共查询到20条相似文献,搜索用时 15 毫秒
1.
Modern methods in plant production and crop protection are closely related to modern technologies. Near-range and remote sensing, like hyper- and multispectral sensors or thermography, in precision pest management possess multiple opportunities to increase the productivity of agricultural production systems and do them more environmentally acceptable. Experiments are carried out on sugar beet plants and their pathogens to investigate the use of imaging and non-imaging hyperspectral sensors referring to the following questions: Is early detection of infection by pathogens possible? What is the potential to differentiate damage causing organisms? 相似文献
2.
Zijlstra C Lund I Justesen AF Nicolaisen M Jensen PK Bianciotto V Posta K Balestrini R Przetakiewicz A Czembor E van de Zande J 《Pest management science》2011,67(6):616-625
The possibility of combining novel monitoring techniques and precision spraying for crop protection in the future is discussed. A generic model for an innovative crop protection system has been used as a framework. This system will be able to monitor the entire cropping system and identify the presence of relevant pests, diseases and weeds online, and will be location specific. The system will offer prevention, monitoring, interpretation and action which will be performed in a continuous way. The monitoring is divided into several parts. Planting material, seeds and soil should be monitored for prevention purposes before the growing period to avoid, for example, the introduction of disease into the field and to ensure optimal growth conditions. Data from previous growing seasons, such as the location of weeds and previous diseases, should also be included. During the growing season, the crop will be monitored at a macroscale level until a location that needs special attention is identified. If relevant, this area will be monitored more intensively at a microscale level. A decision engine will analyse the data and offer advice on how to control the detected diseases, pests and weeds, using precision spray techniques or alternative measures. The goal is to provide tools that are able to produce high-quality products with the minimal use of conventional plant protection products. This review describes the technologies that can be used or that need further development in order to achieve this goal. 相似文献
3.
Precision agriculture is a management concept depending on information technologies related to within-field variability. Site-specific plant production requires the use of technologies, such as global positioning systems, sensors, and information management tools to assess variations in soil, crop canopy and micro-climate. Crop protection is an important production factor, which at present is applied in high-input cropping systems homogeneously in the field despite of site-specific heterogeneity in the incidence and distribution of weeds, pests and pathogens. The spatial and temporal heterogeneity of pests in the field is assessed using remote sensing techniques linked to global positioning systems. The generation and management of information on pest incidence with high spatial resolution and its conversion into precise control systems will enable a targeted and resource-preserving integrated pest management system under high productivity conditions, which is economically successful, environmentally sound and socially acceptable. The recording of disease-related weather data and the assessment of spatial heterogeneity of micro-climate in the field as well as the detection of disease specific symptoms with remote and near range sensors (multispectral and hyperspectral cameras, thermography, chlorophyll fluorescence etc.) have the potential to make crop protection more precise in space and time. Innovative approaches are discussed in detail. 相似文献
4.
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
5.
M. T. Kuska A.-K. Mahlein 《European journal of plant pathology / European Foundation for Plant Pathology》2018,152(4):987-992
Protection of crops against plant diseases is crucial in crop production. Agricultural practice and scientific research is confronted with new challenges. Environmentally friendly and sustainable solutions are increasingly demanded. Therefore, the precise detection of primary infection sites and disease dynamics is fundamental to make a decision for a subsequent management practice. In this context, optical sensors can provide an accurate and objective detection of plant diseases. This has awoken the interest and expectation from the public, farmers, and companies for sophisticated optical sensors in agriculture, providing promising solutions. Nevertheless, the application of optical sensors in a practical context in the field is still challenging, and sophisticated data analysis methods have to be developed. In general, the entire system pipeline, consisting of the type of sensor, the platform carrying the sensor, and the decision making process by data analysis has to be tailored to the specific problem. Here, we briefly recount the possibilities and challenges using optical sensors in research and practice for plant disease protection. Optical sensor-based approaches are considered as a key element in plant phenotyping. This overview addresses mainly hyperspectral imaging as it determines several plant parameters that represent the basis for more specific sensors in the future. 相似文献
6.
Gerassimos G. Peteinatos Martin Weis Dionisio Andújar Victor Rueda Ayala Roland Gerhards 《Pest management science》2014,70(2):190-199
Site‐specific weed management is the part of precision agriculture (PA) that tries to effectively control weed infestations with the least economical and environmental burdens. This can be achieved with the aid of ground‐based or near‐range sensors in combination with decision rules and precise application technologies. Near‐range sensor technologies, developed for mounting on a vehicle, have been emerging for PA applications during the last three decades. These technologies focus on identifying plants and measuring their physiological status with the aid of their spectral and morphological characteristics. Cameras, spectrometers, fluorometers and distance sensors are the most prominent sensors for PA applications. The objective of this article is to describe‐ground based sensors that have the potential to be used for weed detection and measurement of weed infestation level. An overview of current sensor systems is presented, describing their concepts, results that have been achieved, already utilized commercial systems and problems that persist. A perspective for the development of these sensors is given. © 2013 Society of Chemical Industry 相似文献
7.
Accurate management practices in crop health and food safety are critical, especially regarding the detection of plant pathogens in the early stages of a disease. To date, specific, fast and sensitive technologies for point‐of‐care diagnosis and simple or grower‐friendly devices are very valuable, as no specialized staff are required for diagnosing a disease in the field. This is especially the case today, when factors such as climate change may cause the appearance of pathogens in areas where years ago they were unexpected. The aim of this research is to review some of the promising techniques that can be applied to in‐field molecular detection of plant pathogens and how these techniques can change the way farmers and pathologists are diagnosing plant diseases. Some of them, like loop‐mediated isothermal amplification and recombinase polymerase amplification, are already being successfully used for routine diagnosis. However, most technologies still need validation in the plant pathology field, where they have a promising future for in‐field diagnosis when combined with simple DNA extraction methods, reagent stabilization techniques and their integration into portable devices. 相似文献
8.
植物保护是保障粮食安全、生态安全与社会安全的关键。中国是一个农业古国与农业大国,其原始农业有着近万年的悠久历史;中国的植物保护有着古代的辉煌、近代的衰落与现代的崛起。新中国成立以来,特别是改革开放以来,中国的植物保护事业取得了辉煌成就,建立健全了高效的植物保护教学、科研与推广体系,消灭了千年的蝗灾,成功地控制了黏虫Mythimna seperata、棉铃虫Helicoverpa armigera、水稻螟虫、小麦黑穗病和条锈病等重大农作物病虫害的暴发,保障了我国的粮食安全与农业安全;并在农作物重大病虫害的智能监测、成灾机理及可持续控制原理与防控技术集成等方面取得了一批国际先进水平的成果。2022年是《植物保护学报》创刊60周年,为回顾过去、展望未来而筹划了本辑,由中外147位作者从不同方向综述了植物保护主要领域的研究进展与展望。希望本辑的出版能够促进我国植物保护知识的传播、推动我国植物保护学科的发展,为我国农业可持续发展和实现乡村振兴做出更大的贡献。 相似文献
9.
John A Pickett Charles AO Midega Jimmy Pittchar Zeyaur R Khan 《Pest management science》2019,75(9):2346-2352
The entire process of agricultural and horticultural food production is unsustainable as practiced by current highly intensive industrial systems. Energy consumption is particularly intensive for cultivation, and for fertilizer production and its incorporation into soil. Provision of nitrogen contributes a major source of the greenhouse gas, N2O. All losses due to pests, diseases and weeds are of food for which the carbon footprint has already been committed and so crop protection becomes an even greater concern. The rapidly increasing global need for food and the aggravation of associated problems by the effects of climate change create a need for new and sustainable crop protection. The overall requirement for sustainability is to remove seasonal inputs, and consequently all crop protection will need to be delivered via the seed or other planting material. Although genetic modification (GM) has transformed the prospects of sustainable crop protection, considerably more development is essential for the realisation of the full potential of GM and thereby consumer acceptability. Secondary plant metabolism offers wider and perhaps more robust new crop protection via GM and can be accomplished without associated yield loss because of the low level of photosynthate diverted for plant defence by secondary metabolism. Toxic mechanisms can continue to be targeted but exploiting non‐toxic regulatory and signalling mechanisms should be the ultimate objective. There are many problems facing these proposals, both technical and social, and these are discussed but it is certainly not possible to stay where we are in terms of sustainability. The evidence for success is mounting and the technical opportunities from secondary plant metabolism are discussed here. © 2019 The Authors. Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry. 相似文献
10.
为了让农户能够直观了解及掌握常见病虫害的防治信息,帮助农户通过智能手机在农田、果园和茶园等现场方便快捷地获取作物病虫害图文识别要点与科学防治方法,为农户提供在线植保技术服务,本研究采用RESTful Web 服务架构设计,运用HTML5移动Web开发技术,借助微信平台作为用户访问入口,开发了一款跨平台 (android/iOS) 的农药速查软件系统,实现了农药信息查询、病虫害图谱查询及后台数据管理等功能。通过建立农药与病虫害间的关联关系,实现了从农药名称和病虫害名称两个途径查询农药信息;所构建的数据库涵盖了蔬菜、果树、水稻、茶叶及烟草等共30种福建省常规种植作物上的重要病虫害农药防治技术。初步运用验证结果表明,该系统整体实用性和稳定性较好,适合在农村基层推广应用。基于微信平台的农药速查系统能够满足植保新技术普及和应用的需求,可为农户提供简单便捷、对症下药的在线植保科技服务,对提高用户安全施药和科学防控能力、推进农药的增效减量均具有重要意义。 相似文献
11.
12.
近年来, 随着计算机、互联网、物联网、人工智能、传感器、遥感等技术的快速发展, 智能虫情测报灯、智能性诱捕器、昆虫雷达、无人机遥感、卫星遥感、智能识别App等现代智能农作物病虫监测装备及重大病虫害实时智能监测预警系统建设方面取得了比较明显的进步。本文综述了我国近5年在利用光谱遥感、昆虫雷达、图像识别等技术进行农作物病虫害监测预警研究和应用方面取得的重要进展, 分析了各类技术存在的不足与难点, 提出了未来发展的方向, 以期为充分利用空天地多源数据实现农作物病虫害精准预报提供指导。 相似文献
13.
Crop diseases affect crop yield and quality and cause significant losses of total food production worldwide. With the ever-increasing world population and decreasing land and water resources, there is a need not only to produce more food but also to reduce agricultural greenhouse gas (GHG) emissions to mitigate climate change and avoid land use change and biodiversity loss. Thus, alternative climate-smart farming systems need to adapt to produce more food per hectare in a more sustainable way than conventional high-input farming systems. In addition to breeding new high-yielding cultivars adapted to future climates, there is a need to deploy Integrated Crop Management (ICM) strategies, relying less on synthetic inputs for fertilization and crop protection and less on fossil fuel-powered machinery to decrease yield losses due to pest and pathogens and guarantee food security. In this review, we compare some low-input farming systems to conventional agricultural systems with a focus on ICM solutions being developed to reduce synthetic inputs; these include crop genetic resistance to pathogens, intercropping, canopy architecture manipulation, and crop rotation. These techniques have potential to decrease crop disease frequency and severity by decreasing amounts and dispersal of pathogen inoculum and by producing microclimates that are less favourable for pathogen development, while decreasing GHG emissions and improving environmental sustainability. More research is needed to determine the best deployment of these ICM strategies in various cropping systems to maximize yield, crop protection, and other ecosystem services to address trade-offs between climate change and food security. 相似文献
14.
Resistance to chemicals and some biological control agents by Plutella xylostella has resulted in the search for alternatives, such as P. xylostella granulovirus (PlxyGV), for the management of P. xylostella. However, use of PlxyGV would be economical only if it is applied at the right crop stage and at economic threshold levels.
Hence, we evaluated the field level economic threshold for application of PlxyGV at the reproductive phase of cauliflower
taking into consideration both the economic threshold model and the economic optimization model. PlxyGV was found to be very
effective in management of the pest and was comparable to weekly applications of quinalphos 25EC. However, due to the higher
cost of PlxyGV application than quinalphos, the cost benefit ratio with quinalphos application was much higher than the virus
application. The net income from the virus application decreased both at lower thresholds—due to the higher cost of plant
protection, and at higher thresholds—due to the increased damage by the pest. Based on the economic threshold model, the economic
threshold for application of PlxyGV was estimated at 9–11 larvae per ten plants. Considering the net income per hectare and
the cost of plant protection, it was found that at a threshold of 12–14 larvae per ten plants net income was just equal to
the cost of plant protection. Based on the economic optimization model, the optimum threshold for application of PlxyGV was
15 larvae per ten plants when profits are maximum. 相似文献
15.
BACKGROUND: Fewer plant protection products are now authorised for use in ornamental growings. Frequent spraying with the same product or a suboptimal technique can lead to resistance in pests and diseases. Better application techniques could improve the sustainable use of the plant protection products still available. Spray boom systems—instead of the still predominantly used spray guns—might improve crop protection management in greenhouses considerably. The effect of nozzle type, spray pressure and spray angle on spray deposition and coverage in ivy pot plants was studied, with a focus on crop penetration and spraying the bottom side of the leaves in this dense crop. RESULTS: The experiments showed a significant and important effect of collector position on deposition and coverage in the plant. Although spray deposition and coverage on the bottom side of the leaves are generally low, they could be improved 3.0–4.9‐fold using the appropriate application technique. CONCLUSIONS: When using a spray boom in a dense crop, the nozzle choice, spray pressure and spray angle should be well considered. The hollow‐cone, the air‐inclusion flat‐fan and the standard flat‐fan nozzle with an inclined spray angle performed best because of the effect of swirling droplets, droplets with a high momentum and droplet direction respectively. Copyright © 2010 Society of Chemical Industry 相似文献
16.
近5年来, 我国在害虫变态发育与生殖调控、害虫滞育调控、害虫迁飞、害虫与共生微生物互作、害虫对杀虫剂的抗性、害虫与寄主植物的化学通讯、害虫对植物抗虫性的适应、害虫对作物种植结构调整的响应、害虫对全球气候变化的响应等农业害虫发生新规律新机制解析方面取得了系列重要进展, 同时推进了抗虫作物、RNA农药、行为调控和生态调控等害虫防控新技术与新产品的研发; 提出迁飞性草地贪夜蛾分区治理、多食性盲蝽区域防控、地下害虫韭蛆绿色防控和抗性麦蚜精准化学防控等害虫绿色防控新模式新体系。根据国内外农业害虫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业昆虫交叉学科前沿和新兴技术领域, 以产业需求为导向, 强化害虫防控基础理论创新, 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, 为保障国家粮食安全、助力乡村全面振兴提供强有力的植保科技支撑。 相似文献
17.
S CHRISTENSEN H T SØGAARD† P KUDSK‡ M NØRREMARK§ I LUND¶ E S NADIMI¶ & R JØRGENSEN¶ 《Weed Research》2009,49(3):233-241
Site-specific weed control technologies are defined as machinery or equipment embedded with technologies that detect weeds growing in a crop and, taking into account predefined factors such as economics, take action to maximise the chances of successfully controlling them. In this study, we describe the basic parts of site-specific weed control technologies, comprising weed sensing systems, weed management models and precision weed control implements. A review of state-of-the-art technologies shows that several weed sensing systems and precision implements have been developed over the last two decades, although barriers prevent their breakthrough. Most important among these is the lack of a truly robust weed recognition method, owing to mutual shading among plants and limitations in the capacity of highly accurate spraying and weeding apparatus. Another barrier is the lack of knowledge about the economic and environmental potential for increasing the resolution of weed control. The integration of site-specific information on weed distribution, weed species composition and density and the effect on crop yield, is decisive for successful site-specific weed management. 相似文献
18.
Ewen Mullins 《Pest management science》2015,71(5):645-651
The accelerating pace of gene discovery, coupled with novel plant breeding technologies, provides tangible opportunities with which to engineer disease resistance into agricultural and horticultural crops. This is especially the case for potato, wheat, apple and banana, which are afflicted with fungal and bacterial diseases that impact significantly on each crop's economic viability. Yet public scepticism and burdensome regulatory systems remain the two primary obstacles preventing the translation of research discoveries into cultivars of agronomic value. In this perspective review, the potential to address these issues is explained, and specific opportunities arising from recent genomics‐based initiatives are highlighted as clear examples of what can be achieved in respect of developing disease resistance in crop species. There is an urgent need to tackle the challenge of agrichemical dependency in current crop production systems, and, while engineering for disease resistance is possible, it is not the sole solution and should not be proclaimed as so. Instead, all systems must be given due consideration, with none dismissed in the absence of science‐based support, thereby ensuring that future cropping systems have the necessary advantage over those pathogens that continue to inflict losses year after year. © 2014 Society of Chemical Industry 相似文献
19.
Genome-wide analyses of gene function and gene expression are beginning to yield valuable information in many areas of biological research, and these genomic tools are now being applied to crop pest and disease research. DNA sequencing of cDNA libraries to generate sets of expressed sequence tags (ESTs) are allowing gene compendiums for crop diseases to be compiled. Annotation of such data collections is also providing a wealth of functional information about gene products through similarities to proteins with known function. The next phase of the functional genomics era will be to employ large-scale techniques to knock out or silence genes in order to synthesize gene-specific mutants for phenotypic analysis and to use micro-array methodology to analyze global gene expression, protein turnover and protein processing during the processes of parasitism and colonization. Application of these technologies promises to accelerate the pace that biological information relevant to crop protection accrues. The ability of researchers to assimilate this information into complex models and workable hypotheses is, thus, set to revolutionize the way we study pests and diseases of crop plants. 相似文献
20.
生物灾害发生种类繁多和暴发频繁,是威胁我国粮食安全生产的重要因素。利用中国植物保护统计数据、粮食作物产量数据和农田土地覆盖类型分布遥感数据,重点分析中国1991年到2010年20年期间四类重要粮食作物病虫害发生面积和发生强度的变化趋势,以及其空间分布范围。结果表明:从1991年到2010年水稻、玉米和大豆病虫害发生面积均显著增加;水稻、小麦、玉米和大豆病虫害发生强度均显著增加。随着粮食作物病虫害发生面积增大,其发生强度均呈增加趋势。病害与虫害相比,无论是发生面积,还是发生强度,粮食作物的虫害均高于病害。粮食作物病虫害主要分布在我国中东部的粮食主产区,西部地区主要粮食作物病虫害发生相对较轻。为了有效地防止或减少病虫害等生物灾害对粮食生产安全的影响,目前应当加强农田景观变化和气候变化等对粮食农作物病虫害的影响诊断、发生与灾变的风险评估和监测预警,改善农田生态环境,开展区域性农田生态系统病虫害整合治理研究,并建立相应的对策。 相似文献