Your search keyword '"Larva"' showing total 27,343 results

1. Climate challenges for fish larvae: Interactive multi-stressor effects impair acclimation potential of Atlantic herring larvae.

Author

Franke A, Bayer T, Clemmesen C, Wendt F, Lehmann A, Roth O, and Schneider RF

Subjects

Animals, Vibrio alginolyticus physiology, Stress, Physiological, Climate Change, Larva, Fishes physiology, Acclimatization, Vibrio physiology

Abstract

Fish early life stages are particularly vulnerable and heavily affected by changing environmental factors. The interactive effects of multiple climate change-related stressors on fish larvae remain, however, largely underexplored. As rising temperatures can increase the abundance and virulence of bacteria, we investigated the combination of a spring heat wave and bacterial exposure on the development of Atlantic herring larvae (Clupea harengus). Eggs and larvae of Western Baltic Spring-spawners were reared at a normal and high temperature ramp and exposed to Vibrio alginolyticus and V. anguillarum, respectively. Subsequently, mRNA and miRNA transcriptomes, microbiota composition, growth and survival were assessed. Both high temperature and V. alginolyticus exposure induced a major downregulation of gene expression likely impeding larval cell proliferation. In contrast, interactive effects of elevated temperature and V. alginolyticus resulted in minimal gene expression changes, indicating an impaired plastic response, which may cause cellular damage reducing survival in later larval stages. The heat wave alone or in combination with V. alginolyticus induced a notable shift in miRNA expression leading to the down- but also upregulation of predicted target genes. Moreover, both increased temperature and the Vibrio exposures significantly altered the larval microbiota composition, with warming reducing microbial richness and diversity. The outcomes of this study highlight the high sensitivity of herring early life stages towards multiple climate change-related stressors. Our results indicate that interactive effects of rapidly changing environmental factors may exceed the larval stress threshold impairing essential acclimation responses, which may contribute to the ongoing recruitment decline of Western Baltic Spring-Spawning herring., Competing Interests: Declaration of competing interest The authors declare no conflict of interest., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2024

2. Identification of Dipteran species inhabiting Tuber aestivum (the summer truffle) ascomata.

Author

Marino A, Leonardi M, Berrilli E, Garzia M, Zambonelli A, Cerretti P, and Iotti M

Subjects

Animals, Italy, Larva, Environmental Monitoring, Diptera, Ascomycota classification, Ascomycota genetics

Abstract

Tuber spp. (Ascomycota) forms hypogeous fruiting bodies (truffles) that host many microbial species as well as invertebrates which feed on them. Despite the larvae and adults of Diptera and Coleoptera are commonly found to inhabit truffles, molecular investigations assessing their occurrence are still few and the number of species is probably underestimated. In this study, 52 larvae and adults of Diptera from 23 T. aestivum ascomata collected in two provinces of northern and central Italy were molecularly characterized. The sequences fell into four Diptera families, and four taxa were identified as Cheilosia soror, Phaonia cf. trimaculata, Drosophila subobscura, and Suillia gigantea. Morphology of adults belonging to these species confirmed their identity. Additional three taxa belonging to the Helomyzidae remained unclassified. The study highlighted the coexistence of different Diptera species in the same ascoma, suggesting potential lack of competitive exclusion. Geographical distribution analysis reveals non-site specificity for most species. This research contributes insights into the diversity of Dipteran species and their interactions with truffles and lays the groundwork for their monitoring, at a time where truffle resources are threatened by anthropic and environmental factors., Competing Interests: Declarations. Ethics approval: All authors have read, understood, and have complied as applicable with the statement on “Ethical responsibilities of Authors” as found in the Instructions for Authors. Competing interests: The authors declare no competing interests., (© 2024. The Author(s), under exclusive licence to Springer Nature Switzerland AG.)

Published

2024

3. Zophobas morio versus Tenebrio molitor: Diversity in gut microbiota of larvae fed with polymers.

Author

Urbanek AK, Rybak J, Hanus-Lorenz B, Komisarczyk DA, and Mirończuk AM

Subjects

Animals, Polymers, Coleoptera, Biodegradation, Environmental, Plastics, Tenebrio, Larva, Gastrointestinal Microbiome

Abstract

Plastics are common synthetic materials that have been abundantly present as pollutants in natural ecosystems for the past few decades. Thus scientists have investigated the capability of plastic digestion by insects. Here we compare the effectiveness of biodegradation of the specific polymers: expanded polystyrene (EPS), polyvinyl chloride (PVC), low-density polyethylene (LDPE) and polypropylene (PP) altogether with above variants of plastics with microelements and vitamins by the mealworm - the larval form of the beetle Tenebrio molitor - and larvae of the beetle Zophobas morio, known as superworms. Z. morio beetles on all diets were able to complete their life cycle from larvae through pupae and imago, gaining 19 % and 22 % in mass on LDPE and EPS; 8 % and 7 % on PVC and PP. Mealworms (T. molitor) reared on polymers had minimal weight gain, gaining 2 % on LDPE and EPS, and a slight reduction in mass was observed when reared on PP and PVC. Not all specimens of T. molitor were able to pupate and transform to the adult stage. The results suggest that larvae of Z. morio can eat and degrade some types of plastic compounds more effectively than T. molitor. The changes in microbial gut communities were compared between these two species. The highest mass gain for Z. morio is associated with higher diversity in gut microbia and it was more diverse than that of T. molitor. Citrobacter freundii, a bacterium recognized for its ability to degrade long-chain polymers, linear hydrocarbons and cyclic hydrocarbons, was found in the microflora of Z. morio. The results confirm that superworms can survive on polymer feed. Moreover, this diet supplemented with microelements and vitamins increases the number of bacterial species and the diversity in the microbial gut., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

4. Unraveling the role of black soldier fly larvae in chicken manure conversion: Facilitating maturation and enhancing humification.

Author

Cai T, Ming Y, Zhang Y, and Zhang Q

Subjects

Animals, Waste Management methods, Diptera physiology, Simuliidae physiology, Manure, Larva, Humic Substances analysis, Chickens, Composting methods

Abstract

Black soldier fly larvae (BSFL) have garnered considerable attention for their efficacy in mitigating waste management challenges. However, their potential in treating antibiotics contaminated chicken manure remains uncertain. This study investigates the physicochemical properties changes and nutrient dynamics during the composting of contaminated-chicken manure using BSFL. The results indicate that BSFL treatment reduces electrical conductivity (by 6.01-58.09 %), organic matter, and dissolved organic carbon content in chicken manure throughout the composting process, while maintaining a more stable pH value (pH ∼ 6.0-8.0). This is attributed to the consumption of organic matter by BSFL and the subsequent promotion of organic acid formation. Additionally, BSFL treatment improves the degree of aromatization of dissolved organic matter (DOM) in chicken manure and increases the proportions of fulvic acid (up to 48.77 %) and humic acid (maximally 14.27 %) within the DOM. The germination index and pot experiments indicated improved compost maturity and plant growth in BSFL-treated composts. Furthermore, BSFL meal demonstrated high protein and essential fatty acid content, highlighting its potential as a protein supplement in animal feed. This study underscores the efficacy of BSFL in enhancing compost quality and nutrient availability, offering a sustainable solution for waste management and animal feed production., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

5. Labelling of miracidium using fluorescent agents to visualize infection of schistosome in intermediate host snails.

Author

Ouji Y, Hamasaki M, Misu M, Yoshikawa M, and Hamano S

Abstract

Schistosomiasis is a parasitic disease affecting more than 250 million people worldwide. Schistosomes infect humans by cercariae penetrating the skin in a freshwater environment. Findings obtained more than 100 years prior showed that miracidium develops into cercaria in freshwater snails, though detailed development dynamics have not been elucidated. Although results of histological analyses of development of schistosomes in snails were presented in our previous studies, findings obtained with dynamic imaging have yet to be reported. In the present study, imaging of schistosome infection and dynamics in snails occuring within a short period was performed using fluorescent labeling agents. Labeling of S. mansoni cercariae with carboxyfluorescein succinimidyl ester (CFSE) caused no toxicity, and allowed for monitoring of schistosome dynamics in snails for up to 10 days and release of infective cercariae without fluorescence in 40 days following infection., (Copyright © 2024. Published by Elsevier B.V.)

Published

2024

6. Strategic approach for converting fat-rich food waste into high-quality biodiesel using black soldier fly larvae for sustainable bioenergy.

Author

Kim JY, Park G, Choi Y, Park WK, Koo B, Park K, Tsang YF, and Kwon EE

Subjects

Animals, Esterification, Diptera, Simuliidae, Food Loss and Waste, Biofuels, Larva

Abstract

Food waste (FW) comprises carbohydrates, proteins, lipids, and water, posing technical challenges for effective treatment and valorisation. This study addresses these challenges by using black soldier fly larvae (BSFL) as a bioconversion medium to transform FW into biodiesel (BD). BSFL predominantly consumed the carbohydrates and proteins in FW (81 wt%), while showing a lower preference for lipids (<50 wt% consumed). Notwithstanding the lower consumption of lipids in the FW than that of carbohydrates and proteins, BSFL had a high lipid content (48.3 wt%). The subsequent conversion of the lipids extracted from BSFL into BD was tested via catalytic (acid/alkali) and non-catalytic transesterification processes. The BD yield from catalytic transesterification was lower than that from non-catalytic transesterification because of the low tolerance against free fatty acids (FFAs). BD was also produced from the lipid-concentrated residual FW through non-catalytic transesterification. Although the FW residue extracts contained high amounts of FFAs (49.9 wt%), non-catalytic transesterification displayed a high BD yield (92.4 wt%; yields from catalytic transesterification: < 80.0 wt%). Moreover, blending the BD derived from the BSFL and FW residue extracts enhanced the fuel properties. The BSFL-assisted FW management efficiently reduced FW by 90 wt% while producing a high-quality BD., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

7. Co-exposure effect of different colour of LED lights and increasing temperature on zebrafish larvae (Danio rerio): Immunohistochemical, metabolomics, molecular and behaviour approaches.

Author

Pir R, Sulukan E, Şenol O, Atakay M, Baran A, Kankaynar M, Yıldız E, Salih B, and Ceyhun SB

Subjects

Animals, Color, Light, Metabolomics, Temperature, Embryo, Nonmammalian, Hot Temperature adverse effects, Zebrafish physiology, Larva

Abstract

Although there are studies in the literature on the effects of different coloured light-emitting diodes (LEDs) on different organisms, there is limited information on how these effects change with temperature increase. In this study, the effects of blue, green, red and white LED lights on the early development process of zebrafish (Danio rerio (Hamilton, 1822)) were comprehensively investigated. In addition, to simulate global warming, it was examined how a one-degree temperature increase affects this process. For this purpose, zebrafish embryos, which were placed at 4 hpf (hours post fertilization) in an incubator whose interior was divided into four areas, were kept at three different temperatures (28, 29 and 30 °C) for 120 h. The group kept in a dark environment was chosen as the control. The temperature of the control group was also increased at the same rate as the other groups. The results showed that at the end of the exposure period, temperature and light colour caused an increase in body malformations. Histopathological damage and immunopositive signals of HSP 70 and 8-OHdG biomarkers in larval brains, increase in free oxygen radicals, apoptotic cells and lipid accumulation throughout the body, increase in locomotor activity, decrease in heart rate and blood flow, and significant changes in more than thirty metabolite levels were detected. In addition, it has been determined that many metabolic pathways are affected, especially glutathione, vitamin B6 and pyrimidine metabolism. Moreover, it has been observed that a one-degree temperature increase worsens this negative effect. It was concluded that blue light was the closest light to the control group and was less harmful than other light colours. The study revealed that blue light produced results that were most similar to those seen in the control group., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

8. Immunomodulatory role of Xenopus tropicalis immature Sertoli cells in tadpole muscle regeneration via macrophage response modulation.

Author

Zhao Q, Mertová I, Wróblová A, Žabková S, Tlapáková T, and Krylov V

Subjects

Animals, Male, Tail, Immunomodulation, Macrophages metabolism, Macrophages immunology, Xenopus, Regeneration, Sertoli Cells cytology, Sertoli Cells metabolism, Larva

Abstract

Background: Regenerative medicine and transplantation science continuously seek methods to circumvent immune-mediated rejection and promote tissue regeneration. Sertoli cells, with their inherent immunoprotective properties, emerge as pivotal players in this quest. However, whether Sertoli cells can play immunomodulatory role in tadpole tail regeneration and can thus benefit the regeneration process are needed to be discovered., Methods: Immature Sertoli cells from Xenopus tropicalis (XtiSCs) were transplanted into X. tropicalis tadpoles, followed by the amputation of the final third of their tails. We assessed the migration of XtiSCs, tail regeneration length, muscle degradation and growth, and macrophage counts across various regions including the entire tail, tail trunk, injection site, and regeneration site. The interactions between XtiSCs and macrophages were examined using a confocal microscope. To deplete macrophages, clodronate liposomes were administered prior to the transplantation of XtiSCs, while the administration of control liposomes acted as a negative control. Student's t-test was used to compare the effects of XtiSCs injection to those of a 2/3PBS injection across groups with no liposomes, control liposomes, and clodronate liposomes., Results: XtiSCs have excellent viability after transplantation to tadpole tail and remarkable homing capabilities to the regeneration site after tail amputation. XtiSCs injection increased macrophage numbers at 3 days post-amputation and 5 days post-amputation in the tail trunk, specifically at the injection site and at the regenerated tail, in a macrophage depleted environment (clodronate-liposome injection). What's more, XtiSCs injection decreased muscle fibers degradation significantly at 1 day post-amputation and facilitated new muscle growth significantly at 3 days post-amputation. In addition, whole-mount immunostaining showed that some XtiSCs co-localized with macrophages. And we observed potential mitochondria transport from XtiSCs to macrophages using MitoTracker staining in tadpole tail., Conclusions: Our study delineates the novel role of XtiSCs in facilitating muscle regeneration post tadpole tail amputation, underscoring a unique interaction with macrophages that is crucial for regenerative success. This study not only highlights the therapeutic potential of Sertoli cells in regenerative medicine but also opens avenues for clinical translation, offering insights into immunoregulatory strategies that could enhance tissue regeneration and transplant acceptance., Competing Interests: Declarations Ethics approval and consent to participate This study was carried out in strict accordance with the Act No. 246/1992 Coll., on the protection of animals against cruelty, the basic law related to animal protection governing the activities of all the state authorities of animal protection in the Czech Republic, such as the Ministry of Agriculture, including the Central Commission for Animal Welfare, and the veterinary administration authorities. The authorization to use experimental animals was issued to the Faculty of Science, Charles University, 37428/2019-MZE-18134. Study protocol was approved by the Ethical Committee of Faculty of Science, Charles University and the Ministry of Education, Youth and Sports. Title of the approved project: Cytological analysis of selected Pipidae species (Xenopus, Hymenochirus), Approval number: MSMT-20585/2022-4. Date of approval: November 3, 2022. No human cells/ tissues/ samples/ cell lines were used in this research. Consent for publication Not applicable. Competing interests The authors declare no competing interests., (© 2024. The Author(s).)

Published

2024

9. Novel laser model of optic nerve transection provides valuable insights about the dynamics of optic nerve regeneration.

Author

Moulin C, Dvoriantchikova G, Bineshfar N, Swingle B, Martinez G, Groso D, Zhang M, Ivanov D, and Pelaez D

Subjects

Animals, Lasers, Larva, Disease Models, Animal, Xenopus laevis, Nerve Regeneration, Optic Nerve Injuries pathology, Optic Nerve Injuries physiopathology, Retinal Ganglion Cells physiology, Axons physiology, Optic Nerve physiology

Abstract

Optic nerve (ON) injury causes blindness in adult mammals as their retinal ganglion cells (RGCs) cannot regenerate axons. However, amphibian RGC axons do not experience the same regenerative failure. Studying the regeneration process of the ON in amphibians holds profound implications for regenerative medicine and human health. Using transgenic tadpoles and laser micro-optics, we developed a reproducible ON transection and regeneration model. Through microscopy of axon dynamics, functional testing to assess visual pathway recovery, TUNEL cell death and EdU cell proliferation assays, and RNA-seq of the retina and optic nerve, we characterized the optic nerve injury response and subsequent recovery. Our model suggests no chemoattractant gradient exists early in regeneration, with defasciculated axons sprouting in random directions from the globe-proximal cut end. Once individual axons reach the appropriate targets in the brain, their tract is reinforced by other regenerating axons, restoring normal ON morphology. Thus, guidance cues or scaffolding from brain-innervating axons likely support later stages of regeneration. After 14 days, the regenerated ON is morphologically indistinguishable from the naïve ON, and visual function is restored. We found no evidence of RGC death or new RGC formation in the model, suggesting that ON regeneration involves remodeling of injured axons of pre-existing RGCs., (© 2024. The Author(s).)

Published

2024

10. Chaetotaxy of the fourth larval stage of Pintomyia longiflocosa, a primary vector of cutaneous leishmaniasis in Colombia.

Author

Méndez-Cardona S, Carrasquilla MC, González C, and Santamaría E

Subjects

Animals, Colombia, Male, Microscopy, Electron, Scanning, Female, Sensilla ultrastructure, Larva growth & development, Larva anatomy & histology, Leishmaniasis, Cutaneous transmission, Leishmaniasis, Cutaneous parasitology, Leishmaniasis, Cutaneous epidemiology, Insect Vectors parasitology, Insect Vectors anatomy & histology

Abstract

Introduction: Pintomyia (Pifanomyia) longiflocosa is an endemic species from Colombia, found between the central and eastern Andes, and reported as one of the primary vectors of cutaneous leishmaniasis in coffee-growing zones of the country. This species is classified in the Townsendi series and can only be identified by the morphology of the male adults., Objective: To determine the potential use of the fourth larval stage of the vector Pi. longiflocosa in morphological taxonomy based on the description of its chaetotaxy., Materials and Methods: Pintomyia longiflocosa adults were captured in Campoalegre, Huila, and reared in the Entomology Laboratory at the Colombian Instituto Nacional de Salud. To identify the setae found in each corporal segment, 15 fourth-instar larvae were mounted on microscope slides using Canadian balm after being cleared with 10 % potassium hydroxide and saturated phenol. Additionally, five specimens were prepared for their observation by scanning electron microscopy., Results: Based on the description of Pi. longiflocosa, we established that all species of the subgenus Pifanomyia so far described have the same antennal morphology and clavate setae along their body. However, various setae present in Pi. longiflocosa are absent in Pi. youngi, suggesting differences among the larvae of the Townsendi series., Conclusions: These results support the potential importance of morphological characters from the fourth larval instar, such as antennal morphology and chaetotaxy, specifically in closely related species that are cryptic in their adult stages.

Published

2024

11. Performance of Trichogramma evanescens Westwood (Hymenoptera: Trichogrammatidae) on Spodoptera frugiperda (J.E. Smith) (Lepidoptera: Noctuidae) eggs at laboratory and field conditions.

Author

El-Gepaly HMKH, Abdelhameed KMA, Shakl SYE, Saleh AA, and Hafez EE

Subjects

Animals, Zea mays parasitology, Hymenoptera physiology, Ovum parasitology, Larva, Egypt, Wasps physiology, Host-Parasite Interactions, Spodoptera parasitology, Pest Control, Biological methods

Abstract

The fall armyworm (FAW), Spodoptera frugiperda (Smith), is a significant pest threatening crops like maize across Africa, necessitating sustainable pest management alternatives. This study evaluates the efficacy of Trichogramma evanescens as a biological control agent against FAW egg masses in Egypt under laboratory and semi-field conditions. FAW larvae were initially collected from infested maize fields and reared on castor-oil plant leaves. Meanwhile, T. evanescens was propagated using Sitotroga cerealella eggs as hosts. The host eggs, aged 18 to 24 h, were sterilized with UV light to prevent host development while maintaining suitability for parasitism. Using custom-designed parasitoid incubators and hemisphere clip-cages, experiments focused on various egg mass configurations, assessing the effects of scales and layering. Laboratory conditions were controlled at 25 ± 2ºC and 55 ± 5% relative humidity, while semi-field trials used large cages in maize fields to approximate natural conditions. The results showed that in laboratory settings, parasitism rates averaged 5.96%, 2.00%, and 1.56% for non-, average-, and dense-scale egg masses, respectively. For egg masses with varying layers, parasitism rates were 5.24% for single-layer, 3.09% for double-layer, and 1.18% for ple-layer, regardless of scale presence. In semi-field conditions, parasitism rates were 1.01% for single-layer, 1.13% for double-layer, and 0.59% for triple-layer egg masses. Correspondingly, parasitism rates for non-, average-, and dense-scale eggs were 1.85%, 0.60% and 0.27%. The study concludes that T. evanescens shows promise for integrated pest management programs; however, its effectiveness is constrained by physical and environmental variables. Optimizing the timing of parasitoid releases and selecting robust strains could enhance the effectiveness of biological control, reducing reliance on chemical pesticides in Egypt., (© 2024. The Author(s).)

Published

2024

12. Reverse development in the ctenophore Mnemiopsis leidyi .

Author

Soto-Angel JJ and Burkhardt P

Subjects

Animals, Life Cycle Stages physiology, Reproduction physiology, Ctenophora physiology, Ctenophora growth & development

Abstract

Reverse development, or the ability to rejuvenate by morphological reorganization into the preceding life cycle stage is thought to be restricted to a few species within Cnidaria. To date, Turritopsis dohrnii is the only known species capable of undergoing reverse development after the onset of sexual reproduction. Here, we demonstrate that the ctenophore Mnemiopsis leidyi is capable of reversal from mature lobate to early cydippid when fed following a period of stress. Our findings illuminate central aspects of ctenophore development, ecology, and evolution and show the high potential of M. leidyi as a unique model system to study reverse development and rejuvenation. Besides shedding light on the plasticity of developmental programs, these results raise fundamental questions about early animal development, body plans, and life cycles., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

13. Modulation of Hypothalamic Dopamine Neuron Activity by Interaction Between Caloric State and Amphetamine in Zebrafish Larvae.

Author

Bansal P, Roitman MF, and Jung EE

Subjects

Animals, Central Nervous System Stimulants pharmacology, Zebrafish, Dopaminergic Neurons drug effects, Dopaminergic Neurons metabolism, Dopaminergic Neurons physiology, Amphetamine pharmacology, Larva, Hypothalamus drug effects, Hypothalamus metabolism, Animals, Genetically Modified

Abstract

Dopamine (DA) signaling is evoked by both food and drugs that humans come to abuse. Moreover, physiological state (e.g., hunger versus satiety) can modulate the response. However, there is great heterogeneity among DA neurons. Limited studies have been performed that could resolve the interaction between physiological state and drug responsivity across groups of DA neurons. Here, we measured the activity of neurons in transgenic Tg (th2:GCaMP7s) zebrafish larva that expresses a calcium indicator (GCaMP7s) in A11 (posterior tuberculum) and a part of A14 (caudal hypothalamus and intermediate hypothalamus) DA populations located in the hypothalamus of the larval zebrafish. Fish were recorded in one of two physiological states: ad-libitum fed (AL) and food deprived (FD) and before and after acute exposure to different doses of the stimulant drug amphetamine (0, 0.7, and 1.5 μM). We quantified fluorescence change, activity duration, peak rise/fall time, and latency in the calcium spikes of the DA neurons. Our results show that baseline DA neuron activity amplitude, spike duration, and correlation between inter- and intra-DA neurons were higher in the FD than in the AL state. Dose-dependent AMPH treatment further increased the intensity of these parameters in the neuron spikes but only in the FD state. The DA activity correlation relatively increased in AL state post-AMPH treatment. Given that hunger increases drug reactivity and the probability of relapse to drug seeking, the results support populations of DA neurons as potential critical mediators of the interaction between physiological state and drug reinforcement., (© 2024 The Author(s). Journal of Neuroscience Research published by Wiley Periodicals LLC.)

Published

2024

14. Structure and Topography of Facial Branchiomotor Neuron Dendrites in Larval Zebrafish (Danio rerio).

Author

McArthur KL and Ho WJ

Subjects

Animals, Rhombencephalon cytology, Rhombencephalon physiology, Animals, Genetically Modified, Zebrafish, Dendrites physiology, Motor Neurons physiology, Motor Neurons cytology, Larva

Abstract

Motor circuits in the vertebrate hindbrain need to become functional early in development. What are the fundamental mechanisms that establish early synaptic inputs to motor neurons? Previous evidence is consistent with the hypothesis that motor neuron dendrite positioning serves a causal role in early spinal motor circuit development, with initial connectivity determined by the overlap between premotor axons and motor neuron dendrites (perhaps without the need for molecular recognition). Does motor neuron dendrite topography serve a similar role in the hindbrain? In the current study, we provide the first quantitative analysis of the dendrites of facial branchiomotor neurons (FBMNs) in larval zebrafish. We previously demonstrated that FBMNs exhibit functional topography along the dorsoventral axis, with the most ventral cell bodies most likely to exhibit early rhythmic activity-suggesting that FBMNs with ventral cell bodies are most likely to receive inputs from premotor neurons carrying rhythmic respiratory signals. We hypothesized that this functional topography can be explained by differences in dendrite positioning, giving ventral FBMNs preferential access to premotor axons carrying rhythmic signals. If this hypothesis is true, we predicted that FBMN cell body position would be correlated with dendrite position along the dorsoventral axis. To test this prediction, we used single-cell labeling to trace the dendritic arbors of FBMNs in larval zebrafish at 5-days post-fertilization (dpf). FBMN dendrites varied in complexity, and this variation could not be attributed to differences in the relative age of neurons. Most dendrites grew caudally, laterally, and ventrally from the cell body-though FBMN dendrites could extend their dendrites dorsally. Across our sample, FBMN cell body position correlated with dendrite position along the dorsoventral axis, consistent with our hypothesis that differences in dendrite positioning serve as the substrate for differences in activity patterns across neurons. Future studies will build on this foundational data, testing additional predictions of the central hypothesis-to further investigate the mechanisms of early motor circuit development., (© 2024 The Author(s). The Journal of Comparative Neurology published by Wiley Periodicals LLC.)

Published

2024

15. A new approach to biotransformation and value of kitchen waste oil driven by gut microorganisms in Hermetia illucens.

Author

Wang Y, Yu Z, Cao Q, Liu C, Qin Y, Wang T, and Wang C

Subjects

Animals, Larva, Waste Management methods, Fatty Acids metabolism, Biotransformation, Gastrointestinal Microbiome

Abstract

Hermetia illucens larvae are known for their ability to recycle organic waste, but their capacity to recover waste oils and the role of gut microorganisms in this process are not fully understood. To gain further insights, the biological recovery of waste frying oil into valuable lipids and the influence of gut bacteria on this biotransformation were investigated. The larvae efficiently digested and absorbed waste frying oil, demonstrating their potential for converting various oils into insect fat. The presence of different fatty acids in their diet significantly altered gut bacterial communities, enriching certain genera such as Actinomyces, Enterococcus, and Providencia. Redundancy analysis revealed that the composition and structure of these bacterial communities were predictive of their function in the biotransformation of fatty acids and the lipid biosynthesis in the larvae. Specific bacteria, including Corynebacterium&#95;1, Providencia, Actinomyces, Escherichia-Shigella, and others, were identified to play specialized roles in the digestion and absorption of fatty acids, contributing to lipid synthesis and storage. These findings highlight the potential of Hermetia illucens in the biological recovery of waste frying oil and underscore the crucial role of gut microbiota in this process, offering a sustainable approach to waste management and bioenergy production., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

16. The effect of insect excretions/secretions and decomposition fluid on DNA quantity and quality in human bloodstains.

Author

Murphy M, Harvey M, van Oorschot RAH, and Durdle A

Subjects

Animals, Humans, Swine, DNA Degradation, Necrotic, Bodily Secretions chemistry, Blood Stains, DNA, Postmortem Changes, Larva, DNA Fingerprinting, Forensic Entomology, Polymerase Chain Reaction, Diptera, Microsatellite Repeats

Abstract

The larval excretions/secretions (ES) of blowflies contain proteolytic enzymes and bacteria that assist with tissue breakdown. Decomposition fluid (DF) contains organic and inorganic waste products from cell death. This study investigated if human DNA recovery from blood was impacted by exposure to ES and DF over time. Lucilia sericata ES were collected daily from 50 larvae, and all available DF was collected from two fetal piglets left to decompose for 2 weeks. Daily for 3-5 days, 28 μL-30 μL of ES, DF, or a 1:1 mixture of the fluids was added to 30 μL of blood on cotton. Three bloodstains per treatment were sampled every 12 h up to 3 days and at 1 and 2 weeks after initial addition of fluid. No PCR inhibition was detected, but DNA degradation increased over time, primarily in samples exposed to ES and ES/DF mixtures. The amount of DNA recovered decreased over time, but generally more DNA was recovered from DF samples than other samples. Full profiles, or partial profiles suitable for routine database searching (14-39 alleles), were generated from all DF and ES samples and at least one mixture sample at all timepoints. Partial profiles of between 1 and 13 alleles were obtained from all other mixture samples, except one mixture sample which generated no profile. These findings indicate bloodstain evidence recovered from maggot-infested and/or decomposing bodies may generate forensically useful DNA evidence and should be analyzed as quickly as possible after collection or stored appropriately to prevent further degradation., (© 2024 The Author(s). Journal of Forensic Sciences published by Wiley Periodicals LLC on behalf of American Academy of Forensic Sciences.)

Published

2024

17. A nondestructive technique for the sex identification of third instar Cochliomyia macellaria larvae.

Author

Holman AP, Pickett DN, Orr AE, Tarone AM, and Kurouski D

Subjects

Animals, Female, Male, Discriminant Analysis, Least-Squares Analysis, Humans, Spectrophotometry, Infrared, Calliphoridae, Larva, Forensic Entomology, Machine Learning

Abstract

Forensic entomology plays an important role in medicolegal investigations by using insects, primarily flies, to estimate the time of colonization. This estimation relies on the development of the flies found at the (death) scene and can be affected (and sometimes corrected) by external factors, such as temperature and humidity, and internal factors, such as species and sex. This study leverages infrared (IR) spectroscopy combined with machine learning models-Partial Least Squares Discriminant Analysis (PLS-DA) and eXtreme Gradient Boosting trees Discriminant Analysis (XGBDA)-to differentiate between male and female Cochliomyia macellaria larvae, commonly found on human remains. Significant vibrational differences were detected in the infrared spectra of third instar C. macellaria larvae, with distinct peaks showing variations in relative absorbance between sexes, suggesting differences in biochemical compositions such as cuticular proteins and lipids. The application of PLS-DA and XGBDA yielded high classification accuracies of about 94% and 96%, respectively, with female spectra consistently having higher sensitivity than males. This non-destructive approach offers the potential to refine supplemental post-mortem interval estimations significantly, enhancing the accuracy of forensic analyses., (© 2024 American Academy of Forensic Sciences.)

Published

2024

18. Effect of black soldier fly larvae frass addition on humus content during low temperature co-composting.

Author

Zhang R, Zhang Y, Xi Y, Zhou J, Han T, Ma Q, Wang C, Zhu F, and Ye X

Subjects

Animals, Cold Temperature, Soil chemistry, Diptera physiology, Chickens, Temperature, Bacteria, Larva, Manure, Composting methods

Abstract

Initiating aerobic fermentation under low temperature is the main challenge for winter livestock manure composting. This study aims to address this issue by applying black soldier fly larvae (BSFL) frass as a co-composting additive to enhance the low-temperature composting process. Specifically, this work explored the effects of chicken manure and BSFL frass co-composting on the temperature, humus content, and microorganisms with fresh weight ratio of 2:1, 1:1, 1:2 (w/w) at 6 °C. The result showed frass could rapidly rise the temperature to 50 °C and significantly increased the humus content by 15.6 % ∼ 26.3 %. Moreover, microbial analysis revealed that Sphingobacteriaceae accelerated temperature rise via low-temperature reproduction, creating proper temperature for thermophilic bacteria (Truepera and Georgia). Additionally, Cellulomonas and other bacteria promoted organic matter degradation and participated in humus formation. This study presents a novel solution for low-temperature composting, providing practical insights for improving manure management in winter., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

19. Artificial neural networks as a tool for seasonal forecast of attack intensity of Spodoptera spp. in Bt soybean.

Author

de França LC, Pereira PS, Sarmento RA, Barreto AB, da Silva Paes J, do Carmo DDG, de Souza HDD, and Picanço MC

Subjects

Animals, Plants, Genetically Modified, Larva, Forecasting, Weather, Glycine max growth & development, Neural Networks, Computer, Seasons, Spodoptera growth & development

Abstract

Soybean (Glycine max) is the world's most cultivated legume; currently, most of its varieties are Bt. Spodoptera spp. (Lepidoptera: Noctuidae) are important pests of soybean. An artificial neural network (ANN) is an artificial intelligence tool that can be used in the study of spatiotemporal dynamics of pest populations. Thus, this work aims to determine ANN to identify population regulation factors of Spodoptera spp. and predict its density in Bt soybean. For two years, the density of Spodoptera spp. caterpillars, predators, and parasitoids, climate data, and plant age was evaluated in commercial soybean fields. The selected ANN was the one with the weather data from 25 days before the pest's density evaluation. ANN forecasting and pest densities in soybean fields presented a correlation of 0.863. It was found that higher densities of the pest occurred in dry seasons, with less wind, higher atmospheric pressure and with increasing plant age. Pest density increased with the increase in temperature until this curve reached its maximum value. ANN forecasting and pest densities in soybean fields in different years, seasons, and stages of plant development were similar. Therefore, this ANN is promising to be implemented into integrated pest management programs in soybean fields., (© 2024. The Author(s) under exclusive licence to International Society of Biometeorology.)

Published

2024

20. Submucosal infiltrate of Anisakis larvae. A rare cause of intestinal obstruction.

Author

García-Redondo M, Gil-Belmonte MJ, Ruiz-Pardo J, and Fuentes-Porcel O

Subjects

Male, Animals, Humans, Aged, Larva, Tomography, X-Ray Computed, Anisakiasis complications, Anisakis, Intestinal Obstruction etiology, Intestinal Obstruction parasitology, Intestinal Obstruction diagnostic imaging

Abstract

Patient aged 71 with a history of type 2 diabetes mellitus. He came to the emergency department for abdominal pain and vomiting. Laboratory tests showed an increase in acute phase reactants. Abdominal CT scan showed dilated jejunal loops, compatible with intestinal occlusion. Urgent intervention was performed, resecting the affected segment. The pathology report showed a prominent transmural inflammatory infiltrate and interstitial oedema, with moderate villous atrophy, identifying parasitic structures compatible with anisakis larvae (family Anisakidae). Given the mechanism of tissue invasion, the larvae are surrounded by a predominantly eosinophilic inflammatory infiltrate, organised as granulomas or abscesses.

Published

2024

21. First Modern Morphological and Molecular Description of Saccocoelium Cephali Larvae Stages (Digenea: Haploporidae) from the Black Sea.

Author

Belousova YV and Atopkin DM

Abstract

Purpose: Knowledge of haploporid trematode larvae is very poor. Until recently, only scattered reports from the Black and Medditeranean Seas were known. The present research is the first report of haploporid cercariae S. cephali from the gastropod Hydrobia acuta inhabiting the Black Sea. Thus, the present study aimed to investigate the larvae of one species from the Haploporidae family., Methods: Hydrobia acuta molluscs were collected in the estuary of the Chernaya River (the Black Sea) during 2011-2013 and examined for trematode larvae. Found parthenitae were drawn and preserved for DNA extractions. Morphological features were compared to nominal species, and molecular comparisons were made of the subunit ribosomal DNA with other Haploporidae species., Results: The haploporid parthenitae were found in the gonads of Hydrobia acuta molluscs. Most of the morphological characteristics of the specimens investigated agree with those of Saccococoelium sp. and are closest to those of S. cephali by shape and length of the body, ratio of suckers, ratio of tail length to body, shape, and size of the pharynx. Phylogenetic analysis from our study generated with Bayesian algorithm showed that studied cercariae specimens from the Black Sea were within the hapolporine clade and closely related to S. cephali from Spain., Conclusion: Morphological characteristics of cercariae emerging from Hydrobia acuta from the Black Sea and the analysis of partial 28S rDNA sequences support the conspecificity of the parasite with S. cephali mature worms from the Mediterranean Sea., (© 2024. The Author(s), under exclusive licence to Springer Nature Switzerland AG.)

Published

2024

22. Effect of maize hybrids on the biological characteristics of the fall armyworm, Spodoptera frugiperda (J.E. Smith) (Lepidoptera: Noctuidae), under laboratory conditions.

Author

Youssef MAM, Bakry MMS, and Abdel-Baky NF

Subjects

Animals, Female, Male, Oviposition physiology, Time Factors, Hybridization, Genetic, Reproduction physiology, Zea mays parasitology, Spodoptera physiology, Larva

Abstract

The fall armyworm (FAW), Spodoptera frugiperda (J.E. Smith) (Lepidoptera: Noctuidae), an invasive and polyphagous pest affecting various vital crops globally, was studied to assess how different maize hybrids impact its biological parameters under controlled laboratory conditions. Maize, a crucial crop for food security in Egypt, requires effective Integrated Pest Management (IPM) strategies to manage pests like S. frugiperda. This article explores how S. frugiperda performs on five maize hybrids-Hi-Tech 2031, Wataniya 6, Giza 10, Giza 128, and Giza 168. Significant differences were observed in larval duration across the hybrids, with the shortest duration (14.08 days) on Hi-Tech 2031. Giza 128 resulted in the longest pupal period (9.39 days), and adult lifespans varied between 8.91 and 9.61 days. Reproductive parameters also diverse, with pre-oviposition periods ranging from 4.64 to 4.90 days and oviposition periods from 3 to 4.14 days. The highest average egg count (1352.19 eggs) was recorded with Giza 10. Hybrids Hi-Tech 2031 and Giza 128 had a lower male proportion (44.81% and 43.45%, respectively). Giza 10 also yielded the highest pupation rate (93.33%), while Hi-Tech 2031 showed the highest emergence rate (96.33%).

Published

2024

23. Cu(II)-Dependent Spine Development Injury in Zebrafish ( Danio rerio ) with Organ Heterogeneous Cu Imbalance.

Author

Gui W and Wang WX

Subjects

Animals, Larva, Zebrafish, Copper toxicity, Spine

Abstract

Growing evidence suggests that the imbalance of Cu leads to multiorgan diseases or other adverse effects, but the underlying mechanisms remain largely unknown. Herein, we used zebrafish to uncover the mystery of organ heterogeneous responses to Cu stress and Cu(II)-dependent spine developmental injury in the early organogenesis stage. We first demonstrated that Cu(I) was distributed in the entire body, but high contents of Cu(II) were accumulated in the yolk sac and eye in normal zebrafish larvae. Cu exposure from birth to 144 hpf caused no obvious damage to Cu-metabolizing organs (liver and intestine), despite the elevated Cu(I) and Cu(II) levels. However, the spine was more sensitive to the Cu exposure. In the spine region, the Cu(I) level remained stable, whereas the level of Cu(II) significantly increased, which was highly associated with spine development injury. A significant negative correlation between Cu(II) and the spine-related parameters was identified. Moreover, cuproptosis caused spine development deformation during the early embryogenesis stage. Spine-related pathways such as somitegenesis significantly changed in the early embryogenesis period, and 5 spine-related pathways were significantly altered in the larval stage at 96 hpf. Our study suggested that Cu stress induced organ heterogeneous Cu imbalance and Cu(II)-dependent spine development injury in zebrafish.

Published

2024

24. Microglia are essential for tissue contraction in wound closure after brain injury in zebrafish larvae.

Author

El-Daher F, Enos SJ, Drake LK, Wehner D, Westphal M, Porter NJ, Becker CG, and Becker T

Subjects

Animals, Microfilament Proteins metabolism, Microfilament Proteins genetics, Zebrafish Proteins metabolism, Zebrafish Proteins genetics, Astrocytes metabolism, Disease Models, Animal, Cell Movement, Brain metabolism, Membrane Glycoproteins, Zebrafish, Microglia metabolism, Wound Healing physiology, Larva, Brain Injuries metabolism, Brain Injuries etiology, Brain Injuries pathology

Abstract

Wound closure after brain injury is crucial for tissue restoration but remains poorly understood at the tissue level. We investigated this process using in vivo observations of larval zebrafish brain injury. Our findings show that wound closure occurs within the first 24 h through global tissue contraction, as evidenced by live-imaging and drug inhibition studies. Microglia accumulate at the wound site before closure, and computational models suggest that their physical traction could drive this process. Depleting microglia genetically or pharmacologically impairs tissue repair. At the cellular level, live imaging reveals centripetal deformation of astrocytic processes contacted by migrating microglia. Laser severing of these contacts causes rapid retraction of microglial processes and slower retraction of astrocytic processes, indicating tension. Disrupting the lcp1 gene, which encodes the F-actin-stabilising protein L-plastin, in microglia results in failed wound closure. These findings support a mechanical role of microglia in wound contraction and suggest that targeting microglial mechanics could offer new strategies for treating traumatic brain injury., (© 2024 El-Daher et al.)

Published

2024

25. Animal life in the shallow subseafloor crust at deep-sea hydrothermal vents.

Author

Bright M, Gollner S, de Oliveira AL, Espada-Hinojosa S, Fulford A, Hughes IV, Hourdez S, Karthäuser C, Kolar I, Krause N, Le Layec V, Makovec T, Messora A, Mitchell J, Pröts P, Rodríguez-Ramírez I, Sieler F, Sievert SM, Steger J, Tinta T, Winter TRM, Bright Z, Coffield R, Hill C, Ingram K, and Paris A

Subjects

Animals, Oceans and Seas, Seawater microbiology, Geologic Sediments microbiology, Hydrothermal Vents microbiology, Larva, Polychaeta physiology, Ecosystem

Abstract

It was once believed that only microbes and viruses inhabited the subseafloor crust beneath hydrothermal vents. Yet, on the seafloor, animals like the giant tubeworm Riftia pachyptila thrive. Their larvae are thought to disperse in the water column, despite never being observed there. We hypothesized that these larvae travel through the subseafloor via vent fluids. In our exploration, lifting lobate lava shelves revealed adult tubeworms and other vent animals in subseafloor cavities. The discovery of vent endemic animals below the visible seafloor shows that the seafloor and subseafloor faunal communities are connected. The presence of adult tubeworms suggests larval dispersal through the recharge zone of the hydrothermal circulation system. Given that many of these animals are host to dense bacterial communities that oxidize reduced chemicals and fix carbon, the extension of animal habitats into the subseafloor has implications for local and regional geochemical flux measurements. These findings underscore the need for protecting vents, as the extent of these habitats has yet to be fully ascertained., (© 2024. The Author(s).)

Published

2024

26. Palmatine reverse aristolochic acid-induced heart failure through activating EGFR pathway via upregulating IKBKB.

Author

Hu Y, Chen L, Wu Y, Zhang J, Sheng Z, Zhou Z, Xie Y, Tian G, Wan J, Zhang X, Cai N, Zhou Y, Cao Y, Yang T, Chen X, Liao D, Ge Y, Cheng B, Zhong K, Tian E, Lu J, Lu H, Zhao Y, and Yuan W

Subjects

Animals, Zebrafish growth & development, Random Allocation, Larva, Energy Metabolism drug effects, Inflammation drug therapy, Molecular Targeted Therapy, Signal Transduction, Molecular Docking Simulation, I-kappa B Kinase metabolism, Network Pharmacology, Disease Models, Animal, Berberine Alkaloids pharmacology, Aristolochic Acids toxicity, Heart Failure chemically induced, Heart Failure drug therapy, Heart Failure metabolism, Heart Failure pathology

Abstract

Aristolochic acid (AA) is renowned for engendering nephrotoxicity and teratogenicity. Previous literature has reported that AA treatment resulted in heart failure (HF) via inflammatory pathways. Yet, its implications in HF remain comparatively uncharted territory, particularly with respect to underlying mechanisms. In our study, the zebrafish model was employed to delineate the cardiotoxicity of AA exposure and the restorative capacity of a phytogenic alkaloid palmatine (PAL). PAL restored morphology and blood supply in AA-damaged hearts by o-dianisidine staining, fluorescence imaging, and Hematoxylin and Eosin staining. Furthermore, PAL attenuated the detrimental effects of AA on ATPase activity, implying myocardial energy metabolism recovery. PAL decreased the co-localization of neutrophils with cardiomyocytes, implying an attenuation of the inflammatory response induced by AA. A combination of network pharmacological analysis and qPCR validation shed light on the therapeutic mechanism of PAL against AA-induced heart failure via upregulation of the epidermal growth factor receptor (EGFR) signaling pathway. Subsequent evaluations using a transcriptological testing, inhibitor model, and molecular docking assay corroborated PAL as an IKBKB enzyme activator. The study underscores the possible exploitation of the EGFR pathway as a potential therapeutic target for PAL against AA-induced HF, thus furthering the continued investigation of the toxicology and advancement of protective pharmaceuticals for AA., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

27. The underlying mechanisms of oxytetracycline degradation mediated by gut microbial proteins and metabolites in Hermetia illucens.

Author

Cao Q, Liu C, Li Y, Qin Y, Wang C, and Wang T

Subjects

Animals, Biotransformation, Larva, Anti-Bacterial Agents metabolism, Gastrointestinal Microbiome, Oxytetracycline metabolism, Biodegradation, Environmental

Abstract

Hermetia illucens larvae can enhance the degradation of oxytetracycline (OTC) through its biotransformation. However, the underlying mechanisms mediated by gut metabolites and proteins are unclear. To gain further insights, the kinetics of OTC degradation, the functional structures of gut bacterial communities, proteins, and metabolites were investigated. An availability-adjusted first-order model effectively evaluated OTC degradation kinetics, with degradation half-lives of 4.18 and 21.71 days for OTC degradation with and without larval biotransformation, respectively. Dominant bacteria in the larval guts were Enterococcus, Psychrobacter, Providencia, Myroides, Enterobacteriaceae, and Lactobacillales. OTC exposure led to significant differential expression of proteins, with functional classification revealing involvement in digestion, transformation, and adaptability to environmental stress. Upregulated proteins, such as aromatic ring hydroxylase, acted as oxidoreductases modifying the chemical structure of OTC. Unique metabolites, aclarubicin and sancycline identified were possible OTC metabolic intermediates. Correlation analysis revealed significant interdependence between gut bacteria, metabolites, and proteins. These findings reveal a synergistic mechanism involving gut microbial metabolism and enzyme structure that drives the rapid degradation of OTC and facilitates the engineering applications of bioremediation., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

28. Novel Feruloyl Esterase for the Degradation of Polyethylene Terephthalate (PET) Screened from the Gut Microbiome of Plastic-Degrading Mealworms ( Tenebrio Molitor Larvae).

Author

Mamtimin T, Ouyang X, Wu WM, Zhou T, Hou X, Khan A, Liu P, Zhao YL, Tang H, Criddle CS, Han H, and Li X

Subjects

Animals, Biodegradation, Environmental, Carboxylic Ester Hydrolases metabolism, Carboxylic Ester Hydrolases genetics, Plastics metabolism, Polyethylene Terephthalates metabolism, Gastrointestinal Microbiome, Tenebrio, Larva

Abstract

Mealworms ( Tenebrio molitor ) larvae can degrade both plastics and lignocellulose through synergistic biological activities of their gut microbiota because they share similarities in chemical and physical properties. Here, a total of 428 genes encoding lignocellulose-degrading enzymes were screened from the gut microbiome of T. molitor larvae to identify poly(ethylene terephthalate) (PET)-degrading activities. Five genes were successfully expressed in E. coli , among which a feruloyl esterase-like enzyme named Tm Fae-PETase demonstrated the highest PET degradation activity, converting PET into MHET (0.7 mg MHETeq ·h -1 ·mg enzyme -1 ) and TPA (0.2 mg TPAeq ·h -1 ·mg enzyme -1 ) at 50 °C. Tm Fae-PETase showed a preference for the hydrolysis of ferulic acid methyl ester (MFA) in the presence of both PET and MFA. Site-directed mutagenesis and molecular dynamics simulations of Tm Fae-PETase revealed similar catalytic mechanisms for both PET and MFA. Tm Fae-PETase effectively depolymerized commercial PET, making it a promising candidate for application. Additionally, the known PET hydrolases Is PETase, FsC, and LCC also hydrolyzed MFA, indicating a potential origin of PET hydrolytic activity from its lignocellulosic-degrading abilities. This study provides an innovative strategy for screening PET-degrading enzymes identified from lignocellulose degradation-related enzymes within the gut microbiome of plastic-degrading mealworms. This discovery expands the existing pool of plastic-degrading enzymes available for resource recovery and bioremediation applications.

Published

2024

29. Characterization of larval habitats of Anopheles (Nyssorhynchus) darlingi and associated species in malaria areas in western Brazilian Amazon.

Author

Dos Santos F, Xu M, Bravo de Guenni L, Lourenço-de-Oliveira R, and Rubio-Palis Y

Subjects

Animals, Brazil, Longitudinal Studies, Population Dynamics, Anopheles classification, Anopheles growth & development, Anopheles physiology, Larva, Mosquito Vectors physiology, Mosquito Vectors classification, Mosquito Vectors growth & development, Ecosystem, Malaria transmission, Seasons, Population Density

Abstract

Background: Anopheles darlingi is the most efficient vector of malaria parasites in the Neotropics. Nevertheless, the specificities of its larval habitats are still poorly known., Objectives: Characterize permanent larval habitats, and population dynamics of An. darlingi and other potential vectors in relation to climate, physicochemical variables, insect fauna and malaria cases., Methods: A 14-month longitudinal study was conducted in Porto Velho, Rondônia, western Brazilian Amazon. Monthly, 21 permanent water bodies were sampled. Immature anophelines and associated fauna were collected, physicochemical characteristics, and climate variables were recorded and analyzed., Findings: Five types of habitats were identified: lagoon, stream, stream combined with lagoon, stream combined with dam, and fishpond. A total of 60,927 anophelines were collected. The most abundant species in all habitats were Anopheles braziliensis and An. darlingi. The highest density was found in the lagoon, while streams had the highest species richness. Abundance was higher during the transition period wet-dry season. There was a lag of respectively four and five months between the peak of rainfall and the Madeira River level and the highest abundance of An. darlingi larvae, which were positively correlated with habitats partially shaded, pH close to neutrality, increase dissolved oxygen and sulphates., Main Conclusions: The present study provides data on key factors defining permanent larval habitats for the surveillance of An. darlingi and other potential vectors as well as a log-linear Negative Binomial model based on immature mosquito abundance and climate variables to predict the increase in the number of malaria cases.

Published

2024

30. Neuroinflammation as a cause of differential Müller cell regenerative responses to retinal injury.

Author

García-García D, Vidal-Gil L, Parain K, Lun J, Audic Y, Chesneau A, Siron L, Van Westendorp D, Lourdel S, Sánchez-Sáez X, Kazani D, Ricard J, Pottin S, Donval A, Bronchain O, Locker M, Roger JE, Borday C, Pla P, Bitard J, and Perron M

Subjects

Animals, Mice, Neuroinflammatory Diseases metabolism, Neuroinflammatory Diseases pathology, Neuroinflammatory Diseases etiology, Microglia metabolism, Microglia pathology, Disease Models, Animal, Retinitis Pigmentosa pathology, Retinitis Pigmentosa metabolism, Inflammation pathology, Inflammation metabolism, Larva, Ependymoglial Cells metabolism, Ependymoglial Cells pathology, Cell Proliferation, Retina pathology, Retina metabolism, Regeneration

Abstract

Unlike mammals, some nonmammalian species recruit Müller glia for retinal regeneration after injury. Identifying the underlying mechanisms may help to foresee regenerative medicine strategies. Using a Xenopus model of retinitis pigmentosa, we found that Müller cells actively proliferate upon photoreceptor degeneration in old tadpoles but not in younger ones. Differences in the inflammatory microenvironment emerged as an explanation for such stage dependency. Functional analyses revealed that enhancing neuroinflammation is sufficient to trigger Müller cell proliferation, not only in young tadpoles but also in mice. In addition, we showed that microglia are absolutely required for the response of mouse Müller cells to mitogenic factors while negatively affecting their neurogenic potential. However, both cell cycle reentry and neurogenic gene expression are allowed when applying sequential pro- and anti-inflammatory treatments. This reveals that inflammation benefits Müller glia proliferation in both regenerative and nonregenerative vertebrates and highlights the importance of sequential inflammatory modulation to create a regenerative permissive microenvironment.

Published

2024

31. Use of Commercial Bacon to Extract Maggots from an Infested Chronic Wound.

Author

Fenati G, Youssoffi S, Vejendla S, Neeki CC, Nguyen VT, Dong F, and Neeki MM

Subjects

Humans, Animals, Wound Healing, Debridement methods, Male, Chronic Disease, Necrosis, Wound Infection therapy, Female, Larva, Myiasis therapy, Myiasis diagnosis, Myiasis drug therapy

Abstract

Abstract: Maggot therapy, also known as larval therapy or biosurgery, is the use of live, sterilized maggots to debride necrotic tissue. Alternatively, wound infestation by maggots, known as myiasis, can occur in patients with poor wound management, particularly in those living in poor socioeconomic conditions. In the case of myiasis, various maggot extraction solutions are used to encourage the live larvae to emerge from the wound on their own. Current recommendations include the use of hypochlorous acid, sodium hypochlorite solutions, isopropyl alcohol, betadine, and hydrogen peroxide for wound cleansing. This case report focuses on a unique utilization of commercial bacon strips for the extraction of maggots in an infested necrotic wound. The use of commercial bacon strips in selective patients as a noninvasive technique for the removal of maggots from necrotic wounds can be an additional tool for medical providers., (Copyright © 2024 Wolters Kluwer Health, Inc. All rights reserved.)

Published

2024

32. TAXES OF DICYEMIDS (PHYLUM DICYEMIDA).

Author

Hisayama N, Takeuchi Y, and Furuya H

Subjects

Animals, Phototaxis, Gills parasitology, Urine parasitology, Chemotaxis, Larva, Kidney parasitology

Abstract

Dicyemids (Phylum Dicyemida) are endosymbionts present in the kidneys of benthic cephalopods. They usually consist of 10 to 40 cells and are characterized by 2 distinct body types: vermiform individuals and infusoriform larvae. Vermiform individuals remain attached to the internal surface of the host's renal appendages, while infusoriform larvae leave the renal sac to search for a new host. To investigate how dicyemids respond to various host and environmental cues, we evaluated phototaxis, chemotaxis, thigmotaxis, and rheotaxis responses of vermiform individuals and infusoriform larvae of 2 dicyemid species in a laboratory setting. Vermiform individuals did not exhibit phototaxis and chemotaxis to the major components of the host: urine, tissue fluids, or extracts of the host gills. However, they showed positive thigmotaxis and positive rheotaxis to slow water flow, probably contributing to enabling attachment to the renal appendages and remaining in the renal sac, respectively. The infusoriform larvae exhibited negative chemotaxis to host blood and negative thigmotaxis, but there was no evidence of phototaxis and rheotaxis. Negative thigmotaxis may facilitate the release of infusoriform embryos from the renal appendages. Negative chemotaxis to the host blood suggests that the infusoriform larvae do not enter through the vascular system to gain access to the renal sac, so the process by which infusoriform larvae enter the cephalopod host is yet to be determined., (© American Society of Parasitologists 2024.)

Published

2024

33. An integrated approach for plastic polymer degradation by the gut bacterial resident of superworm, Zophobas morio (Coleoptera:Tenebrionidae).

Author

Hosseini FS, Asoodeh A, Ostad Movahed S, and Makhdoumi A

Subjects

Animals, Coleoptera, Biodegradation, Environmental, Larva, Gastrointestinal Microbiome, Bacteria metabolism, Polyethylene, Plastics, Polymers

Abstract

The potential of superworm to remove certain plastic polymers has recently been noted. In this study, aerobic bacterial strains were isolated from the gut of Zophobas morio larvae which were fed with polyethylene (PE), polyethylene terephthalate (PET), polypropylene (PP), and polystyrene (PS) polymers. Strains P2 (Leminorella), P6 (Bacillus), P9 (Bacillus), and P5 (Citrobacter) were associated with the highest PS (2.7%), PP (1.3%), PET (1.1%), and PE (0.42%) weight loss after 28 days, respectively. Pretreatments including thermal treatment (80 °C for 10 days), weathering (4 months in the free environment), and nitric and sulfuric acids (1 N, 10 days) improved the degradation of PE (1.3%), PET (1.9%), PP (5.2%), and PS (8.3%) by the same strains, respectively. Further analyses on the PS degradation by Leminorella sp. P2 revealed acid pretreatment promoted the formation of the C = C, C = O, and O-H functional groups. Surface irregularities, as well as a 3.6-fold increase in surface roughness, were observed in the PS film subjected to biodegradation. The contact angle dropped from 98.4° to 42.2° following the biodegradation. Bacterial depolymerization was confirmed by the 8.7% and 3.4% reduction of Mn and Mw and the change in polydispersity from 1.65 to 1.75. The results suggest that Zophobas morio microbiota in combination with abiotic pretreatment can be considered for plastic waste management., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

34. A validated HPLC-MS/MS method for the simultaneous determination of ecdysteroid hormones in subminimal amounts of biological material.

Author

Marešová L, Moos M, Opekar S, Kazek M, Eichler C, and Šimek P

Subjects

Animals, Chromatography, High Pressure Liquid methods, Larva, Hemolymph chemistry, Hemolymph metabolism, Liquid Chromatography-Mass Spectrometry, Ecdysteroids analysis, Ecdysteroids blood, Ecdysteroids chemistry, Tandem Mass Spectrometry methods

Abstract

Ecdysteroids represent a large class of polyhydroxylated steroids which, due to their anabolic properties, are marketed as dietary supplements. Some ecdysteroids also act as important hormones in arthropods, where they regulate molting, development, and reproduction and many of these insects are miniature organisms that contain submicroliter levels of circulating biofluids. Analysis of ecdysteroids is further complicated by their very low abundance, large fluctuations during development, and difficult access to a pooled sample, which is important for quantitative measurements. In this work, we propose a new method that overcomes the described difficulties and allows validated quantification of four ecdysteroids in minimal amounts of biological material. After methanolic extraction, detectability of the ecdysteroids is increased 16- to 20-fold by conversion to their 14,15-anhydrooximes. These are further purified by pipette tip solid-phase extraction on a three-layer sorbent and subjected to HPLC-MS/MS analysis. Full validation was achieved using hemolymph from larvae of the firebug Pyrrhocoris apterus as a blank matrix and by the determination of ecdysteroids in a single Drosophila larva. The lower limit of quantifications for the four target ecdysteroids (20-hydroxyecdysone, ecdysone, makisterone A, and 2-deoxyecdysone) were 0.01; 0.1; 0.05; and 0.025 pg·ml -1 (20; 200; 100; 50 fmol ml -1 ), respectively, with very good accuracy, precision (expressed as relative standard deviation <15%) and recoveries (96%-119.9%). The application potential of the new method was demonstrated by quantification of ecdysteroids in various biological materials including human serum., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

35. Hormesis of black soldier fly larva: Influence and interactions in livestock manure recycling.

Author

Awasthi MK, Dregulo AM, Yadav A, Kumar V, Solanki MK, Garg VK, and Sindhu R

Subjects

Animals, Metals, Heavy toxicity, Diptera, Pesticides toxicity, Hormesis, Manure, Larva, Recycling, Livestock

Abstract

Black soldier fly larvae (BSFL) are considered important organisms, utilized as tools to transform waste including manure into valuable products. The growth and cultivation of BSFL are influenced by various factors, such as the presence of toxic substances in the feed and parasites. These factors play a crucial role in hormesis, and contributing to regulate these contaminants hermetic doses to get sustainable byproducts. This review aims to understand the effects on BSFL growth and activities in the presence of compounds like organic and inorganic pollutants. It also assesses the impact of microbes on BSFL growth and explores the bioaccumulation of pharmaceutical compounds, specifically focusing on heavy metals, pesticides, pharmaceuticals, indigenous bacteria, insects, and nematodes. The review concludes by addressing knowledge gaps, proposing future biorefineries, and offering recommendations for further research., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

36. Nasopharyngeal Botflies Oestrus ovis and Cephenemyia stimulator in Roe Deer (Capreolus capreolus) from Northern Spain.

Author

Martínez-Delgado A, Diez-Baños N, Del Rosario Hidalgo M, González Hidalgo S, and Carreno RA

Subjects

Animals, Spain epidemiology, Female, Larva, Deer parasitology, Diptera classification, Myiasis veterinary, Myiasis parasitology, Myiasis epidemiology

Abstract

Two of 19 roe deer (Capreolus capreolus) in northern Spain were infested with Cephenemyia stimulator and one individual with Oestrus ovis. Three larvae of O. ovis were recovered from the nasopharynx of an adult female deer examined in February 2017, during the hunting season in the province of Burgos. The larvae were identified by morphology, and DNA sequencing from cytochrome oxidase subunit I and 28S rDNA confirmed the identification of both species of larvae. The possibility of O. ovis parasitizing roe deer should be considered in the diagnosis of nasal bots in cervids., (© Wildlife Disease Association 2024.)

Published

2024

37. Serodiagnosis of nasal myasis in camels (Camelus dromedaries) in Egypt using third larval instar affinity-purified glycoprotein.

Author

Aboelsoued D, Toaleb NI, Mohamed AM, Abdel Megeed KN, and Hekal SHA

Subjects

Animals, Egypt, Sensitivity and Specificity, Diptera immunology, Camelus parasitology, Enzyme-Linked Immunosorbent Assay veterinary, Larva, Glycoproteins immunology, Glycoproteins isolation & purification, Myiasis veterinary, Myiasis diagnosis, Myiasis parasitology, Serologic Tests veterinary, Serologic Tests methods

Abstract

The larvae of Cephalopina titillator cause nasopharyngeal myiasis in camels, which parasitize the living tissues of the nasal and paranasal sinuses, pharynx, and larynx. C. titillator infestation adversely affects camel health, meat, and milk production, and can even cause death. In our study, to improve the immunodiagnosis of camel nasal myiasis, a sensitive and specific enzyme-linked immunosorbent assay (ELISA) was developed and evaluated using the Concanavalin-A (Con-A) affinity purification for the C. titillator-N-acetylglucosamine (Ct-GlucNAc) glycoprotein fraction from third larval instars as an antigen for detecting C. titillator antibodies. Crude antigens were prepared from larval instars of C. titillator and evaluated by indirect ELISA. The third C. titillator larval antigen (L 3 Ct) had the highest protein content (P < 0.001) and the best diagnostic value; chi-square = 235 (P < 0.001). Four glycoprotein fractions were purified separately from the L 3 Ct antigen by Con-A purification and evaluated. The Ct-GlucNAc glycoprotein fraction was the fraction of choice with the highest diagnostic accuracy (P < 0.05). Using Ct-GlucNAc as a coating antigen, indirect ELISA showed a 99.3% sensitivity for positive results in camel myiasis samples and 100% specificity for negative results in healthy camel samples. The diagnostic accuracy was 99.7%, and no cross reactivity was detected for other parasitic diseases. The indirect ELISA results were confirmed by the western immunoblotting which was characterized by comparing sera from naturally infested dromedary camels with C. titillator, sera from healthy camels and sera from camels with other parasitic infections (Echinococcus granulosus, Fasciola gigantica, Hard ticks; Hyalomma dromedarii, Trichostronglid sp., Eimeria spp., and Cryptosporidium sp.). Immunoreactive antigenic bands of 63, 50, 30 and 18 kDa were predominantly detected in sera from camels with nasopharyngeal myiasis and didn't react with healthy and camel's sera from other parasitic infections. However, seven immunoreactive bands appeared at 120, 70, 63, 48, 35, 29, and 19 kDa in the crude L 3 Ct antigen. In addition, a positive rate of C. titillator immunodiagnosis was detected by indirect ELISA (48.6%, chi-square = 483, P < 0.001), which was significantly greater than that of postmortem diagnosis (31%). In conclusion, the current study introduces a new diagnostic immunoaffinity glycoprotein fraction of C. titillator 3rd larval instar-based ELISA as a highly accurate, simple and fast method to detect specific antibodies of nasal myiasis in camels., (© 2024. The Author(s).)

Published

2024

38. First Report of Bothynus striatellus (Coleoptera: Melolonthidae) Damaging Lucerne Crops in Argentina.

Author

Niveyro S, Lara G, and Madero RF

Subjects

Animals, Argentina, Coleoptera, Larva, Crops, Agricultural, Medicago sativa

Abstract

We report for the first time that larvae of the genus Bothynus Hope (Coleoptera: Melolonthidae) caused economic damage to lucerne (Medicago sativa L., Fabaceae) crops in General Acha, province of La Pampa, Argentina. In two consecutive years (2021 and 2022), this insect infested 150 ha of lucerne, causing seedling losses of 80 ha. Based on soil sampling and laboratory insect rearing, the species was identified as Bothynus striatellus (Faimaire) (Coleoptera: Melolonthidae). Information is given here on the damage recorded in this forage crop, the density of the larvae observed at the time of damage assessment and the morphological characteristics of the third instar larvae reported in this crop in Argentina., (© 2024. Sociedade Entomológica do Brasil.)

Published

2024

39. First Record of Conotrachelus quadrilineatus Champion, 1904 (Coleoptera: Curculionidae: Molytinae) Damaging Beans in South America.

Author

Baron-Ortiz DA, Rodriguez-Cruz FA, and Santos-Amaya OF

Subjects

Animals, Colombia, Herbivory, Weevils classification, Larva, Phaseolus

Abstract

Common bean (Phaseolus vulgaris L.) is the most important legume used for direct human consumption in Latin America, with an increasing expansion of cultivated areas in recent years. Here, we report the first occurrence of Conotrachelus quadrilineatus Champion, 1904 (Coleoptera: Curculionidae: Molytinae) feeding on bean in South America. Larvae and adults of C. quadrilineatus were observed during the first half of 2022, severely affecting the plantations of 20 bean farmers in the municipality of Garcia-Rovira, Santander Colombia. It is necessary to describe and quantify the damage of C. quadrilineatus in bean crops, as well as to study its bioecology., (© 2024. The Author(s).)

Published

2024

40. Tenebrio Molitor breeding rejects as a high source of pure chitin and chitosan: Role of the processes, influence of the life cycle stages and comparison with Hermetia illucens.

Author

Azzi M, Elkadaoui S, Zim J, Desbrieres J, El Hachimi Y, and Tolaimate A

Subjects

Animals, Life Cycle Stages, Breeding, Larva, Acetylation, Tenebrio chemistry, Chitin chemistry, Chitosan chemistry

Abstract

This work valorizes rejects from Tenebrio Molitor TM breeding through the production of chitin and chitosan. Two processes are proposed for extracting chitin from larval exuviae and adult. The first process P1 provides chitin with high contents compared to literature data but the characterization shows the presence of impurities in the exuviae chitin responsible for the shifts in the values of the physicochemical characteristics towards those presented by γ chitin. These impurities are removed by delipidation and pure α chitin is obtained. The effective delipidation of this chitin would be linked to its fibrous surface structure. The analysis of the results of P1 led us to develop a second extraction process P2 which provides pure chitin with improved yields using delipidation followed by deproteinization. The N-deacetylation of chitin according to Kurita or Broussignac process makes possible the preparation of pure, highly deacetylated chitosan samples (2 % < DA < 12 %) with high yields and controlled molar masses (Mv). A kinetic study of molecular degradation during deacetylation is carried out. A comparison with Hermetia illucens allows to extend the use of insects as a potential source of chitin and chitosan and confirms the role of the source and the processes in the determination of their characteristics., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2024

41. New Technique for Identification of Ichthyoplankton and Its Application in Biomonitoring Studies, Management and Conservation of Neotropical Fish.

Author

Reynalte-Tataje DA, Zaniboni-Filho E, Lopes CA, de Ávila-Simas S, and Bialetzki A

Subjects

Animals, Biological Monitoring methods, Environmental Monitoring methods, Larva, Ovum, Fishes classification, Conservation of Natural Resources methods

Abstract

Despite significant advancements in ichthyoplankton collection and data processing, challenges persist in the taxonomic identification of these organisms, particularly their eggs. To overcome these challenges, a novel technique has been developed to facilitate the identification of live eggs collected directly in wild. This user-friendly technique includes the collection, processing of the material, and field incubation. Sampling must be conducted using a pelagic net towed at low speed, preferably during early evening. The material processing involves pre-sorting and sorting to remove eggs and larvae. The separated eggs, kept in an aerated bowl, can be identified based on their morphological and meristic characteristics. Unidentified eggs can be placed in plastic bags with oxygen and incubated directly in the aquatic environment for 48-72 h. After this incubation period, the hatched larvae at the yolk-sac or preflexion stage, are identified to the lowest possible taxonomic level. Depending on the study's purpose, hatched larvae and field-collected larvae can be transported to research centers for further development, released back into the natural environment, or fixed to complete the collection. The application of this technique supports management and monitoring programs by identifying spawning areas through egg identification, forming broodstock, and replenishing threatened species, thereby enhancing scientific collections of ichthyoplankton. Additionally, it reduces mortality in ichthyoplankton techniques, including endangered species. Therefore, we believe that this novel taxonomic technique for identifying live ichthyoplankton represents a paradigm shift in the monitoring, management, and conservation of fish, as well as in ecological stewardship and advances in this area of research., (© 2024. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2024

42. Response of stream habitat and microbiomes to spruce budworm defoliation: New considerations for outbreak management.

Author

McCaig ML, Kidd KA, Smenderovac EE, Perrotta BG, Emilson CE, Stastny M, Venier L, and Emilson EJS

Subjects

Animals, Quebec, Moths physiology, Picea, Larva, Rivers, Microbiota, Ecosystem

Abstract

Defoliation by eastern spruce budworm is one of the most important natural disturbances in Canadian boreal and hemi-boreal forests with annual area affected surpassing that of fire and harvest combined, and its impacts are projected to increase in frequency, severity, and range under future climate scenarios. Deciding on an active management strategy to control outbreaks and minimize broader economic, ecological, and social impacts is becoming increasingly important. These strategies differ in the degree to which defoliation is suppressed, but little is known about the downstream consequences of defoliation and, thus, the implications of management. Given the disproportionate role of headwater streams and their microbiomes on net riverine productivity across forested landscapes, we investigated the effects of defoliation by spruce budworm on headwater stream habitat and microbiome structure and function to inform management decisions. We experimentally manipulated a gradient of defoliation among 12 watersheds during a spruce budworm outbreak in the Gaspésie Peninsula, Québec, Canada. From May through October of 2019-2021, stream habitat (flow rates, dissolved organic matter [DOM], water chemistry, and nutrients), algal biomass, and water temperatures were assessed. Bacterial and fungal biofilm communities were examined by incubating six leaf packs for five weeks (mid-August to late September) in one stream reach per watershed. Microbiome community structure was determined using metabarcoding of 16S and ITS rRNA genes, and community functions were examined using extracellular enzyme assays, leaf litter decomposition rates, and taxonomic functional assignments. We found that cumulative defoliation was correlated with increased streamflow rates and temperatures, and more aromatic DOM (measured as specific ultraviolet absorbance at 254 nm), but was not correlated to nutrient concentrations. Cumulative defoliation was also associated with altered microbial community composition, an increase in carbohydrate biosynthesis, and a reduction in aromatic compound degradation, suggesting that microbes are shifting to the preferential use of simple carbohydrates rather than more complex aromatic compounds. These results demonstrate that high levels of defoliation can affect headwater stream microbiomes to the point of altering stream ecosystem productivity and carbon cycling potential, highlighting the importance of incorporating broader ecological processes into spruce budworm management decisions., (© 2024 His Majesty the King in Right of Canada. Ecological Applications published by Wiley Periodicals LLC on behalf of The Ecological Society of America. Reproduced with the permission of the Minister of Natural Resources Canada.)

Published

2024

43. Aquaculture sludge as feed for black soldier fly: Transfer of chemical and biological contaminants and nutrients.

Author

Belghit I, Liland NS, Lundebye AK, Tibon J, Sindre H, Nilsen H, Hagemann A, and Sele V

Subjects

Animals, Perciformes, Cell Line, Salmon, Waste Products, Animal Feed, Larva, Nutrients chemistry, Sewage chemistry, Diptera

Abstract

Aquaculture sludge (uneaten feed and faeces) is nutrient rich and has potential as feed for insects. The aim of this study was to investigate the transfer of chemical and biological contaminants, as well as nutrients, from aquaculture sludge to black soldier fly larvae. The larvae were reared on a sludge mixture made of different sludges collected from Norwegian freshwater salmonid facilities. The sludge was spiked with four common salmon pathogens: Infectious Pancreatic Necrosis Virus, Infectious Salmon Anemia virus, Yersinia ruckeri or Mycobacterium salmoniphilum. During the 15 days of growth on sludge, the black soldier fly larvae accumulated valuable nutrients including protein, fat, eicosapentaenoic acid, iron, manganese, zinc and selenium. The larvae also accumulated undesirable substances including cadmium, mercury, dioxins and polychlorinated biphenyls. The concentrations of dioxins exceeded the EU maximum level set for animal feed. None of the salmon pathogens that were spiked to the sludge were detected in the black soldier fly larvae. This study reports low risk of transfer of salmon pathogens from sludge to insect larvae, and showed that the transfer of heavy metals, minerals and metalloids are in accordance with earlier studies. The large variations in levels of heavy metals between batches of sludge can cause levels in BSF exceeding the EU maximum levels, and thus indicate a need for monitoring of the proposed value chain. The transfer of dioxins from sludge to insects, reported for the first time in this paper, would be of special interest for future research, with special focus on risk mitigation., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

44. Duddingtonia flagrans and its crude proteolytic extract: concomitant action in sheep coprocultures.

Author

de Souza DC, Gomes EH, Puentes LBF, Soares DS, da Silva DV, Albuquerque LB, Dos Santos PHD, Facury TM, Braga FR, and de Freitas Soares FE

Subjects

Animals, Sheep, Larva, Pest Control, Biological methods, Proteolysis, Peptide Hydrolases metabolism, Nematode Infections veterinary, Nematode Infections therapy, Parasite Egg Count veterinary, Feces parasitology, Feces microbiology, Ascomycota physiology, Sheep Diseases parasitology, Sheep Diseases therapy

Abstract

The presence of infective larvae (L 3 ) of gastrointestinal nematode (GIN) parasites in pastures directly contributes to the constant recurrence of infections in ruminant herds. This study aimed to evaluate the nematophagous fungus Duddingtonia flagrans (AC001) (proteolytic crude extract and/or conidia) in the in vitro control of GIN L 3 in coprocultures. To produce the proteolytic crude extract, a suspension (10 7 conidia/mL) of D. flagrans was inoculated into a liquid medium. After 6 days, the medium was filtered, centrifuged, and its proteolytic activity was measured. For the experimental assay, fecal samples were collected directly from the rectal ampulla of naturally infected sheep, and egg counts per gram of feces (EPG) were performed. Coprocultures were prepared using 10 g of fecal material with the groups defined as follows: control group G1 (1.0 mL of denatured proteolytic crude extract); treated group G2 (1.0 mL of active proteolytic crude extract); treated group G3 (1.0 mL of active proteolytic crude extract + 1.0 mL of AC001 conidia). The coprocultures were maintained at room temperature (25ºC), for 7 days, and then the L 3 larvae were recovered. The results demonstrated that AC001 successfully produced protease (56.34 U/mL). The treatments with active proteolytic crude extract (G2) and active proteolytic crude extract + AC001 conidia (G3) were significantly different (p < 0.01) from the control group with denatured proteolytic crude extract (G1). AC001 and its proteolytic crude extract acted concomitantly on helminths directly in the fecal environment, suggesting potential future applications in the field., (© 2024. The Author(s), under exclusive licence to Springer Nature B.V.)

Published

2024

45. Structure and function of the larval teleost fish gill.

Author

Pan YK

Subjects

Animals, Oxygen metabolism, Gills physiology, Fishes physiology, Larva physiology, Larva growth & development

Abstract

The fish gill is a multifunctional organ that is important in multiple physiological processes such as gas transfer, ionoregulation, and chemoreception. This characteristic organ of fishes has received much attention, yet an often-overlooked point is that larval fishes in most cases do not have a fully developed gill, and thus larval gills do not function identically as adult gills. In addition, large changes associated with gas exchange and ionoregulation happen in gills during the larval phase, leading to the oxygen and ionoregulatory hypotheses examining the environmental constraint that resulted in the evolution of gills. This review thus focuses exclusively on the larval fish gill of teleosts, summarizing the development of teleost larval fish gills and its function in gas transfer, ionoregulation, and chemoreception, and comparing and contrasting it to adult gills where applicable, while providing some insight into the oxygen vs ionoregulatory hypotheses debate., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

46. A robust paradigm for studying regeneration after traumatic spinal cord injury in zebrafish.

Author

Andrews G, Andrews G, Leung YF, and Suter DM

Subjects

Animals, Recovery of Function physiology, Spinal Cord Regeneration physiology, Spinal Cord physiopathology, Nerve Regeneration physiology, Zebrafish, Spinal Cord Injuries physiopathology, Disease Models, Animal, Larva

Abstract

Background: Zebrafish are vertebrates with a high potential of regeneration after injury in the central nervous system. Therefore, they have emerged as a useful model system for studying traumatic spinal cord injuries., New Method: Using larval zebrafish, we have developed a robust paradigm to model the effects of anterior spinal cord injury, which correspond to the debilitating injuries of the cervical and thoracic regions in humans. Our new paradigm consists of a more anterior injury location compared to previous studies, a modified behavioral assessment using the visual motor response, and a new data analysis code., Results: Our approach enables a spinal cord injury closer to the hindbrain with more functional impact compared to previous studies using a more posterior injury location. Results reported in this work reveal recovery over seven days following spinal cord injury., Comparing With Existing Methods: The present work describes a modified paradigm for the in vivo study of spinal cord regeneration after injury using larval zebrafish, including an anterior injury location, a robust behavioral assessment, and a new data analysis software., Conclusions: Our findings lay the foundation for applying this paradigm to study the effects of drugs, nutrition, and other treatments to improve the regeneration process., Competing Interests: Declaration of Competing Interest The authors do not have any conflict of interest., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

47. Reconstruction of Derogenes varicus Miracidium (Digenea: Derogenidae): First Ultrastructural Description of Spines on the Surface of Hemiurata Larvae.

Author

Smirnov PA and Krupenko DY

Subjects

Animals, Larva ultrastructure, Trematoda ultrastructure

Abstract

We performed a detailed ultrastructural reconstruction of the "passive" miracidium of Derogenes varicus Muller, 1784 , a species from the Hemiurata group. The miracidium is highly miniaturized and simplified in comparison with the "active" miracidia. For the first time we elucidated the nature of the spines on the surface of the hemiuroid larva: they are derivatives of the epithelial plates. The anterior end of the larva is equipped with three epithelial plates that bear both spines and cilia. The major part of the miracidial surface is formed by the tegument. The nervous and excretory systems of the D. varicus miracidium are extremely reduced. Single undifferentiated cell comprises the germinal material of the miracidium. We discuss the trends of evolution of hemiuroid miracidia that are associated with the transition to passive strategy of infection., (© 2024. Pleiades Publishing, Ltd.)

Published

2024

48. Establishment and characterization of novel spontaneously immortalized larval cell lines from sablefish Anoplopoma fimbria.

Author

Friesen ER, Long AK, and Garver KA

Abstract

Sablefish Anoplopoma fimbria is a groundfish of the North Pacific Ocean typically found in sea floor habitat at depths to 2700 m. Prized as a food fish with exceptionally high market value, sablefish aquaculture has been sought to provide a sustainable source of this fish to meet market demands. While commercial culture has successfully produced market-sized fish in Pacific coastal environments, production has been hampered by disease and the overall lack of information on sablefish health and immunology. To begin to address these knowledge gaps, herein we describe the isolation and characterization of spontaneously immortalized sablefish larval cell lines (AFL). Six sublines were established from pools of early yolk-sac larvae, while attempts to develop tissue-specific-derived cell lines were unsuccessful. The six yolk-sac larval cell lines each display two morphologies in culture, an elongated fibroblast-like cell type, and a rounded squamous or epithelial-like cell type. Cytogenetic characterization suggests that both cell types are diploid (2n = 48) with 24 pairs of chromosomes, 23 pairs of autosomes, and 1 pair of sex chromosomes. A small proportion (11%) of AFL cells display tetraploidy. Incubation temperature and medium composition experiments revealed HEPES buffered L-15 media containing 10-20% FBS at temperatures between 15 and 18° C yielded optimal cell growth. These growth characteristics suggest that sablefish larval cells display a robustness for varying growth conditions. The establishment of AFL cell lines provides a foundational tool to study the physiology, health, immunology, and cell and molecular biology of sablefish., (© 2024. Crown.)

Published

2024

49. Whole Nervous System Expression of Glutamate Receptors Reveals Distinct Receptor Roles in Sensorimotor Circuits.

Author

Borba C, Kourakis MJ, Miao Y, Guduri B, Deng J, and Smith WC

Subjects

Animals, Larva, Neurons metabolism, Receptors, Ionotropic Glutamate metabolism, Receptors, Glutamate metabolism

Abstract

The goal of connectomics is to reveal the links between neural circuits and behavior. Larvae of the primitive chordate Ciona are well-suited to make contributions in this area. In addition to having a described connectome, Ciona larvae have a range of readily quantified behaviors. Moreover, the small number of neurons in the larval CNS (∼180) holds the promise of a comprehensive characterization of individual neurons. We present single-neuron predictions for glutamate receptor (GlutR) expression based on in situ hybridization. Included are both ionotropic receptors (AMPA, NMDA, and kainate) and metabotropic receptors. The predicted glutamate receptor expression dataset is discussed in the context of known circuits driving behaviors such as phototaxis, mechanosensation, and looming shadow response. The predicted expression of AMPA and NMDA receptors may help resolve issues regarding the co-production of GABA and glutamate by a subset of photoreceptors. The targets of these photoreceptors in the midbrain appear to express NMDA receptors, but not AMPA receptors. This is in agreement with previous results indicating that GABA is the primary neurotransmitter from the photoreceptors evoking a swimming response through a disinhibition mechanism and that glutamate may, therefore, have only a modulatory action in this circuit. Other findings reported here are more unexpected. For example, many of the targets of glutamatergic epidermal sensory neurons (ESNs) do not express any of the ionotropic receptors, yet the ESNs themselves express metabotropic receptors. Thus, we speculate that their production of glutamate may be for communication with neighboring ESNs, rather than to their interneuron targets., Competing Interests: The authors declare no competing financial interests., (Copyright © 2024 Borba et al.)

Published

2024

50. Surgical management for the case of scrotal myiasis in a 7-day-old neonate: a case report.

Author

Khoshkhabar M, Hardani A, Shamsizadeh A, Peyvasteh M, and Ghaedamini H

Subjects

Humans, Male, Infant, Newborn, Larva, Animals, Anti-Bacterial Agents therapeutic use, Treatment Outcome, Scrotum surgery, Scrotum parasitology, Myiasis surgery, Myiasis diagnosis, Myiasis drug therapy, Myiasis parasitology

Abstract

Introduction: Neonatal myiasis is a rare condition, with few reports available on the subject. Surgical management is recommended in some cases. In this study, we present the case of a 7-day-old male neonate with larvae in his scrotum who underwent surgery., Case Presentation: A full-term 7-day-old male infant (Aryan race) was referred to a children's hospital. On the sixth day after birth, three 3-4 mm long larvae crawled out from his scrotum, with the number increasing over time. He was given intravenous antibiotics and topical mupirocin to combat secondary infections. The surgical treatment involved two steps: first, the larvae were extracted, and then the infection site was washed with betadine and hydrogen peroxide to help remove any possible remaining larvae., Conclusion: Scrotal myiasis is a rare disease that occurs in infants and requires immediate treatment. Surgical treatment is effective in removing dead or decaying larvae from a deep-seated location and washing the infection site to prevent secondary infection., (© 2024. The Author(s).)

Published

2024