Levona Bodner scite author profile

Males of social Hymenoptera spend the first days following eclosion inside the nest before dispersing to find a young queen to mate with. During this period, they must acquire enough nutrients to enable their sexual maturation and store energy to sustain them through their nuptial journey. It was previously argued that adult hornets are unable to process dietary proteins and rely on the larvae to supply them with free amino acids and carbohydrates that they secrete via trophallaxis. Using isotopically enriched diets, we examined nutrient allocation and protein turnover in newly-emerged males of the Oriental hornet during their maturation period and tested the protein digestion capability in the presence and absence of larvae in both males and worker hornets. The results indicated that protein turnover in males occurs during the first days following eclosion, while carbohydrates are incorporated into body tissues at higher rates towards the end of the maturation period. Additionally, we found that males cannot digest protein and depend on larval secretions as a source of nutrition, while workers, in contrast to previous reports, can metabolize protein independently. Our findings demonstrate the contribution of adult male nutrition and larval secretions to colony fitness.

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Body size, metabolic rate and diapause in the oriental hornet (Vespa orientalis), in two extreme climatic regions

Cohen

Volov

Bodner

et al. 2022

Ecological Entomology

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Temperature and precipitation are major components of climate that have a pervasive effect on the phenotype and physiology of insects. The Oriental hornet has a wide geographical distribution and is the only vespid species found in a desert environment. Recently, it has extended its geographic distribution due to climate change and human activities. We compared the standard metabolic rate, diapause metabolic rate and body size of workers and gynes in two different climatic regions, 150 km apart along the northern part of the Great Rift Valley in Israel: In the north, high elevation Mediterranean habitat and in the south, low elevation, warm and dry desert. The brood in the desert region developed in higher ambient temperatures than in the Mediterranean, but only the workers of the desert had a smaller body size as adults. Worker hornets from the Mediterranean region had a higher standard metabolic rate (SMR) at the environmental temperature of main activity compared to desert hornets. Queens had a typical discontinuous gas exchange cycles (DGC) pattern, with Mediterranean queens having a 30% lower SMR. Such lower SMR might reflect an adaptation for prolonged and more profound diapause typical to the cold and long winter conditions in this region.

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The Effect of Climate and Diet on Body Lipid Composition in the Oriental Hornet (Vespa orientalis)

et al. 2021

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Fatty acids (FA) are the primary metabolic fuel for many organisms and the fundamental component of membranes of all living organisms. FAs can be saturated (SFA), monounsaturated (MUFA), or polyunsaturated (PUFA). PUFA are not synthesized by most animals and are considered as essential nutrients. We examined the effect of climate on the saturation level of polar (mostly membranal) and neutral lipids in the body of the Oriental hornet (Vespa orientalis) from two extreme climatic zones: Mediterranean high elevation; and hot arid desert. In contrast to previous reports, the environmental temperature was shown to affect the hornet colonies’ thermal environments. The hornets nonetheless maintained their colony temperature within a narrow range. Analyses of the hornets’ unsaturation levels of polar and non-polar body lipids revealed caste differences: gynes and males contained less unsaturated lipids than workers. However, there were no differences in the respective castes between the two different climate zones tested. Experimentally manipulating the diet of queenless hornet colonies to a high Omega-3 diet (salmon) or a high Omega-6 diet (crickets) had only a minor effect on the worker-born males’ lipid composition. Although salmon-fed males had a higher Omega-3 content than cricket-fed ones, the proportion of these fatty acids was still low (below 1%). Cricket-fed males had significantly higher levels of Omega-6 than salmon-fed males. Our data show that the specific lipid composition of the hornet body is highly regulated and deficient in essential PUFA, even under different climates or high Omega-3 or Omega-6 PUFA diet. PUFA, especially Omega-3, is considered to have a beneficial effect on physiological processes. Our finding that these FA, when common in the diet, are almost absent in the body raises questions about how they affect animals’ physiology.

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The effects of dietary proline, β-alanine, and γ-aminobutyric acid (GABA) on the nest construction behavior in the Oriental hornet (Vespa orientalis)

Bouchebti

Bodner

Bergman

et al. 2022

Sci Rep

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Adult wasps primary food resource is larval saliva. This liquid secretion consists mainly of amino acids and carbohydrates processed from the prey brought to the colony by the foragers. However, adults also regularly consume floral nectar. The nectar's most abundant proteinogenic amino acid is proline, and the two most abundant non-proteinogenic amino acids are β-alanine and GABA. These three amino acids are also common in larval saliva. Here, we study the effect of these dietary amino acids on the physiology and nest construction behavior of the Oriental hornet. Our results reveal their deleterious effects, especially at high concentrations: β-alanine and GABA consumption reduced the hornets' lifespan and completely inhibited their construction behavior; while proline induced a similar but more moderate effect. At low concentrations, these amino acids had no effect on hornet survival but did slow down the nest construction process. Using carbon isotopically labeled amino acids, we show that, unlike proline, β-alanine is stored in most body tissues (brain, muscles, and fat body), suggesting that it is rapidly metabolized after consumption. Our findings demonstrate how a single amino acid can impact the fitness of a nectarivore insect.

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Allocation and metabolism of naturally occurring dietary amino acids in the Oriental hornet

Bodner

Bouchebti

Levin

2021

Insect Biochemistry and Molecular Biology

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Levona Bodner

Nutrient Utilization during Male Maturation and Protein Digestion in the Oriental Hornet

Body size, metabolic rate and diapause in the oriental hornet (Vespa orientalis), in two extreme climatic regions

The Effect of Climate and Diet on Body Lipid Composition in the Oriental Hornet (Vespa orientalis)

The effects of dietary proline, β-alanine, and γ-aminobutyric acid (GABA) on the nest construction behavior in the Oriental hornet (Vespa orientalis)

Allocation and metabolism of naturally occurring dietary amino acids in the Oriental hornet

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