Evaluation of fungicides to control potato late blight (Phytophthora infestans) in the plains of Nepal

Fungicide application is an effective management option to control late blight of potato (caused by Phytophthora infestans). Field experiments were conducted to evaluate the efficacy of recently introduced and previously used fungicides on late blight management and potato yields in the western plains of Nepal in 2015 and 2016 crop seasons. Fungicides and a non-treated control (NTC) were replicated three times in a randomized block design planted with late blight susceptible cultivar Cardinal. Chlorothalonil, copper oxychloride, dimethomorph, fenamidone + mancozeb, mancozeb and metalaxyl were sprayed in 2015. In 2016, carbendazim was used instead of chlorothalonil. The area under disease progress curve (AUDPC) was consistently reduced in years by dimethomorph (90% and 65% in 2015 and 2016, respectively), fenamidone + mancozeb (68% and 62%) and mancozeb (40% and 47%) compared with the NTC. Similarly, tuber yield was increased with the application of dimethomorph (266% and 146% in 2015 and 2016, respectively), fenamidone + mancozeb (211% and 155%) and mancozeb (136% and 116%) compared with the NTC. Chlorothalonil reduced AUDPC by 43% and increased tuber yield by 170% in 2015. Other fungicides either had inconsistent results or did not reduce late blight severity and consequent effects on potato yield. The overall benefit–cost ratio was highest for dimethomorph in both years. These results show efficacy of dimethomorph, fenamidone + mancozeb and mancozeb in reducing late blight severity and increasing potato tuber yield in the plains of Nepal.     

Climate change may have limited effect on global risk of potato late blight

Weather affects the severity of many plant diseases, and climate change is likely to alter the patterns of crop disease severity. Evaluating possible future patterns can help focus crop breeding and disease management research. We examined the global effect of climate change on potato late blight, the disease that caused the Irish potato famine and still is a common potato disease around the world. We used a metamodel and considered three global climate models for the A2 greenhouse gas emission scenario for three 20‐year time‐slices: 2000–2019, 2040–2059 and 2080–2099. In addition to global analyses, five regions were evaluated where potato is an important crop: the Andean Highlands, Indo‐Gangetic Plain and Himalayan Highlands, Southeast Asian Highlands, Ethiopian Highlands, and Lake Kivu Highlands in Sub‐Saharan Africa. We found that the average global risk of potato late blight increases initially, when compared with historic climate data, and then declines as planting dates shift to cooler seasons. Risk in the agro‐ecosystems analyzed, varied from a large increase in risk in the Lake Kivu Highlands in Rwanda to decreases in the Southeast Asian Highlands of Indonesia.     

马铃薯抗晚疫病基因Rpi-blb2的LRR区域多态性及分子进化分析

马铃薯抗晚疫病基因Rpi-blb2是来源于马铃薯野生种Solanum bulbocastanum中的一个具有广谱抗性的NBS-LRR类抗病基因。文章用PCR的方法从20个高抗晚疫病的马铃薯栽培种和20个高感晚疫病的马铃薯栽培种以及7个马铃薯野生种中克隆了Rpi-blb2基因的LRR区段。采用生物信息学方法对这些序列的相似性、多态性位点、核酸多样性指数等参数进行了分析,发现Rpi-blb2的LRR区域在核酸水平上变异程度很高,而且存在多处热点突变位点;通过对该区域的Ka/Ks值进行估算,发现Rpi-blb2的LRR区域总体上受到纯化选择,功能保守,但是LRR区域的不同部位所受到的选择压力却不尽相同。同时,从核酸水平来看,Rpi-blb2基因的LRR区域在马铃薯栽培种和马铃薯野生种之间没有发现明显的分化。     

Integrating bioagents with plant extract,oil cake and fungicide in various modes of application for the better management of web blight of urdbean

Abstract

Field trials were conducted to determine the efficacy of the integration of treatments based on a bioagent (Trichoderma viride), botanical (leaf extract and cake of Pongamia glabra), fungicide (carboxin) and Rhizobium sp. in various modes of applications for the management of web blight (Rhizoctonia solani Kühn) and their influence on grain yield of urdbean (Vigna mungo [L.] Hepper). Modes of applications were soil treatment, seed treatment and foliar spray. Among 54 integrations evaluated, soil application of P. glabra cake (200 kg ha^?1), seed treatment with integration of T. viride (2 g kg^?1 seed), carboxin (1 g kg^?1 seed) and Rhizobium sp. (25 g kg^?1 seed), and foliar spray of P. glabra leaf extract (10%) were found superior as they increased seed germination by 31.6%, yield by 36.0% and reduced disease intensity by 94.8%, and also significantly enhanced plant height, root length and number of root nodules of urdbean. The same integration without corboxin was also effective and could be used in organic production of urdbean. The integration of any two modes of application was found superior over any one alone.     

Effect of orange essential oil and its constitutes on late blight disease of potato plants under field conditions

Late blight caused by Phytophthora infestans is the most important disease attacking potato plants. Four concentrations of essential oils i.e. 0.0, 1.25, 2.5, 5.0 and 7.5 ml/l of Orange, Citral, Methyl antranate (MA), and Terbinol were tested for controlling late blight disease. Results indicate that all treatments except orange oil have an inhibitory effect against the linear growth of P. infestans. Complete reduction in linear growth was obtained with Citral and MA at concentrations of 5.0 and 7.5 ml/l. Other treatments showed moderate effect against P. infestans. In greenhouse experiments, results indicate that all treatments have protective and therapeutic effects against late blight disease except Orange oil which has a protective effect only. High reduction was obtained with Citral and MA at concentrations of 2.5 and 5.0 ml/l which reduced the disease severity by more than 77.1 and 62.8% when applied as protective and therapeutic treatments respectively. Moderate effect was obtained with orange oil and Citral at concentration of 7.5 ml/l for both treatments which reduced the disease severity by more than 65.7% when applied as protective treatments. Similar results were obtained under field coditions; results indicate that all treatments reduced the late blight severity during two growing seasons. High reduction was obtained with Citral and MA at concentrations of 2.5 and 5.0 ml/l which reduced the disease severity by more than 80.0%. As for potato yield, results indicate that all treatments increased potato yield during two growing seasons. A high increase was obtained with Citral and MA at concentrations of 2.5 and 5.0 ml/l which increased the potato yield by more than 59.1%. Other treatments showed a moderate increase. It could be suggested that some essential oils of citrus or their constituents might be used for controlling late blight disease potato plants under field conditions.     

Phosphite uptake and distribution in potato tubers following foliar and postharvest applications of phosphite‐based fungicides for late blight control

Foliar and postharvest applications of phosphite (Phi)‐based fungicides are used to control the oomycete Phytophthora infestans which is responsible for the occurrence of late blight in potatoes. Optimisation of the usage of Phi‐based fungicides for disease control during the growing season and in subsequent storage can lead to improved potato production and processing quality. In order to assess the efficiency of Phi translocation to tubers, following foliar and postharvest treatments of potato crops with the Phi‐based fungicides, the amount of Phi in tubers was determined by a high‐performance ion chromatography method. The quantity of Phi found in tubers increased with the total amount of Phi‐based fungicides applied during the growing season. Foliar applications of Phi resulted in an uneven distribution of Phi in the three tuber regions analysed, with high concentrations being identified in the tuber cortex (32.5–166.4 µg g^?1 fresh tissue) and medulla regions followed by the skin area. Postharvest treatment of tubers led to a different distribution of Phi, with the highest concentrations of Phi found in the skin (411.0–876.6 µg g^?1 fresh tissue) followed by the cortex and medulla regions. As foliar treatments are essential to protect the aerial parts of the plants during the growth season, the best disease management practices of tubers should include the postharvest treatment in addition to foliar applications. The use of both types of treatments ensures that concentrations of Phi in excess of 100 µg g^?1 fresh tissue are present in tuber skin and cortex areas; such concentrations are needed to suppress the growth of P. infestans on tubers during storage.     

Efficacy of some medicinal plant extracts and essential oils against Colorado potato beetle,Leptinotarsa decemlineata Say (Coleoptera: Chrysomelidae)

The Colorado potato beetle (CPB), Leptinotarsa decemlineata Say is one of the most important defoliator pests of potato in the world and it often causes extremely large potato yield losses. Potatoes are the preferred hosts for the pest, but it may feed and reproduce on a number of other plants in the Solanaceae family. Public concern related to pesticides and their residues in and on the foods had prompted a rise of consumer interest in organically produced foods. There have been growing efforts to detect and introduce suitable plant compounds that they have insecticidal properties. However, discovering of plant extracts for possible use in control of this pest requires more studying about plant extracts and compounds. Since resistance of CPB to common chemical insecticides is well documented and potato is one of the most prominent nutritious food products for many people in many countries, we examined the effect of essential oils (EOs) of European pennyroyal, lavander, mint, oregano and savory and methanolic extracts of fumitory, licorice and oregano on the pest. These plants were selected because they have medicinal properties and they are safe to human and environment. Adult CPBs were exposed to mentioned plant extracts and essential oils. LC₅₀ values for EOs of lavander and European pennyroyal were 4154 and 3561 ppm, respectively. The results demonstrated that essential oil of European pennyroyal (Mentha longifolia) would be suitable compound to control the pest, but essential oil of mint (Mentha spicata) was not effective against the pest. Also it is notable that at all treatments, the amount of adult feeding was very low.     

The R1 gene for potato resistance to late blight (Phytophthora infestans) belongs to the leucine zipper/NBS/LRR class of plant resistance genes

Late blight caused by the oomycete Phytophthora infestans is the most destructive disease in potato cultivation worldwide. New, more virulent P. infestans strains have evolved which overcome the genetic resistance that has been introgressed by conventional breeding from wild potato species into commercial varieties. R genes (for single-gene resistance) and genes for quantitative resistance to late blight are present in the germplasm of wild and cultivated potato. The molecular basis of single-gene and quantitative resistance to late blight is unknown. We have cloned R1, the first gene for resistance to late blight, by combining positional cloning with a candidate gene approach. The R1 gene is member of a gene family. It encodes a protein of 1293 amino acids with a molecular mass of 149.4 kDa. The R1 gene belongs to the class of plant genes for pathogen resistance that have a leucine zipper motif, a putative nucleotide binding domain and a leucine-rich repeat domain. The most closely related plant resistance gene (36% identity) is the Prf gene for resistance to Pseudomonas syringae of tomato. R1 is located within a hot spot for pathogen resistance on potato chromosome V. In comparison to the susceptibility allele, the resistance allele at the R1 locus represents a large insertion of a functional R gene.     

Crop connectivity under climate change: future environmental and geographic risks of potato late blight in Scotland

The impact of climate change on dispersal processes is largely ignored in risk assessments for crop diseases, as inoculum is generally assumed to be ubiquitous and nonlimiting. We suggest that consideration of the impact of climate change on the connectivity of crops for inoculum transmission may provide additional explanatory and predictive power in disease risk assessments, leading to improved recommendations for agricultural adaptation to climate change. In this study, a crop‐growth model was combined with aerobiological models and a newly developed infection risk model to provide a framework for quantifying the impact of future climates on the risk of disease occurrence and spread. The integrated model uses standard meteorological variables and can be easily adapted to various crop pathosystems characterized by airborne inoculum. In a case study, the framework was used with data defining the spatial distribution of potato crops in Scotland and spatially coherent, probabilistic climate change data to project the future connectivity of crop distributions for Phytophthora infestans (causal agent of potato late blight) inoculum and the subsequent risk of infection. Projections and control recommendations are provided for multiple combinations of potato cultivar and CO₂ emissions scenario, and temporal and spatial averaging schemes. Overall, we found that relative to current climatic conditions, the risk of late blight will increase in Scotland during the first half of the potato growing season and decrease during the second half. To guide adaptation strategies, we also investigated the potential impact of climate change‐driven shifts in the cropping season. Advancing the start of the potato growing season by 1 month proved to be an effective strategy from both an agronomic and late blight management perspective.     

水杨酸对马铃薯试管微薯形成的影响研究

研究了不同浓度水杨酸（ＳＡ）对马铃薯脱毒试管苗生长,分化及试管微薯诱导和发育的 浓度ＳＡ显著抑帛式管苗主茎和根的生长,促进侧枝和匍匐茎分化。高浓度（０．１－１．０ｍｍｏｌ／Ｌ）ＳＡ能诱导试管微薯形成并显著提高结薯率。ＳＡ浓度为０．５ｍｍｏｌ／Ｌ时,结薯率最高,且成薯集中,薯块大小整齐一致。     

The effects of abscisic acid on growth and respiratory characteristics of potato tuber tissue discs

Incubation of potato tuber tissue discs on B5 medium supplemented with 1-naphtyl-acetic acid (NAA) led to callus formation, irrespective of the presence of kinetin; without NAA no callus formation occurred. Incubation in the presence of abscisic acid (ABA) reduced the increases in fresh weight and dry weight both in callus-forming and in non-callus-forming tissue. Mitochondrial respiration was lowered by ABA as well. The induction of the alternative, CN-resistant pathway was inhibited by the presence of ABA, especially in mitochondria from non-callus-forming tissue.The in vivo respiration of the callus-forming tissue was higher than that of the non-callus-forming tissue. Total respiration, cytochrome pathway activity and the capacity of the alternative pathway were all lowered in callus-forming tissue by treatment with ABA. The in vivo activity of the alternative pathway was low in all tissue types, especially after ABA-treatment. The slight stimulation by hydroxamates of the oxygen uptake of callus-forming tissue incubated on medium with NAA and ABA indicates the involvement of a hydroxamate-activated peroxidase in the oxygen uptake of this tissue; this peroxidase seemed not to participate in the oxygen uptake of the other tissues types.In non-callus-forming tissue the oxygen uptake of ABA-treated tissue was very low and almost completely resistant to the combined addition of inhibitors of both the cytochrome and the alternative pathway, indicating that the in vivo activity of the mitochondria in the oxygen uptake of the tissue was very low. The possible causes for this ABA-effect are discussed. In non-callus-forming tissue the treatment with ABA creates a situation which is comparable with that observed in intact potato tubers. This situation is characterized by a tissue respiration lower than that of the isolated mitochondria and an alternative pathway capacity that is low or absent.     

Seed potato (Solanum tuberosum L.) yield and tuber number increase after foliar applications of cytokinins and gibberellic acid under field and glasshouse conditions

The purpose of these experiments is to determine the effects of foliar applications of benzylaminopurine (BAP) and gibberellic acid (GA) on tuber number production of seed potatoes. In field experiments conducted during 1989/90 cv. Mailén was used and BAP, 50 mg·l^–1 was foliarly applied at (1) tuber initiation, 36 days after emergence (DAE); (2) 54 DAE; and, (3) 64 DAE. Under glasshouse conditions, in 1991/92 cv. Spunta was used and BAP 50 mg·l^–1+GA 50 mg·l^–1 were applied 30 and 37 days after planting/transplanting. In 1992 cv. Huinkul, Kennebec and Spunta were used and BAP 50 mg·l^–1+GA 50 mg·l^–1 and Biozyme (Techic SA), a commercial product with auxin (IAA, 32.2 mg·l^–1), gibberellic acid (GA₃, 32.2 mg·l^–1) and cytokinins (zeatin, 83.2 mg·l^–1) at 5 ml·l^–1 were applied. In cv. Mailén, a higher tuber number in the seed fraction (<80 g) was found when BAP was applied at each of the three crop stages, while applications 54 and 62 DAE also increased tuber number in the 80–400 g fraction. As a result of BAP applications, tuber yield was also significantly increased. In the glasshouse experiments, cv. Spunta showed a significant increase in minituber production in 3 out of 4 cases, either if the mother plant came from in vitro generated plantlets or minitubers, or if GA + BAP or Biozyme was applied. It can be concluded that the use of these PGRs under both field and glasshouse conditions in cvs. Mailén and Spunta can result in increased tuber number in the seed fraction.     

番茄抽提物对小菜蛾的忌避,拒食及抑制产卵作用

在自然变温条件下,研究了番茄抽提物对小菜蛾成虫的忌避、幼虫的拒食作用及成虫繁殖力的影响。试验表明：番茄抽提物对小菜蛾成虫具有很强的忌避作用;用番茄抽提物处理过的包菜叶饲喂小菜蛾幼虫,其拒食率达５３％;番茄提物对小菜蛾成虫产卵也有明显抑制作用,产卵量下降６０％;番茄与包菜间种能明显地抑制小菜蛾种群数量的增长。其种群可下降５０％以上。     

Occurrence and management of fungicide resistance in Botrytis cinerea on tomato from greenhouses in Hebei,China

Grey mould, caused by the fungal pathogen Botrytis cinerea, is one of the most devastating tomato diseases, and the control of this disease is mainly by the application of chemicals. In this study, 512 isolates of B. cinerea were collected from tomato grown in greenhouses at 10 locations in 10 cities of Hebei Province from 2011 to 2016 and tested for their sensitivities to carbendazim (Car), diethofencarb (Die), iprodione (Ipr) and pyrimethanil (Pyr). Of these tested isolates, 95.7%, 95.2%, 31.6% and 89.4% were resistant to Car, Die, Ipr and Pyr, respectively. There were nine fungicide‐resistant phenotypes in the tested isolates. Car^RPyr^RDie^RIPR^S and Car^RPyr^RDie^RIPR^R were the most common phenotypes, accounting for 59.6%, and 31.1% of the tested isolates, respectively. The field trials showed that the control efficacies (CE) of carbendazim + diethofencarb (WP, 25% + 25%), pyrimethanil (EC, 40%) and iprodione (WP, 50%) at the recommended doses were 22.75%–29.23%, 58.44%–64.19% and 61.02%–65.17%, respectively, significantly lower than those of boscalid (WG, 50%) and pyrisoxazole (EC, 25%). The resistance management trial conducted from 2015 to 2017 indicated that the CE of tomato grey mould in the experimental fields was higher than 90% and the sensitivity to carbendazim, diethofencarb and pyrimethanil of B. cinerea isolates from the experimental fields increased on a yearly basis. These results showed that the frequency of resistance to Car, Die, Ipr and Pyr was high, and these four fungicides could not effectively control tomato grey mould. Tomato grey mould could be controlled by using biopesticides and newly synthesized fungicides with different modes of action. Our findings would be useful in designing and implementing fungicide resistance management spray programmes for the control of tomato grey mould.     

抽穗扬花期不同灌水处理对晚稻抵御低温、产量和生理特性的影响

以超级杂交晚稻品种‘五丰优T025’为材料,设置日排夜灌,灌溉水深4～5 cm(H₁);日排夜灌,灌溉水深8～10 cm(H₂);深水灌溉,保持水深8～10 cm(H₃)等3个处理,以稻田湿润处理水层0～1 cm为对照,研究了抽穗扬花期遭遇低温条件下不同灌水方式和水层深度对双季晚稻生理特性及产量的影响.结果表明: 低温期间,不同灌水处理叶片、土层和冠层温度较对照均有所提高,其中H₂处理增温效果最好.低温胁迫下各处理稻株叶片叶绿素含量、净光合速率、蒸腾速率、叶片气孔导度和胞间CO₂浓度均逐渐降低,其中H₂处理降低幅度最小;H₂处理叶片丙二醛、游离脯氨酸含量上升幅度最小,可溶性蛋白含量高于其余处理,超氧化物歧化酶和过氧化物酶增幅最小,过氧化氢酶下降幅度最小.灌水保温均可达到增产效果,以H₂处理效果最佳,遭遇低温的2014年和2015年第二播期H₂处理分别比对照增产12.9%和13.5%;从产量结构上看,各处理较对照在单株有效穗数、穗长、结实率、千粒重上均有一定的改善,日排夜灌8～10 cm水深处理是增强双季杂交晚稻抽穗扬花期低温抵御能力较为实用的农艺措施.     

Bone and faecal minerals and scanning electron microscopic assessments of femur in rats fed phytic acid extract from sweet potato (<Emphasis Type="Italic">Ipomoea batatas</Emphasis>)

Phytic acid was extracted from sweet potato (Ipomoea batatas) and fed to Wistar rats with or without zinc for 3 weeks. Animals were then sacrificed and bone and faecal minerals were assessed. The ultra-structure of the bones was examined via scanning electron microscopy. Phytic acid extract or commercial phytic acid supplemented diets (D + Zn + PE or D + PE) displayed reduced bone calcium levels (101.27 ± 59.11 and 119.27 ± 45.36 g/kg) compared to the other test groups. Similarly, reduced calcium were observed in the control groups (D + Zn and D) fed formulated diets with or without zinc supplementation (213.14 ± 15.31 and 210 ± 6.88 g/kg) compared to the other test groups. The group fed supplemented commercial phytic acid diet (D + CP) demonstrated the lowest femur magnesium (3.72 ± 0.13 g/kg) while the group fed phytic acid extract supplementation (D + PE) recorded the highest level (4.84 ± 0.26 g/kg) amongst the groups. Femur iron was highest in the group fed commercial phytic acid supplemented diet (D + CP −115.74 ± 2.41 g/kg) compared to the other groups. Faecal magnesium levels were significantly higher in the two test groups fed phytic acid extract with or without zinc (D + Zn + PE or D + PE) compared to all other groups. All the groups which had phytic acid supplemented diets had significantly thinner bone in the trabecular region, compared to the groups fed formulated diet or zinc supplemented formulated diet (D or D + Zn). These observations suggest that the consumption of foods high in phytic acid may contribute to a reduction in the minerals available for essential metabolic processes in rats.     

氮源种类及浓度对眼点拟微绿球藻生长密度、油脂产率和二十碳五烯酸含量的影响

氮源是影响微藻生长和油脂积累的重要因素,文中通过单因素试验比较了NaNO3、CO(NH2)2、NH4Cl、CH3COONH4及其浓度对眼点拟微绿球藻生长密度、生长速率、油脂产率、二十碳五烯酸(EPA)含量的影响。结果表明：NH4+更易被眼点拟微绿球藻利用,能更好地促进微藻生长和油脂积累;氮浓度的增加有利于微藻的生长和藻油脂肪酸的去饱和,但不利于微藻油脂的积累。在实验考察的氮源种类和浓度范围内,CH3COONH4是促进眼点拟微绿球藻生长和油脂积累、EPA生成的适宜氮源,其适宜的浓度为5.29 mmol/L。