scholarly journals Hydrogels: From Controlled Release to a New Bait Delivery for Insect Pest Management

2020 ◽  
Vol 113 (5) ◽  
pp. 2061-2068
Author(s):  
Jia-Wei Tay ◽  
Dong-Hwan Choe ◽  
Ashok Mulchandani ◽  
Michael K Rust

Abstract Here, we review the literature on the development and application of hydrogel compounds for insect pest management. Researchers have used hydrogel compounds for the past few decades to achieve the controlled release of various contact insecticides, but in recent years, hydrogel compounds have also been used to absorb and deliver targeted concentrations of toxicants within a liquid bait to manage insect pests. The highly absorbent hydrogel acts as a controlled-release formulation that keeps the liquid bait available and palatable to the target pests. This review discusses the use of various types of hydrogel compounds in pest management based on different environmental settings (e.g., agricultural, urban, and natural areas), pest systems (e.g., different taxa), and modes of insecticide delivery (e.g., spray vs bait). Due to their unique physicochemical properties, hydrogel compounds have great potential to be developed into new and efficacious pest management strategies with minimal environmental impact. We will also discuss the future research and development of hydrogels in this review.

2017 ◽  
Vol 8 (1) ◽  
Author(s):  
Randa Jabbour ◽  
Shiri Noy

Abstract Although insect pest management in alfalfa (Medicago sativa L. [Fabales: Fabaceae]) hay remains a major challenge in the Western United States, we know comparatively little about the producer priorities and perceptions of alfalfa insect pests. Given the importance of alfalfa to Wyoming agriculture, we sought to better understand producer priorities regarding insect pest management in alfalfa. We developed a survey instrument that was mailed to 3,141 individuals by the National Agricultural Statistics Service (NASS). We received 634 returned surveys, a response rate of 20.7% of all Wyoming alfalfa producers. Respondents were asked to list all insect pests they had encountered in their experience growing alfalfa, and then to select the most problematic from the list they generated. Sixty-six percent of respondents named alfalfa weevil Hypera postica (Gyllenhal; Coleoptera: Curculionidae) as the most problematic insect pest they had encountered. Eighteen percent of respondents named grasshoppers (Orthoptera) as most problematic, and 8% of respondents named aphids (Hemiptera: Aphididae). Producers indicated a variety of agronomic, economic, biological, and weather-related reasons that rendered these insects as problematic pests. For each of the three most problematic pests, insecticide application and early harvest of hay were practiced by the largest number of Wyoming producers according to our survey results. For all three of these pests, insecticides are both used most often and considered most effective by the most respondents. These findings suggest an important opportunity for future research on integrated insect pest management.


2020 ◽  
Vol 31 (1) ◽  
pp. 24-35 ◽  
Author(s):  
Somiahnadar Rajendran

Insects are a common problem in stored produce. The author describes the extent of the problem and approaches to countering it. Stored products of agricultural and animal origin, whether edible or non-edible, are favourite food for insect pests. Durable agricultural produce comprising dry raw and processed commodities and perishables (fresh produce) are vulnerable to insect pests at various stages from production till end-use. Similarly, different animal products and museum objects are infested mainly by dermestids. Insect pests proliferate due to favourable storage conditions, temperature and humidity and availability of food in abundance. In addition to their presence in food commodities, insects occur in storages (warehouses, silos) and processing facilities (flour mills, feed mills). Insect infestation is also a serious issue in processed products and packed commodities. The extent of loss in stored products due to insects varies between countries depending on favourable climatic conditions, and pest control measures adopted. In stored food commodities, insect infestation causes loss in quantity, changes in nutritional quality, altered chemical composition, off-odours, changes in end-use products, dissemination of toxigenic microorganisms and associated health implications. The insects contribute to contaminants such as silk threads, body fragments, hastisetae, excreta and chemical secretions. Insect activity in stored products increases the moisture content favouring the growth of moulds that produce mycotoxins (e.g., aflatoxin in stored peanuts). Hide beetle, Dermestes maculatus infesting silkworm cocoons has been reported to act as a carrier of microsporidian parasite Nosema bombycis that causes pebrine disease in silkworms. In dried fish, insect infestation leads to higher bacterial count and uric acid levels. Insects cause damage in hides and skins affecting their subsequent use for making leather products. The trend in stored product insect pest management is skewing in favour of pest prevention, monitoring, housekeeping and finally control. Hermetic storage system can be supplemented with CO2 or phosphine application to achieve quicker results. Pest detection and monitoring has gained significance as an important tool in insect pest management. Pheromone traps originally intended for detection of infestations have been advanced as a mating disruption device ensuing pest suppression in storage premises and processing facilities; pheromones also have to undergo registration protocols similar to conventional insecticides in some countries. Control measures involve reduced chemical pesticide use and more non-chemical inputs such as heat, cold/freezing and desiccants. Furthermore, there is an expanding organic market where physical and biological agents play a key role. The management options for insect control depend on the necessity or severity of pest incidence. Generally, nonchemical treatments, except heat, require more treatment time or investment in expensive equipment or fail to achieve 100% insect mortality. Despite insect resistance, environmental issues and residue problems, chemical control is inevitable and continues to be the most effective and rapid control method. There are limited options with respect to alternative fumigants and the alternatives have constraints as regards environmental and health concerns, cost, and other logistics. For fumigation of fresh agricultural produce, new formulations of ethyl formate and phosphine are commercially applied replacing methyl bromide. Resistance management is now another component of stored product pest management. In recent times, fumigation techniques have improved taking into consideration possible insect resistance. Insect control deploying nanoparticles, alone or as carriers for other control agents, is an emerging area with promising results. As there is no single compound with all the desired qualities, a necessity has arisen to adopt multiple approaches. Cocktail applications or combination treatments (IGRs plus organophosphorus insecticides, diatomaceous earth plus contact insecticides, nanoparticles plus insecticides/pathogens/phytocompounds and conventional fumigants plus CO2; vacuum plus fumigant) have been proved to be more effective. The future of store product insect pest management is deployment of multiple approaches and/or combination treatments to achieve the goal quickly and effectively.


2018 ◽  
Vol 12 (4) ◽  
pp. 273-282 ◽  
Author(s):  
Saber Delpasand Khabbazi ◽  
Afsaneh Delpasand Khabbazi ◽  
S. Fatih Özcan ◽  
Allah Bakhsh ◽  
Dilek Başalma ◽  
...  

2020 ◽  
Vol 4 ◽  
Author(s):  
Randa Jabbour ◽  
Shiri Noy

Pest management strategies involve a complex set of considerations, circumstances, and decision-making. Existing research suggests that farmers are reflexive and reflective in their management choices yet continue to employ curative rather than preventative strategies, and opt for chemical over biological solutions. In this piece, we detail work from a two-year, multidisciplinary, mixed-methods study of insect pest management strategies in alfalfa in Wyoming, integrating data from four focus groups, a statewide survey, and biological sampling of production fields. We outline how these different sources of data together contribute to a more complete understanding of the challenges and strategies employed by farmers, and specifically on biological pest control. We applied this approach across alfalfa hay and seed crop systems. Relatively few farmers acknowledged biological control in focus groups or surveys, yet biological exploration yielded abundant parasitism of common pest alfalfa weevil. On the other hand, parasitism of seed alfalfa pest Lygus was far less common and patchy across fields. It is only in integrating quantitative and qualitative, biological and social data that we are able to generate a more complete portrait of the challenges and opportunities of working with farmers to embrace a preventative paradigm. In doing so, we offer insights on possible barriers to the adoption of preventative insect management strategies and provide a case study of integrating social science and biophysical techniques to better understand opportunities to expand biological pest control in cropping systems.


2018 ◽  
Vol 1 (3) ◽  
Author(s):  
AMAR BAHADUR BAHADUR

Entomopathogens are microorganisms that pathogenic to insect pest. Several species of naturally occurring viz; fungi, bacteria, viruses and nematodes, infect a variety of insect pests and play an important role in agricultural crops controlling insect pest management.  This kind of biopesticide has many advantages and alternative to chemical insecticides, highly specific, safe, and environmentally sustainable. Pest problems are an almost inevitable part of agriculture. They occur largely because agricultural systems are simplified and modifications of natural ecosystems. Viruses, bacteria are host specific and fungi generally have broader host range and can infect both underground and aboveground pests, soil-dwelling nature nematodes are more suitable for managing soil pests. Growing crops in monoculture provides concentrated food resource that allows pest populations to achieve higher densities in natural environments. Some of the most important problems occur when pests develop resistance to chemical pesticides. These cause highly significant damage to crops, there are also threats from emerging new strains of pests. Crops cultivation can make the physico-chemical environment more favourable for pest activity. Agricultural pests are reducing the yield and quality of produce by feeding on crops, transmitting diseases. Agricultural production significantly loss crop yields, suggest that improvements in pest management are significant forward for improving yields. Crop growers are under immense pressure to reduce the use of chemical pesticides without sacrificing yields, but at the same time manage of pests is becoming difficult due to pesticide resistance and the decreasing availability of products. Alternative methods are needed urgently. These need to be used as part of Integrated Pest Management safety and environmental impact.  


2019 ◽  
Vol 10 (1) ◽  
Author(s):  
Whitney Cranshaw ◽  
Melissa Schreiner ◽  
Kadie Britt ◽  
Thomas P Kuhar ◽  
John McPartland ◽  
...  

Abstract Hemp (Cannabis sativa L.) is now being grown within the United States over a much broader geographic area and for different uses than during its last period of significant production that ended after World War II. Within the past 3 yr, a large number of arthropod species have been documented to feed on hemp in the United States. Among key pest species, corn earworm, Helicoverpa zea (Boddie) (Lepidoptera: Noctuidae), has demonstrated greatest potential for crop injury, being particularly damaging to flower buds. Hemp russet mite, Aculops cannibicola (Farkas), and cannabis aphid, Phorodon cannabis Passerini, are the two species observed most damaging among those that suck plant fluids. Eurasian hemp borer, Grapholita delineana Walker, is widely present east of the Rocky Mountains and appears to have potential to significantly damage both flower buds and developing seeds. Numerous species of caterpillars, grasshoppers, and beetles chew hemp foliage; the severity of these defoliation injuries appears to be minimal, but needs further study. Similarly, numerous seed feeding hemipterans, most notably stink bugs and Lygus bugs, are regularly found in the crop but injury potential remains unclear. Some preliminary efforts have been made to develop integrated pest management strategies for these insects, particularly for corn earworm. Future research can be expected to rapidly resolve many of the data gaps that presently restrict advancing pest management on the crop. However, a major confounding issue involves the use of pesticides on hemp. Federal agencies have not yet provided clear direction on this issue, and regulatory decisions have subsequently devolved to the states.


1980 ◽  
Vol 112 (6) ◽  
pp. 573-584 ◽  
Author(s):  
Oswald N. Morris

AbstractStrategies for the use of entomopathogenic viruses in the management of forest insect pests include the use of viruses by themselves or with other biocontrol or chemical agents applied simultaneously or separately at strategic time intervals. It is concluded that baculoviruses (nuclear polyhedrosis and granulosis viruses) have considerable potential as components of integrated forest insect pest management systems. The prime limiting factors in their large scale use at present are the high cost of virus production and underdevelopment of application technology. Their greatest potential will probably be realized when used as an indirect, or preventative, strategy with a view to preventing the occurrence of pest emergency situations.


PLoS ONE ◽  
2013 ◽  
Vol 8 (11) ◽  
pp. e79929 ◽  
Author(s):  
Tolulope A. Agunbiade ◽  
Weilin Sun ◽  
Brad S. Coates ◽  
Rousseau Djouaka ◽  
Manuele Tamò ◽  
...  

Author(s):  
М. N. Shorokhov ◽  
V. A. Khilevskiy ◽  
А. N. Martynushkin ◽  
L. А. Burkova

Protective activities (including chemical ones) remain an integral part of crop production technologies. Assortment of chemicals is being changed all the time. Currently as a part of crop flies management it is permitted to use chemicals belonging to different structural classes. Major advantage, as can be seen in instance of pyrethroids, is the high initial effectiveness (95-100 %) and relatively low price, however its protective period is short. Introduction of seed dressing insecticides into the Russian market was a breakthrough in the insect pest management of crop flies and some other crop insect pests. Bayer CropScience AG developed and registered on the Russian market a first ever insecticide-fungicide seed dressing, Scenic Combi, CS (250+37.5+37.5+5 g/l) which contains 4 active substances (clothianidin, fluoxastrobin, prothioconazole, tebuconazole). This paper presents the data on the effectiveness of modern insecticides in crop flies management in the conditions of Omsk Oblast and Rostov Oblast for a period from 2011 to 2017. Sufficient biological effectiveness (80-100 %) of the wheat insect pest management is established when vegetative plants were sprayed with the following chemicals: Kungfu Super, Eforiya, BOREJ Neo, Thiacloprid + deltamethrin, Chlorpyrifos + cypermethrin, Shaman, Imidacloprid + alpha-cypermethrin, Imidor, Chlorpyrifos, Sharpej, Thiacloprid + lambda-cyhalothrin. The conclusion is made about the applicability of these chemicals providing its inclusion into the State catalogue of pesticides and agricultural chemicals.


Sign in / Sign up

Export Citation Format

Share Document