volumes and rates for CBS control based on the tree-row-volume (TRV) concept. Two field trials were carried out during three seasons in São Paulo state, Brazil. Trials were set up in commercial orchards of late-maturing ‘Valencia’ sweet orange grown for juice production. In field trial 1, the volumes tested were 125 (standard), 100 (internal runoff point), 75 (intermediate) and 50 (half the internal runoff point) mL of spray mixture/m3 of the tree canopy. In field trial 2, 100 and 50 mL/m3 were evaluated. The fungicide rates ranged from 40 to 110 mg of metallic copper/m3 and from 1.9 to 4.7 mg of pyraclostrobin/m3. Untreated control trees (UTC) were kept unsprayed. CBS incidence and severity, premature fruit drop, yield, fungicide deposition and spray coverage were evaluated. All spray volumes tested reduced CBS incidence and severity on fruit at 75–95% and resulted in 1.6–3.0-fold higher yields than the UTC. However, a slight trend of more CBS symptoms and fruit drop, and lower yield was observed for trees treated with 50 mL/m3 compared to those treated with higher volumes. Spray volume change, from 125 to 75 mL/m3, irrespective of fungicide rate correction, led to a 40% reduction of CBS spray costs and water usage and increased the financial return of the control by up to 35%. TRV-based sprays may contribute to sustainable citrus production by reducing costs and environment impacts while maintaining efficient CBS control. 相似文献