728 research outputs found
FIGURE 9, 10. 9 in Vespidae (Hymenoptera) of the Pothwar region of Punjab, Pakistan
FIGURE 9, 10. 9. Eumenes papillarius, metasoma, lateral view. 10. Allorhynchium argentatum, fore wing.Published as part of Siddiqui, Junaid Ali, Bodlah, Imran, Carpenter, James M., Naeem, Muhammad, Ahmad, Munir & Bodlah, Muhammad Adnan, 2015, Vespidae (Hymenoptera) of the Pothwar region of Punjab, Pakistan, pp. 501-524 in Zootaxa 3914 (5) on page 504, DOI: 10.11646/zootaxa.3914.5.1, http://zenodo.org/record/24173
Early transcriptional response of terpenoid metabolism to Colletotrichum gloeosporioides in a resistant wild strawberry Fragaria nilgerrensis
Mehmood, Nasir, Yuan, Yuan, Ali, Mohammed, Ali, Muhammad, Iftikhar, Junaid, Cheng, Chunzhen, Lyu, Meiling, Wu, Binghua (2021): Early transcriptional response of terpenoid metabolism to Colletotrichum gloeosporioides in a resistant wild strawberry Fragaria nilgerrensis. Phytochemistry (112590) 181: 1-12, DOI: 10.1016/j.phytochem.2020.112590, URL: http://dx.doi.org/10.1016/j.phytochem.2020.11259
FIGURES 15, 16. Metasoma, lateral view. 15. Eumenes punctatus. 16. E in Vespidae (Hymenoptera) of the Pothwar region of Punjab, Pakistan
FIGURES 15, 16. Metasoma, lateral view. 15. Eumenes punctatus. 16. E. papillarius.Published as part of Siddiqui, Junaid Ali, Bodlah, Imran, Carpenter, James M., Naeem, Muhammad, Ahmad, Munir & Bodlah, Muhammad Adnan, 2015, Vespidae (Hymenoptera) of the Pothwar region of Punjab, Pakistan, pp. 501-524 in Zootaxa 3914 (5) on page 506, DOI: 10.11646/zootaxa.3914.5.1, http://zenodo.org/record/24173
FIGURE 23. Allorhynchium argentatum. a. Head, frontal view. d in Vespidae (Hymenoptera) of the Pothwar region of Punjab, Pakistan
FIGURE 23. Allorhynchium argentatum. a. Head, frontal view. d. ♀, lateral view.Published as part of Siddiqui, Junaid Ali, Bodlah, Imran, Carpenter, James M., Naeem, Muhammad, Ahmad, Munir & Bodlah, Muhammad Adnan, 2015, Vespidae (Hymenoptera) of the Pothwar region of Punjab, Pakistan, pp. 501-524 in Zootaxa 3914 (5) on page 511, DOI: 10.11646/zootaxa.3914.5.1, http://zenodo.org/record/24173
Polistinae
Subfamily Polistinae Polistinae or paper wasps consist of more than 900 species throughout the world in 25 genera (West-Eberhard et al. 2006, Pickett & Carpenter 2010).Published as part of Siddiqui, Junaid Ali, Bodlah, Imran, Carpenter, James M., Naeem, Muhammad, Ahmad, Munir & Bodlah, Muhammad Adnan, 2015, Vespidae (Hymenoptera) of the Pothwar region of Punjab, Pakistan, pp. 501-524 in Zootaxa 3914 (5) on page 512, DOI: 10.11646/zootaxa.3914.5.1, http://zenodo.org/record/24173
Anterhynchium
Genus Anterhynchium de Saussure, 1863 Anterhynchium de Saussure, 1863: 205, name for division I of genus Rhynchium Spinola in de Saussure, 1852: 103, and 1855: 175. Type species: Rygchium [= Rhynchium] synagroides de Saussure, 1852, by subsequent designation of van der Vecht 1963: 73.Published as part of Siddiqui, Junaid Ali, Bodlah, Imran, Carpenter, James M., Naeem, Muhammad, Ahmad, Munir & Bodlah, Muhammad Adnan, 2015, Vespidae (Hymenoptera) of the Pothwar region of Punjab, Pakistan, pp. 501-524 in Zootaxa 3914 (5) on page 510, DOI: 10.11646/zootaxa.3914.5.1, http://zenodo.org/record/24173
Allorhynchium
Genus <i>Allorhynchium</i> van der Vecht, 1963 <p> <i>Allorhynchium</i> van der Vecht, 1963: 57 (key), 58. Type species: <i>Vespa argentata</i> Fabricius, 1804, by original designation.</p>Published as part of <i>Siddiqui, Junaid Ali, Bodlah, Imran, Carpenter, James M., Naeem, Muhammad, Ahmad, Munir & Bodlah, Muhammad Adnan, 2015, Vespidae (Hymenoptera) of the Pothwar region of Punjab, Pakistan, pp. 501-524 in Zootaxa 3914 (5)</i> on page 510, DOI: 10.11646/zootaxa.3914.5.1, <a href="http://zenodo.org/record/241739">http://zenodo.org/record/241739</a>
Vespinae
Subfamily Vespinae Vespinae include hornets, yellow jackets and small nocturnal wasps (Provespa). This subfamily had 67 species belonging to 4 genera in the checklist by Carpenter and Kojima (1997), but Holarctic species are no longer recognized (Kimsey & Carpenter 2012), so that there are now 71 species.Published as part of Siddiqui, Junaid Ali, Bodlah, Imran, Carpenter, James M., Naeem, Muhammad, Ahmad, Munir & Bodlah, Muhammad Adnan, 2015, Vespidae (Hymenoptera) of the Pothwar region of Punjab, Pakistan, pp. 501-524 in Zootaxa 3914 (5) on page 517, DOI: 10.11646/zootaxa.3914.5.1, http://zenodo.org/record/24173
Eumeninae
Subfamily Eumeninae The wasps of the subfamily Eumeninae, commonly known as potter wasps, are the most diverse subfamily of Vespidae, with over 200 genera recognized, and include the majority of the species in this family (above 3600 species from the total of over 5000 in the entire family). There is vast morphological diversity in the species of potter wasps.Published as part of Siddiqui, Junaid Ali, Bodlah, Imran, Carpenter, James M., Naeem, Muhammad, Ahmad, Munir & Bodlah, Muhammad Adnan, 2015, Vespidae (Hymenoptera) of the Pothwar region of Punjab, Pakistan, pp. 501-524 in Zootaxa 3914 (5) on page 503, DOI: 10.11646/zootaxa.3914.5.1, http://zenodo.org/record/24173
Thermal management of electronics: An experimental analysis of triangular, rectangular and circular pin-fin heat sinks for various PCMs
This study implies experimental investigation for optimization of heat transfer in electronic integrated circuits using close packed phase change materials (PCMs) filled pin-fin heat sinks. The aim of this study is to find the most efficient pin-fin configuration filled with optimum PCM to extend the operating range of electronic circuits. The experimental methodology is based upon variation of pin-fin configurations in rectangular, round and triangular cross-sections. Each configuration is allowed a pin-fin volumetric percentage of 9%. For analysis using PCM a volume fraction of 90% is maintained and six PCMs with different thermo-physical properties (varying melting temperatures, latent heats and heat capacities) are selected. These include paraffin wax, RT-54, RT-44, RT-35HC, SP-31 and n-eicosane. Moreover, the power levels mimicking heat input range between 5 W and 8 W. The resulting information is analyzed for the performance of a heat sink with and without PCM. Besides that, PCM ascendency is manipulated in terms of operational time, enhancement ratios, Stefan number and storage ratio. The outcomes suggest that triangular pin-fins are found to be the most effective pin-fin configuration for heat transfer both with and without PCM
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