13,995 research outputs found
Prof. Dr. M. Suresh Kumar
No full textDr.M. Suresh Kumar is holding 16 years’ experience, he is working as Professor & Head in the Dept. of Aerospace Engineering, Sandip University, Nashik. His research interests include: Avionics, Navigation, Guidance and Control. He has multiple publications to his credits. He introduced that emerging technologies include a variety of technologies such as educational technology, information technology, nanotechnology, biotechnology, cognitive science, robotics, and artificial intelligence during a guest lecture on ““Emerging Technologies” organized by Department of basic Engineering Sciences.https://www.interscience.in/mentors/1107/thumbnail.jp
FIGURE 4 in First molecular and morphometric data for the genus Allmania (Amaranthaceae), with the description of a new species from India
No full textFIGURE 4. Box plots showing the variability of the diagnostic characters between Allmania sp. and A. nodiflora: A) length of tepals (mm), B) width of gynoecium (mm), C) diameter of seeds (mm), D) length of bracts (mm), E) length of peduncle (mm), F) number of flowers per synflorescence.Published as part of Sindhu, Arya, Iamonico, Duilio, Suresh, Veerankutty & Kumar, Venugopalan Nair Saradhamma Anil, 2022, First molecular and morphometric data for the genus Allmania (Amaranthaceae), with the description of a new species from India, pp. 221-237 in Phytotaxa 559 (3) on page 226, DOI: 10.11646/phytotaxa.559.3.1, http://zenodo.org/record/702167
Allmania multiflora V. S. A. Kumar, V. Suresh, S. Arya, & Iamonico 2022, sp. nov.
No full textAllmania multiflora V.S.A.Kumar, V.Suresh, S.Arya, & Iamonico sp. nov. (Figs. 7–8). Type:— INDIA. Kerala, Palakkad district, way to Kollengode, ± 160 m, 10°35’34.2”N 76°42’48.1”E, 18 May 2019, Suresh & Anil Kumar 2850 (holotype UCBD; isotype CALI!, KFRI!, RO!). Diagnosis (Table 7):— Allmania multiflora differs from A. nodiflora in having shorter tepals (2.2–2.5 mm and ovatelanceolate vs. 3.3–3.6 mm long and linear-lanceolate), wider gynoecium [(0.3–) 0.4–0.5 mm vs. 0.2–0.3(–0.4) mm long], the diameter of the seeds (1.5–1.9 mm vs. 2.9–3.7 mm), shorter bracts (1.0– 1.2 mm vs. 2.0– 2.4 mm long), shorter and pubescent peduncle (1.0– 1.3 cm long, pubescent with pointed hairs vs. 2.0– 2.7 cm long, glabrous or sparsely pubescent), a higher number of flowers per inflorescence [(15–)30–44 vs. 3–10), stigma pinkish or violet, protruding beyond the anthers (vs. green, not protruding), hairiness of the seeds (highly pubescent vs. glabrous), aril with protruding setae (vs. without setae). Description (Figs. 7–9):—Annual herb, erect or ascending with branches arising from the base, up to 60 cm long. Stem red to violet at the base, green in the rest, pubescent. Stipules hard and deciduous. Leaves ovate-elliptic or lanceolate (1.0–2.5 × 0.5–1.5 mm), apex obtuse or acute, base attenuate, pubescent at the margin and adaxial surface, veined (5–7 pairs of lateral arcuate veins), petioled (0.5–1.0 cm long). Inflorescence in cymose heads, leaf opposed, peduncled, peduncle 1.0– 1.3 cm long, pubescent. Flowers (15–)30–44 per inflorescence; bracts ovate-lanceolate to linear-lanceolate, 1.0– 1.2 mm long, pubescent, with membranous border, abruptly interrupted at about the half (bracts awned), eglandular; bracteoles lanceolate to narrowly ovate, 2.9–3.6 × 0.5–0.8 mm, awned, pubescent outside at the distal part, glabrous at margins. Tepals 5 lanceolate 5.7–7.3 × 0.5–0.7 mm. Stamens 5, 0.6–2.0 cm long, glabrous, creamy white; filaments basally connate, forming a rim around the gynoecium. Pollen polypantoporate, 15–18 µm in size, pores 2–3, pollen surface spinulose. Ovary ovoid, 4.3–5.8 × (0.3–) 0.4–0.5 mm, usually white (sometimes greenish), glabrous; style 0.1–0.2 cm long, extending beyond the filaments, glabrous; stigma capitate, pinkish-violet. Fruits utricle, light green to white, 1.4–2.0 × 0.6–0.8 mm. Seeds ovate, 1.5–1.9 × 1.7–2.1 mm in size, brownish-black, with aril at the base having protruding setae, surface densely pubescent. Etymology:— The new species name refers to the characteristic occurrence of many flowers in a single glomerule. Distribution (fig. 10), habitat, and phenology:— Allmania multiflora is known from few locations in SW-India (Kerala State), at 1000–1250 m of elevation. The distribution area of the new species partially overlaps that of A. nodiflora in Palakkad and Thiruvananthapuram districts. It grows in open areas of the granite hillocks with 25–30 scattered individuals per population. Each population spreads over an area of nearly 1–2 m 2. Flowering and fruiting times are May to September. Conservation status:— The plant propagates mainly through seeds (rarely by rooting at stem nodes). The number of individuals is very few and prone to severe grazing and repeated fire. The exploitation of taxon as a vegetable is another threat, especially by local people along with amaranths. Following the IUCN Red List Guidelines and Criteria (IUCN 2019), Allmania multiflora is assessed as Critically Endangered (ER) in the category [B2a,b(iii,v)] since AOO is about 30 m 2, locations are 4, and decline observed in the quality of the habitat (iii). Selected specimen examined(paratypes):— INDIA. Kerala. Palakkad district, Kaliyampara, 110m, 10°35’01.8”N 76°43’54.0”E, 11 June 2019, Suresh, Anil Kumar & Arya 2098 (TBGT!, RO!); Kerala. Palakkad district, Idachira 110 m, 10°35’38.4”N 76°43’40.4”E, 10 June 2019, Suresh, Anil Kumar & Arya 2089 (CALI!); Kerala. Palakkad district, Nemmeni 110 m, 10°35’26.8”N 76°42’47.6”E, 11 July 2019, Anil Kumar & Arya 3433 (TBGT!); Kerala. Palakkad district, Chuttichira 110 m, 10°36’01.6”N 76°43’06.5”E, 14 July 2019, Suresh 510 (CALI!).Published as part of Sindhu, Arya, Iamonico, Duilio, Suresh, Veerankutty & Kumar, Venugopalan Nair Saradhamma Anil, 2022, First molecular and morphometric data for the genus Allmania (Amaranthaceae), with the description of a new species from India, pp. 221-237 in Phytotaxa 559 (3) on pages 230-234, DOI: 10.11646/phytotaxa.559.3.1, http://zenodo.org/record/702167
Numerical study of drying in porous media
No full textMagdeburg, Univ., Diss., 2007 (Nicht für den Austausch)von Suresh Kumar Nadupur
A new species of Xestophrys Redtenbacher, 1891 (Orthoptera: Tettigoniidae; Conocephalinae; Copiphorini) from West Bengal, India
No full textKumar, Hirdesh, Chand, D. Suresh (2023): A new species of Xestophrys Redtenbacher, 1891 (Orthoptera: Tettigoniidae; Conocephalinae; Copiphorini) from West Bengal, India. Zootaxa 5361 (4): 585-589, DOI: 10.11646/zootaxa.5361.4.9, URL: https://www.mapress.com/zt/article/download/zootaxa.5361.4.9/5221
Supreme Court of India, Civil Appellate Jurisdiction, décision du 11 décembre 2013, Suresh Kumar Koushal and another c. NAZ Foundation and others
No full textSupreme Court of India, Civil Appellate Jurisdiction, décision du 11 décembre 2013, Suresh Kumar Koushal and another c. NAZ Foundation and others. In: Revue internationale de droit comparé. Vol. 66 N°1,2014. p. 152
Voluntary carbon markets are helpful but far from perfect
No full textVoluntary carbon markets are an important tool in the fight against climate change, but several issues make them less effective. Carbon offsets often overstate emissions reductions, and firms use these as a cheaper alternative to investing in real, tangible emissions reductions in their own supply chains. Ram Smaran Suresh Kumar summarises the key issues with these markets and outlines important reforms they need
sj-pdf-1-jhi-10.1177_14604582211043920 – Supplemental material for An HL7 FHIR and GraphQL approach for interoperability between heterogeneous Electronic Health Record systems
No full textSupplemental material, sj-pdf-1-jhi-10.1177_14604582211043920 for An HL7 FHIR and GraphQL approach for interoperability between heterogeneous Electronic Health Record systems by Suresh Kumar Mukhiya and Yngve Lamo in Health Informatics Journal</p
sj-HEIC-1-jhi-10.1177_14604582211043920 – Supplemental material for An HL7 FHIR and GraphQL approach for interoperability between heterogeneous Electronic Health Record systems
No full textSupplemental material, sj-HEIC-1-jhi-10.1177_14604582211043920 for An HL7 FHIR and GraphQL approach for interoperability between heterogeneous Electronic Health Record systems by Suresh Kumar Mukhiya and Yngve Lamo in Health Informatics Journal</p
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