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21 results on '"Shukla, Shantanu P."'

9. SURPLUS FEEDING REVERSES WORKER OVARIAN SUPPRESSION AND DISRUPTS SOCIAL COHESION IN QUEEN-RIGHT WASP COLONIES.

Author

Shukla, Shantanu P. and Gadagkar, Raghavendra

Abstract

Nutrition is an important component of oogenesis and ovarian development in insects. In social insect colonies where a large proportion of females are sterile, suppression of reproduction caused by differential acquisition and retention of nutrition has been hypothesized to cause worker sterility. This study, using the primitively eusocial wasp Ropalidia marginata (Lepeletier) (Hymenoptera: Vespidae), show that worker ovarian development in naturally foraging colonies is more similar to experimentally food-limited colonies than to surplus-fed colonies, indicating nutritional castration in workers whose ovaries are inhibited by food availability. Further, experimental provisioning of surplus nutrition led to higher ovarian development in workers as compared to naturally foraging and food-limited workers. Surplus feeding also led to higher nest desertion by workers, leading to a breakdown of the colony’s social structure, whereas food-limited colonies retained workers. [ABSTRACT FROM AUTHOR]

Published
2023
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10. 8-HQA adjusts the number and diversity of bacteria in the gut microbiome of Spodoptera littoralis.

Author

Mazumdar, Tilottama, Hänniger, Sabine, Shukla, Shantanu P., Murali, Aishwarya, Bartram, Stefan, Heckel, David G., and Boland, Wilhelm

Subjects
SPODOPTERA littoralis, GUT microbiome, QUINOLINIC acid, BACTERIAL population, METAL ions, BACTERIAL diversity, INSECT diversity, TRYPTOPHAN
Abstract

Quinolinic carboxylic acids are known for their metal ion chelating properties in insects, plants and bacteria. The larval stages of the lepidopteran pest, Spodoptera littoralis, produce 8-hydroxyquinoline-2-carboxylic acid (8-HQA) in high concentrations from tryptophan in the diet. At the same time, the larval midgut is known to harbor a bacterial population. The motivation behind the work was to investigate whether 8-HQA is controlling the bacterial community in the gut by regulating the concentration of metal ions. Knocking out the gene for kynurenine 3-monooxygenase (KMO) in the insect using CRISPR/Cas9 eliminated production of 8-HQA and significantly increased bacterial numbers and diversity in the larval midgut. Adding 8-HQA to the diet of knockout larvae caused a dose-dependent reduction of bacterial numbers with minimal effects on diversity. Enterococcus mundtii dominates the community in all treatments, probably due to its highly efficient iron uptake system and production of the colicin, mundticin. Thus host factors and bacterial properties interact to determine patterns of diversity and abundance in the insect midgut. [ABSTRACT FROM AUTHOR]

Published
2023
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11. A Numerical Study on the Impact of Cathode Catalyst Layer Loading on the Open Circuit Voltage in a Proton Exchange Membrane Fuel Cell.

Author

Moore, Michael, Shukla, Shantanu, Voss, Stephan, Karan, Kunal, Weber, Adam, Zenyuk, Iryna, and Secanell, Marc

Subjects
PROTON exchange membrane fuel cells, OPEN-circuit voltage, ELECTRIC potential, CATHODES, HYDROGEN oxidation, SOLID oxide fuel cells
Abstract

The open circuit voltage (OCV) in a proton exchange membrane fuel cell (PEMFC) is typically recorded as being approximately 300 mV lower than the equilibrium voltage computed by the Nernst equation. While a number of causes have been proposed, the voltage drop is generally attributed to the oxidation of crossover hydrogen in the cathode. A single phase, through-the-channel model is presented that includes hydrogen transport across the membrane, an empirical model for the hydrogen oxidation reaction (HOR) fit to experimental data obtained at high potentials and a multi-step kinetic model to describe the oxygen reduction reaction (ORR). Model predictions were compared to experimentally obtained OCVs and the results show that the model is capable of capturing the experimentally observed changes in OCV with platinum loading, as well as fuel cell performance; and that, at low Pt loadings, small quantities of unreacted hydrogen leave the cathode because the HOR is kinetically limited by oxide blocking and anion adsorption. A parametric study is used to show that a minimum OCV is achieved at ultra-low loadings. Results also show that only a multi-step ORR model can simultaneously capture polarization data and the OCV. [ABSTRACT FROM AUTHOR]

Published
2021
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12. Gut microbiota degrades toxic isothiocyanates in a flea beetle pest.

Author

Shukla, Shantanu P. and Beran, Franziska

Subjects
*FLEA beetles, *ISOTHIOCYANATES, *PLANT toxins, *PLANT metabolites, *PLANT defenses, *GUT microbiome, *RIBOSOMAL RNA
Abstract

Microbial symbionts of herbivorous insects have been suggested to aid in the detoxification of plant defense compounds; however, quantitative studies on microbial contribution to plant toxin degradation remain scarce. Here, we demonstrate microbiome‐mediated degradation of plant‐derived toxic isothiocyanates in the cabbage stem flea beetle Psylliodes chrysocephala, a major pest of oilseed rape. Suppression of microbiota in antibiotic‐fed beetles resulted in up to 11.3‐fold higher levels of unmetabolized isothiocyanates compared to control beetles but did not affect other known detoxification pathways in P. chrysocephala. We characterized the microbiome of laboratory‐reared and field‐collected insects using 16S rRNA amplicon sequencing and isolated bacteria belonging to the three core genera Pantoea, Acinetobacter and Pseudomonas. Only Pantoea isolates rapidly degraded isothiocyanates in vitro, and restored isothiocyanate degradation in vivo when reintroduced in antibiotic‐fed beetles. Pantoea was consistently present across beetle life stages and in field and lab populations. In addition, Pantoea was detected in undamaged tissues of the host plant Brassica rapa, indicating that P. chrysocephala could possibly acquire an isothiocyanate detoxifying bacterium through their diet. Our results demonstrate that both insect endogenous mechanisms and the microbiota can contribute to the detoxification of plant defense compounds and together they can better account for the fate of ingested plant metabolites. [ABSTRACT FROM AUTHOR]

Published
2020
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13. Symbiont‐mediated chemical defense in the invasive ladybird Harmonia axyridis.

Author

Schmidtberg, Henrike, Shukla, Shantanu P., Halitschke, Rayko, Vogel, Heiko, and Vilcinskas, Andreas

Subjects
*HARMONIA axyridis, *ALKYLPYRAZINES, *LADYBUGS, *BIOSYNTHESIS, *HEMOLYMPH
Abstract

The volatile alkylpyrazines methyl‐ and methoxypyrazines (MPs) present in the reflex bleeds of coccinellid beetles such as the harlequin ladybird beetle Harmonia axyridis are important semiochemicals that function in antipredatory defense behavior. Pyrazines have also been coadapted from a primarily defensive role into pheromones that function in intraspecific communication, attraction, and aggregation behavior. However, the biosynthesis of MPs in ladybird beetles is poorly understood. Here, we tested the hypothesis that MPs could be produced by microbial symbionts in H. axyridis, which generates four different MPs. The evaluation of tissue‐specific MP production showed that MP concentrations were highest in the gut tissue and hemolymph of the beetles rather than the fat body tissue as the presumed site of MP biosynthesis. Furthermore, manipulation of gut microbiota by antibiotic‐containing diets resulted in a lower MP content in adult beetles. The analysis of the bacterial community of the digestive tract revealed the presence of bacteria of the genera Serratia and Lactococcus which are reportedly able to produce MPs. In line with the known diet‐dependent production of MP in H. axyridis, we determined that the presence or relative abundance of some of the potential MP producers (Enterococcus and Staphylococcus) is also diet‐dependent. We hypothesize a potential role of the microbiota in MP production in H. axyridis as a possible example for outsourcing the synthesis of ecologically important semiochemicals to its gut bacteria. Methoxypyrazines in the reflex bleeds of ladybirds function in defense, aggregation and as warning signals. Our study implicates that methoxypyrazines are synthesized by the gut microbiota of the invasive ladybird Harmonia axyridis implicating outsourcing the synthesis of these ecologically important semiochemicals. [ABSTRACT FROM AUTHOR]

Published
2019
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15. Burying beetles regulate the microbiome of carcasses and use it to transmit a core microbiota to their offspring.

Author

Shukla, Shantanu P., Vogel, Heiko, Heckel, David G., Vilcinskas, Andreas, and Kaltenpoth, Martin

Subjects
*CARRION insects, *ANIMAL carcasses, *BURYING beetles, *MICROORGANISMS, *MICROBIAL communities
Abstract

Abstract: Necrophagous beetles utilize carrion, a highly nutritious resource that is susceptible to intense microbial competition, by treating it with antimicrobial anal and oral secretions. However, how this regulates the carcass microbiota remains unclear. Here, we show that carcasses prepared by the burying beetle Nicrophorus vespilloides undergo significant changes in their microbial communities subsequent to their burial and “preparation.” Prepared carcasses hosted a microbial community that was more similar to that of beetles’ anal and oral secretions than to the native carcass community or the surrounding soil, indicating that the beetles regulated the carcass microbiota. A core microbial community (Xanthomonadaceae, Enterococcaceae, Enterobacteriaceae and Yarrowia yeasts) was transmitted by the beetles to the larvae via the anal and oral secretions and the carcass surface. These core taxa proliferated on the carcass, indicating a growth conducive environment for these microbes when associated with beetles. However, total bacterial loads were higher on decomposing carcasses without beetles than on beetle‐prepared carcasses, indicating that the beetles and/or their associated symbionts suppress the growth of competing microbes. Thus, apart from being a nutritional resource, the carcass provides a medium for vertical transmission of a tightly regulated symbiotic microbiota, whose activity on the carcass and in the larval gut may involve carcass preservation as well as digestion. [ABSTRACT FROM AUTHOR]

Published
2018
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16. Gut microbiota of dung beetles correspond to dietary specializations of adults and larvae.

Author

Shukla, Shantanu P., Sanders, Jon G., Byrne, Marcus J., and Pierce, Naomi E.

Subjects
*DUNG beetles, *INSECT morphology, *INSECT adaptation, *METAGENOMICS, *RIBOSOMAL RNA, *INSECT larvae, *GUT microbiome
Abstract

Vertebrate dung is central to the dung beetle life cycle, constituting food for adults and a protective and nutritive refuge for their offspring. Adult dung beetles have soft mandibles and feed primarily on nutritionally rich dung particles, while larvae have sclerotized mandibles and consume coarser dung particles with a higher C/N ratio. Here, using the dung beetles Euoniticellus intermedius and E. triangulatus, we show that these morphological adaptations in mandibular structure are also correlated with differences in basic gut structure and gut bacterial communities between dung beetle life stages. Metagenome functional predictions based on 16S rDNA characterization further indicated that larval gut communities are enriched in genes involved in cellulose degradation and nitrogen fixation compared to adult guts. Larval gut communities are more similar to female gut communities than they are to those of males, and bacteria present in maternally provisioned brood balls and maternal 'gifts' (secretions deposited in the brood ball along with the egg) are also more similar to larval gut communities than to those of males. Maternal secretions and maternally provisioned brood balls, as well as dung, were important factors shaping the larval gut community. Differences between gut microbiota in the adults and larvae are likely to contribute to differences in nutrient assimilation from ingested dung at different life history stages. [ABSTRACT FROM AUTHOR]

Published
2016
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18. Mental health literacy and familiarity with the term schizophrenia in a community health care setting in North India.

Author

Reddy, Chaitanya, Malik, Yogender Kumar, Singh, Manpreet, Jindal, Amit, Shukla, Shantanu, and Singh, Shubh Mohan

Abstract

Mental health literacy (MHL) is an important mediator of mental health in the community. Recognition of schizophrenia by the presentation of a case vignette is often used to assess MHL. Various studies assessing MHL around the world have shown that the recognition of schizophrenia is low. This study was designed to use the case vignette method to assess the MHL in a sample of respondents in North India. We translated a well-known case vignette of schizophrenia from english into hindi. A cross-sectional study design was followed. This case vignette was presented in the written format to 200 respondents in rural Punjab and Haryana. The case vignette was followed by questions regarding the identification and nature of the problem, what could be done about it and the familiarity of the respondent to the term 'schizophrenia'. The results were analysed through open coding. Around 22% of the responses identified mental illness. The recognition of schizophrenia by name was only in one response. Most people attributed the condition of the protagonist in the case vignette to be due to stressful life situations. The respondents used the terms 'depression' and 'tension' as descriptors of mental illness. The correction of situations leading to stress and counselling by a psychiatrist was considered by most respondents to be useful. The familiarity with schizophrenia was 18%. MHL in our sample was low. Measures for improving the MHL in the community are needed. There may be a case for easier nomenclature with regards to MHL. [ABSTRACT FROM AUTHOR]

Published
2021
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19. The digestive and defensive basis of carcass utilization by the burying beetle and its microbiota.

Author

Vogel, Heiko, Shukla, Shantanu P., Engl, Tobias, Weiss, Benjamin, Fischer, Rainer, Steiger, Sandra, Heckel, David G., Kaltenpoth, Martin, and Vilcinskas, Andreas

Abstract

Insects that use ephemeral resources must rapidly digest nutrients and simultaneously protect them from competitors. Here we use burying beetles (Nicrophorus vespilloides), which feed their offspring on vertebrate carrion, to investigate the digestive and defensive basis of carrion utilization. We characterize gene expression and microbiota composition in the gut, anal secretions, and on carcasses used by the beetles. We find a strict functional compartmentalization of the gut involving differential expression of immune effectors (antimicrobial peptides and lysozymes), as well as digestive and detoxifying enzymes. A distinct microbial community composed of Firmicutes, Proteobacteria and a clade of ascomycetous yeasts (genus Yarrowia) is present in larval and adult guts, and is transmitted to the carcass via anal secretions, where the yeasts express extracellular digestive enzymes and produce antimicrobial compounds. Our results provide evidence of potential metabolic cooperation between the host and its microbiota for digestion, detoxification and defence that extends from the beetle's gut to its nutritional resource. [ABSTRACT FROM AUTHOR]

Published
2017
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20. The invasive azedarach scale Aulacaspis crawii (Cockerell, 1898) (Hemiptera, Diaspididae) in India.

Author

JOSHI, SUNIL, PRATHAPAN, K. D., SREEJITH, M. M., BHASKAR, HASEENA, SHUKLA, SHANTANU P., KUMARI, BABITA, and KUNHAMU, T. K.

Subjects
*HEMIPTERA, *BIOLOGICAL classification, *CROPS, *SCALE insects, *AGRICULTURAL resources
Abstract

The article offers information on the presence of invasive azedarach scale Aulacaspis crawii in India. It mentions that alien invasive species posed major economic and environmental threats that affect ecosystems, human health and economies. It also presents information on invasive species natural enemies that would lead to the biological control of the new entrant and thus minimize the economic losses.

Published
2022

21. Untitled.

Author

Saha, Paromita, Nandi, Anjan K., Unnikrishnan, Sruthi, Shilpa, M. C., Shukla, Shantanu P., Mandal, Souvik, Mitra, Aniruddha, and Gadagkar, Raghavendra

Abstract

Insect societies are hallmarks of cooperation because one or a few queens monopolize reproduction and several non-reproductive workers cooperatively raise brood. However, the loss of the queen exposes a colony to potential reproductive conflict, which is resolved only after a new queen takes over. We studied queen succession in natural and experimental colonies of the primitively eusocial wasp Ropalidia marginata to understand the proximate behavioral strategies involved in the resolution of this conflict. Previous work has shown that in this species, experimental queen removal always results in only one worker becoming hyper-aggressive and taking over the colony as its next queen, without ever being challenged. Here we show that even during natural queen turnover, one and only one worker becomes hyper-aggressive and takes over as the next queen, without being challenged. During natural queen turn-over, aggression of the successor may sometimes begin before the loss of the old queen and may sometimes decline more rapidly, unlike in the case of experimental queen removal. The successor begins to lay eggs sooner after a natural queen turn-over as compared to experimental queen removal. This is expected because workers might detect the gradual decline of the queen preceding her disappearance. Because queen succession is expected to be more prevalent in tropical perennial species, we expect natural selection to have favored such an orderly queen succession so that a route to direct fitness is available without significant reduction in cooperation.Insect societies are hallmarks of cooperation because one or a few queens monopolize reproduction and several non-reproductive workers cooperatively raise brood. However, the loss of the queen exposes a colony to potential reproductive conflict, which is resolved only after a new queen takes over. We studied queen succession in natural and experimental colonies of the primitively eusocial wasp Ropalidia marginata to understand the proximate behavioral strategies involved in the resolution of this conflict. Previous work has shown that in this species, experimental queen removal always results in only one worker becoming hyper-aggressive and taking over the colony as its next queen, without ever being challenged. Here we show that even during natural queen turnover, one and only one worker becomes hyper-aggressive and takes over as the next queen, without being challenged. During natural queen turn-over, aggression of the successor may sometimes begin before the loss of the old queen and may sometimes decline more rapidly, unlike in the case of experimental queen removal. The successor begins to lay eggs sooner after a natural queen turn-over as compared to experimental queen removal. This is expected because workers might detect the gradual decline of the queen preceding her disappearance. Because queen succession is expected to be more prevalent in tropical perennial species, we expect natural selection to have favored such an orderly queen succession so that a route to direct fitness is available without significant reduction in cooperation.Insect societies are hallmarks of cooperation because one or a few queens monopolize reproduction and several non-reproductive workers cooperatively raise brood. However, the loss of the queen exposes a colony to potential reproductive conflict, which is resolved only after a new queen takes over. We studied queen succession in natural and experimental colonies of the primitively eusocial wasp Ropalidia marginata to understand the proximate behavioral strategies involved in the resolution of this conflict. Previous work has shown that in this species, experimental queen removal always results in only one worker becoming hyper-aggressive and taking over the colony as its next queen, without ever being challenged. Here we show that even during natural queen turnover, one and only one worker becomes hyper-aggressive and takes over as the next queen, without being challenged. During natural queen turn-over, aggression of the successor may sometimes begin before the loss of the old queen and may sometimes decline more rapidly, unlike in the case of experimental queen removal. The successor begins to lay eggs sooner after a natural queen turn-over as compared to experimental queen removal. This is expected because workers might detect the gradual decline of the queen preceding her disappearance. Because queen succession is expected to be more prevalent in tropical perennial species, we expect natural selection to have favored such an orderly queen succession so that a route to direct fitness is available without significant reduction in cooperation.Insect societies are hallmarks of cooperation because one or a few queens monopolize reproduction and several non-reproductive workers cooperatively raise brood. However, the loss of the queen exposes a colony to potential reproductive conflict, which is resolved only after a new queen takes over. We studied queen succession in natural and experimental colonies of the primitively eusocial wasp Ropalidia marginata to understand the proximate behavioral strategies involved in the resolution of this conflict. Previous work has shown that in this species, experimental queen removal always results in only one worker becoming hyper-aggressive and taking over the colony as its next queen, without ever being challenged. Here we show that even during natural queen turnover, one and only one worker becomes hyper-aggressive and takes over as the next queen, without being challenged. During natural queen turn-over, aggression of the successor may sometimes begin before the loss of the old queen and may sometimes decline more rapidly, unlike in the case of experimental queen removal. The successor begins to lay eggs sooner after a natural queen turn-over as compared to experimental queen removal. This is expected because workers might detect the gradual decline of the queen preceding her disappearance. Because queen succession is expected to be more prevalent in tropical perennial species, we expect natural selection to have favored such an orderly queen succession so that a route to direct fitness is available without significant reduction in cooperation.Insect societies are hallmarks of cooperation because one or a few queens monopolize reproduction and several non-reproductive workers cooperatively raise brood. However, the loss of the queen exposes a colony to potential reproductive conflict, which is resolved only after a new queen takes over. We studied queen succession in natural and experimental colonies of the primitively eusocial wasp Ropalidia marginata to understand the proximate behavioral strategies involved in the resolution of this conflict. Previous work has shown that in this species, experimental queen removal always results in only one worker becoming hyper-aggressive and taking over the colony as its next queen, without ever being challenged. Here we show that even during natural queen turnover, one and only one worker becomes hyper-aggressive and takes over as the next queen, without being challenged. During natural queen turn-over, aggression of the successor may sometimes begin before the loss of the old queen and may sometimes decline more rapidly, unlike in the case of experimental queen removal. The successor begins to lay eggs sooner after a natural queen turn-over as compared to experimental queen removal. This is expected because workers might detect the gradual decline of the queen preceding her disappearance. Because queen succession is expected to be more prevalent in tropical perennial species, we expect natural selection to have favored such an orderly queen succession so that a route to direct fitness is available without significant reduction in cooperation. [ABSTRACT FROM AUTHOR]

Published
2018
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