Your search keyword '"INSECT morphology"' showing total 5,860 results

1. Unveiling the Wing Shape Variation in Northern Altiplano Ecosystems: The Example of the Butterfly Phulia nymphula Using Geometric Morphometrics.

Author

Acuña-Valenzuela, Thania, Hernández-Martelo, Jordan, Suazo, Manuel J., Lobos, Isabel A., Piñeiro-González, Alejandro, Villalobos-Leiva, Amado, Cruz-Jofré, Franco, Hernández-P, Raquel, Correa, Margarita, and Benítez, Hugo A.

Subjects

*EXTREME weather, *INSECT morphology, *CLIMATE extremes, *INSECT adaptation, *GEOMETRIC analysis, *EXTREME environments

Abstract

Simple Summary: The Andean Altiplano, known for its extreme weather and high biodiversity, is an ideal place to study how insects adapt to their environment. This research focuses on the butterfly species Phulia nymphula, which is common in the high-altitudinal Andes Mountains, to identify how their wing shapes vary across six locations in the Northern Chilean Altiplano. By analyzing the wings of 77 butterflies, the study found significant differences in wing shape, likely due to local environmental conditions. These differences suggest that the butterflies have adapted to their specific habitats. The findings showed how the wing shape differentiate between localities across the Northern Altiplano and provide insights into how high-altitude species evolve and adapt through changes in their morphology, highlighting the role of ecological and evolutionary processes in shaping biodiversity in extreme environments. The Andean Altiplano, characterized by its extreme climatic conditions and high levels of biodiversity, provides a unique environment for studying ecological and evolutionary adaptations in insect morphology. Butterflies, due their large wing surface compared to body surface, and wide distribution among a geographical area given the flight capabilities provided by their wings, constitute a good biological model to study morphological adaptations following extreme weathers. This study focuses on Phulia nymphula, a butterfly species widely distributed in the Andes, to evaluate wing shape variation across six localities in the Northern Chilean Altiplano. The geometric morphometrics analysis of 77 specimens from six locations from the Chilean Altiplano (Caquena, Sorapata Lake, Chungará, Casiri Macho Lake, Surire Salt Flat, and Visviri) revealed significant differences in wing shape among populations. According to the presented results, variations are likely influenced by local environmental conditions and selective pressures, suggesting specific adaptations to the microhabitats of the Altiplano. The first three principal components represented 60.92% of the total wing shape variation. The detected morphological differences indicate adaptive divergence among populations, reflecting evolutionary responses to the extreme and fragmented conditions of the Altiplano. This study gives insights into the understanding of how high-altitude species can diversify and adapt through morphological variation, providing evidence of ecological and evolutionary processes shaping biodiversity in extreme environments. [ABSTRACT FROM AUTHOR]

Published

2024

2. Early postembryonic morphology of the stick insect subgenual organ complex.

Author

Strauß, Johannes

Subjects

*SENSE organs, *PHASMIDA, *EMBRYOLOGY, *SENSORY neurons, *INSECT morphology, *NEUROANATOMY

Abstract

Mechanoreceptor organs in hemimetabolous insects are physiologically important not only in the adult insects, but also for sensory functions in the juvenile postembryonic stages. They provide proprioceptive and exteroceptive information, e.g., in locomotion or orientation. In stick insects (Phasmatodea), the subgenual organ complex in the tibia of all legs is an elaborate mechanoreceptor system. This complex contains two chordotonal organs, the subgenual organ and the distal organ. These organs have mainly been studied in adult insects for the neuroanatomy and functional morphology. Here, the sensory organs were investigated in newly hatched Ramulus artemis (Westwood, 1859) to indicate the functional organisation at the beginning of postembryogenesis, when the detection of mechanical stimuli becomes relevant for behaviour. The organs were investigated by axonal tracing for the organ neuroanatomy, innervation, and number of sensilla in the distal organ. In addition, the sensory complex was analysed for the connection by a membrane between the organs. The organs are present after hatching, indicating in particular a possible vibration detection by the subgenual organ. In most cases, the connection between the sensory organs was also present. This indicates the development of sensory neurons and additional tissues during embryogenesis. The sensory neurons in the subgenual organ show a re-organisation, as the dorsal sensilla change from orientation in distal directions to proximal directions. This finding is discussed for implications in vibration detection. The overall results indicate some neuroanatomical modifications during postembryonic development, while the main structures of the subgenual organ complex already originate during embryonic development. [ABSTRACT FROM AUTHOR]

Published

2024

3. Geometric morphometric analysis describing sexual dimorphism in housefly, Musca domestica Linn. (Diptera: Muscidae).

Author

Bagbag, Ernel D. and Pondevida, Helen B.

Subjects

SEXUAL dimorphism in animals, HOUSEFLY, MUSCIDAE, MORPHOMETRICS, INSECT evolution, INSECT morphology

Abstract

Houseflies (Musca domestica) (Diptera: Muscidae) are medically important insect species because they serve as vectors of pathogens. The study generally described the sexual dimorphism of M. domestica based on their wing size and wing shape. This study examined 25 males and 25 females of F1 offspring from wild-caught M. domestica parents. The wings were digitized and 17 landmarks were obtained, scaled, translated, and rotated in General Procrustes Analysis. The wing size (centroid size) of male M. domestica species was significantly larger compared to females (t = - 2.38, df = 48, p = 0.0200). Principal Component Analysis (PCA) and Relative Warp Analysis (RWA) revealed that 29.72% of shape variation from the original data was attributed to a narrow wing shape, and 14.60% toa broad wing shape. Discriminant Function Analysis (DFA) successfully distinguished female and male species based on wing shape, in which males have narrower wings compared to females, indicating the occurrence of sexual dimorphism in wings. [ABSTRACT FROM AUTHOR]

Published

2024

4. EntomonVR: A new virtual reality game for learning insect morphology

Author

Mikaeel Pasandideh Saqalaksari, Ali Asghar Talebi, Thomas Van de Kamp, Sajjad Reyhani Haghighi, Dominique Zimmermann, and Adrian Richter

Subjects

education, insect morphology, micro-ct, virtual reality, visualisation, Science (General), Q1-390, Life, QH501-531, Zoology, QL1-991, Agriculture, Ecology, QH540-549.5

Abstract

The study of insect morphology has recently benefited greatly from the emergence of new digital imaging and analysis technologies such as X-ray Micro-computed tomography (μ-CT), digital 3D reconstruction, and animation. Through interactive gaming and virtual reality, the external morphology of insects can be studied by a broad audience of both entomologists and non-specialists. EntomonVR is a serious game designed to investigate the external morphology of insects with adequate quality for the virtual reality platform. In this research, we discuss the advantages of virtual reality, introduce the EntomonVR new educational game, and conclude about future perspectives, validations, and cost-effectiveness. We tested this game on 25 participants with an entomological background for assessment and improved it based on their feedback. This study demonstrates the efficacy of virtual reality technology for an experimental learning environment in teaching the morphology of insects and the crucial need for advancing an efficient and interactive educational program.

Published

2024

5. Variation of the number and size of spines on the adult body in Dactylispa Weise 1897 (Coleoptera: Chrysomelidae: Cassidinae).

Author

Shinohara, Tadashi and Gotoh, Hiroki

Subjects

*INSECT morphology, *NUMBERS of species, *LEAF morphology, *SPINE, *PUPAE

Abstract

The three-dimensional morphologies of insects, such as spines and horns, have recently garnered attention as an effective system for elucidating the processes underlying dramatic changes in external morphology. Adult leaf beetles of Dactylispa Weise 1897 exhibit sharp spines on their pronotum and elytra, while their pupae lack such features. In order to obtain foundational data for future investigations into the developmental mechanisms governing spine formation, this study assessed variations in spine numbers across ten body regions and in spine size across three body regions in adults of Dactylispa higoniae (Lewis in Ann Mag Nat Hist (Ser. 6) 17:329–343, 1896. https://doi.org/10.1080/00222939608680376) and D. issikii (Chûjô in Bull Umeno Entomol Lab 6:5–13, 1938). As a result, the degree of variation in spine numbers and size was variable among body regions even within single species. However, the number of spines on the pronotal front margin in D. higoniae and the elytral interval 4 in D. issikii was stable. The spine numbers of these two species did not exhibit significant differences between the right and left sides of the body and was not likely to be influenced by sex or elytral length. Furthermore, we observed pronotal and elytral spines that formed inside the pupal cuticle of late-stage pupae of these two species. Our observations suggested neither pronotal nor elytral spines exhibit a formation pattern resembling concentric folded structures, as seen in beetle horns. [ABSTRACT FROM AUTHOR]

Published

2024

6. Phenotypically plastic responses to environmental variation are more complex than life history theory predicts.

Author

Hayes, Abigail M, Worthington, Amy M, Lavine, Mark, and Lavine, Laura

Subjects

*LIFE history theory, *INSECT morphology, *PARASITIC diseases, *PHENOTYPIC plasticity, *INSECT wings

Abstract

For insects that exhibit wing polyphenic development, abiotic and biotic signals dictate the adult wing morphology of the insect in an adaptive manner such that in stressful environments the formation of a flight-capable morph is favored and in low-stress environments, a flightless morph is favored. While there is a relatively large amount known about the environmental cues that dictate morph formation in wing polyphenic hemipterans like planthoppers and aphids, whether those cues dictate the same morphs in non-hemipteran (i.e. cricket) wing polyphenic species has not been explicitly investigated. To experimentally test the generality of environmental cue determination of wing polyphenism across taxa with diverse life histories, in this study, we tested the importance of food quantity, parasitic infection, and tactile cues on wing morph determination in the wing polyphenic sand field cricket, Gryllus firmus. Our results also show that certain stress cues, such as severe diet quantity limitation and parasitic infection, actually led to an increase in the production of flightless morph. Based on these findings, our results suggest that physiological and genetic constraints are important to an organism's ability to respond to environmental variation in an adaptive manner beyond simple life history trade-offs. [ABSTRACT FROM AUTHOR]

Published

2024

7. Capillary adhesion of stick insects.

Author

Amador, Guillermo J., Klaassen van Oorschot, Brett, Sen, Uddalok, Karman, Benjamin, and Leenders, Rutger

Subjects

*PHASMIDA, *LIQUID films, *BIOMIMETICS, *INSECT morphology, *THIN films

Abstract

Scientific progress within the last few decades has revealed the functional morphology of an insect's sticky footpads—a compliant pad that secretes thin liquid films. However, the physico‐chemical mechanisms underlying their adhesion remain elusive. Here, we explore these underlying mechanisms by simultaneously measuring adhesive force and contact geometry of the adhesive footpads of live, tethered Indian stick insects, Carausius morosus, spanning more than two orders of magnitude in body mass. We find that the adhesive force we measure is similar to the previous measurements that use a centrifuge. Our measurements afford us the opportunity to directly probe the adhesive stress in vivo and use existing theory on capillary adhesion to predict the surface tension of the secreted liquid and compare it to previous assumptions. From our predictions, we find that the surface tension required to generate the adhesive stresses we observed ranges between 0.68 and 12 mN m−1${\rm m}^{-1}$. The low surface tension of the liquid would enhance the wetting of the stick insect's footpads and promote their ability to conform to various substrates. Our insights may inform the biomimetic design of capillary‐based, reversible adhesives and motivate future studies on the physico‐chemical properties of the secreted liquid. [ABSTRACT FROM AUTHOR]

Published

2024

8. Development of an on‐site diagnostic LAMP assay for rapid differentiation of the invasive pest Phthorimaea absoluta (Meyrick) using insect tissues.

Author

Yang, Li‐Feng, Liu, Ya‐Ge, Tao, Yun‐Li, Zhang, Wan‐Min, Li, Jian‐Yong, Chi, Sheng‐Qi, Zhang, Gui‐Fen, and Chu, Dong

Subjects

POTATO tuberworm, INSECT morphology, PESTS, INSECTS

Abstract

BACKGROUND: The tomato leafminer, Phthorimaea absoluta (Meyrick) (Lepidoptera: Gelechiidae), is a destructive invasive pest that originated in South America and has spread within China since 2017. A rapid method for on‐site identification of P. absoluta is urgently needed for interception of this pest across China. RESULTS: We developed a loop‐mediated isothermal amplification (LAMP) technique to differentiate P. absoluta from Liriomyza sativae, Chromatomyia horticola, and Phthorimaea operculella using extracted genomic DNA, which was then refined to create an on‐site LAMP diagnostic method that can be performed under field conditions without the need for laboratory equipment. CONCLUSION: In the present research, we developed an on‐site diagnostic method for rapid differentiation of P. absoluta from other insects with similar morphology or damage characteristics in China. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

9. EntomonVR: A new virtual reality game for learning insect morphology.

Author

Saqalaksari, Mikaeel Pasandideh, Talebi, Ali Asghar, van de Kamp, Thomas, Haghighi, Sajjad Reyhani, Zimmermann, Dominique, and Richter, Adrian

Subjects

*VIRTUAL reality, *INSECT morphology, *SPECIES distribution, *SPECIES diversity, *EDUCATIONAL programs

Abstract

The study of insect morphology has recently benefited greatly from the emergence of new digital imaging and analysis technologies such as X-ray Microcomputed tomography (μ-CT), digital 3D reconstruction, and animation. Through interactive gaming and virtual reality, the external morphology of insects can be studied by a broad audience of both entomologists and non-specialists. EntomonVR is a serious game designed to investigate the external morphology of insects with adequate quality for the virtual reality platform. In this research, we discuss the advantages of virtual reality, introduce the EntomonVR new educational game, and conclude about future perspectives, validations, and cost-effectiveness. We tested this game on 25 participants with an entomological background for assessment and improved it based on their feedback. This study demonstrates the efficacy of virtual reality technology for an experimental learning environment in teaching the morphology of insects and the crucial need for advancing an efficient and interactive educational program. [ABSTRACT FROM AUTHOR]

Published

2024

10. RE-DESCRIPTION OF CLOUDED YELLOW BUTTERFLIES, COLIAS ERATE (ESPER, 1805) AND COLIAS FIELDII MENETRIES, 1855 FROM INDIA.

Author

Kaur, Manpreet, Kirti, Jagbir Singh, and Sidhu, Avtar Kaur

Subjects

BUTTERFLIES, COLIAS, SPECIES distribution, INSECT morphology

Abstract

In the present research study, the morphological features including genitalic attributes and distribution of two commonly found clouded yellow butterflies i.e. Colias erate (Esper) including its polymorphic form glicia and Colias feildii Menetries have been studied and illustrated. The key is updated for both the species by including their genitalic attributes. [ABSTRACT FROM AUTHOR]

Published

2024

11. The First Report of the Occurrence of the Root Mealybug Ripersiella multiporifera Jansen (2008) (Hemiptera: Coccoidea: Rhizoecidae) in Indonesia.

Author

Devi, Komang Saraswati, Sudiarta, I Putu, Sri Sunari, Anak Agung Ayu Agung, Susanta Wirya, Gusti Ngurah Alit, Devi, Putu Shinta, and Wijayanti, Febri Eka

Subjects

*SCALE insects, *MEALYBUGS, *INSECT morphology, *MOLECULAR biology, *INSECT populations

Abstract

Ripersiella multiporifera is a root mealybug species within the family Rhizoecidae that has distinctive bitubular pores on the dorsal and ventral. This species was first discovered by Jansen (2008) in the Netherlands during an import interception of Sansevieria sp. from Indonesia and Hoya kerrii from Thailand. This species was also found during inspections in Sicily (Italy) on the roots of Sansevieria trifasciata. In Indonesia, there are no reports of the existence of R. multiporifera, emphasising the need for research on its presence. This work was conducted the morphological method based on modified determination key and the molecular method based on MtCOI gene. The identified species was R. multiporifera, and this finding represents the first evidence of R. multiporifera's presence in Bali (Indonesia) which can be used as a reference for future research, especially in population control approaches. [ABSTRACT FROM AUTHOR]

Published

2024

12. Entomology: a multitude of cross-disciplinary opportunities.

Author

Valkov, Radoslav

Subjects

*ENTOMOLOGY, *SURGICAL robots, *CONSCIOUSNESS raising, *INSECT morphology, *SCALE insects

Abstract

A noteworthy feature of entomology is the opportunity for it to be practically integrated into our lives. It stretches out over a wide spectrum of useful applications across many scientific fields. Several challenges to fully understanding the complexity of entomology are presented, such as considering its vast research paradigm and raising awareness as to the importance of insects on a global scale. The current study offers an interdisciplinary outlook on insects regarding their potential role in human surgical interventions. This is achieved through the description of anatomical features and their biomechanical manifestations, observed in rare neuropteran and dipteran insect species from the European fauna, documented by the author. Empirically justified parallels between insect anatomy and advancement in surgery are exemplified through analysis of evident mechanical properties of legs in Mantispa aphavexelte (U. Aspöck & H. Aspöck, 1994) and Rainieria calceata (Fallén, 1820). In addition, suggestions on implementing specific examples of insect biomechanical design in robot-assisted surgery setups are made. [ABSTRACT FROM AUTHOR]

Published

2024

13. Polymorphic Clustering and Approximate Masking Framework for Fine-Grained Insect Image Classification.

Author

Huo, Hua, Mei, Aokun, and Xu, Ningya

Subjects

IMAGE recognition (Computer vision), CLASSIFICATION of insects, FEATURE extraction, INSECT diversity, INSECT morphology

Abstract

Insect diversity monitoring is crucial for biological pest control in agriculture and forestry. Modern monitoring of insect species relies heavily on fine-grained image classification models. Fine-grained image classification faces challenges such as small inter-class differences and large intra-class variances, which are even more pronounced in insect scenes where insect species often exhibit significant morphological differences across multiple life stages. To address these challenges, we introduce segmentation and clustering operations into the image classification task and design a novel network model training framework for fine-grained classification of insect images using multi-modality clustering and approximate mask methods, named PCAM-Frame. In the first stage of the framework, we adopt the Polymorphic Clustering Module, and segmentation and clustering operations are employed to distinguish various morphologies of insects at different life stages, allowing the model to differentiate between samples at different life stages during training. The second stage consists of a feature extraction network, called Basenet, which can be any mainstream network that performs well in fine-grained image classification tasks, aiming to provide pre-classification confidence for the next stage. In the third stage, we apply the Approximate Masking Module to mask the common attention regions of the most likely classes and continuously adjust the convergence direction of the model during training using a Deviation Loss function. We apply PCAM-Frame with multiple classification networks as the Basenet in the second stage and conduct extensive experiments on the Insecta dataset of iNaturalist 2017 and IP102 dataset, achieving improvements of 2.2% and 1.4%, respectively. Generalization experiments on other fine-grained image classification datasets such as CUB200-2011 and Stanford Dogs also demonstrate positive effects. These experiments validate the pertinence and effectiveness of our framework PCAM-Frame in fine-grained image classification tasks under complex conditions, particularly in insect scenes. [ABSTRACT FROM AUTHOR]

Published

2024

14. A Preliminary Research on the Trichoptera Fauna of the Kura-Aras River Basin and Eastern Black Sea Streams.

Author

BAYTAŞOĞLU, Hazel and KÜÇÜKBASMACI, Ibrahim

Subjects

CADDISFLIES, SPECIES distribution, INSECT morphology

Abstract

Copyright of Journal of Agriculture & Nature / Kahramanmaraş Sütçü İmam Üniversitesi Tarım & Doğa Dergisi is the property of Kahramanmaras Sutcu Imam Universitesi and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

15. WingSegment: A Computer Vision‐Based Hybrid Approach for Insect Wing Image Segmentation and 3D Printing.

Author

Eshghi, Shahab, Rajabi, Hamed, Poser, Johannes, and Gorb, Stanislav N.

Subjects

INSECT wings, HYBRID computers (Computer architecture), THREE-dimensional printing, INSECT morphology, THREE-dimensional imaging, IMAGE segmentation, THREE-dimensional modeling

Abstract

This article introduces WingSegment, a MATLAB app‐designed tool employing a hybrid approach of computer vision and graph theory for precise insect wing image segmentation. WingSegment detects cells, junctions, Pterostigma, and venation patterns, measuring geometric features and generating Voronoi patterns. The tool utilizes region‐growing, thinning, and Dijkstra's algorithms for boundary detection, junction identification, and vein path extraction. It provides histograms and box plots of geometric features, facilitating comprehensive wing analysis. WingSegment's efficiency is validated through comparisons with established tools and manual measurements, demonstrating accurate results. The tool further enables exporting detected boundaries as FreeCAD macro files for 3D modeling and printing, supporting finite element analysis. Beyond advancing insect wing morphology understanding, WingSegment holds broader implications for diverse planar structures, including leaves and geocells. This tool not only enhances automated geometric analysis and 3D model generation in insect wing studies but also contributes to the broader advancement of analysis, 3D printing, and modeling technologies across various planar structures. [ABSTRACT FROM AUTHOR]

Published

2024

16. Tracking the Feeding Mechanism of Sap-Sucking Insect-Pests Through Electropenetrography (EPG).

Author

Tayyab, Usama Bin, Arif, Muhammad Jalal, Gogi, Muhammad Dildar, Akhtar, Shamim, Abdullah, Muhammad Jawad, and Ali, Faisal

Subjects

*INSECT physiology, *INSECT morphology, *INSECT behavior, *INSECT pests, *FARM produce, *INSECTICIDES

Abstract

Among insect pests of field crops, sap-sucking insects are a major threat to all agricultural commodities. The sucking insect pests damage the crops by sucking the sap thereby weakening the plants, and transmitting several bacterial, fungal and viral pathogens. The electrical penetration graph (EPG) has emerged as a highly valuable tool for analyzing the feeding behavior of sap-sucking insects on a broad range of host plants, examining pathogen transmission, evaluating the efficacy of feeding-restricting insecticides, plant responses to insect attack, and insect morphology and physiology. The EPG generates waveforms that facilitate the observation of probing behavior of the insects, enabling them to gain insights into the mechanisms and extent of underlying feeding. The integration of multiple complementary techniques, including histological analysis, video tracking, electron microscopy, elicitor proteins, and gene editing, has yielded significant advancements in the management of sap-sucking insects. These techniques have provided a deeper understanding of the underlying mechanisms and interactions involved in insect feeding behaviors, offering new opportunities for targeted interventions and improved pest control strategies. The EPG has been employed since the last five decades, yet needs to be investigated at higher levels with modernization. In spite of having a wide application, it still faces certain limitations, challenges, and research gaps that require addressing for enabling the scientists in novel findings. This review paper provides a historical prospect, the applications and technical intricacies of EPG. [ABSTRACT FROM AUTHOR]

Published

2024

17. Two new species of Lysiteles Simon, 1895 from Cibagou National Nature Reserve, Xizang, China (Araneae, Thomisidae).

Author

Cheng Wang, Jiahui Gan, and Xiaoqi Mi

Subjects

SPIDERS, NATURE reserves, SPECIES distribution, INSECT morphology

Abstract

Background: Lysiteles Simon, 1895 contains 64 nominal species distributed in East, South and South Asia. It possesses very high species diversity in China (with 46 and 32 endemics), Bhutan (with 9 and 1 endemic) and Nepal (with 8 and 4 endemics). In June 2023, a spider survey of Cibagou National Nature Reserve, Xizang, China was carried out. After examination and morphological comparison, two Lysiteles species were recognised as new to science. New information: Two new species of Lysiteles Simon, 1895 collected from Cibagou National Nature Reserve, Xizang, China are described: L. cibagou sp. nov. (♂♀) and L. tangi sp. nov. (♂♀). Diagnostic photos of habitus and copulatory organs and a distributional map are provided. [ABSTRACT FROM AUTHOR]

Published

2024

18. A new, unusually large, Clavicornaltica Scherer, 1974 flea beetle from Borneo, described and sequenced in the field by citizen scientists (Coleoptera, Chrysomelidae, Galerucinae).

Author

Otani, Sean, Bertoli, Luca, Lucchini, Filippo, van den Beuken, Tom P. G., Boin, Desanne, Ellis, Lehman, Friedrich, Holm, Jacquot, Brittany, Kountouras, Sotiris, Yu Rou Lim, Sarah, Nigro, Eleonora, Su'eif, Syafi'ie, Wei Harn Tan, Grafe, Ulmar, Cicuzza, Daniele, Delledonne, Massimo, Njunjić, Iva, and Schilthuizen, Menno

Subjects

FLEA beetles, CLASSIFICATION of insects, INSECT morphology, INSECT ecology

Abstract

Background: The genus Clavicornaltica Scherer 1974 consists of very small, soil-dwelling flea beetles in South, Southeast and East Asia. Due to their diminutive size and morphological similarities, very little is known about their ecology and taxonomical diversity. It is likely that further studies will reveal this genus to be much more speciose than the 30 species currently recognised. New information: A new species of Clavicornaltica from Brunei Darussalam is described, C. mataikanensis Otani et al., sp. nov. This is the second species of this genus recorded from Ulu Temburong National Park. [ABSTRACT FROM AUTHOR]

Published

2024

19. Two new records of the genus Trioxys (Hymenoptera, Braconidae, Aphidiinae) parasitic on bamboo aphids from South Korea.

Author

Sangjin Kim, Juhyeong Sohn, and Hyojoong Kim

Subjects

HYMENOPTERA, APHIDS, CLASSIFICATION of insects, INSECT morphology, CYTOCHROME oxidase

Abstract

Background: The genus Trioxys Haliday, 1833 consists of more than 80 species worldwide with three species being recorded in South Korea. In this study, we report the first observation of the two additional species, T. liui Chou & Chou, 1993 from Takecallis arundinariae (Essig, 1917) on Phyllostachys bambusoides Siebold & Zucc., 1843 and T. remaudierei Starý & Rakhshani, 2017 from T. taiwana (Takahashi, 1926) on Sasa borealis (Hack.) Makino & Shibata, 1901. New information: Trioxys liui and T. remaudierei are described and reported with phototographs of the diagnostic morphological characters and the mitochondrial cytochrome c oxidase subunit I (COI) data (barcode region) and Bayesian tree of the phylogenetic analysis amongst the closely-related taxa are provided. [ABSTRACT FROM AUTHOR]

Published

2024

20. Description of the unknown male of Adesmus murutinga (Cerambycidae: Lamiinae: Hemilophini) and new geographical records of longhorned beetles.

Author

TABOADA-VERONA, Carlos, QUIMBAYO-DIAZ, Sebastian, and Carlos PARDO-LOCARNO, Luis

Subjects

*BEETLES, *CERAMBYCIDAE, *SPECIES distribution, *INSECT morphology, *MALES, *LYCIDAE

Abstract

The male of Adesmus murutinga Martins & Galileo, 2004 is described for the first time, an updated key to Colombian species of the genus is presented, and three species of longhorned beetles are reported for the first time for Colombia. The specific localities in Colombia of Miriclytus quadrifasciatus (Chevrolat, 1862) and Oedudes spectabilis (Drury, 1782) are reported. [ABSTRACT FROM AUTHOR]

Published

2024

21. Dr. Charles W. O'Brien: True Pioneer in Weevil Taxonomy and Publisher.

Author

Haseeb, Muhammad

Subjects

*CURCULIONIDAE, *TAXONOMY, *INSECT morphology, *PLANTHOPPERS, *INSECTS as carriers of disease

Abstract

The author presents a Florida Entomologist Society Pioneer Lecture honoring Dr. Charles W. O'Brien, a pioneer in weevil taxonomy and publisher, who died on August 10, 2019. He discusses the entomological contributions of Dr. O'Brien, his professional academic career, and his favorite weevil, Pachyrhynchus gemmans Chevrolat and Pachyrhynchus gemmatus.

Published

2024

22. Baryscapus evonymellae (Bouché, 1834) (Hymenoptera: Eulophidae), a hyperparasitoid of Leucoma wiltshirei Collenette, 1938 (Lepidoptera: Erebidae) in Iran.

Author

Ehteshami, Fatemeh, Jafarlu, Majid, Mohammadi, Hojjatollah, Sedaratian-Jahromi, Amin, Iranipour, Shahzad, Lotfalizadeh, Hossein, and Kiany, Mohsen

Subjects

*HYMENOPTERA, *CLASSIFICATION of insects, *PARASITOIDS, *INSECT morphology

Abstract

Baryscapus evonymellae (Bouché, 1834) (Hymenoptera, Eulophidae) was rediscovered on Leucoma wiltshirei Collenette, 1938 (Lepidoptera, Erebidae) attacked by different parasitoids. This species had already been reported under different names; therefore, its inaccurate identifications were corrected. It was reared as a larval and pupal hyperparasitoid of two important primary parasitoids of L. wiltshirei including Brachymeria tibialis Steffan, 1958 (Hymenoptera, Chalcididae), and Dolichogenidea persica Abdoli, Mohammadi, Sedaratian-Jahromi & Farahani, 2023 (Hymenoptera, Braconidae). The last parasitoid-hyperparasitoid association is new. Its morphological characters were illustrated and its biological data and main characteristics were discussed. [ABSTRACT FROM AUTHOR]

Published

2024

23. DESCRIPTION OF THE MALE CASTE OF LEPTOGENYS BORNEENSIS (HYMENOPTERA, FORMICIDAE), WITH ITS FIRST DISCOVERY IN SUMATRA.

Author

Satria, R., Nugraha, F. A. D., Achyar, A., Zulyetti, D., and Eguchi, K.

Subjects

HYMENOPTERA, MITOCHONDRIAL DNA, INSECT morphology, INSECT phylogeny

Abstract

Males of Leptogenys (Lobopelta) borneensis Wheeler, 1919 are described, including their genital morphology, which is important for diagnostics and morphological phylogeny of the genus Leptogenys Roger, 1861. The mtDNA COI barcoding sequence of 607 bp obtained and uploaded to GenBank and BOLD. The species was previously known from Borneo (Malaysia: Sarawak — type locality), Thailand and Vietnam and is recorded for the first time from Sumatra (Indonesia). [ABSTRACT FROM AUTHOR]

Published

2024

24. Survey and taxonomy of phorid flies (Phoridae: Diptera) with newly recorded Genus in Egypt.

Author

Mostafa, H. Elsheakh, Hamedy, A. Mohamed, Mohammed, Kamel Abied, and Ayman, M. Ebrahim

Subjects

MEGASELIA, BIOLOGICAL classification, INSECT morphology, PHORIDAE

Abstract

The study was carried out successfully from October 2020 to December 2023 throughout 9 Governorates (Sharquia, Giza, Qalyubia, Monufia, Beheira, Alexandria, Fayoum, Beni Suef, and Kafr El-Shaikh). The Governorates of Kafr El-Shaikh and Beni Suef were among the Governorates in which samples of large specimens were collected, especially Megaselia scalaris (Loew, 1866), of which large numbers were collected in both Governorates, followed by Fayoum and then Alexandria. Giza, Qalyubia and Monufia, in ascending number. It is noted that the samples of this family are present in general throughout the year, but they increase in the months of July, August and September, and the numbers decrease significantly during the months of December, January, and February. The species Megaselia koffleri Schmitz, 1935 Name updated by Megaselia curtineura (Brues, 1909); Megaselia luttela Schmitz, 1929; Megaselia xanthozona (Strobl, 1892); Spiniphora bergenstammii (Mik, 1864). The study gave a newly recorded genus and species Conicera tibialis Schmitz,1925 (Diptera: Phoridae) in Egypt was collected from Wadi El-Natron, Beheira, and Giza Governorates. In this paper, the economic importance, survey, morphology, and taxonomy were studied. Also, keys for two subfamilies Phorinae and Metopininae, and genera are provided. [ABSTRACT FROM AUTHOR]

Published

2024

25. Morphological study on the form and number of eyes in scorpions and spiders.

Author

Al-Azawi, Zeina N.

Subjects

SCORPIONS, SPIDERS, EYE, INSECT morphology, ARACHNIDA classification

Abstract

Scorpions and spiders belong to the class Arachnida in phylum Arthropoda. Scorpions are easily distinguished by median eyes on obvious the center of the carapace and have one pair, and lateral eyes have 2-8 in some species. Scorpions do not have good eyesight so the median eyes have always been simple and they are more sensitive than the lateral pairs. They have anterior median eyes (AME) with narrow field of view and pairs of lateral eyes (LE) with more sensitivity and response to light. Family Buthidae have 2-6 lateral eyes in Compsobuthus Mesobuthus, Hottentotta, while Vaejovidae, Chactidae and Chaerilidae have 2 pairs of lateral eyes. In addition, 3 pairs are found in Orthochirus and Androctonus. Spiders have six eyes in family Pholicidae, Sicariidae, Araneidae, Salticidae, while eight eyes in Theridiidae, Lycosidae and some with two eyes or four in the carapace of the prosoma. Spider have anterior median eyes, anterior lateral eyes, posterior median eyes, or posterior lateral eyes. Scorpions and Spider eyes are not compound but simple. There is one lens for each eye. Spiders have poor vision, not able to see light and darkness. Scorpion and spider taxonomy is based on the forms and number of eyes. So, the reasons to study these organisms are important in studies of medical, ecology, morphology and taxonomy. and it is a little known about their biology and fauna. [ABSTRACT FROM AUTHOR]

Published

2024

26. Macrosemia fengi Wang sp. nov. from Yunnan and Guizhou, China (Hemiptera, Cicadidae, Cicadinae).

Author

Cheng-Bin Wang

Subjects

HEMIPTERA, CLASSIFICATION of insects, GEOGRAPHICAL distribution of insects, INSECT morphology

Abstract

Background The genus Macrosemia Kato, 1925 (Hemiptera, Cicadidae, Cicadinae, Dundubiini, Dundubiina) currently includes 16 species (excluding subspecies and varieties), mainly occurring in the Oriental Region. More than half of them, 10 species, are known from China, including one new species, described in the present study. New information A new species of cicada, Macrosemia fengi Wang sp. nov., is described from Yunnan and Guizhou, southwest China. Colour plates are presented to illustrate its diagnostic characters. The distribution map of the new species is also given. [ABSTRACT FROM AUTHOR]

Published

2024

27. A new species of Tanna Distant, 1905 from Yunnan, China (Hemiptera, Cicadidae, Cicadinae).

Author

Cheng-Bin Wang

Subjects

CICADAS, CLASSIFICATION of insects, GEOGRAPHICAL distribution of insects, INSECT morphology

Abstract

Background The genus Tanna Distant, 1905 (Hemiptera, Cicadidae, Cicadinae, Leptopsaltriini, Leptopsaltriina) currently includes 23 species (three tentatively placed), with its actual geographical distribution in China, Japan, Nepal, Bhutan, Cambodia, Thailand and Vietnam. Most of them, 16 species, are known from China, including one new species here described. New information A new species of cicada, Tanna fengi Wang sp. nov., is described from Yunnan, southwest China. Colour plates are presented to illustrate all diagnostic characters. An updated list of Tanna species occurring in China is provided. [ABSTRACT FROM AUTHOR]

Published

2024

28. Review of German Spilomicrus Westwood (Hymenoptera, Diapriidae, Spilomicrini).

Author

Hübner, Jeremy Joshua and Chemyreva, Vasilisa

Subjects

DIAPRIIDAE, CLASSIFICATION of insects, INSECT morphology, GENETIC barcoding, INSECT identification

Abstract

Background This study provides an integrative taxonomy-based review for the genus Spilomicrus Westwood in Germany using DNA barcoding and classic morphology. New information Spilomicrus simplex Tomsik, 1947 is placed in synonymy with S. antennatus Jurine, 1807; Spilomicrus thomsoni Kieffer, 1911 is removed from synonymy with S. hemipterus Marshall, 1868. A lectotype is designated for Spilomicrus nigripes Thomson, 1858. Newly recorded for Germany are the following species: S. thomsoni Kieffer, 1911, S. crassiclavis Marshall, 1868, S. lusitanicus Kieffer, 1910 and S. diversus Chemyreva, 2021. Three species, Spilomicrus brevimalaris sp. nov., S. flavecorpus sp. nov. and S. politus sp. nov. are described as new to science. The 23 DNA-barcodes with species identification present a substantial addition over the previous German checklist. This study aims to update the number of nationwide known Spilomicrus species from fifteen to twenty. Furthermore, a new key to identify all European Spilomicrus species is provided. [ABSTRACT FROM AUTHOR]

Published

2024

29. Selymbria Stål, 1861 (Hemiptera: Cicadidae: Tibicininae): description of a new species with notes on the genus taxonomy and distribution.

Author

Petersen Ruschel, Tatiana and Paladini, Andressa

Subjects

BIOLOGICAL classification, HEMIPTERA, CICADAS, HOMOPTERA, TAXONOMY, LIFE history theory, SPECIES distribution, INSECT morphology, MORPHOLOGY

Abstract

Selymbria amazonensis sp. nov. is described and illustrated from Brazil. An illustrated taxonomic key for males and females is provided. We include distribution maps and comments on their morphology, geographical distribution, and life history. [ABSTRACT FROM AUTHOR]

Published

2024

30. A phylogeny of Carrerapyrgota Aczél (Diptera, Pyrgotidae).

Author

Alves Cordeiro, Maria Leidiane and Luciano Mello, Ramon

Subjects

DIPTERA, PHYLOGENY, INSECT morphology, HOMOPLASY, PARSIMONIOUS models, ADULTS, SPECIES distribution, VEINS

Abstract

Carrerapyrgota Aczél, 1956 is a Neotropical Diptera genus within Pyrgotidae. Currently, the genus comprise four species: C. miliaria Aczél, 1956 (type species), C. personata (Lutz & Lima, 1918), C. aczeli Mello, Lamas & Rafael, 2010, and C. bernardii Mello, Lamas & Rafael, 2010. This study investigates the phylogenetic relationships among Carrerapyrgota species, aiming to establish their monophyly as a genus. To achieve this, we conducted phylogenetic analyses based on 22 external morphological characters of adults, emploing the principle of parsimony. Analyses using both equal and implied character weighting support the monophyly of the genus, based on the following apomorphies: absence of the postscutellum, R2-3 with spurious apical vein, lower calypter with a longitudinal row of bristles, and the presence of a posterior longitudinal groove on the female fore femur. The species C. aczeli, C. bernardii, and C. miliaria form a monophyletic group, supported by the synapomorphic condition of a spot on the forehead. Within this group, C. bernardii and C. miliaria are sister species, sharing the synapomorphic condition of a less sclerotized M vein, after dm-cu compared to the anterior region, as well as the homoplastic condition of a spot on the median occipital sclerite. This phylogenetic analysis reaffirms the synonymy proposed by Bernardi (1990), which treats Anapyrgota Steyskal, 1967, as a junior synonym of Carrerapyrgota. The evolutionary relationship among the species of the genus is represented as (C. personata (C. aczeli (C. bernardii, C. miliaria))). Furthermore, this study includes an updated distributional map for the genus, featuring the first record of Pyrgotinae in the Andean region. [ABSTRACT FROM AUTHOR]

Published

2024

31. Egg Morphology and Chorionic Ultrastructure of Spotted Lanternfly, Lycorma delicatula (White) (Hemiptera: Fulgoridae).

Author

Powell, Jonathan M., Nixon, Laura J., Lourie, Austin P., Leskey, Tracy C., and Walse, Spencer S.

Subjects

SPOTTED lanternfly, INSECT morphology, HEMIPTERA, INSECT pest control, BROMOMETHANE, FUMIGATION, EGGS, MORPHOLOGY

Abstract

Knowledge regarding egg morphology can aid the selection of postharvest fumigants for insect control. Accordingly, scanning electron microscopy (SEM) was used to examine eggs of spotted lanternfly (SLF), Lycorma delicatula (White) (Hemiptera: Fulgoridae), a pest recently invasive to the mid-Atlantic region of the United States. As the overwintering life stage of SLF, eggs are deposited on a variety of refugia, including many forestry products that can be distributed geographically via travel, commerce, and/or trade. For fumigation to control SLF, and potentially translate into a viable strategy for limiting the spread of SLF by subject pathways, the fumigant must permeate the chorion to react with biomolecules and/or disrupt cellular processes. SLF chorion was characterized by a porous network of aeropyles localized around the operculum, in cranial and caudal relation to the developing nymph, as well as an interstice between the operculum edge and the opercular rim. The confirmation of chorionic ultrastructure that allows for ready gas exchange warrants further investigation of fumigation efficacy, even for those "non-reactive" fumigants, such as phosphine and hydrogen cyanide, which must overcome the suppression of cellular processes coincident with overwintering. [ABSTRACT FROM AUTHOR]

Published

2023

32. Morpho-taxonomic study on Pleuroptya ruralis Scopoli, 1763 (Crambidae: Lepidoptera) as a new record in Iraq.

Author

Sabr, Ahmed J., Aljoboory, Raghad Khalaf Ibraheem, and Mahdi, Dhefaf Radi

Subjects

CRAMBIDAE, PYRALIDAE, CLASSIFICATION of insects, INSECT morphology

Abstract

This study was carried out to report the newly recorded species of the family Crambidae, belonging to the order Lepidoptera. During the investigation on subfamily Pyraustinae in middle of Iraq, the following snout moth's species, i.e., Pleuroptya ruralis Scopoli, 1763 is reported for the first time from Iraq. External and genital characteristics of adult were examined and illustrated. This newly recorded species is enumerated with their available information including the collecting localities, illustrations of adults, and female genitalia. There is a paucity of Iraqi research that deals with this family in terms of diagnosing and describing the species of its subfamilies. [ABSTRACT FROM AUTHOR]

Published

2023

33. New records for the Heteroptera (Hemiptera) fauna of Ankara province.

Author

Benli, Aslı and Şirin, Davut Ümit

Subjects

*HEMIPTERA, *CLASSIFICATION of insects, *GEOGRAPHICAL distribution of insects, *INSECT morphology

Abstract

This study was carried out based on Heteroptera (Hemiptera) samples collected in various locations of Kahramankazan district of Ankara province between April and November 2022. Codophila maculicollis (Dallas, 1851), Apodyphus amygdali (Germar, 1817), Holcogaster fibulata (Germar, 1831) and Oncotylus (Oncotylus) punctipes Reuter, 1875 species, which were previously reported in Türkiye, were recorded for the first time from Ankara, and O. punctipes was also new record for the central Anatolia region in this study. [ABSTRACT FROM AUTHOR]

Published

2023

34. Morphological diagnosis information about some rare Heteroptera (Hemiptera) species in Türkiye.

Author

Fent, Meral, Bolu, Halil, and Kıyak, Suat

Subjects

*HEMIPTERA, *CLASSIFICATION of insects, *GEOGRAPHICAL distribution of insects, *INSECT morphology

Abstract

This study is based on specimens of species that were collected by light trap in Diyarbakır Province, located in the Eastern Anatolia Region of Turkey, and which are rarely known in Anatolia. 7 species (Acrosternum breviceps (Jakovlev, 1889), Mecidea lindbergi Wagner, 1954, Lethaeus nitidus (Douglas & Scott, 1868), Megalonotus maximus (Puton, 1895), Peritrechus flavicornis Jakovlev, 1877, Ectomocoris caucasicus Linnavuori, 1972 and Reduvius ciliatus Jakovlev, 1879) specimens were examined and diagnostic photographs of their general morphology and male genitalia were presented. [ABSTRACT FROM AUTHOR]

Published

2023

35. Beyond winglets: evolutionary scaling of flight-related morphology in stick insects (Phasmatodea).

Author

Zeng, Yu, Park, Sehoon, Gonzales, Camille, Yom, Stephanie, Rahim, Faszly, and Dudley, Robert

Subjects

*PHASMIDA, *INSECT morphology, *APTERYGOTA, *MUSCLE mass, *INSECTS, *PEA aphid

Abstract

The first winged insects evolved from a wingless ancestor, but details of the transition to a fully-winged morphology remain unclear. Studying extant pterygotes with partial wings, such as the stick insects (order Phasmatodea), may help us to understand such a transition. Here, we address how a series of flight-related morphological parameters may correlate with flight evolution by studying different phasmids representing a volancy continuum ranging from miniaturized to full-sized wings. Variation in phasmid wing shape, venation, wing mass and the mass of flight muscle can be described by specific scaling laws referenced to wing length and wing loading. Also, the mass distribution of the body-leg system is conserved in spite of a wide range of variation in body shape. With reduced wing size and increased wing loading, the longitudinal position of the wing-bearing thoracic segments is shifted closer to the insects' centre of body mass. These results demonstrate complex reconfiguration of the flight system during wing morphological transitions in phasmids, with various anatomical features potentially correlated with reduced flight performance attained with partial wings. Although these data represent phasmid-specific features of the flight apparatus and body plan, the associated scaling relationships can provide insight into the functionality of intermediate conditions between wingless and fully-winged insects more generally. [ABSTRACT FROM AUTHOR]

Published

2023

36. First description of the male of Oecobius przewalskyi Hu & Li, 1987 (Araneae, Oecobiidae) from Shigatse City, Tibet, China.

Author

Changhao Hu, Jie Liu, and Kai Wang

Subjects

OECOBIIDAE, ARACHNIDA classification, ZOOLOGICAL specimens, INSECT morphology

Abstract

Background With 90 described species, the genus Oecobius Lucas, 1846 is the largest genus of the family Oecobiidae Blackwall, 1862, five of which are known from China. Since Oceobius przewalskyi was described by Hu & Li in 1987, no males of this species have ever been reported. New information The male of Oceobius przewalskyi is described for the first time, based on the specimens collected in Tibet Autonomous Region. Morphological description and illustrations are given. [ABSTRACT FROM AUTHOR]

Published

2023

37. Dendrocerus lui (Hymenoptera, Ceraphronoidea, Megaspilidae): a new species of Dendrocerus carpenteri species-group from China.

Author

Fang Li, Shanshan Cui, Yixin Huang, Xuan Wang, Huayan Chen, and Xu Wang

Subjects

HYMENOPTERA, CLASSIFICATION of insects, INSECT morphology, PARASITOIDS

Abstract

Background One new species of the genus Dendrocerus Ratzeburg, 1852, D. lui Li and Wang sp. nov. is described. A key to Chinese species of males is provided. The 28S sequence was generated to supplement the association of both sexes of the new species. New information One new species of the genus Dendrocerus Ratzeburg, 1852, D. lui Li and Wang sp. nov. is described. [ABSTRACT FROM AUTHOR]

Published

2023

38. Mapping the distribution of the European Red Wood Ant in Turkey and its key factors in conservation planning.

Author

Dumlu, Cansu and Camlitepe, Yılmaz

Subjects

FORMICA (Insects), SPECIES distribution, INSECT conservation, INSECT morphology

Abstract

In this study, 82 nests in the Thrace region, the only distribution area of the European redwood ant (Formica pratensis Retzius,1783) in Turkey, were identified and monitored for two years. A nest ID was created for each nest, showing nest features, strategic location, habitat characteristics and some morphometric differences of workers. The species ' living areas (area of occupancy, AOO) and extension of occurrence (EOO) calculations were also carried out. Statistical analyses were carried out to show the relationships between these features. The results demonstrated that the optimum distribution of the nests is between 300-600 m, and the nests are mainly located at a distance of 0-200 m close to the water source. Nests are mostly built facing south in open areas in fields or forests, and the B-shaped nest is the most frequently observed nest morphology. Moreover, colony individuals frequently visit oak and blackberry species, and the Thracian population tends to form monodomous nests at a rate of 95%. The relationship between the morphological characteristics of ants (NHLI, NBH, LBH and HW), nest altitude data, and the distance of nests to water sources and forest areas was tested with Spearman rank correlation analysis, and a weak reverse correlation was found between the averages of NBH data and nest altitudes (r: -0.300; p<0.05), at 95% confidence interval. Accordingly, the AOO of the species in the Thrace region was calculated as 50,176 m2 and the EOO was 3,682 km2. All nests are shown on political maps, and applicable maps have been created in which buffer zoning and conservation areas are suggested. In total, 36 conservation and awareness training types were also carried out in two years, reaching 1201 students, and 92% awareness was created. Our results indicate that the nests cannot remain stable for many years due to intense human pressure. [ABSTRACT FROM AUTHOR]

Published

2023

39. Formalizing Invertebrate Morphological Data: A Descriptive Model for Cuticle-Based Skeleto-Muscular Systems, an Ontology for Insect Anatomy, and their Potential Applications in Biodiversity Research and Informatics.

Author

Girón, Jennifer C, Tarasov, Sergei, Montaña, Luis Antonio González, Matentzoglu, Nicolas, Smith, Aaron D, Koch, Markus, Boudinot, Brendon E, Bouchard, Patrice, Burks, Roger, Vogt, Lars, Yoder, Matthew, Osumi-Sutherland, David, Friedrich, Frank, Beutel, Rolf G, and Mikó, István

Subjects

*INSECT anatomy, *DATA extraction, *MEDICAL informatics, *ONTOLOGY, *INSECT morphology, *SEMANTIC Web, *BIODIVERSITY, *HOMOLOGY (Biology)

Abstract

The spectacular radiation of insects has produced a stunning diversity of phenotypes. During the past 250 years, research on insect systematics has generated hundreds of terms for naming and comparing them. In its current form, this terminological diversity is presented in natural language and lacks formalization, which prohibits computer-assisted comparison using semantic web technologies. Here we propose a Model for Describing Cuticular Anatomical Structures (MoDCAS) which incorporates structural properties and positional relationships for standardized, consistent, and reproducible descriptions of arthropod phenotypes. We applied the MoDCAS framework in creating the ontology for the Anatomy of the Insect Skeleto-Muscular system (AISM). The AISM is the first general insect ontology that aims to cover all taxa by providing generalized, fully logical, and queryable, definitions for each term. It was built using the Ontology Development Kit (ODK), which maximizes interoperability with Uberon (Uberon multispecies anatomy ontology) and other basic ontologies, enhancing the integration of insect anatomy into the broader biological sciences. A template system for adding new terms, extending, and linking the AISM to additional anatomical, phenotypic, genetic, and chemical ontologies is also introduced. The AISM is proposed as the backbone for taxon-specific insect ontologies and has potential applications spanning systematic biology and biodiversity informatics, allowing users to: 1) use controlled vocabularies and create semiautomated computer-parsable insect morphological descriptions; 2) integrate insect morphology into broader fields of research, including ontology-informed phylogenetic methods, logical homology hypothesis testing, evo-devo studies, and genotype to phenotype mapping; and 3) automate the extraction of morphological data from the literature, enabling the generation of large-scale phenomic data, by facilitating the production and testing of informatic tools able to extract, link, annotate, and process morphological data. This descriptive model and its ontological applications will allow for clear and semantically interoperable integration of arthropod phenotypes in biodiversity studies. [ABSTRACT FROM AUTHOR]

Published

2023

40. Ultrastructure Morphology of the Antennae of Oxysarcodexia corolla and Oxysarcodexia peltata (Diptera: Sarcophagidae).

Author

FOOTE-GORDON, LATOYA and GARRAWAY, ERIC

Subjects

INSECT morphology, ANTENNAE (Biology), DIPTERA

Abstract

The antennae of two Oxysarcodexia species were analysed using scanning electron microscopy. The morphology of the antennae is typical of cyclorrhaphan flies with the proximal scape, intermediate pedicel, and distal flagellum. The flagellum of Oxysarcodexia corolla has a pronounced waist due to the thickening of its proximal and distal ends. The postpedicel of O. peltata does not have a distinct waist and maintains a uniform thickness from proximal to distal ends. The postpedicel of both Oxysarcodexia species bears trichoid, basiconic, clavate, auriculate, and coeloconic sensilla. Bottle-like sensilla were observed on the female of O. peltata. We seek to add to the knowledge of morphology of antennae of Sarcophagidae species in the Caribbean. [ABSTRACT FROM AUTHOR]

Published

2023

41. Morphology of Third Instar Peckia chrysostoma (Wiedemann, 1830) and Blaesoxipha plinthopyga (Wiedemann, 1830) (Sarcophagidae); Species of Forensic Importance.

Author

DALEY, ROCHELLE, FOOTE-GORDON, LATOYA, and GARRAWAY, ERIC

Subjects

SARCOPHAGIDAE, INSECT morphology, FORENSIC entomology

Abstract

Forensic entomology is a growing field within the Caribbean, but lacks practical application. There remains room for further growth inclusive of primary baseline information, such as determining the identity of flies of forensic importance on the various Caribbean islands. Descriptions of morphology and biology of immature stages of some flies are also lacking, especially for the family Sarcophagidae. Described here is the morphology of the third larval stage of two species of Sarcophagidae of forensic importance, Peckia (Peckia) chrysostoma (Wiedemann, 1830) and Blaesoxipha (Gigantotheca) plinthopyga (Wiedemann, 1830). The two species were found to colonise and breed in decomposing pig meat. Specimens collected were reared and dissected using light microscopy. Key larval features are illustrated for use in identification, as an alternative or addition to adult morphology. Structures described include the anterior and posterior spiracle, anal segment, and cephalopharyngeal skeleton. Both species are considered to be of forensic importance and have been shown to colonise human corpses in a review of the literature. [ABSTRACT FROM AUTHOR]

Published

2023

42. Ultrastructure Morphology of the Antennae of Three Peckia (Diptera: Sarcophagidae) Species: Peckia dominicana, P. nicasia, and P. chrysostoma.

Author

FOOTE-GORDON, LATOYA and GARRAWAY, ERIC

Subjects

INSECT morphology, ANTENNAE (Biology), SARCOPHAGIDAE

Abstract

A scanning electron microscopy investigation of the antennae of three Peckia Robineau-Desvoidy (Peckia (Euboettcheria) nicasia (Lopes, 1941), Peckia (Sarcodexia) dominicana Lopes, 1982, and Peckia (Peckia) chrysostoma (Wiedemann, 1830)) species of potential forensic relevance, is presented for the first time. The collection of the three species was done using baited traps. The antennae of each species consist of three parts: the scape, the pedicel, and the postpedicel/funiculus, where the arista is located. The distribution and location of sensilla found on the antennae are described. Six types of sensilla were observed. The scape has only chaetic sensilla, the pedicel has chaetic sensilla and setiferous plaques, and the postpedicel bears trichoid, five subtypes of basiconic sensilla, coeloconic sensilla and clavate sensilla. The study also identifies a post-pedicellar button on P. chrysostoma only. The study adds to ultrastructure studies on the antennae of Sarcophagidae, increasing the information available for comparison in phylogeny adaptations and synapomorphy. [ABSTRACT FROM AUTHOR]

Published

2023

43. Three new records of Collembola (Hexapoda) from Birjand (South Khorasan, Iran).

Author

Rabieh, Mohammad Mahdi, Shayanmehr, Masoumeh, Lafooraki, Elham Yoosefi, and Noei, Javad

Subjects

*CLASSIFICATION of insects, *INSECT morphology, *GEOGRAPHICAL distribution of insects, *SPECIES diversity

Abstract

During samplings were performed during 2019 in Birjand area located in South Khorasan province, three species are identified from families Entomobryidae and Bourletiellidae. Drepanura tuxeni Nosek, 1964, Drepanosira gisini Nosek, 1964 and Cassagnaudiella c.f. gamae (Bretfeld, 1994) are newly reported for the Iranian fauna of Collembola. The material examined, brief description and some illustration were given. Cassagnaudiella c.f. gamae represents the second species record of the family Bourletiellidae from Iran. [ABSTRACT FROM AUTHOR]

Published

2023

44. Molecular and Morphological identification of the genus Dineutus MacLeay, 1825 (Coleoptera, Gyrinidae) from Eastern Ghats, India.

Author

Deepa, Jaiswal, Shankar, Shiva, Kumar, Devadoss, Madasamy, Karuthapandi, Jadhav, Shrikant, and Sulthana, Rehanuma

Subjects

*BEETLES, *INSECT morphology, *CYTOCHROME oxidase, *GENETIC barcoding

Abstract

The present study is on the morphology and molecular data of the genus Dineutus MacLeay, were collected from the Eastern Ghats mountains in Odisha, Andhra Pradesh, Telangana, Tamil Nadu states located in the eastern Ghats of India. The morphological identification was based on elytral spines, setation on paramere and structure of the median lobe. Molecular characterization was based on the mitochondrial cytochrome oxidase subunit I (COI) and 16s ribosomal RNA gene. Species identified as being D. indicus, D. spinosus, and D. unidentatus. Phylogenetic trees were constructed for both genes, and the COI fragment shows raw genetic distance between 10-12% among the three species of D. indicus, D. spinosus and D. unidentatus, whereas 16s gene shows a divergence of 4-5%. The present study contributes five novel mitochondrial COI and five ribosomal RNA sequences for D. spinosus and D. unidentatus for the first time from India. [ABSTRACT FROM AUTHOR]

Published

2023

45. New records of two noctuid species (Lepidoptera, Noctuidae) from Iran.

Author

Kermani, Melika Moghadaszadeh, Poorshabanan, Pedram, Dehlaghi, Ehsan, Shirvani, Asghar, and Shoushtari, Reza Vafaei

Subjects

*NOCTUIDAE, *CLASSIFICATION of insects, *INSECT morphology, *GEOGRAPHICAL distribution of insects

Abstract

The biodiversity of the Noctuidae, an economically important family of Noctuoidea which include major crop pests, is becoming well-identified nowadays in Iran due to the increased number of faunal expeditions. The two large subfamilies of Noctuidae namely Xyleninae Guenée, 1837 and Noctuinae Latreille, 1809 comprise the majority of Iran's noctuid moth fauna. Two species, Leucochlaena hoerhammeri (Wagner, 1931) and Dichagyris (Stenosomides) mansoura (Chrétien, 1911) members of Xyleninae and Noctuinae subfamilies, respectively, are recorded from Iran for the first time. This is also the first record of the subgenus Stenosomides Strand, 1942 from Iran. Both the external and genital characteristics of the newly recorded species are presented together with illustrations of the adults and their genitalia. [ABSTRACT FROM AUTHOR]

Published

2023

46. Chrysomalla roseri Foerster (Hymenoptera, Chrysolampidae), evidence for occurrence of the family, genus and species in Iran.

Author

Lotfalizadeh, Hossein, Farhangi, Vahid, and Rasplus, Jean-Yves

Subjects

*CLASSIFICATION of insects, *INSECT morphology, *GEOGRAPHICAL distribution of insects, *PARASITOIDS

Abstract

The family Chrysolampidae Dalla Torre, 1898 and the genus Chrysomalla Foerster, 1859 (Chalcidoidea, Chrysolampidae, Chrysolampinae) are recorded for the first time from Iran where it was represented by one species, Ch. roseri Foerster, 1859. Studied specimens were collected with sweeping net in three localities: Kerman, South-Khorasan and West-Azarbaijan provinces in the east and northwest of Iran, respectively. A brief diagnosis, with illustrations of the morphological characters and geographical distribution is provided for this species. [ABSTRACT FROM AUTHOR]

Published

2023

47. A new species of Miramella Dovnar-Zapolskij (Orthoptera, Acrididae, Podismini) from Montenegro.

Author

Mulder, John

Subjects

*ORTHOPTERA, *CLASSIFICATION of insects, *INSECT morphology, *GEOGRAPHICAL distribution of insects

Abstract

In July 2022 several grasshoppers of the genus Miramella Dovnar-Zapolskij, 1932 were encountered on two localities in Montenegro. Voucher specimens were sampled. It became clear that these did not belong to the species Miramella albanica Mistshenko, 1952. They also deviated in morphology and habitat from Miramella irena (Fruhstorfer, 1921). After further investigation of external morphology and the male genitalia, confirmation was derived about its undescribed status of the specimens and the species is here formally described and illustrated as Miramella demissa sp. nov. The new species is known from a restricted area in southern Montenegro. It is adapted to particularly low elevations, quite aberrant for the genus. A key to both sexes is given for the species in the region. [ABSTRACT FROM AUTHOR]

Published

2023

48. Contribution to the knowledge of the caddisfly fauna of Kosovo with first record of the genus Orthotrichia Eaton, 1873 (Trichoptera, Hydroptilidae).

Author

Salihu, Fortesa, Shala, Donika, Bilalli, Astrit, Geci, Donard, and Ibrahimi, Halil

Subjects

*LIMNEPHILIDAE, *CLASSIFICATION of insects, *INSECT morphology, *GEOGRAPHICAL distribution of insects

Abstract

Adult caddisflies were collected from the spring area located in the Blinajë Hunting Reserve in Kosovo between May and September 2022. In this study, we identified 21 species belonging to 9 families of caddisflies (Goeridae, Hydropsychidae, Hydroptilidae, Limnephilidae, Philopotamidae, Polycentropodidae, Psychomyiidae, Rhyacophilidae, and Sericostomatidae). The genus Orthotrichia Eaton, 1873 and species Orthotrichia tragetti Mosely, 1930 are reported for the first time from Kosovo. Agraylea sexmaculata Curtis, 1834 is reported from Kosovo again after more than one century. Several other narrowly distributed endemic species were also identified, including Rhyacophila macedonica Karaouzas, Valladolid & Ibrahimi, 2022 and Tinodes janssensi Jacquemart, 1957. This study contributes to the knowledge of the caddisfly fauna of the Blinajë Hunting Reserve in Kosovo and highlights this area for its interesting composition of caddisfly species. [ABSTRACT FROM AUTHOR]

Published

2023

49. New findings of the family Bethylidae (Hymenoptera) from Türkiye.

Author

Can, İlyas

Subjects

*BETHYLIDAE, *HYMENOPTERA, *GEOGRAPHICAL distribution of insects, *INSECT morphology

Abstract

The flat wasps genus, Pristepyris Kieffer is reported for the first time from Türkiye based on the identification of Pristepyris masii (Soika, 1933). Now, with this new record, the species number of Bethylidae from Türkiye has increased to ten. Additionally, new data are presented for Epyris niger Westwood, 1832, Sclerodermus ephippius (Saunders, 1881) and Pristocera depressa (Fabricius, 1804), which were previously recorded from Turkey. All taxa are morphologically illustrated and their geographical distribution in Türkiye and in the World is also provided. [ABSTRACT FROM AUTHOR]

Published

2023

50. ESTIMATION OF 14 MORPHOLOGICAL TRAITS OF HONEY BEES IN TROPOJA DISTRICT AND THEIR CORRELATION WITH HONEY PRODUCTION.

Author

Kuliçi, Manjola and Shehu, Lejla

Subjects

HONEYBEES, INSECT morphology, MORPHOMETRICS, QUANTITATIVE research, NEMERTEA

Abstract

Morphometry is a very widespread and effective discipline for the study of the western honeybee Apis mellifera. The aim of this investigation was the quantitative evaluation of morphological characters for Apis mellifera carnica in Tropoja district and their correlation with honey production. Knowledge of the correlation between traits is of great importance for the improvement of such traits. In this study 14 morphological traits of bees sampled from 4 different location (Markaj, Vicidol, Qafe Morine, Luzhe) in Tropoja district were measured and their values were correlated with honey production. The morphometric measurement was carried out using a simple technique depends on the combination between Scanner and Photoshop program, and Scan Photo Technique. According to this method the worker bees were dissected and the separated parts were scanned using a scanner, then the images of the morphological characters were measured with Photoshop program. Statistical analysis of data was performed with programs Statistics 7 and Excel. The average values of the measured parameters were: proboscis length (PL) (6.48 mm), forewing length (FWL) (9.32 mm), forewing width (FWW) (3.08 mm), cubital index (CI) (2.33), hind wing length (HWL) (6.397 mm), hind wing width (HWW) (1.8 mm), femur length (FL) (2.34 mm), tibia length (TL) (3.2 mm), basitarsus length (BL) (2.026 mm), basitarsus width (BW) (1.245 mm), sternite 3 longitudinal (S3) (2.756 mm), wax mirror of sternite 3 longitudinal (WL) (1.35 mm), wax mirror of sternite 3 transversal (WT) (2.338 mm), and distance between wax mirrors of sternite 3(WD) (0.3 mm). Referring to values of coefficient of variation, features can be classified into two groups: (i) PL, FWL, FWW, HWL, HWW, FL, TL, BL, BW, S3, WL, WT features with low level of variation (1.37 - 8.4%); (2) CI, and WD, and features with high level of variation (12.2% - 29.95%). Our result show that proboscis (PL) and forewing length (FWL) had the highest correlation with honey production (r = 0.4017, r = 0.407 P > 0.05). We suggest extending of the study in other districts as well, and also we suggest the study of correlation of other morphometric traits with honey production. [ABSTRACT FROM AUTHOR]

Published

2023