Morphological identification in skull between spotted seal and harbor seal using geometric morphometrics

The genus Haematobosca Bezzi, 1907 (Diptera: Muscidae) contains haematophagous flies of veterinary importance. A new fly species of this genus was recognised from northern Thailand based on morphological characters and described as Haematobosca aberrans Pont, Duvallet & Changbunjong, 2020. In the present study, the mitochondrial cytochrome c oxidase I (COI) gene was used to confirm the morphological identification of H. aberrans. In addition, landmark-based geometric morphometrics was used to determine sexual dimorphism. The molecular analysis was conducted with 10 COI sequences. The results showed that all sequences were 100% identical. The sequence was not highly similar to reference sequences from GenBank and did not match any identified species from Barcode of Life Data Systems (BOLD). Phylogenetic analysis clearly differentiated this species from other species within the subfamily Stomoxyinae. For geometric morphometric analysis, a total of 16 wing pictures were analysed using the landmark-based approach. The results showed significant differences in wing shape between males and females, with a cross-validated classification score of 100%. The allometric analysis showed that wing shape has no correlation with size. Therefore, the COI gene is effective in species identification of H. aberrans, and geometric morphometrics is also effective in determining sexual dimorphism.

Peer Review #1 of "Fasciola gigantica, F. hepatica and Fasciola intermediate forms: geometric morphometrics and an artificial neural network to help morphological identification (v0.2)"

10.7287/peerj.8597v0.2/reviews/1 ◽

2020 ◽

Author(s):

L Courtenay

Keyword(s):

Neural Network ◽

Artificial Neural Network ◽

Geometric Morphometrics ◽

Peer Review ◽

Fasciola Gigantica ◽

Morphological Identification ◽

Artificial Neural

Genetic Variation in the Harbor Seal (Phoca vitulina) and Spotted Seal (Phoca largha) Around Hokkaido, Japan, Based on Mitochondrial CytochromebSequences

ZOOLOGICAL SCIENCE ◽

10.2108/zsj.27.263 ◽

2010 ◽

Vol 27 (3) ◽

pp. 263-268 ◽

Cited By ~ 10

Author(s):

Emiko Nakagawa ◽

Mari Kobayashi ◽

Masatsugu Suzuki ◽

Toshio Tsubota

Keyword(s):

Genetic Variation ◽

Harbor Seal ◽

Phoca Vitulina ◽

Spotted Seal ◽

Phoca Largha

Peer Review #1 of "Fasciola gigantica, F. hepatica and Fasciola intermediate forms: geometric morphometrics and an artificial neural network to help morphological identification (v0.1)"

10.7287/peerj.8597v0.1/reviews/1 ◽

2020 ◽

Author(s):

L Courtenay

Keyword(s):

Neural Network ◽

Artificial Neural Network ◽

Geometric Morphometrics ◽

Peer Review ◽

Fasciola Gigantica ◽

Morphological Identification ◽

Artificial Neural

An Efficient Statistic for Determining the Diameter of Thin Sectioned Uniform Spheres from Measurements of Biological Samples

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100050585 ◽

1974 ◽

Vol 32 ◽

pp. 114-115

Author(s):

W. R. Schucany ◽

G. H. Kelsoe ◽

V. F. Allison

Keyword(s):

Biological Samples ◽

Traditional Method ◽

Cell Types ◽

Accurate Estimation ◽

Morphological Identification ◽

Sectioned Material ◽

Maximal Diameter ◽

Similar Cell

Accurate estimation of the size of spheroid organelles from thin sectioned material is often necessary, as uniquely homogenous populations of organelles such as vessicles, granules, or nuclei often are critically important in the morphological identification of similar cell types. However, the difficulty in obtaining accurate diameter measurements of thin sectioned organelles is well known. This difficulty is due to the extreme tenuity of the sectioned material as compared to the size of the intact organelle. In populations where low variance is suspected the traditional method of diameter estimation has been to measure literally hundreds of profiles and to describe the “largest” as representative of the “approximate maximal diameter”.

Application of solid-phase immune electron microscopy to study physical and stability characteristics of enterically transmitted non-a, non-b hepatitis virus

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100102481 ◽

1988 ◽

Vol 46 ◽

pp. 80-81

Author(s):

Charles D. Humphrey ◽

E. H. Cook ◽

Karen A. McCaustland ◽

Daniel W. Bradley

Keyword(s):

Electron Microscopy ◽

Hepatitis A ◽

Hepatitis A Virus ◽

Solid Phase ◽

Etiologic Agent ◽

World Health ◽

Health Concern ◽

Morphological Identification ◽

Immune Electron Microscopy

Enterically transmitted non-A, non-B hepatitis (ET-NANBH) is a type of hepatitis which is increasingly becoming a significant world health concern. As with hepatitis A virus (HAV), spread is by the fecal-oral mode of transmission. Until recently, the etiologic agent had not been isolated and identified. We have succeeded in the isolation and preliminary characterization of this virus and demonstrating that this agent can cause hepatic disease and seroconversion in experimental primates. Our characterization of this virus was facilitated by immune (IEM) and solid phase immune electron microscopic (SPIEM) methodologies.Many immune electron microscopy methodologies have been used for morphological identification and characterization of viruses. We have previously reported a highly effective solid phase immune electron microscopy procedure which facilitated identification of hepatitis A virus (HAV) in crude cell culture extracts. More recently we have reported utilization of the method for identification of an etiologic agent responsible for (ET-NANBH).

Type III Hiatal Hernia in a Harbor Seal (Phoca vitulina concolor)

Aquatic Mammals ◽

10.1578/am.34.2.2008.178 ◽

2008 ◽

Vol 34 (2) ◽

pp. 178-181 ◽

Cited By ~ 4

Author(s):

Gerard K. Beekman

Keyword(s):

Hiatal Hernia ◽

Harbor Seal ◽

Phoca Vitulina ◽

Type Iii

Comparative Characteristics of Assessment Methods for Arachis Hypogaea Collection Samples

Scientific and Technical Bulletin of the Institute of Oilseed Crops NAAS ◽

10.36710/ioc-2019-28-09 ◽

2019 ◽

pp. 85-95

Keyword(s):

Arid Zone ◽

Genetic Selection ◽

Statistical Processing ◽

Weather Conditions ◽

Steppe Zone ◽

Morphological Identification ◽

Oilseed Crop ◽

The South ◽

Tropical Zone ◽

Number Of Branches

Peanuts are plants of the tropical zone, therefore, for its growth and development, high temperature indicators are needed during a fairly long growing season. The climatic parameters of the south of Ukraine correspond to the needs of this culture, and today there is positive experience in growing peanuts in this region. In order to increase the efficiency of growing peanuts in the conditions of the Steppe zone, it is necessary to carry out genetic selection work to study and select a more adapted source material in order to create highly productive Ukrainian varieties adapted to the arid zone conditions. At the initial stage of this work, it is necessary to have clear signs and characteristics for evaluating the studied genotypes, and the existing methods for describing the characters and conducting an examination for distinctness, uniformity, and stability are incomplete and do not meet the requirements for in-depth work on private genetics and culture breeding. For our work, we used 18 peanut genotypes as a material, which make up the collection of the Institute of Oilseeds of NAASU. Studies were carried out in 2018 and 2019, in different weather conditions. All measurements, observations and statistical processing in the study of samples were carried out in accordance with generally accepted methods. When conducting a comparative analysis of the two methods for describing the signs of underground peanuts, it was found that one of the methods contains 23 signs and the other 17. The signs of the vegetative part of plants that characterize the habit and structure of the leaf predominate in both methods. We have identified and proposed for description 9 new characters in peanut plants: 2 - leaf characters (additional leaves and pubescence); 1 - the structure of beans (weight 100 beans); 1 - an economically valuable trait (the presence of nodules on the roots); 5 - flower features (size and color of the flower and border). In terms of plant habitat, Ukrainian Stepnyak and Krasnodar 13 varieties were distinguished, which had the highest height (43.8 cm) and the largest number of branches (9.3 pcs.). In addition to morphological identification features for the description and examination of distinctness, uniformity and stability, we have also studied the quantitative characteristics of underground peanuts. It was established that the height of peanut plants in the field conditions of the south of Ukraine ranged from 14 to 44 cm. The highest variety was the Ukrainian Stepnyak variety, and the shortest one was Pink large. The largest number of branches is 9.3 pcs. noted in the variety Krasnodar 13, and the smallest 4.62 pcs. - at L3. And the largest flower of 1.91 cm stood out White-pink 3. The quantitative traits we studied are characterized by continuous variability, which is due to the interaction between genes and the environment. Thus, to identify varietal variability in underground peanuts, it is necessary to use both existing methods, and in the near future, work should be done to combine them with the inclusion of new identified characters to more clearly identify the genotypes of this new valuable oilseed crop.