Food as a factor of fertility, development duration, and changes in morphometric parameters in Henosepilachna vigintioctomaculata (Motschulsky)

Мацишина, Н. В.; Фисенко, П. В.; Ермак, М. В.; Sobko, O.A.; Волков, Д. И.; Балеевских, А. Г.

doi:10.18619/2072-9146-2021-5-81-88

Ovoŝi Rossii

2021

DOI: 10.18619/2072-9146-2021-5-81-88

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Food as a factor of fertility, development duration, and changes in morphometric parameters in Henosepilachna vigintioctomaculata (Motschulsky)

Н. В. Мацишина¹,

П. В. Фисенко²,

М. В. Ермак³

et al.

Abstract: Relevance.The physiology of insects nutrition and digestion reflects the diversity of their food specialization, aimed at the most effective use of feed. The choice of the object of nutrition is provided by attractants in it, as well as the presence of substances necessary for the insect to pass the stages of development and general nutrition. On the other hand, the “plant-phytophage” system has well-developed barriers that limit the choice of plants by insects for settling, feeding, and eggs laying. In the mo… Show more

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2024

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Cited by 3 publications

References 13 publications

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Phenology of the 28-spotted potato ladybird beetle Henosepilachna vigintioctomaculata in the south of the Russian Far East

Ermak¹,

Мацишина²,

Фисенко³

2022

Ovoŝi Rossii

Self Cite

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Relevance. The 28-spotted potato ladybird beetle, Henosepilachna vigintioctomaculata, causes severe damage to plants of the Solanaceae family in the south of the Russian Far East. Today the application of chemicals is the main method for protecting crops against the potato ladybird beetle. This leads not only to the eradication of the pest, but also to the pollution of agricultural ecosystems and the emergence of potato ladybird beetle populations that are resistant to pesticides. A study on the seasonal cycles of the development of the potato ladybird beetle may help to devise new methods for controlling this pest.Methods. We conducted laboratory experiments to study the developmental timing ofa potato ladybird beetlepopulation. The number of eggs was counted, and then the eggs were placed in Petri dishes. The number of emerged larvae was recorded on a daily basis. The hatched larvae were transferred to glass containers (hereafter rearing cages) in batches of 10. We recorded the dates of the transition from one immature developmental stage to another notingthe simultaneity of these transitions. At the onset of the pupal stage, the date was recorded and food was withdrawn from the rearing cages. Scientific observations were carried out on the emergence ofyoung beetles. Field research on the phenology of the potato ladybird beetle was conducted at afield site of 40 m2. The timing of the following events was recorded: the emergence of the adult beetles from diapause, the colonization of the potato field, the beginning and the end of oviposition, the emergence of the larvae and the pupae, the flight of the new insect generation.Results and conclusion. Our laboratory experiment on the immature developmental stages of the potato ladybird beetle revealed that the egg stage was 4-5 days in duration, the larval stage was 16-17 days and the pupal stage was 4-5 daysunder optimal conditions. We also observed deviations from the mean values, which could be conditioned by external factors. For instance, the duration of embryonic development depended either on humidity or on the time range of hatching from one egg mass. The observed deviations of the developmental timing of the larvae and the pupae were most probably due to the quantity and quality of the available food, and the presence of secondary metabolites and glycoalkaloids in it. The field research on thephenology of the potato ladybird beetle showed that there was only one generation in 2020, but two generations in 2021. After comparing climatic conditions in 2020 and 2021, we concluded that Henosepilachna vigintioctomaculata can produce two generations during dry and hot years.

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Phenology of the 28-spotted potato ladybird beetle Henosepilachna vigintioctomaculata in the south of the Russian Far East

Ermak¹,

Мацишина²,

Фисенко³

2022

Ovoŝi Rossii

Self Cite

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Establishing the in vitro culture of and micropropagating edible honeysuckle

Khoruzheva,

Borovaya,

Boginskaya

2024

Ovoŝi Rossii

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Edible honeysuckle is a popular fruit crop. Its therapeutic and health-promoting effects are attributed to a high content of bioactive compounds in the fruits. Unlike the traditional plant multiplication methods, the in vitro propagation allows scientists to obtain high-quality planting material of honeysuckle in a great quantity and within a short time. The research was carried out at the Laboratory of Breeding and Genetic Research on Field Crops of the Federal Scientific Center of Agricultural Biotechnology of the Far East named after A.K. Chaiki. Honeysuckle variety Podarok amurchanam created by the Far Eastern State Agrarian University was used as the research object. The research materials were sterilized according to the methodology of N.I. Vavilov All-Russian Institute of Plant Genetic Resources with some modifications. Several products were used as chemical agents for sterilization in the following sequence: a 5% solution of surfactants, fungicide Fundazol, EC (1 g/l), the bleaching agent ACE freshly diluted with distilled water in the proportion 1:9 (0.50% of NaOCl in the working solution), and 70% ethanol. The primary explants were cultured on an MS containing 20 g/l sucrose and 6 g/l agar (hereafter – MS) and supplemented with 6-benzylaminopurine (BA) at a concentration of 0.5 mg/l. The pH of the medium was adjusted to 5.7-5.8 using 1N КОН. The explants (microcuttings with one-two internodes) were subcultured on an MS supplemented with BA (0.5 mg/l). The morphometric parameters of the plants were measured on the 35th day of cultivation. The sterilization of the explants with Fundazol (1 g/l) and the ACE diluted with distilled water in the proportion 1:9 allowed us to obtain a high number of viable microclones (50%). The elimination of leaves from the honeysuckle microcuttings drastically decreased the survival rate and led to the death of the microclones in most cases (the mortality rate was 98.7 %). Subculturing the microcuttings on the MS supplemented with BA at a concentration of 0.5 mg/l facilitated the normal growth and development of the regenerated honeysuckle plants (the average reproduction rate was 4.65).

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Relation Between Demography and Food Consumption in Henosepilachna Vigintioctomaculata Motch.

Macishina,

Ermak,

Fisenko

et al. 2024

Bulletin of KSAU

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The purpose of the study is to analyze data on the demographic structure of the potato ladybug population and the rate of consumption of the food substrate using survival tables. The study used 100 eggs of the Henosepilachna vigintioctomaculata potato ladybug. The time of development of each stage, the immature period, the total period before oviposition, the days of oviposition, and the fecundity of females, as well as the level of consumption of the food substrate, were taken into account. The data obtained were described using survival tables. It was found that the adult stage and life expectancy were significantly longer in males than in females and amounted to 160.12 ± 2.14 – 220.81 ± 2.14 and 199.09 ± 1.21 – 265.18 ± 1.21 respectively. There were no significant differences in the time of development of other stages between the sexes. The maximum daily fecundity of one individual was 101 eggs. The maximum lifetime fecundity per female was 3185 eggs, while the average female fecundity (F) was 1439 eggs. The average lifespan of females was significantly shorter than that of males, resulting in lower leaf consumption in adult females. So for adult females and males, leaf consumption was 160.15 and 220.52 cm2, respectively. The transformation coefficient Qp was 0.129, which means that the potato ladybug required 0.129 cm2 of S. tuberosum leaves to produce one egg. The final consumption ratio was 0.1293 cm2/day. It was found that the range of variability in population growth varies from 1.1304 ± 0.0057 – 1.1483 ± 0.0036, which indicates a low degree of variability in the growth of the potato ladybug population.

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Food as a factor of fertility, development duration, and changes in morphometric parameters in Henosepilachna vigintioctomaculata (Motschulsky)

Cited by 3 publications

References 13 publications

Phenology of the 28-spotted potato ladybird beetle <i>Henosepilachna vigintioctomaculata</i> in the south of the Russian Far East

Phenology of the 28-spotted potato ladybird beetle <i>Henosepilachna vigintioctomaculata</i> in the south of the Russian Far East

Establishing the <i>in vitro</i> culture of and micropropagating edible honeysuckle

Relation Between Demography and Food Consumption in Henosepilachna Vigintioctomaculata Motch.

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