1,720,963 research outputs found
Stomach content analysis of young Russell's oarfish (Regalecus russelii) from Taiwan, and a report on an unusual case of predation
No full textHuang, Shih-Pin, Shao, Kwang-Tsao (2022): Stomach content analysis of young Russell's oarfish (Regalecus russelii) from Taiwan, and a report on an unusual case of predation. Zootaxa 5189 (1): 275-282, DOI: 10.11646/zootaxa.5189.1.2
FIGURE 3 in Chub movement is attracted by the collision sounds associated with spawning activities
No full textFIGURE 3. Average individual numbers of cohabitated chubs attracted by three sounds with/without playing order and jerkbaits.Published as part of Wang, Ya-Lun, Lin, Chia-Yu, Huang, Shih-Pin, Lee, Chia-Yun, Tuanmu, Mao-Ning & Wang, Tzi-Yuan, 2022, Chub movement is attracted by the collision sounds associated with spawning activities, pp. 308-317 in Zootaxa 5189 (1) on page 313, DOI: 10.11646/zootaxa.5189.1.27, http://zenodo.org/record/711960
FIGURE 4 in The freshwater snake eel genus Lamnostoma (Anguilliformes: Ophichthidae) in Taiwan, with description of a new species
No full textFIGURE 4. Lamnostoma polyophthalmum (Bleeker, 1853), TOU-AE 7226, 209 mm TL. A. Lateral view of head showing the arrangement of cephalic pores. B. Illustration of dentition. Abbreviation: F, frontal pore; ST, supratemporal pores.Published as part of Chiu, Yung-Chieh, Shao, Kwang-Tsao, Huang, Shih-Pin & Chen, Hong-Ming, 2018, Zootaxa 4454 (1), DOI: 10.11646/zootaxa.4454.1.4, http://zenodo.org/record/144668
FIGURE 4 in Genetic diversity of the regionally endangered Chinese ricefish (Oryzias sinensis) in Taiwan, with comments on its conservation status
No full textFIGURE 4. Molecular phylogenetic tree of Chinese ricefish in Taiwan based on combined COI and D-loop sequences constructed with the maximum likelihood method. Bootstrap values less than 50 are not shown.Published as part of Huang, Shih-Pin, Wang, Tzi-Yuan, Lin, Ting-Yu & Huang, Hui-Chu, 2022, Genetic diversity of the regionally endangered Chinese ricefish (Oryzias sinensis) in Taiwan, with comments on its conservation status, pp. 283-307 in Zootaxa 5189 (1) on page 288, DOI: 10.11646/zootaxa.5189.1.26, http://zenodo.org/record/711961
FIGURE 2 in Chub movement is attracted by the collision sounds associated with spawning activities
No full textFIGURE 2. Sound profiles and field experiments. Waveform (rel. amplitude [kUnit] = proportional to the sound pressure of the recording), spectrogram (frequency [kHz]) and power spectral density (PSD, [dB]) of (a) the 3-minutes collision sound, (b) ambient noise and (c) music noise. The right two diagrams highlight the three sounds that fish may sense, including the frequency lower than 8 kHz. (d) Fixed playing order of sound profiles as example for each time of experiment, 5 minutes of music noise; 6 minutes of ambient noise; 3 minutes of collision sound (mating). The bar regions represent 3 minutes of sound for further statistics. Two field experiments with underwater sound player on a putative redd and home-make jerkbaits (e) based on the mature chub's coloration-- (f) Beker without chub-like jerkbaits; (g) Beker with chub-like jerkbaits.Published as part of Wang, Ya-Lun, Lin, Chia-Yu, Huang, Shih-Pin, Lee, Chia-Yun, Tuanmu, Mao-Ning & Wang, Tzi-Yuan, 2022, Chub movement is attracted by the collision sounds associated with spawning activities, pp. 308-317 in Zootaxa 5189 (1) on page 310, DOI: 10.11646/zootaxa.5189.1.27, http://zenodo.org/record/711960
CEP902228 Supplemental material - Supplemental material for <i>HLA</i> class I alleles are associated with clinic-based migraine and increased risks of chronic migraine and medication overuse
No full textSupplemental material, CEP902228 Supplemental material for HLA class I alleles are associated with clinic-based migraine and increased risks of chronic migraine and medication overuse by Claire Huang, Shih-Pin Chen, Yu-Han Huang, Hsuan-Yu Chen, Yen-Feng Wang, Mei-Hsuan Lee and Shuu-Jiun Wang in Cephalalgia</p
Lamnostoma Kaup 1856
No full textGenus Lamnostoma Kaup, 1856 Lamnostoma Kaup, 1856a: 49. Type species: L. pictum Kaup, 1856 = Dalophis orientalis McClelland, 1844 = Lamnostoma orientalis (McClelland, 1844). Anguisurus Kaup, 1856a: 24. Kaup, 1856b: 50. Type species: A. punctulatus Kaup, 1856 = Dalophis orientalis McClelland, 1844 = Lamnostoma orientalis (McClelland, 1844). Diagnosis. Body stout, cylindrical, and slightly longer than tail; vent near midpoint of TL; snout pointed and slightly slender; eye small to moderate; anterior nostril slightly tubular, ear-shaped, with a cutaneous adjunct on its inner edge, its posterior nostril rim produced into a flap; gill opening lateral or oblique; dorsal fin origin above or behind gill opening; tp2 absent and pop3 sometimes present; teeth pointed, and recurved, those in jaws uniserial or biserial, intermaxillary and vomerine teeth largest and widely spaced. Coloration generally darker dorsally, with a continuous band of spots across the neck dorsally. Remarks. Lamnostoma orientalis was initially assigned to the genus Dalophis; however, the species can be clearly separated from the genus Dalophis McClelland, 1844 by a combination of characters with the Dalophis eels having a tail that is longer than the head and trunk and the dorsal fin origin before the gill opening. The genus Anguisurus Kaup, 1856 was considered to be a junior synonym of Lamnostoma by McCosker (1977). In this study, we revise the diagnosis of the genus Lamnostoma to include the presence of 3 preopercular pores in at least one species, our new species Lamnostoma taiwanense.Published as part of Chiu, Yung-Chieh, Shao, Kwang-Tsao, Huang, Shih-Pin & Chen, Hong-Ming, 2018, The freshwater snake eel genus Lamnostoma (Anguilliformes: Ophichthidae) in Taiwan, with description of a new species in Zootaxa 4454 (1), DOI: 10.11646/zootaxa.4454.1.4, http://zenodo.org/record/144668
Lamnostoma Chiu & Shao & Huang & Chen 2018
No full textKey to species of Lamnostoma 1a. Eyes placed about 1/3 upper jaw from snout tip; gill opening lateral, anterior duplicate gill membrane absent; distance between dorsal fin origin and upper margin of gill opening 10.5–26.5% HL; no papilla on both of nostrils; 2 rows of white spots on lateral side of head meeting above gill opening and becoming a single row posteriorly, and forming a “Y”.............................................................................. Lamnostoma mindora (Jordan & Richardson, 1908) 1b. Eyes placed near the midpoint of upper jaw; gill opening ventral, anterior duplicate gill membrane present; distance between dorsal fin origin and upper margin of gill opening more than 23.3% HL; both of nostrils with a slim papilla along the anterior margin; 2 rows of white spots on lateral side of head not meeting, but arranged in parallel arched rows..................2 2a. Head about 12.4–12.7% TL........................................... Lamnostoma orientalis (McClelland, 1844) 2b. Head less than 12.4% TL...............................................................................3 3a. Ventral width between gill opening about 6.5–6.9% HL; 2 preopercular pores; 33–41 teeth on lower jaw; lateral white spots on head without hill-shaped papilla, indistinct ventrally...................... Lamnostoma polyophthalmum (Bleeker, 1853) 3b. Ventral width between gill opening about 8.0–9.1% HL; 3 preopercular pores; 47–49 teeth on lower jaw; lateral white spots on head in the form of a series of hill-shaped papilla, all spots distinct.................... Lamnostoma taiwanense sp. nov.Published as part of Chiu, Yung-Chieh, Shao, Kwang-Tsao, Huang, Shih-Pin & Chen, Hong-Ming, 2018, The freshwater snake eel genus Lamnostoma (Anguilliformes: Ophichthidae) in Taiwan, with description of a new species in Zootaxa 4454 (1), DOI: 10.11646/zootaxa.4454.1.4, http://zenodo.org/record/144668
Going Beyond Counting First Authors in Author Co-citation Analysis
Full text linkThe present study examines one of the fundamental aspects of author co-citation analysis (ACA) - the way co-citation
counts are defined. Co-citation counting provides the data on which all subsequent statistical analyses and mappings
are based, and we compare ACA results based on two different types of co-citation counting - the traditional type that
only counts the first one among a cited work's authors on the one hand and a non-traditional type that takes into
account the first 5 authors of a cited work on the other hand. Results indicate that the picture produced through this non-traditional author co-citation counting contains more coherent author groups and is therefore considerably clearer. However, this picture represents fewer specialties in the research field being studied than that produced through the traditional first-author co-citation counting when the same number of top-ranked authors is selected and analyzed. Reasons for these effects are discussed
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