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1.
为了减少设施番茄生产中农药化肥的使用,集成了土壤熏蒸及水肥菌/药一体化技术,并在湖北十堰开展了设施番茄病害的综合防控试验示范。试验设置3个处理,分别为CK(不做土壤熏蒸+水肥药常规化管理)、T1(土壤熏蒸+水肥药常规化管理)、T2(土壤熏蒸+水肥药一体化管理)。田间试验结果表明:采用土壤熏蒸可使番茄的根结线虫病降低70.7%~75.0%,灰霉病、早疫病和青枯病的综合发病率降低33.0%~63.7%,产量增加25.0%左右;土壤熏蒸结合水肥菌/药一体化技术可使番茄的根结线虫病降低 82.7%~85.1%,灰霉病、早疫病和青枯病的综合发病率降低70.2%~74.0%,产量增加35.9%~41.0%。相对于常规管理措施,采用水肥菌/药一体化技术可以节约灌溉用水18.8%、节约用肥33.3%、节约用药21.3%。上述结果表明:土壤熏蒸消毒结合使用水肥菌/药一体化产品和技术,可以节水、节肥、节药,显著降低设施番茄各类病害的发生,提高番茄产量,实现节本增效。  相似文献   

2.
BACKGROUND: After the rinsing of spray equipment, the rinsing water contains polluting products. One way to avoid pollution is to bring the rinsing water over a purification system, a biological bed. The system consists of an impermeable tub filled with a biomix substrate that facilitates biodegradation of pesticides. Usually, straw is one component of the biomix. The objective of this study was to assess the efficiency of an unusual substrate, bagasse, a residue of sugar cane, for the degradation of three pesticides, glyphosate, malathion and lambda‐cyhalothrin. RESULTS: Results showed that more than 99% of malathion and glyphosate were degraded in 6 months. In the biological bed, the DT50 value for malathion was 17 days, for glyphosate 33 days and for lambda‐cyhalothrin 43 days. The degradation rate of aminomethylphosphonic acid (AMPA) residues from the degradation of glyphosate was slower than that of the other pesticides (DT50 69 days). Finally, the innocuousness of the biomix after 6 months of degradation was confirmed by biological tests. CONCLUSIONS: Although the degradation rates of the three pesticides in the present bagasse‐based system were similar to those under temperate conditions, the degradation conditions were improved by comparison with those in soil under the given tropical conditions. Further benefits of this system are pesticide confinement, to avoid their dispersion in the environment by liquids or solids, and a lower overall cost. Finally, possibilities for optimising the bagasse‐based system (e.g. management of the water content and nature of the biomix) are discussed. Copyright © 2008 Society of Chemical Industry  相似文献   

3.
Relatively large amounts of pesticides are needed to control diseases and pests in modern, intensive potato production. Integrated crop management offers a way of reducing the need for pesticides. It aims to reduce costs and improve the quality of the product and of the production methods, while maintaining soil fertility and the quality of the environment. The components of integrated crop management are described. Prevention of diseases and pests has high priority. If diseases or pests are present, non-chemical control methods are preferred and chemical control is based on economic criteria and the monitoring of the soil and crops. The contribution of integrated crop management to the control of two important fungal diseases, late blight (Phytophthora infestans), and stem canker (Rhizoctonia solani) and of one pest, potato cyst nematode (Globodera spp..) is described. The prospects for further development of integrated crop protection are discussed.  相似文献   

4.
Earthworm activity is beneficial in most natural and agricultural systems, but excessive earthworm casting is a problem on sports fields worldwide. Expulsion of soil‐rich earthworm fecal matter, or casts, as mounds of soil on the turf canopy can muddy the surface, reduce photosynthesis, and lead to thinning, weed invasion and surface softening. Casts affect ball roll on sports fields, cause fouling of maintenance equipment, and dull mower blades. Build‐up of cast material on reel mower units can affect height and quality of cut. Casting activity is dependent on environmental conditions such as soil texture, temperature, moisture, pH, and organic matter. Response to environmental conditions varies by species. Management options are limited, because no pesticides are specifically labeled for earthworm control at this time, and cultural control methods such as soil modification, turfgrass clipping removal, and sand topdressing have limited and inconsistent efficacy. Products containing plant‐derived saponins and irritants show promise for earthworm management. Pest management practices to mitigate excessive earthworm casting will likely need to be species‐specific, but limited knowledge of earthworm identification by end‐users further inhibits the efficacy of control measures. © 2019 Society of Chemical Industry  相似文献   

5.
In plant disease management, surfactants are generally used in combination with pesticides to facilitate delivery of the pesticide chemicals to the target sites in plants, vectors, or pathogens. Their intended use is rarely for direct effect on plant pathogens. However, trends in recent studies have revealed an appreciable increase in their use for direct management of plant diseases. In this paper, we briefly review the progress made in the use of surfactants for disease management, as adjuvants and when applied for direct effect. We carried out experiments to evaluate the effect of selected synthetic surfactants (Cohere, Kinetic, Silwet-77, and Induce) on powdery mildew in squash and bacterial spot in tomato. Results from this study showed that the effect of surfactants on these pathogens is dependent on the type of plant pathogen or disease. All tested surfactants exhibited in vitro bactericidal activity against Xanthomonas perforans, a causal pathogen of bacterial spot of tomato. In the greenhouse, Cohere significantly reduced disease severity of powdery mildew in squash compared to the untreated control. Cohere also showed promise in field trials against bacterial spot of tomato, but the other surfactants tested promoted this disease. Our studies demonstrate the importance of evaluating surfactants for their use in management of plant diseases both for direct effect and as adjuvants in tank mix.  相似文献   

6.
Microorganisms play an enormously important role in plant disease control. Research on biological control of plant pathogens has received major impetus and attracted many researchers during the past few decades due to the increased public concern on hazards associated with the use of synthetic pesticides. From research on utilizing specific antagonistic microorganisms, many effective biological control agents (BCAs) have been found and are increasingly implemented in integrated pest management strategies to control plant diseases. Here current research results on biological control against plant diseases carried out in Japan are reviewed by focusing on major categories of BCAs: fungi, bacteria and actinomycetes and attenuated viruses.  相似文献   

7.
This review concentrates on the situation of soilborne disease management on several vegetable crops with the use of different strategies, including host resistance and grafting, with special focus??based on the experience gained in Italy and Europe??on the practical problems encountered after the phaseout of methyl bromide. Special attention is given to the emergence of new diseases or the re-emergence of old ones on several crops, and on the results and problems encountered by using grafting, biofumigation and other non-chemical control methods. The search for effective, economically and environmentally sound methods for soil and substrate disinfestation remains a continuous and challenging task for growers, despite intensive research. The European Regulation No 1107/2009, concerning the placing of plant protection products on the market and the European Directive No 2009/128/EC, establishing a framework for Community action to achieve the sustainable use of pesticides, requires, by 2014, that all professional users implement the general principles of IPM. Research efforts associated with phaseout of methyl bromide generated new knowledge about the biology, ecology and management of soilborne pathogens and suggested more attention towards crop and soil health.  相似文献   

8.
The foliar nematodes, Aphelenchoides spp, have emerged as important pests of ornamentals in North America during the last decade. Due to the ban on the use of potentially toxic pesticides, there are currently no nematicides registered to manage foliar nematodes on ornamentals. Therefore, we have evaluated a biological [Burkholderia cepacia (syn Pseudomonas cepacia)], two plant products [clove (Syzygium aromaticum) extract and Nimbecidine (azadirachtin)] and twelve chemical pesticides registered for the management of insects, mites, slugs or diseases of ornamentals, against Aphelenchoides fragariae on the most popular ornamental, hosta (Hosta spp), for two consecutive years. We found ZeroTol (270 g liter-1 peroxyacetic acid), currently labeled as a broad-spectrum fungicide/algicide, to be a very potent nematicide that killed 100% of the nematodes in water suspension. It also caused over 70% reduction in A fragariae population in soil and in the leaves without any phytotoxicity. B cepacia caused 67-85% reduction in A fragariae population in leaves and 50% reduction in the soil whereas insecticidal soap caused over 72% reduction in leaves and 61% reduction in the soil. Clove extract and Nimbecidine did not show any potential for the control of A fragariae on hosta. Although all twelve chemical pesticides were effective in reducing the population of A fragariae in the soil 45 days after treatment (DAT), only diazinon 475 g liter-1 EC, trichlorfon 800 g kg-1 SP, ethoprophos 100 g kg-1 GR, oxamyl 100 g kg-1 GR and ZeroTol caused over 70% reduction in nematode population compared with the control. In the leaves, only diazinon EC, trichlorfon SP, insecticidal soap, oxamyl GR and ZeroTol consistently caused over 70% nematode population reduction compared with the control at 45 DAT in both years. Thus, only diazinon EC, trichlorfon SP, oxamyl GR and ZeroTol consistently caused over 70% reduction in nematode population both in soil and leaves. Due to the recent ban by the US Environmental Protection Agency on the use of the first three of these formulations, only ZeroTol would serve as an effective tool to manage foliar nematodes in ornamentals. Although not as effective as ZeroTol in the soil, insecticidal soap is the only other alternative for foliar nematode management.  相似文献   

9.
真菌病毒是在真菌体内复制和增殖的病毒,在真菌中广泛存在。农业生产中70%~80%的植物病害由病原真菌侵染导致,真菌病毒能够减弱植物病原真菌的致病性,还可以将其转换为内生真菌从而促进植物生长和抗病,因此真菌病毒是一类重要的生防资源。本文综述了真菌病毒减弱寄主致病性机理及其在病害防治中的应用,同时提出了真菌病毒用于生物防治的前景和面临的问题,为植物真菌病害的生物防治提供参考。  相似文献   

10.
The global sustainability agenda is increasing the demand for reduction in inputs into agricultural production while maintaining profitable yield of quality products. Plant diseases are a major constraint for both yield and product quality, but often tools for their control are ineffective or lacking. Biological control using antagonistic microorganisms has long been a subject of research resulting in a wide range of products that are now available and marketed in specific territories around the world. These preparations are often niche products with narrow uses. The research effort is intense both to develop new biological control agents (BCAs) and to obtain knowledge of the mechanisms underlying biological disease control. The prospects for biological control are promising. As a minimum, BCAs supplement other sustainable disease management practices such as disease resistance, and present opportunities for controlling diseases for which other approaches are ineffective or unavailable. We can realistically expect increasing use of BCAs to control crop diseases in ways that will benefit the environment. This review paper arose from a webinar held by the British Society for Plant Pathology as part of the International Year of Plant Heath (IYPH2020), at which many of the 300 participants posed or discussed interesting questions. This review is based on that input and the panel members at the webinar are all included as co-authors in this review.  相似文献   

11.
我国植物病害生物防治的现状及发展策略   总被引:15,自引:1,他引:14  
邱德文 《植物保护》2010,36(4):15-18
植物病害生物防治是利用有益微生物和微生物代谢产物对农作物病害进行有效防治的技术与方法,本文介绍了我国在生物农药资源筛选评价体系、基因工程、发酵代谢工程等方面取得的可喜进展和研制出的多种高效植物病害生物防治药物;提出未来5~10年,植物病害生物防治学科领域主要工作是集成现代科学技术,进一步明确不同生防因子控制植物病害的分子机制,加强国际合作与交流,建立有关领域共享技术的合作研究平台,提高植物病害生物防治的基础与应用基础研究水平;指出植物病害的生物防治是保障食品和环境安全的重要措施,对国家可持续农业的健康发展具有重大的战略意义。  相似文献   

12.
AugmentahvebiologicalconbolinvolvesthereleaseofnatUralendriesWhentoofewarepresenttocontrolaPeSteffeCtively.ItreliesontheabilitytoproducempnuInbers(i.e.hillions,tril-lions,etc.)ofthenatUndenemy.WhenthePIDductionofthesenatuIalenetheesmpireslmpmtSofmanallabor,thecostforsuchapro~isprohibitive,anditisnotabletocomPetewiththecostofothercontrDlmeth0ds-OnewaytoreduceIhecostSofinsectpnduchonistoaut0-.Ths~arepmtedinthe"MassRearing0fAn~Bi0I0gicalConedAgnt8"SyrnpeiumattheIntemationalConfer-aredI…  相似文献   

13.
作物土传病害的危害及防治技术   总被引:14,自引:0,他引:14  
近20年来,保护地在中国有了较大的发展,而保护地的发展和作物的连年栽培,导致土传病害和根结线虫发生越来越重,连续栽培3~5年后,作物产量和品质受到严重的影响,已成为生产中的突出问题。本文简述了我国重要作物如玉米、小麦、棉花、大豆、油菜的土传病害种类,以及高附加值作物黄瓜、番茄、茄子、辣椒、瓜类等作物的土传病害种类和20年来的变化。介绍了土传病害的防治方法,如农业防治包括轮作、抗性品种、嫁接、有机质补充、生物熏蒸、厌氧消毒;物理防治技术如太阳能消毒、蒸汽消毒、热水消毒、火焰消毒;化学防治技术如氯化苦、棉隆、威百亩、二甲基二硫、异硫氰酸烯丙酯、硫酰氟;生物防治技术如木霉、枯草芽胞杆菌、荧光假单胞菌、植物促生菌,以及预防为主的综合防治技术。种子、种苗消毒技术在本文中也进行了介绍。  相似文献   

14.
2018年以来, 我国在主要农作物真菌、卵菌、细菌、病毒和线虫病害的病原菌致病机制解析、寄主植物抗病机理研究、主要农作物病害监测预警及绿色防控关键核心技术研发与应用方面取得了系列重要进展, 同时推进了抗病品种、纳米农药、免疫调节和生态调控等病害防控新技术与新产品的研发。根据国内外农作物病害综合防治科技发展趋势和中国农业高质量发展现实需求, 我国需进一步重视农作物病害交叉学科前沿和新兴技术领域, 聚焦保障国家生物安全和粮食安全的主责主业, 强化农作物病害防控理论创新、技术创新, 创制智能监测预警和绿色防控新技术、新产品, 创新集成区域绿色防控和跨区协同治理技术体系, 为实现高水平农业科技自立自强、支撑农业强国建设贡献植保力量。  相似文献   

15.
The seminal work of Stern and his coauthors on integrated control has had a profound and long‐lasting effect on the development of IPM programs in western orchard systems. Management systems based solely on pesticides have proven to be unstable, and the success of IPM systems in western orchards has been driven by conservation of natural enemies to control secondary pests, combined with pesticides and mating disruption to suppress the key lepidopteran pests. However, the legislatively mandated changes in pesticide use patterns prompted by the Food Quality Protection Act of 1996 have resulted in an increased instability of pest populations in orchards because of natural enemy destruction. The management system changes have made it necessary to focus efforts on enhancing biological control not only of secondary pests but also of primary lepidopteran pests to help augment new pesticides and mating disruption tactics. The new management programs envisioned will be information extensive as well as time sensitive and will require redesign of educational and outreach programs to be successful. The developing programs will continue to use the core principles of Stern and his co‐authors, but go beyond them to incorporate changes in society, technology and information transfer, as needed. Copyright © 2009 Society of Chemical Industry  相似文献   

16.
黄曲条跳甲是为害十字花科蔬菜的世界性害虫。本文研究了昆虫病原菌苏云金杆菌工程菌G033A和金龟子绿僵菌CQMa421防治萝卜黄曲条跳甲田间应用技术。结果表明,采用昆虫病原微生物苏云金杆菌G033A和金龟子绿僵菌CQMa421土壤处理防治黄曲条跳甲均具有较好的防效,其中32000 IU/mg苏云金杆菌工程菌G033A可湿性粉剂300 g/667 m2土壤处理防治效果显著优于对照化学药剂,且持效期较长,具有明显的减药、省力、降成本作用。针对萝卜主要病虫害开展了全程生物防控技术示范,结果表明全程生物防控技术不仅防治效果好,且较常规化学防治技术增产达到14.8%,品质得到提升,商品优良率提高12%,可进一步大面积示范推广。  相似文献   

17.
In this paper, we explore the application of weather index insurance to plant pest and disease management strategies using two distinct models: (1) insuring crop loss due to disease incidence (“Crop Insurance”) and (2) insuring the use of pesticides (“Pesticide Insurance”). We find that despite the seeming ease of applying weather-based pest incidence models to an insurance product, insuring plant disease incidence models is presently unsuitable for the insurance market for both scientific and behavioral reasons. However, derivative-like applications of weather index insurance to insure pesticide use offer a means to introduce financial leverage into pesticide usage decisions. Risk management with weather index insurance would thus function as a complement to existing risk management strategies using pesticides, and offer a market-based mechanism for pesticide abatement. We conclude that more interdisciplinary collaboration is needed to develop weather index insurance for remuneration of losses due to plant pests and diseases, but weather index insurance offers a potential mechanism to reduce inefficiencies and negative externalities in agricultural markets if pesticide expenditures are insured instead of crop losses.  相似文献   

18.
We investigated the sorption of five widely used sterol biosynthesis inhibitor fungicides (SBIs: flusilazole, propiconazole, epoxiconazole, fenpropimorph and prochloraz) on a loam soil to assess availability of the SBI residues that are usually left in soil after crop treatments. We focused particularly on the soil moisture content effect, which is poorly documented and is difficult to investigate under realistic conditions. SBI sorption was determined (using diuron as a reference) at two soil moisture contents (26.1% and 46.6% w/w) over a period of 3 weeks using a direct soil solution sampling method. After 24 h of contact, <1% of each applied fungicide was recovered in the soil solution. Despite their low availability in the liquid phase, long‐term sorption was observed for all the compounds, reducing concentrations in the soil solution and doubling the value of the partition coefficient. Significant effects of soil moisture on long‐term sorption were observed, depending on the properties of the chemicals and the sorption mechanisms. Wershaw's humus model (humic substances have a membrane‐like structure) was adapted to fit our observations. Low soil moisture content is assumed to modify the structure of humic substances and to generate hydrophobic surfaces, which favour sorption of hydrophobic fungicides (flusilazole, propiconazole and epoxiconazole). This effect is likely to decrease with the increase in the hydrophobic character of non‐ionic pesticides. It becomes adverse for the more hydrophilic compounds (diuron), which are more sorbed at high soil moisture content due to their higher affinity for hydrophilic regions of humus and to diffusion. Soil moisture effects are more complex when compounds are likely to be protonated in soil. Weakly basic compounds (prochloraz) may partition rapidly into the liquid‐like interior of humus at low soil moisture content but increased diffusion at high soil moisture content may cause additional sorption by ion exchange at colloid surfaces. Strongly basic compounds (fenpropimorph) may essentially adsorb due to ionic interactions with colloids, and their sorption is enhanced at high soil moisture content due to diffusion. Consequences for environmental fate and biological activity of pesticides are briefly discussed. © 2000 Society of Chemical Industry  相似文献   

19.
病虫草害防控是国家总体安全建设的重要组成部分。微生物天然产物农药是病虫草害绿色防控体系的重要成员, 在保障国家粮食安全、生态安全和农产品质量安全, 筑牢国家生物安全屏障中具有重要作用。链霉菌以能够产生丰富的次级代谢产物而著称, 是天然产物农药的资源宝库, 也是重要的天然产物药物的工业生产菌。然而, 随着病虫草害抗药性增强, 新发、突发病虫草害增多等问题不断涌现, 以及天然产物研究面临新骨架、高活性化合物发现难度增大, 工业菌株产量提升困难等瓶颈, 链霉菌天然产物农药创制与应用正面临巨大挑战。合成生物学作为一门交叉学科, 突破了生物学研究的传统模式, 为天然产物药物研发提供了新的思路与策略。本文综述了近年来合成生物学在链霉菌研究领域的技术革新, 以及合成生物学在推动链霉菌天然产物资源发现、天然产物高效生物制造等方面的研究进展, 并对合成生物学助力链霉菌天然产物农药的创制与产业化进行了展望。  相似文献   

20.
传统的物理和化学药剂防治等调控措施已不能满足农业植物病害防控需求,迫切需要寻求新的技术和措施。近年来,纳米技术在植物病害防控方面取得了突破性研究进展,为纳米技术成为现代化农业高效生产和可持续发展的强有力工具奠定了基础。为深入了解纳米技术在植物病害防控中应用的研究进展及其实践应用,主要从2个层面综述了纳米技术在植物病害防控中的应用,包括无机纳米材料和金属纳米材料对植物病原菌的抗菌性研究,利用纳米农药和纳米载体防治植物病害的研究现状,指出了纳米技术在病害防控中的不足之处,同时展望了纳米技术在未来农业领域的发展趋势和重要地位,为利用新兴纳米技术高效、绿色防治植物病害提供重要的理论依据和实践应用指导。  相似文献   

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