1,724,492 research outputs found
Dataset for "Evolution of Water Permeability for Low Permeable Fault Induced by Frictional Sliding at Slow to Fast Slip Velocity with Large Shear Displacement"
No full textDescription of the dataset for “Evolution of Water Permeability for Low Permeable Fault Induced by Frictional Sliding at Slow to Fast Slip Velocity with Large Shear Displacement”
This dataset provides the data that is related to the paper of “Description of the dataset for “Evolution of Water Permeability for Low Permeable Fault Induced by Frictional Sliding at Slow to Fast Slip Velocity with Large Shear Displacement” submitted to academic paper. The dataset contains
PHV-525-all
PHV-526-all
PHV-525-all-T
PHV-526-all-T
Data from confocal laser scanning microscope
CCT474_flow
The files of PHV-525-all and PHV-526-all are all the data (mechanical data, velocity, flow rate, temperature) recorded during the friction experiments performed by the rotary shear apparatus in Kochi Core Center, JAMSTEC. The system is briefly introduced by Tanikawa et al (2011, https://doi.org/10.1016/j.jsg.2011.08.013). The files of PHV-525-all-T and PHV-526-all-T are modification data of effective normal stress in PHV-525-all and PHV-526-all, respectively. These four data is stored in ks2 format.
To open ks2 file that were retrieved by an universal recorder EDX100 (https://www.kyowa-ei.com/eng/product/category/acquisition/edx-100a/index.html), you need data analysis software DAS200 (https://www.kyowa-ei.com/eng/support/download/software_program/license/das-200a_soft_01.36_01_eng.html).
“Data from confocal laser scanning microscope” file is the data retrieved by a confocal laser scanning microscope (OPTELICS®HYBRID, Lasertec Corporation) to obtain surface roughness parameters before and after the friction tests.
A sheet of "CCT474_flow" is the summarized permeability data of Belfast dolerite
Dataset for "Evolution of Water Transmissivity for Low Permeable Fault Induced by Frictional Sliding at Slow to Fast Slip Velocity with Large Shear Displacement"
No full textDescription of the dataset for “Evolution of Water Permeability for Low Permeable Fault Induced by Frictional Sliding at Slow to Fast Slip Velocity with Large Shear Displacement”
This dataset provides the data that is related to the paper of “Description of the dataset for “Evolution of Water Permeability for Low Permeable Fault Induced by Frictional Sliding at Slow to Fast Slip Velocity with Large Shear Displacement” submitted to academic paper. The dataset contains
PHV-525-all
PHV-526-all
PHV-525-all-T
PHV-526-all-T
Data from confocal laser scanning microscope
CCT474_flow
PHV568-original mechanical data-csv
PHV568 for Fig11_dry friction
The files of PHV-525-all and PHV-526-all are all the data (mechanical data, velocity, flow rate, temperature) recorded during the friction experiments performed by the rotary shear apparatus in Kochi Core Center, JAMSTEC. The system is briefly introduced by Tanikawa et al (2011, https://doi.org/10.1016/j.jsg.2011.08.013). The files of PHV-525-all-T and PHV-526-all-T are modification data of effective normal stress in PHV-525-all and PHV-526-all, respectively. These four data is stored in ks2 format.
To open ks2 file that were retrieved by an universal recorder EDX100 (https://www.kyowa-ei.com/eng/product/category/acquisition/edx-100a/index.html), you need data analysis software DAS200 (https://www.kyowa-ei.com/eng/support/download/software_program/license/das-200a_soft_01.36_01_eng.html).
“Data from confocal laser scanning microscope” file is the data retrieved by a confocal laser scanning microscope (OPTELICS®HYBRID, Lasertec Corporation) to obtain surface roughness parameters before and after the friction tests.
A sheet of "CCT474_flow" is the summarized permeability data of Belfast dolerite
Cyclosa hamulata Tanikawa 1992
No full textCyclosa hamulata Tanikawa, 1992 Tanikawa, 1992; f. 119-130. Material examined: 1 ♀, [21] Khasan Distr., env. of Andreevka Vill., 42º35-36'N 131º13'E,.11- 15.08.1998, YM. COMMENTS. Reported from this area asC. a trata Bosenberg & Strand, 1906 [Mikhailov, 1997, cf. Mikhailov, 1999].Published as part of Marusik, Yuri M. & Koponen, Seppo, 2000, New data on spiders (Aranei) from the Maritime Province, Russian Far East, pp. 55-68 in Arthropoda Selecta 9 (1) on page 56, DOI: 10.5281/zenodo.82271
Araneus matsumotoi Suzuki & Tanikawa 2021, new species
No full textAraneus matsumotoi new species Figs. 2–15 Type series. Holotype: male (NSMT-Ar 20952), Takahata-cho, Nara-shi, Nara Pref., collected as a juvenile on 29-V-2019 and matured on 25-IX-2019 under rearing, R. Matsumoto leg. Paratypes: 1 female (NSMT-Ar 20953), Lake Tazawa, Senboku-shi, Akita Pref., 18-VIII-1990, S. Tazoe leg.; 2 females and 3 males, same locality as the holotype [1 male (NSMT-Ar 20954), collected as a subadult on 2-V-2020 and matured on 25-V-2020 under rearing; 1 female (NSMT-Ar 20955), collected as a juvenile on 20-VI-2020 and matured on 24-VI-2020 under rearing, scape of epigynum incompletely formed; 2 males (NSMT-Ar 20956-20957), collected as juveniles on 29-V-2019 and matured on 3-VI-2020 and 17- VI-2020 under rearing; 1 female (NSMT-Ar 20958), 15-VII-2020], R. Matsumoto leg.; 1 female (NSMT-Ar 20959), Amedaki, Tottori-shi, Tottori Pref., collected as a juvenile on 14-VII-2019, and matured on 17-VI-2020 under rearing, Y. Obae leg.; 1 male (NSMT-Ar 20960; COI haplotype: AMT01), Kitazato, Izuhara-machi, Tsushima-shi, Nagasaki Pref., collected as a juvenile on 25-VIII-2018 and matured on 31-I-2019 under rearing, K. Terada leg. Additional specimens examined. 1 female, Sagayama, Ôtoyo-cho, Nagaoka-gun, Kochi Pref., collected as a juvenile on 3-V-2021 and matured on 23-V-2021 under rearing, R. Serita leg. 1 male (both palps were incompletely formed), Ogawa, Sekimoto-cho, Kita-ibaraki-shi, Ibaraki Pref., collected as juvenile on 19-VII-2020 and matured on 4-V-2021 under rearing, K. Nishiura leg. 1 male, Amedaki, Tottori-shi, Tottori Pref., collected as a juvenile on 4-XI-2020, and matured on 16-IV-2021 under rearing, Y. Suzuki leg. Etymology. The specific name is dedicated to Rikio Matsumoto, who provided us with many invaluable specimens of the new species. Diagnosis. The new species resembles A. seminiger (L. Koch 1878) in appearance (also see Ono 2002 & Tanikawa 2001), but can clearly be distinguished by the combination of the following body color and marking characters: the carapace of the new species is uniformly covered with gray hairs when living, whereas it is reddish brown in A. seminiger; legs and abdomen of the fresh specimens are dark green, similar to green moss (Bryophyta), whereas those of A. seminiger are whitish green, resembling Parmotrema lichen (Parmeliaceae); a light green chevron marking edged with black is present between the shoulder humps, whereas it is absent in A. seminiger (Figs. 2, 3). The new species can also be differentiated from A. seminiger based on the following characters: a wide unsclerotized area on the tip of subterminal apophysis (unsclerotized area is very narrow in A. seminiger); a thin sclerotized appendix on the posterior side of subterminal apophysis (Figs. 4, 5; 11, 12, arrows; the appendix is absent in A. seminiger); a longer slender epigynal scape, with outwardly directed copulatory openings (Figs. 6–8, 13, 14; epigynal scape of A. seminiger is shorter and wider than that of the new species, and copulatory openings of A. seminiger is directed ventrally). In terms of general appearance (i.e., body coloration and markings), the new species can be distinguished from the morphologically related species A. ventricosus (L. Koch 1878), A. macacus (Uyemura 1961), A. uyemurai Yaginuma 1960, and A. reizan Tanikawa 2020. Although the epigynum of the new species is similar to that of A. reizan, it differs with respect to a deeper invagination on the posterior side of median plate (Figs. 8, 13, 14; A. reizan has a very shallow invagination). Description. Based on the holotype male (NSMT-Ar 20952) and paratype 1 female (NSMT-Ar 20958) from Nara Pref. Measurements and morphology (Figs. 2–15). ♂ / ♀. Body 12.30/17.95 long. Carapace 6.75/7.77 long; 5.34/6.43 wide. Eye size: AME 0.32/0.33; ALE 0.24/0.23; PME 0.22/0.25; PLE 0.19/0.22. Length of legs = [femur + patella + tibia + metatarsus + tarsus = total]. I, 6.82 + 2.65 + 6.75 + 6.20 + 2.18 = 24.60 / 8.47 + 3.58 + 7.72 + 7.69 + 2.93 = 30.39; II, 6.67 + 2.60 + 5.93 + 5.60 + 2.01 = 22.81 / 7.69 + 3.40 + 6.97 + 6.12 + 2.27 = 26.45; III, 4.80 + 1.73 + 3.08 + 2.92 + 1.47 = 14.00 / 5.64 + 2.37 + 3.74 + 3.14 + 1.56 = 16.45; IV, 6.90 + 2.40 + 5.03 + 4.86 + 1.69 = 20.88 / 7.62 + 3.35 + 5.90 + 5.37 + 1.65 = 23.89. Apophysis with a long pedestal developed on prolateral side of male tibia II (Fig. 9) and sharp projection on ventral side of coxa II (Fig. 10). Abdomen 6.43/10.51 long; 5.77/9.96 wide. A pair of shoulder humps well developed. Coloration and markings (Figs. 2, 3). Coloration: when living/specimens fixed in ethanol, respectively. Carapace gray/dark yellowish brown with black markings and spots on cervical grooves, redial furrows, and fovea. Sternum pale green/light yellowish brown. Legs pale green with dark green ring bands/light yellowish brown with dark brown ring bands; ventral side of coxae black/dark yellowish brown. Dorsum of abdomen dark green/light green and yellowish brown with black folium; internal area of folium darker; green chevron marking edged with black between humps; two pairs of large sigilla on dorsum; ventral side of abdomen light yellowish brown with pair of light yellowish spots. Genital organs. Male palp (Figs. 4, 5, 11, 12): tip of terminal apophysis sclerotized and sharp; conductor strongly sclerotized with bent tip; subterminal apophysis with wide unsclerotized area and sharp thin sclerotized appendix on posterior margin; embolus hidden under subterminal apophysis and conductor; median apophysis transverse with prolateral tip pointed and retrolateral tip truncated; paracymbium hook-like with blunt tip. Female genitalia (Figs. 6–8, 13–15): scape slender with apical half sclerotized and basal half wrinkled; median plate rounded with deep invagination on posterior edge, looking like inverted heart shaped from ventral view; lateral plates strongly sclerotized; copulatory openings outwardly directed. Variation (5 males and 3 females). Male body length 11.24–12.30; female body length 14.30–17.95. Distribution. The Honshu, Shikoku and Tsushima Islands, Japan. Habitat. The new species inhabits deciduous and evergreen forests, in which specimens are often found in green moss on the bark and trunks of trees during the daytime.Published as part of Suzuki, Yuya & Tanikawa, Akio, 2021, A new species of the genus Araneus (Araneae: Araneidae) from Japan, pp. 591-596 in Zootaxa 5052 (4) on pages 592-595, DOI: 10.11646/zootaxa.5052.4.9, http://zenodo.org/record/557738
Une stratégie poétique : le cas de Shuntarô Tanikawa
No full textDans le cadre d’un volume concernant les changements apportés à des formes poétiques régulières, est-il possible de parler de la poétique de Tanikawa ? De plus, Tanikawa et ses poèmes sont-ils adaptés à un chapitre concernant les croisements franco-japonais de la poésie moderne ? Je pose ici la question car, normalement, on n’a pas l’habitude de parler de sa poésie selon ces catégories. Mais aujourd’hui, nous allons essayer d’analyser le monde poétique de Tanikawa dans cette perpective. 1. Ta..
Analisis Penggunaan Gaya Bahasa Perbandingan dalam Puisi Karya Shuntaro Tanikawa
Full text linkPenelitian ini berjudul Analisis Penggunaan Gaya Bahasa Perbandingan Dalam Puisi Karya Shuntaro Tanikawa. Tujuan penelitian ini untuk mendeskripsikan gaya bahasa perbandingan apa saja yang ditemukan dalam puisi karya Shuntaro Tanikawa, besrta makna dari penggunaan gaya bahasa perbandingan tersebut. Teori yang digunakan dalam penelitian ini adalah teori stilistika oleh Halliday. Jenis penelitian ini adalah deskriptif kualitatif dengan teknik pengumpulan data simak dan catat. Data dalam penelitian ini berupa bait puisi dari Shuntaro Tanikawa. Jumlah data penelitian ini sebanyak 20 data. Analisis data dilakukan dengan meneliti puisi karya Shuntaro Tanikawa dan mengambil bait puisi yang mengandung gaya bahasa perbandingan. Hasil analisis menunjukkan bahwa ditemukan empat jenis gaya bahasa yaitu majas simile, majas metafora, majas personifikasi dan majas pleonasme dan tautologi. Pada penelitian ini ditemukan bahwa gaya bahasa perbandingan yang paling sering digunakan adalah majas personifikasi, dengan makna penggunaan yang relatif sama yaitu untuk menunjukkan rendahnya manusia. Hal ini selaras dengan tema puisi yang paling sering ia gunakan yakni metafisika dan semi-religius, serta ayah dari Shuntaro Tanikawa yang merupakan seorang filsuf terkemuka yang membuat kesinambungan dari pemilihan tema dan gaya bahasa perbandingan yang digunakan dalam puisi-puisinya
Bushū yakusō gohyakuhin.
No full textBotanical specimens, collected by one Gennosuke and mounted, with manuscript title, captions and preface, by Tanikawa Wataru.Mode of access: Internet
Data for: Provenance of submerged stone pillars in an earthquake and typhoon hazard zone, coastal Tosashimizu, southwest Japan: A multidisciplinary geological approach
No full textThis research data file contains supplementary figures and table that are referred to, but not included, in the article. The methods used to obtain the data shown in the figure and the tables are described in the article
Makna Puisi Kotoba (言葉) Karya Tanikawa Shuntaro: Analisis Semiotika Riffa Terre
Full text linkAbstrak - Penelitian ini bertujuan untuk untuk menemukan makna dalam puisi Kotoba karya Tanikawa Shuntaro. Teori yang digunakan dalam penelitian ini adalah semiotika dari Michael Riffaterre, yang meliputi proses pembacaan heuristik, lalu pembacaan hermeneutik berupa pencarian hipogram potensial, yang dilanjutkan dengan analisis matriks, model, dan hipogram aktual yang mengarah pada tujuan akhir penelitian ini yaitu penemuan makna pada puisi ini. Dari hasil analisis diperoleh kesimpulan bahwa tanda yang ada dalam puisi Kotoba karya Tanikawa Shuntaro memusat pada sebuah makna yaitu ‘ikatan’ yang terepresentasi dari kata kotoba yang bermakna ‘kata’. Kata Kunci – Puisi, Kotoba, Shuntaro Tanikawa, semiotika, RiffaterreAbstract - This research aims to find meaning in Kotoba poetry written by Shuntaro Tanikawa. The theory used in this research is the semiotics of Michael Riffaterre, which includes the aspects of heuristic and hermeneutic reading, the analysis of potential hipogram, which is followed by the analysis of the matrix, the model, and the actual hipogram that lead to the ultimate goal of this research which is the discovery of the meaning of this poetry. The results show that the sign in this poetry focuses on a meaning which is 'bond'. This meaning is represented from kotoba word which means ' word' . Keywords - Poetry, Kotoba, Shuntaro Tanikawa, semiotics, Riffaterre
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