Your search keyword '"Sándor Keszthelyi"' showing total 85 results

1. Detection of damage caused by Nezara viridula on soybean using novel imaging approaches based on computed tomography and image color analysis

Author

Szilvia Gibicsár, Tamás Donkó, Dániel Fajtai, and Sándor Keszthelyi

Subjects

CT‐imaging, nondestructive, southern green stinkbug, yield, Botany, QK1-989

Abstract

Abstract Soybean (Glycine max L.) is an important leguminous plant, in which pests trigger significant damage every year. Important members of this community are insects with piercing‐sucking mouthpart, especially the southern green stinkbug, Nezara viridula L.. This insect with its extraoral digestion causes visible alterations (morphological and color changes) in the seeds. We aimed to obtain precise information about the extent and nature of damage in soybeans caused by N. viridula using nondestructive imaging methods. Two infestation conditions were applied: one with controlled numbers of pests (six insects/15 pods) and another with naturally occurring pests (samples collected from the apical part of the plant and samples from whole plants). An intact control group was also included, resulting in four treatment groups. Seed samples were analyzed by computed tomography (CT) and image color analysis under laboratory conditions. According to our CT findings, the damage caused by N. viridula changed the radiodensity, volume, and shape (Solidity) of the soybean seeds during the pod‐filling and maturing period. Radiodensity was significantly reduced in all three damaged categories compared to the intact sample; the mean radiodensity reduction range was 49–412 HU. The seed volume also decreased significantly (25%–80% decrease), with a threefold reduction for samples exposed to regulated damage compared to natural ones. The samples exposed to natural damage showed significant but minor reduction in solidity, while samples exposed to regulated damage showed a prominent decrease (~12%). Image color analysis showed that the damaged samples were well distinguishable, and the differences were statistically verifiable. The achieved data derived from our external and internal imaging approaches contribute to a better understanding of the internal chemical processes, and CT analysis helps to understand the alteration trends of the hidden structure of seeds caused by a pest. Our results can contribute to the development of a practically applicable system based on image analysis, which can identify lots damaged by insects.

Published

2024

2. Tracking Varroa Parasitism Using Handheld Infrared Cameras: Is Eusocial Fever the Key?

Author

Tamás Sipos, Szilvia Orsi-Gibicsár, Tamás Schieszl, Tamás Donkó, Zsombor Zakk, Sándor Farkas, Antal Binder, and Sándor Keszthelyi

Subjects

Apis mellifera, Varroosis, social immunity, infrared thermography, Science

Abstract

The Varroa destructor is the most significant bee parasite and the greatest threat to bee health all around the world. Due to its hidden lifestyle, detection within the brood cell is only possible through invasive techniques. Enhancing detection methods is essential for advancing research on population dynamics, spread, selection efforts, and control methodologies against the mite. In our study, we employed infrared imaging to measure the thermal differences in parasite and intact Apis mellifera worker broods. Experiments were conducted over two years at the MATE Kaposvár Campus in Hungary involving five beehives in 2022 and five beehives in 2023. A FLIR E5-XT WIFI handheld infrared camera was used to create a heat map of capped brood frames. Our results indicate that the resolution of these cameras is sufficient to provide detailed IR images of a bee colony, making them suitable to detect temperature differences in intact and Varroa parasitized capped brood cells. Mite parasitism causes a time-dependent and sustained temperature increase in developing bee pupae, observable regardless of mite number. Our work demonstrates two different heating patterns: hotspot heating and heating cells that are responsible for the elevated temperature of the Varroa-infested cells as a social fever response by the worker bees. Based on our results, future research combined with AI-based image evaluation software could offer beekeepers and researchers practical and valuable tools for high-throughput, non-invasive Varroa detection in the field.

Published

2024

3. Colour polymorphism of cotton bollworm larvae as a function of the type of host plant providing its development

Author

Sándor Keszthelyi, Szilvia Orsi-Gibicsár, Ferenc Pál-Fám, Katalin Somfalvi-Tóth, and Adalbert Balog

Subjects

colour analysis, crypsis, fully-developed larvae, Helicoverpa armigera, herbivore adaptive ability, image analysis, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

A well-known insect phenomenon is colour polymorphism, from which the species hopes to gain some ecological advantage. Herbivores adapt to the colours of their environment to reduce their chances of becoming prey, while predators use camouflage colours to succeed in hiding from prey. The larvae of the cosmopolitan, highly invasive cotton bollworm (Helicoverpa armigera Hbn., Lep.: Noctuidae) also benefit from this morphological polymorphism. Their fully-developed larvae can take on various colours when feeding on foliage. Our study aimed to determine the host plant-related colour adaptation of H. armigera larvae collected from different plant organs using different spectral analysis methods. Our studies, based on colour analysis of photographic images, showed that the colour of fully-developed larvae of the species is highly correlated with the colour of the damaged nutrient plant. The dominant colours of the larvae show a high similarity with the colours of the consumed host plant parts. The RGB-based analysis confirmed that larval colours are clustered according to the host plant’s organs and are mainly located in the yellow and green regions of the visible light spectrum. All these results confirm the extraordinary adaptive capabilities of this invasive species, which, among other things, verify its worldwide distribution.

Published

2024

4. Plant protection consequences in Hungary of the withdrawal of systemic active substances from sugar beet seed treatment

Author

Ildikó Jócsák, Ferenc Csima, Ferenc Pál-Fám, Katalin Somfalvi-Tóth, and Sándor Keszthelyi

Subjects

insecticides, crop protection, in-crop treatment, juvenile arthropod pest, Beta vulgaris production, systemic mode of action, Agriculture, Plant culture, SB1-1110

Abstract

After decades of development, neonicotinoids were widely used in Hungarian sugar beet production and seeds included thiamethoxam treatment by 2019 increasing protection against early spring pests. In Hungary, neonicotides’ influence on bee health led to their removal of emergency authorization. In the absence of thiamethoxam in 2020, experience showed that multiple treatments were needed to protect beet from pests early spring pests. Repeated applications of mostly pyrethroids have proved suitable; however, in sugar beet, this has resulted in a multiple increase in environmental stress and honey bee mortality, as well as increased input values. The aim of this work is to explore the current state of production and collect new alternative options for applying effectively in Hungarian sugar beet production technology, against early spring pests.

Published

2024

5. Comparison of Juvenile Development of Maize and Sorghum in Six Temperate Soil Types under Extreme Water Regimes

Author

Katalin Somfalvi-Tóth, Richárd Hoffmann, Ildikó Jócsák, András Pitz, and Sándor Keszthelyi

Subjects

maize, sorghum, stress, drought, flooding, germination, Agriculture

Abstract

Climate change requires the introduction of alternative crops in certain temperate areas due to the warmer and drier growing seasons. Maize, one of the most important crops, is projected to become less tolerant of a drier climate. Therefore, it is necessary to find an alternative species that is less susceptible to environmental stressors. This study compared the germination, growth vigour, and stress tolerance of maize and sorghum grow in six types of soil under three water regimes. The results indicate that sorghum germination is faster and more uniform. The most significant differences in germination rates were found in chernozem (88.9% and 72.2% for sorghum and maize, respectively) and saline solonetz (74.4% and 63.3% for sorghum and maize, respectively). Maize exhibited higher growth vigour only in three cases, i.e., under solonetz–flooding, shifting sand–drought, and brown forest floor–flooding conditions. An ANOVA showed a significant difference between sorghum and maize stress conditions due to soil conditions and water availability (p < 0.0001). Sorghum can be a suitable alternative to maize, but only in areas with hot, dry periods and in areas where the soil is not too prone to waterlogging, regardless of its quality.

Published

2024

6. Comparative micro-computed tomographic analysis of the structure of brood cells and its effect on the development of the pupae of honey bee (Apis mellifera)

Author

Tamás SIPOS, Tamás DONKÓ, Ádám CSÓKA, Tamás KISS, and Sándor KESZTHELYI

Subjects

hymenoptera, apidae, comb cell volume and size, developmental disorders, computer tomography, wax structure, Zoology, QL1-991

Abstract

Most beekeepers worldwide use the same combs in their hives for many years, which can result in alterations in the inner volume of the comb cells. The objective of this survey using microcomputed tomography was to reveal developmental disorders caused by this beekeeping practice. The extent of the thickening of the wall of brood cells that occurs as a result of the long-term use of the combs was determined. This alteration resulted in a reduction in the inner volume of the comb cells, which had a significant effect on the size of the pupae and possibly the health of the imagoes. The walls of the cells can be divided into two well-determined parts, which can be exactly visualized using micro-CT. In addition, the inner structure of the wall in the first part of the cell was altered by very radio dense remains of cocoons. The material in the other part of the cell is less radio dense and as previously suggested is mainly wax. The decrease in the length, surface and volume of these cells adversely affected the developing pupae, which according to previous studies results in a reduction in the production of workers, colony strength and honey yield. The extent of the reduction in the body regions of pupae was on average 4.98%. Overall, the volume of the pupae that developed in these narrow comb cells were smaller by an average of 12.22%.

Published

2023

7. Common Ragweed—Ambrosia artemisiifolia L.: A Review with Special Regards to the Latest Results in Biology and Ecology

Author

Bence Knolmajer, Ildikó Jócsák, János Taller, Sándor Keszthelyi, and Gabriella Kazinczi

Subjects

common ragweed, biology, ecology, spreading, harmful effect, Agriculture

Abstract

Weeds are responsible for a significant proportion of agricultural production losses. Common ragweed (Ambrosia artemisiifolia L.) has become the dominant weed in much of the northern hemisphere over the last century and is projected to further expand northward with climate warming. Not only does it cause damage to agriculture, but it also poses a significant human health risk. With the increasing number of Ambrosia artemisiifolia, around 44 million more people will suffer from ragweed pollen-induced pollinosis in the future just in Europe. The following review provides an overview of the most important and recent research findings on the spread, morphology, life cycle, importance and damage, allelopathic effects, habitat and environmental requirements of common ragweed. These characteristics of the species may explain its success and, based on this knowledge, allow the development of methods for its control.

Published

2024

8. Harvesting and phytosanitary parameters with particular regard to mycotoxin content of maize as a function of different seasonal, fertilisation and hybrid effect

Author

Sándor Keszthelyi, Sándor Kadlicskó, György Pásztor, András Takács, Éva Szolcsányi, Ferenc Pál-Fám, Helga Lukács, Zsolt Pónya, Richárd Hoffmann, Kinga Rudolf, Tamás Sipos, Éva Piszker, Mónika Treitz, Ákos Mesterházy, Katalin Somfalvi-Tóth, Ildikó Jócsák, and Gabriella Kazinczi

Subjects

field crop analysis, harvesting data, zea mays l., phytopathological symptoms, environmental condition, ear mould diseases, Plant culture, SB1-1110

Abstract

The aim of our three consecutive years (2017-2019) field trial was to obtain information as to the effect of weather conditions of the actual year as well as to assess the impact of some technological parameters such as fertilisation, the choice on the hybrid type on the yield parameters, phytosanitary conditions and mycotoxin contamination of maize. According to our results, the climatic characteristics of the years, the examined hybrid characters (FAO 310 and 490) and the fact of N-fertilisation had significant effects on yield parameters and grain moisture content. The additional N-supply did not affect the development or severity of stem rot in any of the hybrid effects. In this respect, the year effect appeared to be the decisive factor since much higher stem rot values were recorded in the plots of the longer growing season hybrids. Among the mycotoxins examined, only zearalenone and fumonisin found in the harvest were significantly influenced by the effect of the year, the length of the growing season as well as nutrient replenishment. It can be stated that the applied technological parameters have a major effect on the expression of this toxin load in maize. Dry maize stocks that have lost their water in the vegetation are predisposing factors for toxin accumulation. N-content of soil and that of plants can play a different role in mycotoxin accumulation in maize plants.

Published

2022

9. X-ray based computed tomography, a non-invasive approach in order to assess the damage caused by Lamprodila festiva of hidden lifestyle

Author

Sándor Keszthelyi, Tamás Sipos, Ádám Csóka, and Tamás Donkó

Subjects

computer tomography, cypress jewel beetle, damage assessment, larval position, non-invasive method, Plant culture, SB1-1110

Abstract

The cypress jewel beetle Lamprodila (Palmar) festiva is a wood-boring pest posing a major threat to the phytosanitary conditions of several coniferous trees. Its unprecedented European expansion has triggered serious plant protection concerns in several new habitats. Parts of Chamaecyparis lawsoniana injured by L. festiva were collected and analysed by computed tomography in order to study the dimensions of the cavities caused by L. festiva larvae as well as the larval positions. It is concluded that computer tomography representing a non-invasive approach is a promising tool for the visual depiction of the position and the physical parameters of the cavities formed. According to our experimental data, the penetration into the cypress caused by larvae and, inherently, its depth depends on the diameter of the branch. Additionally, the developing larvae appeared to keep distance from each other, which also depended on the diameter of the attacked branch. Our approach provides new data to the biological traits of the species. The main benefit that our imaging method furnishes is the exact, stress-free measurement method of the hidden developing stages. Its additional advantage is the indirect pest identification, which is based on the predetermined pest-specific damage characters.

Published

2022

10. Physiological Responses Manifested by Some Conventional Stress Parameters and Biophoton Emission in Winter Wheat as a Consequence of Cereal Leaf Beetle Infestation

Author

Helga Lukács, Ildikó Jócsák, Katalin Somfalvi-Tóth, and Sándor Keszthelyi

Subjects

biotic stress, delayed fluorescence, leaf damage, lipid oxidation, non-invasive imaging, Oulema melanopus, Plant culture, SB1-1110

Abstract

Oulema melanopus L. (Coleoptera: Chrysomelidae) is one of the most serious pests of winter wheat that causes peeling of the epidermis and tissue loss. The complex mapping of the physiological responses triggered by O. melanopus as a biotic stressor in winter wheat has not been fully explored with the help of non-invasive imaging and analytical assays, yet. The aim of the present work was to study the effect of O. melanopus on the physiological processes of winter wheat, especially on the extent of lipid peroxidation and antioxidant activity derived from tissue destruction, as well as photosynthetic ability. The results of the measurements enabled the identification of the antioxidant and lipid-oxidation–related physiological reactions, and they were reflected in the dynamics of non-invasive biophoton emissions. Our non-invasive approach pointed out that in the case of O. melanopus infestation the damage is manifested in tissue loss and the systemic signaling of the biotic stress may have reached other plant parts as well, which was confirmed by the results of antioxidant capacity measurements. These results indicate that the plant reacts to the biotic stress at a whole organizational level. We identified that the antioxidant and lipid-oxidation–related physiological reactions were reflected in the dynamics of two aspects of biophoton emission: delayed fluorescence and ultra-weak bioluminescence. Our research further supported that the non-invasive approach to stress assessment may complete and detail the traditional stress indicators.

Published

2022

11. The influence of the North Atlantic Oscillation on the potential distribution areas of Bursaphelencus xylophilus in Europe based on climatological reanalysis data

Author

Katalin Somfalvi-Tóth and Sándor Keszthelyi

Subjects

bursaphelencus xylophilus, distribution, ecmwf era5 reanalysis dataset, nao, pine wood nematode, temperature, Plant culture, SB1-1110

Abstract

Pine wood nematode (Bursaphelenchus xylophilus) (Aphelenchida: Parasitaphelencidae) is one of the most harmful agents in coniferous forests. The most important vectors of pine wood nematode are considered to be some Monochamus species (Col.: Cerambycidae), which had been forest insects with secondary importance before the appearance of B. xylophilus. However, the continuous spreading of the nematode has changed this status and necessitated detailed biological and climatological investigation of the main European vector, Monochamus galloprovincialis. The potential distribution area of M. galloprovincialis involves those areas where the risk of the appearance of pine wood nematode B. xylophilus is significant. The main objective of our analysis was to obtain information about the influencing effects of North Atlantic Oscillation (NAO) on the potential European range of B. xylophilus and its vector species M. galloprovincialis based on the connection between the mean temperature of July in Europe, the distribution of day-degrees of the vector and the NAO index. Our assessment was based on fundamental biological constants of the nematode and the cerambycid pest as well as the ECMWF ERA5 Global Atmospheric Reanalysis dataset. Our hypothesis was built on the fact that the monthly mean temperature had to exceed 20°C in the interest of an efficient expansion of the nematode. In addition, the threshold temperature of the vector involved in the calculations was 12.17°C, while the accumulated day-degree (DD) had to exceed the annual and biennial 370.57°DD for univoltine and semivoltine development, respectively. Our finding that a connection could be found between a mean temperature in July above 20°C and NAO as well as between the accumulated day-degrees and NAO can be the basis for further investigations for a reliable method to forecast the expansion of pine wood nematode and its vector species in a given year.

Published

2020

12. Action of Different Exposures of Chilled Atmospheric Treatments on the Mortality of Granary Weevil and Embryo Viability of the Treated Wheat

Author

Sándor Keszthelyi, Helga Lukács, Szilvia Gibicsár, Roman Rolbiecki, and Ferenc Pál-Fám

Subjects

atmospheric cooling, control method, mortality, relative humidity, Sitophilus granarius, stored product, Agriculture

Abstract

The granary weevil, Sitophilus granarius (L.), is considered a serious pest in stored grain worldwide. As residual-based protection possibilities become scarcer, the development of eco-friendly control technologies that can be implemented in practice is becoming urgent. In this spirit, our objective was to assess the effectiveness of different levels of atmospheric cooling against S. granarius under laboratory conditions. We also analysed the effects of cooling on progeny generation and the viability of treated wheat. Thus, we investigated the consequences of atmospheric exposures to temperatures of −5, −10, −15, −20, and −25 °C for 60, 75, and 90 min on these factors, and also explored the effects of nearby ranges using extrapolation. The viability of the treated wheat embryo was analysed using a TTC test. Our results showed that the highest efficacy was observed at an atmospheric cooling temperature of −25 °C (with a parallel recorded temperature of −10.5 °C in the stored grains zone), with a 90 min exposure at suboptimal relative humidity (40%). At 60% relative humidity, the mortality averages were more dispersed, and the expected efficiencies above 95% occurred at longer exposures. The post-suppressive effect of cooling can be confirmed in all three exposures. The different cooling temperatures of the tested exposure times did not produce any appreciable changes in the viability of treated wheat embryos. In conclusion, our results show that the use of atmospheric cooling can be an effective solution for stored product protection.

Published

2023

13. Topographical Based Significance of Sap-Sucking Heteropteran in European Wheat Cultivations: A Systematic Review

Author

Szilvia Gibicsár and Sándor Keszthelyi

Subjects

cereal bugs, damage, distribution, Hemiptera, ranking of damage potential, Biology (General), QH301-705.5

Abstract

Sap sucking heteropteran cereal bugs—members of the Eurygaster and Aelia genus—are serious pests of wheat. Moreover, they feed on a variety of gramineous plant species, including rye, barley, oat, maize, and millet. They are widely distributed in the European continent. The purpose of this review paper is two-fold; it summarizes the currently available data on the biological characteristics, the inflicted damage, and their European distribution and, in addition, we aimed to determine their economic importance, based on data available in the current literature. For the most important cereal bug species, we have collected data on their occurrence in Europe to provide a comprehensive picture of their distribution, and characterized them according to their temperature requirements at different life stages. We have also determined the degree of their attachment to wheat as their host plant, examining the synchronization between the pests and the life cycle of the plant. Finally, we compared their migration characteristics. All the above-mentioned characteristics were merged, in order to assess and rank the damage potential of each species.

Published

2023

14. Evaluation of the Acaricidal Activity of Lithium Chloride against Tetranychus urticae (Acari: Tetranychidae)

Author

Izabella Solti, Éva Kolics, Sándor Keszthelyi, Zsuzsanna Bacsi, Ádám Staszny, Erzsébet Nagy, János Taller, Kinga Mátyás, and Balázs Kolics

Subjects

two-spotted spider mite, lithium, pesticide alternative, horticulture, efficacy, mortality, Plant culture, SB1-1110

Abstract

Tetranychus urticae is a severe threat and a major source of yield loss in some agricultural and horticultural crops and it is also as a vector for several viruses. The number of active substances used against the pest is limited. Therefore, there is a continuous need for new active substances. Recently, lithium salts have been shown to be one of the most promising potential alternatives to control Varroa destructor; an apicultural mite pest. Based on this, we aimed to test whether the efficacy of lithium chloride extends to other agricultural mite pests, such as the two-spotted spider mite. In the present pilot study, we report for the first time that the efficacy of lithium chloride is extended to the two-spotted spider mite. Additionally, this is the first report on the acaricidal effectiveness of lithium on a plant mite pest. In the present study, we report three different concentrations that bear 100% mortality at concentrations of 5.52 M, 2.76 M, and 1.38 M. The symptoms caused were similar and followed the same sequence compared to those observed on animal parasites such as V. destructor and Dermanyssus gallinae.

Published

2022

15. Non-Invasive Evaluation of Different Soil Tillage and Seed Treatment Effects on the Microbial Originating Physiological Reactions of Developing Juvenile Maize

Author

Antal Binder, Ildikó Jócsák, Zsolt Varga, Bence Knolmajer, and Sándor Keszthelyi

Subjects

juvenile stage, maize, non-invasive imaging, phytopathogenic agents, plant physiological stress, soil cultivation, Botany, QK1-989

Abstract

The successful production of maize is fundamentally determined by a good choice of tillage type. Options include conventional tillage based on soil rotation, as well as a more recent conservation approach. Our aims were to determine the stress physiological effects of the plant remains left behind by different tillage procedures on the juvenile maize plants, combined with the effects of fungicide treatment on the seeds. These effects were followed and investigated by means of biophoton emission measurement, an in vivo and non-invasive imaging technique, along with chlorophyll content estimation, as well as microbial- and polymerase chain reaction-based identification of fungi presence. Our results confirmed the response reactions of maize triggered by a soil covering plant remains on the initial development and physiological involvement of maize. The positive effects of seed treatment on initial development are manifested only at the final stage of the experiment. The fungal microbiological analysis confirmed the dominant presence of necrotrophic parasites on plant residues, the stress-inducing properties of which were possible to monitor by biophoton emission. Furthermore, the presence of Fusarium spp. was confirmed by PCR analysis from samples treated with plant residues.

Published

2022

16. Analysis of the Destructive Effect of the Halyomorpha halys Saliva on Tomato by Computer Tomographical Imaging and Antioxidant Capacity Measurement

Author

Sándor Keszthelyi, Szilvia Gibicsár, Ildikó Jócsák, Dániel Fajtai, and Tamás Donkó

Subjects

brown marmorated stink bug, nondestructive analysis, plant impairment, tissue destruction, tomato, Biology (General), QH301-705.5

Abstract

Qualitative and quantitative parameters of tomatoes are impaired by Halyomorpha halys Stål (Hemiptera: Pentatomidae), which cause severe economic losses worldwide. Our aims were to assess H. halys-induced tissue damage in tomatoes via computer tomography and to confirm the results of imaging obtained by analytical methods. Our examination confirmed the intensification of the change in the inner structure of damaged tomatoes as a function of time. The tendency of this destruction triggered by bug saliva grew exponentially from the exocarp layer to the inner placenta. The destruction of the plant tissue was aggravated by an increase in the number of bugs, as it was unequivocally evinced by the shell thickness assays. The results of the assessment of the antioxidant capacity of tomato mesocarp showed a distinct decrease in the antioxidant capacity of the samples obtained from H. halys-infested tomatoes. This indicates that the ferric-reducing antioxidant power value was related to the degradation processes of the mesocarp tissue in tomato fruit caused by the watery saliva released by H. halys. The presented experimental method can be suitable for the qualitative control of the vegetable items intended for trade, which can help for the isolation of tomatoes damaged by bugs immediately after harvest.

Published

2022

17. Impact of Short-Term Atmospheric Heat Transfer on the Survival of Granary Weevil in Stored Winter Wheat

Author

Helga Lukács, Ferenc Pál-Fám, Éva Varga-Visi, Roman Rolbiecki, Attila Percze, and Sándor Keszthelyi

Subjects

mortality, protection method, qualitative parameters of winter wheat, relative humidity, Sitophilus granarius, short-term heating, Agriculture

Abstract

The granary weevil Sitophilus granarius L. is a pest causing substantial damage to stored wheat worldwide, against which the elaboration of sustainable control methods has recently been gaining importance. Our objective was to assess the efficacy of a rapid atmospheric convection heat transfer method against S. granarius under laboratory conditions. We examined the changes in adult mortality and progeny survival triggered by heat and the effect of this on the quality parameters of treated wheat items. The insecticidal efficacy, achieved by the treatment of infested grains, was also analyzed at 37, 47, 67, 87, and 107 °C for 5, 6, and 7 min under 40% and 60% rh exposure to atmospheric heating with the progeny production assessed 45 days after the treatment. The quality parameters of the treated wheat were analyzed by a germination test and NIR grain analysis. Our findings showed that adequate eradication of S. granarius was obtained at 107 °C for 5 min of exposure under suboptimal (40% rh) relative humidity values. At 60% relative humidity, mortality averages were more dispersed, and efficacies above the expected 95% occurred over longer exposures. The progeny-suppression effect from short-term heating was affirmed. The atmospheric convection heat transfer method, under the applied temperature and exposure time combinations, did not induce detectable changes in the quality parameters or the germination ability of the treated wheat. Overall, our findings indicated that the use of short-term heating for the post-harvest protection of cereals is feasible, which may contribute to the realization of residuum-free pest management and provide an effective and sustainable technique in integrated pest management.

Published

2022

18. Nutrient content restructuring and CT-measured density, volume attritions on damaged bean caused by Acanthoscelides obtectus Say (Coleoptera: Chrysomelidae)

Author

Sándor Keszthelyi, Helga Bosnyákné Egri, Dávid Horváth, Ádám Csóka, György Kovács, and Tamás Donkó

Subjects

Acanthoscelides obtectus Say, bean, nutrient attrition, CT-assisted analysis, pests, storage, Plant culture, SB1-1110

Abstract

Leguminous plant products have great nutritional and economic importance in the European Union, which is reflected by its protein policy. These harvested yields are risked by stored product pests, such as Acanthoscelides obtectus Say, which can cause up to 50–60% loss in stored bean items. The bean weevil causes both quantitative and qualitative damage to seeds. We aimed to map the qualitative damage of this devastating pest, which deteriorates the nutritional content of bean kernels. Furthermore, our purpose was to determine accurately the decrease in the volume and density alteration in beans caused by this important stored product pest using CT-assisted imaging analysis. Our results showed that the nutritional arrangement in damaged beans was caused by A. obtectus. The measured nutrient content increment in damaged samples can be explained by the presence of extraneous organic material which originates from perished specimens of the bruchin pest. This is a negative phenomenon in bean items used as forage, because of the loss of valuable proteins and rancidity in herbal oils. Weight loss triggered by developing larvae was 49.42% in examined bean items. The use of 3D technologies has greatly improved and facilitated the detailed investigation of injured seeds. The density (75,834 HU; 41.93%) and the volume (296.162 mm3; 26.21%) values measured by CT of the examined samples were significantly decreased. The decreasing of tissue density in damaged beans can be accounted for by the consumption of starch present at a high ratio and that of the dense reserve components in the cotyledons.

Published

2018

19. Study of Morphological Features in Pre-Imaginal Honey Bee Impaired by Varroa destructor by Means of Computer Tomography

Author

Tamás Sipos, Tamás Donkó, Ildikó Jócsák, and Sándor Keszthelyi

Subjects

body part deformation, computed tomography, honey bee, non-destructive analysis, non-invasive method, varroosis, Science

Abstract

The honey bee (Apis mellifera L. 1778) is an essential element in maintaining the diversity of the biosphere and food production. One of its most important parasites is Varroa destructor, Anderson and Trueman, 2000, which plays a role in the vectoring of deformed wing virus (DWV) in honey bee colonies. Our aim was to measure the potential morphometric changes in the pre-imaginal stage of A. mellifera caused by varroosis by means of computed tomography, hence supplying evidence for the presumable role that V. destructor plays as a virus vector. Based on our results, the developmental disorders in honey bees that ensued during the pre-imaginal stages were evident. The total-body length and abdomen length of parasitized specimens were shorter than those of their intact companions. In addition, the calculated quotients of the total-body/abdomen, head/thorax, and head/abdomen in parasitized samples were significantly altered upon infestation. In our view, these phenotypical disorders can also be traced to viral infection mediated by parasitism, which was confirmed by reverse transcriptase polymerase chain reaction (RT-PCR) analysis. Capitalizing on a non-destructive method, our study reveals the deformation of the honey bee due to mite parasitism and the intermediary role this pest plays in viral infection, inside the brood cell.

Published

2021

20. A Non-Invasive Approach in the Assessment of Stress Phenomena and Impairment Values in Pea Seeds Caused by Pea Weevil

Author

Sándor Keszthelyi, Dániel Fajtai, Zsolt Pónya, Katalin Somfalvi-Tóth, and Tamás Donkó

Subjects

bioluminescence imaging, Bruchus pisorum, CT analysis, IR thermography, non-invasive approach, Pisum sativum, Botany, QK1-989

Abstract

Pea (Pisum sativum L.) is an important leguminous plant worldwide, in which pests trigger significant damage every year. One of the most important pest is pea weevil (Bruchus pisorum, L) which causes covert damage in crops. In the present study, our aim was to obtain precise information pertaining to the extent and the nature of damage in pea caused by B. pisorum by means of non-invasive imaging methods. The infested pea samples were analysed by an infrared thermometer and a bioluminescence plant imaging system as well as a computer tomograph under laboratory conditions. The calculated weight of organic matter destroyed by the developing larvae was 36.46%. The changing of RGB (red, blue, green) codes obtained through thermal imaging and the CPS (counts per second) values originating from bioluminescence imaging in infested samples were statistically verifiable. According to our CT assay, the damage caused by B. pisorum changed the tissue density, volume and shape of the pea seeds by the end of the development of the pest. The results of thermal and bioluminescence imaging contribute to a better understanding of the internal chemical processes and the CT analysis helps to understand the alteration trends of the inner structure of seeds caused by this pest.

Published

2021

21. Climate-induced seasonal activity and flight period of cerambycid beetles in the Zselic forests, Hungary

Author

Sándor KESZTHELYI, Zsolt PÓNYA, and Ferenc PÁL-FÁM

Subjects

abiotic factors, abundance, cerambycidae, activity of adults, faunistic data, Forestry, SD1-669.5

Abstract

The longhorn beetle fauna (Coleoptera: Cerambycidae) was studied in the Zselic region (Somogy county) in Hungary in seven consecutive years (2009-2015). In total 2,931 specimens were observed and the presence of 83 species was identified during the sampling period. The most abundant species were: Plagionotus arcuatus (Linnaeus, 1758) (pi = 10.542); Cerambyx scopoli Füssli, 1775 (pi = 8.359), Dorcadion aethiops (Scopoli, 1763) (pi = 6.653) and Strangalia melanura (Redtenbacher, 1867) (pi = 6.209). According to our examinations, individual meteorological factors, particularly temperature, directly influenced the dispersal and the activity of longhorn beetles (P = 0.038) as well as the species richness (P = 0.047), as did weather systems formation and movement of air masses, cold and warm fronts. It is also shown that the activity of the insects is influenced by daily weather conditions. The activity of arthropods was higher during warm, dry days and less pronounced during cold, wet ones coupled with high air pressure values. A conspicuous relationship was observable between the appearance of cerambycid beetles and their time period. According to the results of Principal Coordinate Analysis four major groups can be distinguished: early-flight, late spring-flight, summer-flight and late-flight species.

Published

2017

22. Effects of Different Infra-Red Irradiations on the Survival of Granary Weevil Sitophilus granarius: Bioefficacy and Sustainability

Author

Sándor Keszthelyi, Helga Lukács, and Ferenc Pál-Fám

Subjects

activity changing, environmentally-friendly pest management, granary weevil, IR, mortality, progeny, Science

Abstract

Sitophilus granarius (L.) is an important pest of stored grain worldwide. In recent years, sustainable methods against it have received attention as grain stock protective means. Our aim was to obtain information about the efficacy of infrared irradiation (IR) against S. granarius in laboratory conditions. The change in adult-activity and median lethal dose (LD50) triggered by IR in S. granarius was examined. The insecticidal efficacy in the infested grains was also analyzed at 12, 24, 48, and 72h following exposure to IR (250W), and the progeny-production was assessed 45 days upon the treatment. Based on our findings, total mortality ensued in a grain stock of 50 g at 412 s and a for 100 g grain at 256 s. A significant increase in S. granarius mortality could be observed in the higher grain weight regime, which can be accounted for by the higher heat-absorbance of objects with higher weight. The activity of pests immediately after the beginning of IR increased and subsequently became moderated. The observation of activity-peak brought about by irradiation contribute to the optimization of chemical intervention. This treatment could provide an effective and sustainable technique in integrated pest management.

Published

2021

23. A conceptualisation of computed tomography outputs in entomological research by step by step displaying trough the CT-based visualization of a wood-boring larvae

Author

Tamás Donkó, Örs Petneházy, Dániel Fajtai, and Sándor Keszthelyi

Subjects

Insect Science, Plant Science

Abstract

The non-invasive diagnostic methods represent a new branch of insect diagnostics, which can provide novel information especially about insects with hidden lifestyle. Computed tomography (CT) is one of the most useful non-destructive techniques allowing for both qualitative and quantitative assessments. The aim of the present study was to attain entomological information through the implementation of CT imaging, hence contributing to the spread of non-invasive imaging in entomological research. Through monitoring the development of wood-dwelling cerambycid larvae in beech branches, we point out some outputs applicable in entomological studies, which originate from CT image post-processing. We present findings on the location, and size of specimens of some hidden arthropods, as well as cavities formed by them, stemming from the maximum and minimum intensity projections, windowing, 3D-reconstruction, or virtual endoscopy, as steps of the imaging. In summary, it is expected that our findings contribute to a wider recognition of the entomological information that can be gathered from these non-invasive imaging techniques.

Published

2022

24. Geographical dispersion of ragweed leaf beetle ( Ophraella communa ) based on climatic and biological characters in the Palearctic habitats

Author

Sándor Keszthelyi, Gabriella Kazinczi, and Katalin Somfalvi‐Tóth

Subjects

Insect Science, Forestry, Agronomy and Crop Science

Published

2022

25. Impact analysis of different applications of cyantraniliprole on control of horse chestnut leaf miner (Cameraria ohridella) larvae supported by biophoton emission

Author

Sándor Keszthelyi, Bálint Gerbovits, and Ildikó Jócsák

Subjects

General Agricultural and Biological Sciences, General Biochemistry, Genetics and Molecular Biology

Abstract

Cameraria ohridella is one of the most invasive pests of horse chestnut. Cyantraniliprole is one of the most perspectively active insecticides, which can transport within the plant in several ways, and its efficacy against this pest has not yet been tested. All three modes of application were effective against the target pest, but there was a difference in the time of action between them. However, no demonstrable difference in the speed of action was detected between the doses used. A more intense rate of acropetal translocation was confirmed compared to basipetal translocation. A trend-like effect between the applied concentration of cyantraniliprole and the photon emission intensity per unit area of plant tissue was observed in the translaminar and acropetal treatment settings. In both cases, a clear increase in photon emission was observed, indicating metabolic upregulation. Therefore, we can conclude that biophoton emission measurements can be utilized to conduct efficient pesticide translocation investigations.

Published

2023

26. Response of Solanum tuberosum L. to drip irrigation and nitrogen application: productivity, nutrition composition, bioactive compounds, antioxidant activity

Author

Tomasz Jakubowski, Stanisław Rolbiecki, Roman Rolbiecki, Dorota Wichrowska, Anna Figas, Barbara Jagosz, Atilgan Atilgan, Ferenc Pal-Fam, Sandor Keszthelyi, and Anna Krakowiak-Bal

Subjects

ascorbic acid, chlorogenic acid, fertigation, polyphenols, potato yield, sugars, Plant culture, SB1-1110

Abstract

Sustainable crop cultivation is a crucial goal in modern agriculture, aiming to attain high productivity while conserving natural resources. This requires the implementation of rational cultivation techniques, with proper irrigation and fertilization practices playing a crucial role in ensuring plant well-being and providing natural protection against biotic and abiotic stresses. The health-promoting properties of crops are also significantly influenced by irrigation and fertilization. This study investigated the productivity, nutritional composition, bioactive compounds, and antioxidant capacity of Vineta early potato cultivar tubers under drip irrigation conditions, combined with nitrogen fertilization through fertigation or broadcasting. Two-factor trials included drip irrigation (control or drip) and nitrogen application (broadcast or fertigation). Precise treatments, such as drip irrigation and N-fertigation were found to enhance all productivity traits. Both practices positively impacted tuber nutrient content. The highest levels of total polyphenols and chlorogenic acid were observed in non-irrigated and broadcasted tubers. Drip-irrigated and N-fertigated tubers exhibited high levels of vitamin C and antioxidant activity. In summary, the combination of drip irrigation with appropriate fertilization methods positively influenced potato crops, as evidenced by an increase in productivity and the quality of tubers.

Published

2024

27. Detection of ultra-weak photon emission in sunflower (Helianthus annuus L.) infested by two spotted-spider mite, Tetranychus urticae Koch-research note

Author

Zsolt Pónya, Sándor Keszthelyi, and Ildikó Jócsák

Subjects

biology, Abiotic stress, Plant Science, Biotic stress, biology.organism_classification, medicine.disease_cause, Sunflower, Horticulture, Spider mite, Insect Science, Helianthus annuus, Infestation, medicine, PEST analysis, Tetranychus urticae

Abstract

Sunflower production plays an important role in global industrial oil production. Two-spotted spider mite, Tetranychus urticae, is a dangerous, polyphagous arthropod pest with a cosmopolitan distribution, which can endanger the economic features of global sunflower production. It is widely known that pests trigger various reactions in host plants. Among these, detection of ultra-weak photon emission (UPE) enhanced upon infestation is a novel, non-invasive method suitable for the visualisation and monitoring of both biotic and abiotic stress in living tissues. In the present study, the increase in ultra-weak UPE triggered by biotic stress caused by T. urticae in Helianthus annuus was measured. UPE response of injured plants differed from that of the control plants, which was reflected by a difference in bioluminescence intensity. In leaves attacked by T. urticae the onset value of average photon count detected by the sensor and expressed in cps (counts per second) was one order of magnitude higher on average as compared to that revealed by uninjured leaves. Furthermore, UPE emission in infested leaves resulted in an abrupt decrease in the ultra-weak photon emission intensity when assayed as a function of time. The use of this non-invasive imaging technique has allowed the detection of the injury induced by T. urticae, as a biotic stressor.

Published

2021

28. Erreichen Sie einen stabilen Wohlstand, nicht jeder kann Millionär sein

Author

Sándor Keszthelyi

Published

2015

29. Evaluation of acaricidal activity of lithium-chloride against Tetranychus urticae (Acari: Tetranychidae)

Author

Izabella Solti, Éva Kolics, Sándor Keszthelyi, Zsuzsanna Bacsi, Ádám Staszny, Erzsébet Nagy, János Taller, Kinga Mátyás, and Balázs Kolics

Abstract

Tetranychus urticae is a severe threat and a major source of yield loss in some agricultural and horticultural crops. Control is greatly complicated due to the hidden lifestyle of the species. In addition to its direct damage, it is considered a vector for several viruses. The number of active substances used against it is limited, and the development of resistance means that sustainable control is not achieved. Therefore, there is a continuous need for new active substances. Lithium salts have been shown to be a promising alternative to control Varroa destructor, an apicultural mite pest. Therefore, in the present study, we investigated whether the contact efficacy of lithium chloride extends to other agricultural mite pests, such as the two-spotted spider mite. In the present pilot study, we report for the first time that the efficacy of lithium chloride extends to the two-spotted spider mite, showing 100% mortality at concentrations of 5.52 M, 2.76 M, and 1.38 M. It is to note, however, that the experiments did not cover residue and practical application aspects, and further extensive studies are needed in this area to clarify the relevance of the practical sub-classification.

Published

2022

30. Red-headed ash borer Neoclytus acuminatus acuminatus (Fabricius) (Coleoptera: Cerambycidae): the global distribution, current spreading and the seasonal activity depending on its different habitats

Author

Sándor Keszthelyi

Subjects

0106 biological sciences, biology, Phenology, Ecology, Neoclytus acuminatus, Plant Science, Horticulture, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Population density, 010602 entomology, Holarctic, Habitat, Ash borer, Neoclytus, Agronomy and Crop Science, Longhorn beetle

Abstract

Holarctic expansion of Neoclytus acumiantus acuminatus due to its polyphagous character has been a major concern for plant health, which raises several questions about its spreading directions. I have examined all bibliographical references, phytosanitary reports and authentic photographs from the online sources in the quest of the determination of the worldwide distribution and flight phenology of N. a. acuminatus. The expansion, including the western Palearctic regions as well as several Neotropical habitats, is proven and has become more intense in the last decades. It can be found mostly on the Holarctic region including 21 countries, which is supported by 51 publications. Its spreading mostly northward and eastward in the Palearctic is continuous due to anthropogenic effects, climate change as well as movement of infested materials. Flight phenology and population densities as a function of habitats were mapped. The detection in novel habitats of this pest due to imported wood materials and products is envisaged in the foreseeable future. The primary criterion for controlling the species adapted to the commercial trade and climatic change would be the elaboration of a monitoring system in affected and exposed areas.

Published

2021

31. Computer tomography‐assisted visualization of the movement triggered by frost in <scp> Ostrinia nubilalis </scp> overwintering in maize stalks

Author

Antal Binder, Ádám Csóka, Sándor Keszthelyi, Zsolt Pónya, and Tamás Donkó

Subjects

European corn borer, medicine.diagnostic_test, Physiology, Computed tomography, Biology, biology.organism_classification, Ostrinia, Agronomy, Insect Science, Frost, medicine, Tomography, Ecology, Evolution, Behavior and Systematics, Overwintering

Published

2021

32. Novel, X‐ray supported kinetic imaging of hidden‐lifestyle arthropods

Author

Dávid Szöllösi, Sándor Keszthelyi, Tamás Donkó, Szabolcs Osváth, Ádám Csóka, Lilla Strobel, Krisztián Szigeti, and Zsolt Pónya

Subjects

Movement, X-ray, Dipsacaceae, Moths, Biology, Kinetic energy, General Biochemistry, Genetics and Molecular Biology, Solidago, Coleoptera, Radiography, Crystallography, Larva, Insect Science, Image Processing, Computer-Assisted, Animals, Agronomy and Crop Science, Ecology, Evolution, Behavior and Systematics, Solanum tuberosum

Published

2020

33. Non-destructive imaging and spectroscopic techniques to investigate the hidden-lifestyle arthropod pests: a review

Author

György Bázár, Sándor Keszthelyi, Tamás Morschhauser, Ádám Csóka, Zsolt Pónya, and Tamás Donkó

Subjects

0106 biological sciences, 0301 basic medicine, Integrated pest management, ved/biology, ved/biology.organism_classification_rank.species, Cydia pomonella, Acanthoscelides obtectus, Plant Science, Horticulture, Biology, biology.organism_classification, 01 natural sciences, 03 medical and health sciences, 030104 developmental biology, Non destructive, Confocal laser scanning microscopy, Biochemical engineering, Arthropod, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

There are several harmful and yield decreasing arthropod pests, which live within plant tissues, causing almost unnoticeable damage, e.g.Ostrinia nubilalisHbn.,Cydia pomonellaL.,Acanthoscelides obtectusSay. Their ecological and biological features are rather known. The process leading to the damage is difficult to trace by means of conventional imaging techniques. In this review, optical techniques—X-ray, computer tomography, magnetic resonance imaging, confocal laser scanning microscopy, infrared thermography, near-infrared spectroscopy and luminescence spectroscopy—are described. Main results can contribute to the understanding of the covert pest life processes from the plant protection perspective. The use of these imaging technologies has greatly improved and facilitated the detailed investigation of injured plants. The results provided additional data on biological and ecological information as to the hidden lifestyles of covertly developing insects. Therefore, it can greatly contribute to the realisation of integrated pest management criteria in practical plant protection.

Published

2020

34. Topographical Based Significance of Sap-Sucking Heteropteran in European Wheat Cultivations: A Systematic Review

Author

Sándor Keszthelyi and Szilvia Orsi-Gibicsar

Subjects

Ecology, Ecological Modeling, Agricultural and Biological Sciences (miscellaneous), Nature and Landscape Conservation

Abstract

Sap sucking heteropteran cereal bugs—members of the Eurygaster and Aelia genus—are serious pests of wheat. Moreover, they feed on a variety of gramineous plant species, including rye, barley, oat, maize, and millet. They are widely distributed in the European continent. The purpose of this review paper is two-fold; it summarizes the currently available data on the biological characteristics, the inflicted damage, and their European distribution and, in addition, we aimed to determine their economic importance, based on data available in the current literature. For the most important cereal bug species, we have collected data on their occurrence in Europe to provide a comprehensive picture of their distribution, and characterized them according to their temperature requirements at different life stages. We have also determined the degree of their attachment to wheat as their host plant, examining the synchronization between the pests and the life cycle of the plant. Finally, we compared their migration characteristics. All the above-mentioned characteristics were merged, in order to assess and rank the damage potential of each species.

Published

2023

35. Controversial impact of experimental soil inoculant containing Beauveria bassiana and Metarhizium anisopliae on Sitophilus granarius

Author

Petra Grünvald, Sándor Keszthelyi, and Ferenc Pál-Fám

Subjects

Horticulture, Insect Science, Sitophilus, Beauveria bassiana, Metarhizium anisopliae, Plant Science, Biology, biology.organism_classification, Microbial inoculant

Abstract

The insecticidal efficacy of the experimental bioinoculants (Natur Nova, Natur Agro Hungary Ltd., Hungary) containing Beauveria bassiana (Bals.-Criv). Vuill. and Metarhizium anisopliae Metschnikoff against stored product pests modelled by granary weevil, Sitophilus granarius L. was evaluated on wheat in laboratory tests. In order to comparability, two applications were also set up: one purely ash-treated grain treatment against wireworms and a soil-injected one. Our results confirmed that some biopesticides can exert unexpected effect on non-target arthropods. However, the examined biopesticides were as empirically effected against the target arthropods regarding wireworms. Nevertheless, the application exempt from ash of the examined bioinoculants Natur Nova containing B. bassiana and M. anisopliae were not suitable for the elimination of the stored product pests modelled by S. granarius. In contrast, the putative plant protection effect of these biopesticides was observed in the course of applying the agents in the recommended environment and pest species as well as when applying them with ash carrier.

Published

2021

36. Assessment of short-term mortality of granary weevil, Sitophilus granarius (Coleoptera: Curculionidae) triggered by different microwave irradiation powers

Author

Sándor Keszthelyi, Ferenc Pál-Fám, and András Nyári

Subjects

0106 biological sciences, biology, Sitophilus, Weevil, Short term mortality, 04 agricultural and veterinary sciences, Granary, biology.organism_classification, 01 natural sciences, 010602 entomology, Horticulture, Insect Science, Curculionidae, Microwave irradiation, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Agronomy and Crop Science

Abstract

The insecticidal efficacy of microwave irradiation against the at 12, 24, 48 and 72 h following exposure to microwave irradiations (100, 300 W) and the progeny production was assessed 45 days later...

Published

2019

37. Tú, como alma en tu cuerpo...

Author

Sandor Keszthelyi and Sandor Keszthelyi

Abstract

Cómo estás pegado magnéticamente a tu cuerpo... Muerte y renacimiento técnicamente Mas o menos... A mí me pasaron fenómenos que viví, tal vez a ti tembién te pasaron cosas parecidas, pero simplemente no quieres hablar de ellas, para no queadar como un tonto...Sándor Kesthelyi, nacido en Hungría en 1960, probó muchas cosas después de la reunificación húngara en 1989, cuando un gran número de empresas colapsaron, y siempre se le ocurrió algo inteligente. A través de estas experiencias, quedó cada vez más claro qué tenía sentido y qué no. Aprendió mucho a través de sus contactos con la gente. Vive desde hace 20 años con su familia en Múnich y ha construido aquí un negocio estable que le permite dedicarse, entre otras cosas, a escribir.

Published

2024

38. Effects of Different Infra-Red Irradiations on the Survival of Granary Weevil Sitophilus granarius: Bioefficacy and Sustainability

Author

Ferenc Pál-Fám, Sándor Keszthelyi, and Helga Lukács

Subjects

0106 biological sciences, Integrated pest management, environmentally-friendly pest management, Granary, progeny, 01 natural sciences, Median lethal dose, Article, Toxicology, Grain weight, activity changing, lcsh:Science, biology, Weevil, Sitophilus, 010401 analytical chemistry, food and beverages, biology.organism_classification, mortality, 0104 chemical sciences, stored product pest, Total mortality, 010602 entomology, Insect Science, granary weevil, IR, lcsh:Q, PEST analysis

Abstract

Simple Summary The granary weevil Sitophilus granarius is a cosmopolitan insect that causes substantial damage to many stored products. Control methods based on the use of sustainable, residual insecticide-free methods are gaining importance due to their features such as bioactivity, biodegradability, and ecological safety. However, despite the finding that different irradiation methods have proven efficacious, infrared treatment has not gained widespread application, as different aspects of its application have not yet been explored. In this study, we evaluated the activity-inducing and mortality effect profile of infrared irradiation on S. granarius. The impact of the distance between the radiation emitter and the treated material on the mortality rate was tested in search of optimal results. Adult-perishing and progeny-suppressive effects caused by infrared irradiation in S. granarius were confirmed. Our results point out that the efficacy of treatment depends on the optimal distance between the treated specimen and the emitter. Information on adult-activity triggered by radiation facilitates the application of other control methods and the optimization of their timing. In summary, our findings indicate that the use of infrared irradiation for the post-harvest protection of cereals is feasible, which can contribute to the realization of endeavors aimed at environmentally friendly and residuum-free pest management. Abstract Sitophilus granarius (L.) is an important pest of stored grain worldwide. In recent years, sustainable methods against it have received attention as grain stock protective means. Our aim was to obtain information about the efficacy of infrared irradiation (IR) against S. granarius in laboratory conditions. The change in adult-activity and median lethal dose (LD50) triggered by IR in S. granarius was examined. The insecticidal efficacy in the infested grains was also analyzed at 12, 24, 48, and 72h following exposure to IR (250W), and the progeny-production was assessed 45 days upon the treatment. Based on our findings, total mortality ensued in a grain stock of 50 g at 412 s and a for 100 g grain at 256 s. A significant increase in S. granarius mortality could be observed in the higher grain weight regime, which can be accounted for by the higher heat-absorbance of objects with higher weight. The activity of pests immediately after the beginning of IR increased and subsequently became moderated. The observation of activity-peak brought about by irradiation contribute to the optimization of chemical intervention. This treatment could provide an effective and sustainable technique in integrated pest management.

Published

2021

39. CT-supported analysis of the destructive effects of Varroa destructor on the pre-imaginal development of honey bee, Apis mellifera

Author

Ádám Csóka, Sándor Keszthelyi, Tamás Donkó, Tamás Sipos, and Kaposvár University

Subjects

0106 biological sciences, 0301 basic medicine, Veterinary medicine, impairment, animal structures, Parasitism, Computed tomography, Biology, 01 natural sciences, 03 medical and health sciences, Hemolymph, Mite, medicine, honey bee, Destructor, pre-imaginal development, [SDV.BDD]Life Sciences [q-bio]/Development Biology, [SDV.BA.MVSA]Life Sciences [q-bio]/Animal biology/Veterinary medicine and animal Health, medicine.diagnostic_test, fungi, Honey bee, biology.organism_classification, Pupa, 010602 entomology, 030104 developmental biology, Insect Science, Varroa destructor, computer tomography

Abstract

The ectoparasitic mite, Varroa destructor, is a most important health risk for European honey bee subspecies (Apis mellifera) globally. There is a scarcity in experimental approaches addressing this issue by using computed tomography. Our purpose was to determine the decrease in the volume, surface, density and weight alteration triggered by V. destructor in pre-imaginal stages of A. mellifera using computer-based 3-D reconstruction technology. Computer tomography used in the current study proved to be sufficiently sensitive for the detection of V. destructor in comb cells. This non-invasive experimental setup revealed that the developing worker pupae have retained their volume and surface values, whereas the weight loss triggered by V. destructor was statistically confirmed. In addition, the disappearance of lower radiodensity tissues is shown to be due to mite parasitism, which can be primarily explained by haemolymph losses.

Published

2021

40. Bab felhasználása a pontytakarmányozásban

Author

Dániel Varga, Sándor Keszthelyi, Balázs Kucska, and Egri Helga Bosnyákné

Subjects

General Earth and Planetary Sciences, General Environmental Science

Abstract

Kísérletünk célja a babzsizsik (Acanthoscelides obtectus, Say 1831) által károsított bab (Phaseolus vulgaris) alkalmazási lehetőségének vizsgálata volt pelletált pontytápban. A károsított bab mellett nem károsított bab felhasználásával is készítettünk kísérleti tápot, kontrollként pedig egy kommersz pontytápot használtunk, amelynek fehérje és energiatartalmával megegyezőként állítottuk össze a kísérleti tápjainkat. Az előzetes eredmények alapján megállapítható, hogy a bab táplálóanyag tartalmát tekintve alkalmas pontytáp összetevő, azonban 70% körüli arányban alkalmazva rontja a halak teljesítményét. A halliszt részleges vagy teljes kiváltásában való felhasználásához a megfelelő mennyiség meghatározása további vizsgálatokat igényel. (Kulcsszavak: bab, ponty, etetés)

Published

2018

41. Acute and persistence effects of oil of Hippophae rhamnoides and Calendula officinalis on Sitophilus granarius (Coleoptera: Curculionidae) in stored maize

Author

Zs. Pónya, Ferenc Pál-Fám, Richard Hoffmann, and Sándor Keszthelyi

Subjects

0106 biological sciences, biology, 010405 organic chemistry, Sitophilus, Hippophae rhamnoides, Plant Science, Asteraceae, biology.organism_classification, 01 natural sciences, 0104 chemical sciences, Persistence (computer science), 010602 entomology, Horticulture, Agronomy, Calendula officinalis, Insect Science, Curculionidae, Officinalis, Elaeagnaceae

Abstract

Herbal oil vapours from Hippophae rhamnoides L. (Elaeagnaceae), and Calendula officinalis L. (Asteraceae) were tested for their toxicity against the adults of Sitophilus granarius L.. According to our hypothesis the mentioned oils can become potential bioagents against stored product pests. The results revealed that both studied essential oils exerted strongly toxic effect on S. granarius, but C. officinalis triggered higher mortality. The efficacy (94.62±2.63%) was reached after a 48-h exposure to H. rhamnoides oil at 2 ml kg –1 while the application of 2 ml kg –1 of C. officinalis oil for 24 h produced 98.94±1.00% mortality rate. Insect mortality was hyperbolically-featured, and increased with the duration of the exposure to the examined oils. Mortality was 100% at 5 ml kg –1 of H. rhamnoides after 24-h duration of its application, while with C. officinalis the same value could be reached after a 12-h exposure to the oil. The progeny pronouncedly recovered from the treatment of both essential oils applied.

Published

2017

42. Study of Morphological Features in Pre-Imaginal Honey Bee Impaired by Varroa destructor by Means of Computer Tomography

Author

Ildikó Jócsák, Tamás Sipos, Tamás Donkó, and Sándor Keszthelyi

Subjects

animal structures, Science, RT-PCR, Zoology, Parasitism, body part deformation, medicine.disease_cause, Deformed wing virus, Infestation, honey bee, medicine, Mite, non-destructive analysis, Destructor, virus impact, non-invasive method, biology, deformed wing virus, varroosis, fungi, food and beverages, computed tomography, Honey bee, biology.organism_classification, Brood, Insect Science, Varroa destructor, behavior and behavior mechanisms

Abstract

The honey bee (Apis mellifera L. 1778) is an essential element in maintaining the diversity of the biosphere and food production. One of its most important parasites is Varroa destructor, Anderson and Trueman, 2000, which plays a role in the vectoring of deformed wing virus (DWV) in honey bee colonies. Our aim was to measure the potential morphometric changes in the pre-imaginal stage of A. mellifera caused by varroosis by means of computed tomography, hence supplying evidence for the presumable role that V. destructor plays as a virus vector. Based on our results, the developmental disorders in honey bees that ensued during the pre-imaginal stages were evident. The total-body length and abdomen length of parasitized specimens were shorter than those of their intact companions. In addition, the calculated quotients of the total-body/abdomen, head/thorax, and head/abdomen in parasitized samples were significantly altered upon infestation. In our view, these phenotypical disorders can also be traced to viral infection mediated by parasitism, which was confirmed by reverse transcriptase polymerase chain reaction (RT-PCR) analysis. Capitalizing on a non-destructive method, our study reveals the deformation of the honey bee due to mite parasitism and the intermediary role this pest plays in viral infection, inside the brood cell.

Published

2021

43. A Non-Invasive Approach in the Assessment of Stress Phenomena and Impairment Values in Pea Seeds Caused by Pea Weevil

Author

Zsolt Pónya, Dániel Fajtai, Tamás Donkó, Katalin Somfalvi-Tóth, and Sándor Keszthelyi

Subjects

0106 biological sciences, Bruchus pisorum, Plant Science, Biology, 01 natural sciences, Article, Pisum, non-invasive approach, 03 medical and health sciences, Sativum, seed impairment, Bioluminescence imaging, Pisum sativum, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, 0303 health sciences, Ecology, Weevil, fungi, Non invasive, Botany, Ct analysis, food and beverages, bioluminescence imaging, CT analysis, biology.organism_classification, IR thermography, Horticulture, plant stress, QK1-989, PEST analysis, 010606 plant biology & botany

Abstract

Pea (Pisum sativum L.) is an important leguminous plant worldwide, in which pests trigger significant damage every year. One of the most important pest is pea weevil (Bruchus pisorum, L) which causes covert damage in crops. In the present study, our aim was to obtain precise information pertaining to the extent and the nature of damage in pea caused by B. pisorum by means of non-invasive imaging methods. The infested pea samples were analysed by an infrared thermometer and a bioluminescence plant imaging system as well as a computer tomograph under laboratory conditions. The calculated weight of organic matter destroyed by the developing larvae was 36.46%. The changing of RGB (red, blue, green) codes obtained through thermal imaging and the CPS (counts per second) values originating from bioluminescence imaging in infested samples were statistically verifiable. According to our CT assay, the damage caused by B. pisorum changed the tissue density, volume and shape of the pea seeds by the end of the development of the pest. The results of thermal and bioluminescence imaging contribute to a better understanding of the internal chemical processes and the CT analysis helps to understand the alteration trends of the inner structure of seeds caused by this pest.

Published

2021

44. Adverse effect of two-spotted spider mite (Tetranychus urticae Koch) on soybean protein composition

Author

Sándor Keszthelyi, H. Egri Bosnyákné, and Ildikó Kerepesi

Subjects

0106 biological sciences, Gel electrophoresis, biology, Fat content, 010401 analytical chemistry, biology.organism_classification, 01 natural sciences, 0104 chemical sciences, Protein content, Protein structure, Spider mite, Botany, Soybean protein, Acari, sense organs, Tetranychus urticae, Food science, 010606 plant biology & botany, Food Science

Abstract

Damage induced on soybean by Tetranychus urticae Koch (Acari: Tetranychidae) is easily recognizable. We were curious to know whether, in addition to this visual and quantitative damage, change occurs also in the nutritional value of the harvested product. The Weendei analysis showed that as compared to the healthy items, the protein content (P=0.048) of the miteinjured seeds as well as their composition (P=0.048) has changed. No significant changes in the raw fat content could be confirmed by the statistical results of the study (P=0.643). Concerning the contents of raw ash (P=0.069) and raw fibre (P=0.859), there were no significant differences. Three distinct changes in protein structure were confirmed by gel electrophoresis. Substantially less 69 kDa protein was detectable in the infested soybean, whereas no 48 kDa protein was present in the control sample; it only appeared in the infested ones. There was a higher amount of 30 kDa protein in the infested stock. In summary, alteration in the protein structure was caused by T. urticae , and changes were triggered in the protein content of the affected soybean plants. The protein structure-change in damaged soybean items caused further decline in the feed consuming capacity of farm animals.

Published

2017

45. Light-trap catch of cotton bollworm, Helicoverpa armigera in connection with the moon phases and geomagnetic H-index

Author

László Nowinszky, Sándor Keszthelyi, and János Puskás

Subjects

0106 biological sciences, biology, 04 agricultural and veterinary sciences, Cell Biology, Plant Science, Helicoverpa armigera, biology.organism_classification, 01 natural sciences, Biochemistry, Cotton bollworm, 010602 entomology, Earth's magnetic field, Phase angle (astronomy), New moon, 040103 agronomy & agriculture, Genetics, 0401 agriculture, forestry, and fisheries, Animal Science and Zoology, Statistical analysis, Physical geography, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Full moon, Moon phases, Mathematics

Abstract

This study addresses the question whether to what extent (if any) light-trap catch of the harmful pest, Helicoverpa armigera (Hübner, 1805) (Lepidoptera: Noctuidae) depends on the Moon phases and the geomagnetic horizontal component (H-index). Therefore, daily relative catch data were assigned to the daily values of geomagnetic field above 0.2125−10 T (H-index). We correlated the daily catch results to the daily values of geometric H-index. The numbers of specimens caught and classified according to generation were calculated relative to catch values. Relative catch data were divided according to the Moon phase angle around the four Moon quarters. The relative daily catch data were assigned to the daily values of geomagnetic H-index. We correlated the daily catch results to the daily values of geometric H-index in four moon phases. More abundant catch corresponded to higher H-index values in the New Moon period. Approaching Full Moon led to increasing catch correlating to low H-index value, but there decreasing catch coincided with higher H-index values. There was also decreasing catch at the increasing H-index values in the First Quarter and Last Quarter period. The light trap catch of the H. armigera was seemingly influenced by both the moon phases and the horizontal component of geomagnetism.

Published

2019

46. New insight into theDelia platuraMeigen caused alteration in nutrient content of soybean (Glycine maxL. Merill)

Author

Helga Egri Bosnyákné, Ildikó Kerepesi, and Sándor Keszthelyi

Subjects

0106 biological sciences, Time Factors, Sucrose, Food Contamination, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Host-Parasite Interactions, chemistry.chemical_compound, Anthomyiidae, Animals, Delia platura, Sugar, Water content, Plant Proteins, General Environmental Science, biology, Diptera, fungi, Water, food and beverages, Fructose, Ripening, biology.organism_classification, 010602 entomology, Horticulture, Neurology, chemistry, Agronomy, Germination, Larva, Carbohydrate Metabolism, Soybeans, Nutritive Value, 010606 plant biology & botany

Abstract

Climate change has brought about an increasing level of seedcorn maggot (Delia platura Meigen, 1826) (Diptera: Anthomyiidae) damage in Hungary. In order to have a more accurate understanding of the effects of these plant injuries induced by the larvae of D. platura, the nutrient content of soybean (Glycine max L. Merill.) was studied. Our results show that the moisture, raw fat, raw fibre, and raw ash content of the batches damaged by D. platura were significantly less in comparison with that of the control samples. In response to the deleterious effect of the insect, the infected soybean plants showed forced ripening (P = 0.004) (P > 0.05). The difference of moisture content between damaged and control samples was 2.30% on average. The fact of nutritional value loss was also reflected by the alteration of sugar mobilisation. As the result of this experiment the sucrose breakdown to glucose and fructose during the germination was significantly slower in the damaged seeds than that of the control ones. Overall, this late and surprising damage caused by D. platura led to the forced ripening of the affected soybean plants and a significant change in their nutritional values. Based on the herein reported results, it is presumable that in cases when the current climatic extremities, which are envisaged to occur more frequently in the future, and effects of agricultural practices will be coincided in the future a qualitative change of the produced soybean batches can be expected through the damage caused by this fly species.

Published

2016

47. Different catching series from light and pheromone trapping of Helicoverpa armigera (Lepidoptera: Noctuidae)

Author

Sándor Keszthelyi, Kálmán Szeőke, and L. Nowinszky

Subjects

0106 biological sciences, biology, Zoology, Cell Biology, Plant Science, Trapping, Helicoverpa armigera, biology.organism_classification, Pheromone trap, 010603 evolutionary biology, 01 natural sciences, Biochemistry, Lepidoptera genitalia, 010602 entomology, Genetics, Noctuidae, Pheromone, Animal Science and Zoology, Observation method, Molecular Biology, Ecology, Evolution, Behavior and Systematics

Abstract

Monitoring the flight of Helicoverpa armigera (Lepidoptera: Noctuidae) by means of pheromone and light trapping are generally accepted and widely used methods. In the present study the catch data of 335 Hungarian light traps have been examined and compared to the field-observed results originated from light and pheromone traps in the quest of exploring potential differences in observation methods. There were obvious discrepancies in registered flight patterns between light and pheromone trap catches. In early summer, individuals of the migrant generation of H. Armigera were not caught by Hungarian light traps. The recorded parameters in light and pheromone traps have revealed significant differences as shown by the Student t-values used for comparing the data. This phenomenon can be explained by the physiological features of H. Armigera, the females (being heliophile) of the early, migrant generations which have more vitelline-cells in their ovaries.

Published

2016

48. The growing abundance of Helicoverpa armigera in Hungary and its areal shift estimation

Author

Sándor Keszthelyi, J. Puskás, and L. Nowinszky

Subjects

Abiotic component, area reservation, General Immunology and Microbiology, biology, Ecology, business.industry, Phenology, QH301-705.5, General Neuroscience, Helicoverpa armigera, biology.organism_classification, General Biochemistry, Genetics and Molecular Biology, climatic factors, flight phenology, Lepidoptera genitalia, Agriculture, Abundance (ecology), Noctuidae, cotton bollworm, PEST analysis, Biology (General), General Agricultural and Biological Sciences, business, direction of distribution

Abstract

The invasive Cotton Bollworm (Helicoverpa armigera Hübner, Lepidoptera: Noctuidae) has become a serious pest of several agricultural plants since its first mass occurrence in Hungary (1993). During the decades of the species’ presence in the Carpathian Basin, a remarkable fluctuation was detected in its abundance and flight phenology. We analysed long term light trap records and meteorological data to identify the possible factors behind these fluctuations. This study presents an overview of the areal dispersion and the rate of accumulation and flight phenology of this invasive pest, from its first Hungarian mass occurrence until the present, focusing on the influence of climatic factors on the Hungarian distribution of H. armigera. According to our estimation, this pest occupied 94% of the area of Hungary within eight years. There were significant differences in pest pressure by regions, corroborated by the average number of trapped specimens and the regression coefficients. Fluctuations of specimen numbers in the different years are clearly visible in the flight phenology diagrams, which depend on the rate of the growing abundance. The results indicate that abiotic elements may also play a significant role in the areal dispersion of this important invasive insect.

Published

2013

49. Computer tomography assisted imaging analysis in damaged maize grain caused by Sitotroga cerealella

Author

Tamás Donkó, György Kovács, and Sándor Keszthelyi

Subjects

0106 biological sciences, Larva, medicine.diagnostic_test, biology, fungi, food and beverages, Computed tomography, Növénytermesztési és kertészeti tudományok, Plant Science, Horticulture, Gelechiidae, biology.organism_classification, 01 natural sciences, Imaging analysis, Pupa, Lepidoptera genitalia, 010602 entomology, medicine.drug_formulation_ingredient, Sitotroga cerealella, Agronomy, parasitic diseases, medicine, Agrártudományok, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

Computed tomography was used to study the burrowing activity of larvae of Sitotroga cerealella Olivier, 1789 (Lepidoptera: Gelechiidae) in damaged maize grain. The randomly selected cobs were shelled, and the damaged maize grains were measured. The volumes and locations of cavities formed by larvae were mapped by means of a new computer-based three-dimensional imaging method. The use of new technologies have greatly improved and facilitated the detailed investigation of injured grain. The results provided additional data for biological information to covertly developing S. Cerealella. Significant volume destructions were observed only in the highly perforated grains (P = 0.032). The embryos of the infested grain were destroyed independent of the number of larvae. The emerged holes and the larval cavities were found to be linked by larval passages, which have been prepared directly before the pupation.

Published

2016

50. The effect of the diatomaceous earth formulation DiatoSec on mortality of granary weevil Sitophilus granarius (Coleoptera: Curculionidae) in grains

Author

Ferenc Pál-Fám and Sándor Keszthelyi

Subjects

0106 biological sciences, biology, Weevil, Sitophilus, Plant Science, Granary, Horticulture, biology.organism_classification, 01 natural sciences, 010602 entomology, Agronomy, Curculionidae, BARLEY GRAIN, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

The insecticidal efficacy of the diatomaceous earth formulation DiatoSec® (Ediafilt Diatomite Mining and Processing Ltd., Hungary) against the granary weevil, Sitophilus granarius (Coleoptera: Curculionidae), was evaluated on maize and barley grain in laboratory tests. The diatomaceous earth formulation was applied at three doses of 1, 2 and 4 g kg-1of both grain types. Mortality of S. granarius adults was estimated after 24 and 48 h and 7, 14 and 21 d of exposure on treated grain. After the 21 d counts, all the exposed adults were removed and progeny production on treated grains was assessed 45 days later.

Published

2012