Incidence Of Pests Research Articles

Implementation of netting system for production of ‘Calabacita’ dried figs: Effects on pest incidence, fruit quality and mycotoxin occurrence

In recent decades, the increasing demand for dried figs has led to greater sector professionalisation. However, the drying and harvesting process continues to be carried out traditionally. During this time, the fruit can be damaged by various biotic agents such as birds, insects and fungi. Therefore, this work aimed to evaluate the efficacy of a netting system adapted to the fig tree's canopy, compared to those from traditionally managed ones regarding reduced damage by biotic agents and physicochemical quality of dried figs. Fruit damage, physicochemical and microbiological parameters, and mycotoxin occurrence in figs collected from nets were compared to those from traditionally managed ones. The netting system significantly reduced bird damage from 11.93 to 1.02 % and Lepidopteran damage from 8.11 to 3.74 %, while coleopteran damage remained constant. Additionally, this system led to dried figs with greater fruit size, softer firmness and a lighter reddish-brown colour. In contrast, it did not influence the microbial count of moulds. However, its use significantly reduced the levels and occurrence of most of the detected mycotoxins: aflatoxins B1, B2, G1 and G2, ochratoxins A and B, kojic acid, and alternariol. These findings demonstrate its effectiveness in reducing pest incidences and providing dried figs with better physicochemical and hygienic-sanitary quality. This scientific evidence and the improvements that the netting system brings to the harvesting process suggest that its use could lead to more profitable production and have a positive impact on the marketability of dried figs.

Formulation and Validation of Organic Insect Pest Management Module for Pests of Cabbage and Cauliflower in Valley and Foot Hills Region, Manipur, India

During the rabi seasons from 2017 to 2020 in the valley and foothill regions of Imphal, Manipur, a study was conducted to design and test three different organic insect pest management modules M1, M2 and M3 for cabbage and cauliflower. The focus was on three major pests: cabbage butterfly, diamondback moth, and cabbage aphid. Module three (M-3) emerged as the most effective strategy, incorporating various organic practices. This included seed treatment with Trichoderma harzianum at 10g/kg seed and soil drenching in nursery plots at 25g/100 m2, intercropping with mustard, application of anonnin extract at 5 ml/litre, Spinosad 45% SC (biopesticide) at 3ml/10 litres, and Verticillium lecanii at 10 ml/litre. Additionally, the module incorporated the installation of yellow sticky traps for aphids and pheromone traps for diamondback moths for monitoring and mass trapping. The results indicated that Module 3 performed well than other modules and the control group in reducing insect pest incidence on cabbage and cauliflower with the number of cabbage butterfly ranging from 0.07 to 0.11, in both cabbage and cauliflower, where as 0.06 to 0.04 in case of Diamond back moth and 0.21 to 0.47 number of cabbage aphid per square inch leaf area with B:C ratio of 1:12.4 and 1:12.7 for cabbage and 1:6:39 and1:6.41 for cauliflower at lamphel and lanol fields, respectively. Moreover, it contributed to an increased yield, demonstrating its superiority in organic insect pest management for both valley and foothill regions. This underscores the effectiveness of a holistic and integrated approach to pest management in organic farming practices.

Population Dynamics of Fall Armyworm, Spodoptera frugiperda and its Natural Enimies in Maize

Fall armyworm (Spodoptera frugiperda) is one of the polyphagous invasive insect to India, initially reported from Karnataka. A roving survey was conducted during two cropping seasons at fortnightly interval at kharif and rabi of 2019-2020 to know the status of the pest in Haveri district. The results revealed that the mean larval population and per cent infestation of fall armyworm was ranged from 0.30 to 0.44 larvae per plant and 23.10 to 33.77 per cent, respectively. In the study period, parasitisation by two larval parasitoids viz., Campoletis chlorideae (Hymenoptera: Ichneumonidae) and Exorista xanthaspis (Diptera: Tachinidae) and infection by an entomopathogenic fungi, Metarhizium rileyi were also observed. The rainfall (r = -0.889) was only parameter having significantly negative influence on pest incidence.

Field Performance of Sesame Varieties under Rainfed Ecosystem in Southern Tamil Nadu, India

In Pudukottai district, sesame is cultivated in 3,000 ha and farmers are predominantly growing very old sesame variety TMV 3. This variety is more susceptible to pest and diseases which leads to increased cultivation cost towards plant protection measures as well as reduced yield and income. To overcome this problem, Krishi Vigyan Kendra, Tamil Nadu Agricultural University, Pudukkottai conducted On Farm Testing (OFT) in sesame varieties for promoting the high yielding varieties. Fifteen farmers were selected in different locations of Thiruvarankulam block, Pudukkottai district in Tamil Nadu. Critical inputs of seeds of sesame varieties like TMV 7 and G.Til 10 were distributed to the farmers. The plant physiological and yield parametersviz., plant height (cm), No. of branches, No. of capsules/ branch, capsule length (cm), seeds per capsule, Yield (q/ha) and BC ratio were recorded. The results revealed that, Among the sesame varieties tested, TMV 7 was recorded the maximum plant height (125 cm), number of branches (6.6), number of capsules per plant (43.5), capsules length ( 3.3 cm), No of seeds per capsule ( 57) which resulting in the highest yield of 7.8 q/ha followed by sesame G.Til 10 which recorded more plant height (120 cm), number of branches (6.0), number of capsules per plant (38.2) capsules length ( 3.1 cm), No of seeds per capsule ( 51) and yield of 7.3 q/ha compared to farmers variety cultivating variety TMV 3 which registered the lowest plant physiological parameters and yield (6.4 q/ha). The maximum B:C ratio was recorded in sesame variety TMV 7 (3.12) followed by G.Til 10 ( 2.92) over the variety TMV 3 (2.84). From this trial, it was concluded that, farmers are satisfied with the sesame TMV 7 variety for cultivation due to its low pest and disease incidence, higher yield and BC ratio.

Seasonal Incidence and Infestation Pattern of Sunflower Head Borer (Helicoverpa armigera) and Leaf Eating Caterpillar (Spodoptera litura) under the Influence of Climatic Factors

Field experiments were conducted at Regional Research and Technology Transfer Station (RRTTS), Ranital, Bhadrak, OUAT during the summer seasons of 2019-20 and 2020-21 to study the seasonal incidence of sunflower head borer and leaf-eating caterpillar in sunflower in relation to the abiotic factor. The seasonal incidence of the target insects, Spodoptera litura and Helicoverpa armigera, was investigated using pheromone traps installed in the unprotected sunflower plots (10 m x 5 m) at the research block. The trap catches of male adults were expressed as a number of males trapped per trap per week. In the observation plots, the sunflower hybrid Aruna was cultivated with the approved agronomic package of techniques without any plant protection measures. Weekwise larval populations of Spodoptera litura and Helicoverpa armigera were counted from 10 randomly selected tagged plants starting from the initiation of damage and expressed as larval intensity i.e. average larval population per plant. Besides, weekwise incidence of the pest (leaf damage by tobacco caterpillar and head damage by head borer) were also recorded. The findings of the investigation indicated that tobacco caterpillars' adult activity commenced from the 5th to 6th standard weeks (1st and 2nd week of February) and peak activity in the 11th standard week (3rd week of March). Similarly, the larval population began to appear in the 6th to 7th standard weeks in 2020 and 2021, respectively with a peak population build-up stage during the 12th standard week and their activity steadily decreased as the cropping season progressed. The peak infestation stage coincided with the period of maximum larval activity and the pest caused sizable damage from the early vegetative stage to the peak flowering stage of the crop. The sunflower head borer (Helicoverpa armigera) infested sunflower crops throughout the reproductive stage of the plant with adult activity beginning in the 9th to 10th standard weeks (last week of February-first week of March) and attaining the peak in the 12th to 13th standard weeks (3rd-4th week of March). Similarly, the larval population began to appear in the 10th to 11th standard week and reached the peak in the 13th to 14th standard week (last week of March to first week of April). Various environmental parameters viz. temperature, relative humidity and rainfall were collected from the automated weather station of Gramin Krishi Mausam Sewa (GKMS) located at RRTTS, Ranital., These abiotic factors were correlated with trap catch, larval intensity, leaf damage head damage to study the influence of ecological parameters on pest incidence and infestation. The findings of the investigation indicated that among the abiotic factors temperature had a positive influence and relative humidity exhibited a negative effect on the population and damage of Spodoptera litura. All the temperature variables and bright sunshine hour (BSH) exhibited a significant positive correlation and relative humidity (afternoon) had a significant negative correlation with the head damage Helicoverpa armigera.

Citrus Black Spot Disease in Ghana: A Review on Impacts, Management Options and Current Status

Citrus is one of the most common seasonal fruit crops cultivated across most semi-deciduous forest zones across the globe. Apart from its refreshing nature when consumed in a fresh state, it is also packed with an abundant supply of vitamins A, B and C. Apart from being served in the raw state as a fruit or a dessert, it also serves as a critical raw material for the beverage industry. In some instances, it also serves as a very important material for the pharmaceutical industry. As important as this fruit can be, its production is challenged by the incidence of pests and diseases. One of the major diseases facing the industry is the Citrus Black Spot (CBS), caused by Phyllosticta citricarpa. In Ghana, CBS is known to affect almost all citrus species and varieties in commercial groves, except for sour orange (C. aurantium) and its hybrids and Tahiti lime (C. latifolia). It is estimated to be responsible for about 22% of fruit/yield loss annually. This review highlighted the impact on the citrus production industry in Ghana, the management options available and future perspectives.

Economic Profitability of Carbon Sequestration of Fine-Aroma Cacao Agroforestry Systems in Amazonas, Peru

Currently, the economic profitability of cocoa is being affected by the increasing incidence of pests, low selling prices, high production costs, and the presence of cadmium in cocoa farms, posing a potential risk of crop abandonment. Therefore, the objective of the present research was to evaluate the economic profitability of carbon sequestration of fine-aroma cacao agroforestry systems in Amazonas, Peru, using the economic indicators of NPV, EIRR, and the benefit–cost ratio. For this purpose, 53 small cocoa producers of the APROCAM cooperative were involved, from which data were obtained on the general characteristics of the production system, production and maintenance costs, indirect costs, and administrative costs; in addition, the costs of implementation and maintenance of an environmental services project were calculated to finally make a cash flow projected over 5 years. As part of the results, the economic analysis was carried out on 104.25 hectares of cocoa belonging to the total number of farmers evaluated, who reported an average yield of 957.32 kg of dry cocoa per he. In addition, it was found that the production cost is PEN 3.91/kg of dry cocoa, and the average selling price is PEN 7.38/kg of dry cocoa. After the economic analysis, it was found that the implementation of an environmental services project is profitable (NPV = PEN 1,454,547.8; EIRR = 44% and B/C = 1.86). These results open up an opportunity for cocoa farmers to diversify and increase their income by contributing to climate change mitigation.

Effect of meteorological parameters on the dynamics of wilt and pod borer severity in pigeonpea of Bundelkhand region of Uttar Pradesh

The weather parameters play a predominant role in determining the course and severity of insect pests and pathogens in different crops. Wilt and pod borer are the most devastating biotic stresses, causes huge losses from the vegetative stage until harvest. The present study was aimed to analyze the seasonal dynamics of wilt and pod borer incidence in relation to critical weather parameters in pigeonpea from the Bundelkhand region, a pulses basket of Uttar Pradesh. The fusarium wilt (Fusarium udum) and pod borer (Helicoverpa armigera) incidence were found to be major biotic stresses in pigeonpea from 2017-18 to 2020-21. The wilt disease commenced at 48 MSW and the mean incidence ranged from 0.0 to 25.5 percent. The pod borer incidence started at 01 MSW, and the larval population ranged from 0.5 to 1.40 larvae/plant. Though the correlation between pest incidence and weather parameters was found to be non-significant. The wilt and pod borer incidence were positively correlated with Tmax (r= 0.35 and 0.33), Tmin (r= 0.39 and 0.37), rainfall (r= 0.43 and 0.41) and negatively correlated with relative humidity (r= -0.32 and -0.26). The regression analysis indicated variability in wilt and pod borer incidence due to temperature, humidity and rainfall. The information generated on the pest dynamics of wilt and pod borer in pigeonpea under the influence of weather parameters may be helpful in devising the forecasting models as well as the management practices well in advance so as to avoid yield losses.

Incidence of Pest and Natural Enemies in Direct Seeded Rice and Transplanted Rice

Incidence of Pest and Natural Enemies in Direct Seeded Rice and Transplanted Rice

Incidence of major insect pests and its natural enemies of Cabbage (Brassica oleracea var. capitata) under Polyhouse conditions

Incidence of major insect pests and its natural enemies of Cabbage (Brassica oleracea var. capitata) under Polyhouse conditions

Impact of different intercrops on the incidence of insect pests in cabbage

Impact of different intercrops on the incidence of insect pests in cabbage

Studies on pest complex and seasonal incidence of major pests of Jasminum sambac cv. Mysuru Mallige

Studies on pest complex and seasonal incidence of major pests of Jasminum sambac cv. Mysuru Mallige

Promoting the adoption of climate-smart agricultural technologies among maize farmers in Ghana: using digital advisory services

Although policy and advisory communities have promoted the use of digital advisory services (DAS) to stimulate technology adoption among smallholder farmers, little is known about whether DAS use encourages farmers to adopt climate-smart agricultural (CSA) technologies. This study addresses the gap by estimating data collected from 3197 maize-producing households in rural Ghana and considering three CSA technologies: row planting, zero tillage, and drought-tolerant seeds. A recursive bivariate probit model is utilized to mitigate selection bias issues. The results show that DAS use significantly increases the probabilities of adopting row planting, zero tillage, and drought-tolerant seeds by 12.4%, 4.2%, and 4.6%, respectively. Maize farmers’ decisions to use DAS are influenced by their age, gender, education, family size, asset value, distance to farm, perceived incidence of pest and disease, perceived drought stress, and membership in farmer-based organizations (FBO). Furthermore, the disaggregated analysis reveals that DAS use has a larger impact on the row planting adoption of female farmers than males.

Identification and characterization of novel resistant genotypes of Gymnema sylvestre (Retz.) R. Br. ex Sm. against invasive mealybug species, Phenacoccus solenopsis Tinsley and Paracoccus marginatus Williams and Granara de Willink for sustainable pest management

Madhunashini, Gymnema sylvestre R. Br. ex Sm. (F: Asclepiadaceae) is an important industrial medicinal plant that has various pharmacological properties like antidiabetic, antiobesity, anticarcinogenic and neuroprotective. The invasive mealybugs, i.e., Phenacoccus solenopsis and Paracoccus marginatus, are causing significant yield losses to G. sylvestre in India. The identity of the mealybug species, P. solenopsis and P. marginatus, were confirmed both morphologically and molecularly by using Cytochrome c oxidase subunit I (COI) gene with (GenBank Accession No. OQ349395 and OQ358124). The pest incidence occurs throughout the year, but its peak activity was observed during the summer months (April to August). In the current investigation, 30 genotypes were examined for their resistance against mealybugs in their natural field environment for three consecutive years from 2019 to 2021 in the geographical region of Anand, Gujarat, India. The pooled analysis showed that the severity of infestation ranged between 0.41 and 3.57. Our study results revealed that 10% of the genotypes i.e. DGS-18, DGS-26, and DGS-28, were highly resistant. Furthermore, 16.66% of the genotypes, i.e. DGS-13, DGS-15, DGS-22, DGS-30, and DGS-33 were categorized as resistant. The novel resistant genotypes identified in the present study will be helpful for the management of P. solenopsis and P. marginatus, in G. sylvestre. The resistant genotypes have excellent scope for reducing the use of pesticide usage as well as help in mitigating pesticide residue.

РАЗРАБОТКА РЕСУРСОСБЕРЕГАЮЩЕЙ ТЕХНОЛОГИИ И ТЕХНИЧЕСКИХ СРЕДСТВ ДЛЯ ВОЗДЕЛЫВАНИЯ КАРТОФЕЛЯ

A significant proportion of potatoes are cultivated in difficult soil and climatic conditions, which negatively affects the quality of harvested potatoes due to the consequences of contact of tubers with soil lumps. The technology for cultivating potatoes with alternating beds is proposed to increase the efficiency of potato cultivation to stabilize the accumulation of organic matter, decompact the soil and the subsoil horizon. The method includes basic tillage, pre-planting tillage with cutting ridges, planting potatoes in ridges, inter-row cultivation, maintenance soil moisture and density, digging up tubers and marking rows. The method differs in that during subsequent planting next year, the soil is cultivated so that the bottom of the ridges alternates with potato tubers. The research results showed that the greatest influence on the destruction of soil lumps is their moisture content and the speed at which the lumps collide with the beater drum. It has been shown that destruction of up to 80% of soil lumps occurs when falling from a height of 1 - 1.5 m and the destructive force of clay with a moisture content of 17 - 22% under static compression is 0.1-0.2 kN. Ultimately, the technology of growing potatoes with alternating ridges helps control weeds and minimizes the incidence of diseases and pests.

A Comprehensive Assessment of Apple Production in Jumla District, Nepal: Status, Economics, Marketing and Challenges

Apple production is a vital sector of agriculture in Nepal, significantly impacting local livelihoods and the regional economy. This study, conducted in Jumla District, Nepal, from January to July 2022, aims to comprehensively assess apple production, including its existing conditions, economic implications, marketing and challenges. The research hypothesizes that while apple production in Jumla District contributes significantly to the local economy, it faces challenges related to pest and disease management, marketing, and adoption of modern practices. Using Statistical Package for Social Science (SPSS), descriptive statistics were computed based on data collected from a sample of 80 respondents selected through simple random sampling. The result revealed that agriculture constituted the primary source of income for 73.75% of the population, with an average landholding size of 0.3428 ha and an apple-growing land area of 0.3164 ha. Income from apple production, along with vegetables and fruits, was a major income source. The average annual sales of apple production were 7.291 t/ha. Labor costs accounted for 45.67% of the total cost of apple production, with an average total production cost of NPR 238,097.2 and average gross returns of NPR 485,500. Apple productivity was 9.71 t/ha, demonstrating its economic viability with net returns of NPR 247,402.80 per ha and benefit cost ratio of 2.039. However, the study found that farm produce only sufficed for 6-9 months, with pest and disease incidence and marketing issues as major challenges. Interventions should address pest and disease management, marketing strategies, and modern practices adoption to enhance sustainable and profitable apple production in Jumla. Efforts to extend farm produce sufficiency should also be explored, highlighting apple production's potential and the need for targeted support to overcome challenges and foster sector development.

Impact of Abiotic Factors on Occurrence of Capsule Borer and Sucking Pests in Sesamum

A field experiment was conducted at Agricultural college, Naira, Srikakulam, Andhra Pradesh, India during early summer (January–April) of 2021 to know about the incidence of leaf webber and sucking pests viz., leafhopper (Hishimonus phycitis Distant) and whitefly (Bemisia tabaci Gennadius) its relation with main weather factors. Results revealed that a peak incidence of mean capsule borer population per plant were recorded in 9th and 11th standard weeks, respectively. The correlation study revealed that the Antigastra larvae had significantly positive correlation with maximum temperature (r=0.48) and significantly negative correlation with relative humidity (r=- 0.71). The regression analysis revealed that these factors accounted for approximately 59.8% of the variation in the capsule borer population (R2=0.598). The incidence of leafhopper (Hishimonus phycitis Distant) and whitefly (Bemisia tabaci Gennadius) were started during 5th and 4th SMW attained their peaks during 11th an 12th SMW respectively. The correlation study revealed that the leafhopper showed significant positive correlation with maximum temperature (r=0.623) and minimum temperature (r=0.283) and significantly negatively correlated with morning and evening relative humidity (r=-0.165, r=-0.122) respectively. While the correlation study between whitefly population and weather parameters revealed that the it showed positive correlation with maximum (r=0.821) and minimum (r=0.120) temperature and negatively correlated with morning and evening relative humidity (r=-0.097, r=-0.182) respectively whereas, rainfall showed non-significant correlation (r=0.00) with the both sucking pests.

Temperature Tolerance in the Five Field Strains of Trichogramma chilonis from Northern Districts of Tamil Nadu, India

The egg parasitoid, Trichogramma chilonis is a potential egg parasitoid in the agricultural ecosystem, reducing many lepidopteran pest incidences. The laboratory strains of T. chilonis was significantly inferior to the ecotypes collected from fields in their parasitisation potential and tolerance to temperature due to continuous exposure to temperature extremes in the field. Hence, a study was undertaken to evaluate the laboratory reared strain of T. chilonis with that of other ecotypes to identify a temperature tolerant ecotype for use in pest management programme. Five ecotypes of T. chilonis were collected from farmer's fields on sugarcane and citrus using sentinel egg technique by exposing egg cards of Corcyra cephalonica, mass reared on C. cephalonica for three successive generations and tested for their relative tolerance to temperature in comparison with the laboratory population. The emergence percentage of the parasitoid varied with the ecotypes tested and all the field collected ecotypes recorded increased emergence compared to the laboratory population. At 150 C, the emergence was significantly higher in Chitteri ecotype (83.44%) followed by Arungunam and Amirthapuram ecotype (78.65 and 75.57%). The performance of all the ecotypes were best at 200 C and Chitteri ecotype performed significantly better compared to other ecotypes and the laboratory population with an adult emergence of 95.66 per cent. It was followed by Arungunam ecotype (88.65%) at 200 C. While the laboratory population and other ecotypes failed to develop at 350 C, Chitteri and Arungunam ecotypes were able to develop with 9.66 and 7.25 per cent adult emergence from the parasitised eggs.

Synergistic interplay between arbuscular mycorrhizal fungi and fern manure compost tea suppresses common tomato phytopathogens and pest attacks on-farm

Actually, there are intensive efforts towards eco-friendly integrated agricultural management measures to control plant diseases and pests. One of the most promising approaches is the use of arbuscular mycorrhizal fungi (AMF) in combination with organic biopesticides such as eagle fern manure (FM) compost tea. However, their effects have been mainly studied independently from each other. The potential interactions between belowground plant-associated microorganisms such as AMF and aboveground foliar application of biopesticide to mitigate common tomato phytopathogens and pests remain untapped, particularly under on-farm conditions. In a randomized complete block design, the impact of inoculating tomato seedlings with a selected AMF consortium and beyond that the impact of mycorrhized plants receiving three different doses of FM compost tea (0%, 5%, and 10%) on the control of tomato-specific plant diseases and pests and subsequently on the crop yield were examined. The present study demonstrated a sevenfold increase in the rate of mycorrhizal root colonization (from 10% to 70%) in tomato plants that received the combined application of AMF and 10% FM compost tea compared to the control plants that did not receive AMF inoculum and FM compost tea. The combination of AMF and FM compost tea application led to positive synergistic effects that promoted beneficial effects in suppressing the incidence and severity of common tomato diseases and pests. The magnitude of these synergistic effects increased with AMF inoculation and FM compost tea dosage, culminating in greater suppression of tomato plant diseases and pests and, moreover, in an increase in fruit yield compared to control plants. The combination of AMF and 10% FM compost tea revealed a higher suppressive ability against most pathogens and insect attacks. This was evidenced by a 71.3% and 94.7% total reduction in incidence and severity, respectively, compared to control plants. This is the first time that pre-inoculation of AM, combined with FM compost tea application, has been reported as a potential biocontrol alternative to suppress common tomato pathogens and pests while increasing cherry tomato yields sustainably.

Evaluation of Bitter Gourd Genotypes for Pest and Diseases Incidence Under Natural Condition

Bitter goourd or bitter melon botanically Momordica charantia L. is susceptible to many pest and diseases are now days challenge in its cultivation. So in the present study elucidate the incidence of pest (Fruit fly) and disease (mildews) of bitter gourd. The experiment was conducted under northern dry zone of Karnataka. Fifty six bitter gourd genotypes was under study but none of them shows resistance but the severity various with genotypes. Genotypes exhibit powdery mildew incidence from moderately susceptible (20.89%) to highly susceptible (66.67%) and downy mildew. Genotype ABG-DG-T-1 showed lower infestation for fruit fly (12.90%) and downy mildew (32.00%) among all the genotypes under study.