Parahesione dudahamra sp. nov., an eye-catching symbiotic worm from the Red Sea, with complementary description and notes on Leocrates giardi Gravier, 1900 (Annelida: Phyllodocida: Hesionidae).

IWMSE2019 Committee ListHonor ChairProf. Ke Wang, East China University of Technology (ECUT), ChinaKeynote SpeakersProf. Ke Wang, East China University of Technology, Nanchang, ChinaProf. Rangsu Liu, Hunan University, ChinaProf. Chen Hsu, Lungwha University of Science and Technology, TaiwanProf. Chen-Kuei Chung, National Cheng Kung University, TaiwanEditorProf. Ke Wang, East China University of Technology (ECUT), ChinaProf. Chen Hsu, Lungwha University of Science and Technology, TaiwanTechnical Program CommitteesDr. Elżbieta Macioszek, Silesian University of Technology, PolandProf. Partha Pratim Das, Haldia Institute of Technology, IndiaProf. Muchun Wang, Minghsin University of Science and Technology, TaiwanDr. Wesley Huang, National Kaohsiung First University of Science and Technology, TaiwanDr. Fraj Alshmri, PMU Prince Mohmed bin Fahd University, Saudi ArabiaProf. Yung Ting, Chung Yuan Christian University, TaiwanDr. Shiang-Cheng Jeng, Taipei City University of Science and Technology, TaiwanProf. A. Geetha Selvarani, Vel Tech University, IndiaDr. Bashir Ahmad Dar, Higher education Govt. of J&K India, IndiaDr. Pravanjan Mallick, North Orissa University, IndiaProf. Tarek A. Mohamed, Faculty of Science, Al Azhar University, EgyptDr. Corneliu Doroftei, Alexandru Ioan Cuza University of Iasi, RomaniaProf. Faheem Uddin, Dadabhoy Institute of Higher Education, PakistanDr. José Luís Barroso de Aguiar, University of Minho, PortugueseDr. Daohai Zhang, Guizhou University, ChinaDr. Muhammad Hafidz Fazli Bin Md Fauadi, Universiti Teknikal Malaysia Melaka, MalaysiaDr. Justo García Sanz-Calcedo, University of Extremadura, SpainProf. Chen Hsu, Lungwha University of Science and Technology, TaiwanProf. Vijayan Gurumurthy Iyer, University, DEBM-EDII Cell, Vaddeswaram, Guntur District, Andhra Pradesh, IndiaPengr. A. Ruth Fernandez-Akarregi, IK4-Ikerlan Research Technological Center, SpainProf. Fernando B. Naranjo, University of Alcalá (UAH) Alcalá de Henares, Madrid, SpainDr. Qing Li, Donghua University, ChinaDr. Murat Eyvaz, Gebze Technical University, TurkeyDr. Soumya Mukherjee, Amity University Kolkata, IndiaDr. Yu-Lin (Eugene) Song, Asia University, TaiwanDr. Houxiao Wang, Jiangsu University, ChinaProf. Athir M.Haddad, University of Basrah, IraqDr. Marcela Elisabeta BARBINTA-PATRASCU, University of Bucharest, RomaniaProf. Denis Rodrigue, Université Laval, CanadaProf. Zaobao Liu, Northeastern University, ChinaDr. Beya Ouertani, Borj-Cedria Science and Technology Park, TunisiaDr. V.Arumugaprabu, Kalasalingam University, IndiaProf. Osman ADIGUZEL, Firat University, TurkeyDr. Karol Kyzioł, AGH University of Science and Technology, PolandDr. Bonifacio Llamazares, Universidad de Valladolid, SpainDr. Jose Miguel Acarregui, University of the Basque Country, SpainDr. Ivana Atanasovska, Mathematical Institute of the Serbian Academy of Sciences and Arts (SASA), SerbiaDr. Dejan B. Momčilović, Institute for testing of materials IMS, SerbiaDr. S.Vijayarani, Bharathiar University, IndiaProf. Chen-Kuei Chung, National Cheng Kung University, TainanProf. Ke Wang, East China University of Technology, ChinaDr. Ivo Stachiv, Harbin Institute of Technology - Shenzhen School (HITSZ), ChinaProf. Samir Ladaci, National Polytechnic School of Constantine, AlgeriaDr. Ressol R. Shakir, University of Thi-Qar, IraqProf. Abdel Ghani Aissaoui, University of Bechar, AlgeriaDr. Timur Sh. Atabaev, Nazarbayev University, KazakhstanDr. Jaswinder Singh, Panjab University, IndiaDr. Roberto Pablo Orosco, The National Scientific and Technical Research Council (CONICET), ArgentinaDr. Shengli Jin, Wuhan University of Science and Technology, ChinaProf. Maria Giovanna Buonomenna, Consiglio Nazionale dei Chimici (CNC), ItalyDr. Aminu Umar, Abubakar Tafawa Balewa University, NigeriaDr. Slawomir Zolkiewski, Sielsian University of Technology, PolandProf. Dan Dobrota, Lucian Blaga University of Sibiu, RoamniaDr. Bo-Lian Chen, DEEPLEARNING.AI, USAProf. Farid ABED-MERAIM, Arts et Métiers ParisTech, Metz, FranceProf. N.Ethiraj, M.G.R Educational and Research Institute, Madhuravoyal, Chennai, IndiaDr. Grzegorz Woroniak, Bialystok University of Technology, PolandProf. Helena Cristina Vasconcelos, Azores University, PortugalProf. Xiao Huang, Tongren University, Guizhou, ChinaDr. Adnène Arbi, Carthage University, TunisiaDr. Bidyut Saha, Burdwan University, IndiaDr. Dariusz Jacek Jakobczak, Koszalin University of Technology, PolandDr. Bappa Acherjee, Birla Institute of Technology (BIT), Mesra, IndiaDr. Nacer RAHAL, Mustapha STAMBOULI University of Mascara, AlgeriaDr. Saurabh Bilgaiyan, Kalinga Institute of Industrial Technology (KIIT), deemed to be University Bhubaneswar, IndiaDr. Riki Patel, Charotar University of Science and Technology, IndiaDr. Zakaria M.M. Gharsseldien, Prince Sattam Bin AbdulAziz University, Saudi ArabiaDr. Orlin Angelov, CL SENES, BAS, SpainDr. Sujatha Unnikrishnan, Department of Civil Engineering, Faculty of Engineering, IndiaProf. Jyotir Moy Chatterjee, Asia Pacific University of Technology & Innovation, Nepal

Equivalent in principle to type localities and type specimens in biology and paleontology, geological type sections and type localities, whether for sedimentary, metamorphic or igneous units, are critically important sites as long-term reference and research localities and for geo-education of students. Unlike type specimens that are housed in museums or established institutions of learning, most geological type sections and localities are in field settings and, if they are not located in National Parks or other reserves with some legislated protection, run the risk of being destroyed, inundated, buried by earthworks or otherwise modified. The history of the geological sciences in Australia is such that a number of type localities, or stratigraphic type sections, have been destroyed by local government actions, or developers through lack of knowledge of their importance, or lack of knowledge of their existence. Examples of the severe modification or loss of type sections include those of the Maxicar beds, the Tims Thicket Limestone and the Eaton Sand. The UK, a leader in the field of Geoconservation and with a number of global stratotype section and point locations as well as many other type sections identified within its borders, provides models for preserving and managing important geological sites and type sections. Whole-of-government and local governments are involved in the registering and protection of important geological sites. Aspects of the UK model may be adapted to help secure geological type sections and localities in Australia. While some type sections and heritage localities are already protected, to improve the level of protection for more sites we propose a long-term, multi-pronged approach: creation of an inventory of all nominated locations; registration of appropriate sites at Local, State or Federal government levels, where current legislation allows; education of landowners and land managers, both government and non-government to highlight the importance of type sections to science; and securing more geological type sections and localities in some form of reserve.

D URING the past year the San Diego Society of Natural History series of reptiles has been augmented by material from northern Lower California collected by Messrs. Chas. F. Harbison and Curtis W. Brown. Included were a number of horned toads from between San Quintin and Punta Prieta (Lat. 290 N.), an area previously unrepresented in collections. These specimens close the last extensive gap in the territorial distribution of available specimens of the conoratum group between Kennett, California, on the north, and Cape San Lucas on the south. It therefore appears opportune to examine this series to determine the validity of the several names which have been proposed for these coastal horned toads, and particularly the relationship between coronatum and blainvillii, the forms found at the southern tip of Lower California, and in upper California, respectively. The following forms have been described: 1835 Agama (Phrynosoma) coronata Blainville, Nouv. Ann. Mus. Hist. Nat. Paris, 4: 284. Type locality Californie (generally assumed to be the Cape Region of Lower California). Type specimen in the Natural History Museum at Paris; collected by P. E. Botta. 1839 Phrynosoma blainvillii Gray, Zool. Beechey's Voyage: 96. Type locality California' (generally assumed to be the vicinity of San Diego, California). Type specimen in the British Museum; presented to the museum by H. de Blainville. 1893 Phrynosoma cerroense Stejneger, N. Amer. Fauna, No. 7: 187 (foot note). Type locality Cerros (Cedros) Island. Type specimen USNM 11977; collected by L. Belding. 1894 Phrynosoma frontalis Van Denburgh, Proc. Cal. Acad. Sci., Ser. 2, 4: 296. Type locality, Bear Valley, San Benito County, California. Type specimen, Stanford 93; collected by W. W. Price. 1921 Phrynosoma schmidti Barbour, Proc. N. Eng. Zool. Club, 7: 113. Type locality Cerros (Cedros) Island. Type specimen MCZ 15142; collected by W. W. Brown. 1922 Phrynosoma nelsoni Schmidt, Bull. Am. Mus. Nat. Ilist., 46: 666. Type locality, San Quintin, Lower California. Type specimen, AMNH 37585; collected by E. W. Nelson and A. E. Goldman. 1922 Phrynosoma jamesi Schmidt, Bull. Am. Mus. Nat. Hist., 46: 668. Type locality, San Bartolome, Lower California. Type specimen, USNM 64450; collected by H. Townsend. 1932 Phrynosoma ochoterenai Terron, Anales del Inst. Biol., 3: 109. Type locality, Tecate, Lower California. Type specimen from the collection of the National Museum of Natural History, Mexico, D. F.;T collected by J. M. Gallegos.

Objective The aim of the article is to present the involvement of public Higher Education Institutions in Poland in popularizing the idea of sustainable development within the framework of their publishing activities. Methodology In this study, agglomerative clustering approach, which is a representative of the hierarchical method, was used. The distance between selected public Higher Education Institutions in Poland was determined based on the Squared Euclidean Distance. In turn, to estimate the distance between clusters, the Ward method was used. The study used three parameters, constructed from data taken from SciVal: (1) total number of publications, (2) citation count, and (3) field-weighted citation impact. Findings Three groups of Polish public HEIs were distinguished as a result of the cluster analysis that was performed (based on: the total number of publications, the citation count, and the field-weighted citation impact). The most publication-productive were seven technical universities, i.e., Warsaw University of Technology, Gdansk University of Technology, Silesian University of Technology, AGH University of Science and Technology, Lodz University of Technology, Poznan University of Technology, and Wroclaw University of Science and Technology. The publications prepared by the employees of the universities of technology were also characterized by the highest number of citations. Value Added This article is one of the first to present (in quantitative terms) the involvement of universities in popularizing sustainable energy development concept. The methodology used in it can be applied to the other Sustainable Development Goals. Recommendations Given the increasing importance of the concept of sustainability in the functioning of universities, it seems necessary to create tools to measure the degree of their involvement in popularizing this idea. Among other things, universities are obliged to share their knowledge in this area. Bibliometric data provided by the SciVal system may be helpful in this regard. It is necessary to conduct research taking into account both domestic and foreign universities.

physica status solidi (a)Volume 119, Issue 1 p. K59-K62 Short Note Superconductivity Affected by Zr Doping in Bi2Sr2CaCu2Oy Ceramic Sha Jian, Sha Jian Department of Physics, University of Science and Technology of China, Hefei Search for more papers by this authorLiu Wei, Liu Wei Department of Applied Chemistry, University of Science and Technology of China, Hefei Search for more papers by this authorC. F. Zhu, C. F. Zhu Department of Physics, University of Science and Technology of China, Hefei Search for more papers by this authorS. X. Wang, S. X. Wang Department of Physics, University of Science and Technology of China, Hefei Search for more papers by this authorN. L. Wang, N. L. Wang Department of Physics, University of Science and Technology of China, Hefei Search for more papers by this authorX. A. Cheng, X. A. Cheng Department of Physics, University of Science and Technology of China, Hefei Search for more papers by this authorL. Z. Cao, L. Z. Cao Department of Physics, University of Science and Technology of China, Hefei Search for more papers by this authorZ. J. Cheng, Z. J. Cheng Department of Physics, University of Science and Technology of China, Hefei Search for more papers by this authorZ. Y. Cheng, Z. Y. Cheng Department of Applied Chemistry, University of Science and Technology of China, Hefei Search for more papers by this authorQ. R. Zhang, Q. R. Zhang Department of Physics, University of Science and Technology of China, Hefei Department of Physics, Zhejiang University, Hangzhou Search for more papers by this author Sha Jian, Sha Jian Department of Physics, University of Science and Technology of China, Hefei Search for more papers by this authorLiu Wei, Liu Wei Department of Applied Chemistry, University of Science and Technology of China, Hefei Search for more papers by this authorC. F. Zhu, C. F. Zhu Department of Physics, University of Science and Technology of China, Hefei Search for more papers by this authorS. X. Wang, S. X. Wang Department of Physics, University of Science and Technology of China, Hefei Search for more papers by this authorN. L. Wang, N. L. Wang Department of Physics, University of Science and Technology of China, Hefei Search for more papers by this authorX. A. Cheng, X. A. Cheng Department of Physics, University of Science and Technology of China, Hefei Search for more papers by this authorL. Z. Cao, L. Z. Cao Department of Physics, University of Science and Technology of China, Hefei Search for more papers by this authorZ. J. Cheng, Z. J. Cheng Department of Physics, University of Science and Technology of China, Hefei Search for more papers by this authorZ. Y. Cheng, Z. Y. Cheng Department of Applied Chemistry, University of Science and Technology of China, Hefei Search for more papers by this authorQ. R. Zhang, Q. R. Zhang Department of Physics, University of Science and Technology of China, Hefei Department of Physics, Zhejiang University, Hangzhou Search for more papers by this author First published: 16 May 1990 https://doi.org/10.1002/pssa.2211190152Citations: 1 Anhui, People's Republic of China. Hangzhou, People's Republic of China. AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Share a linkShare onFacebookTwitterLinkedInRedditWechat Citing Literature Volume119, Issue116 May 1990Pages K59-K62 RelatedInformation

Prof. Seongah Chin, College of IT Engineering, Sungkyul Univ., Korea.Prof. Pavel Loskot, Swansea University, UKProf. Yilun Shang, Northumbria University, UKProf. Pawel Kossakowski, Kielce University of Technology, PolandProf. Subhendu Kumar Pani, Orissa Engineering College, IndiaProf. Sérgio I. Lopes, Polytechnic Institute of Vianado Castelo, PortugalProf. Daschievici Luiza, University “Dunarea de Jos” Galati, RomaniaProf. Defu Liu, Ocean university of ChinaProf. Seifedine Kadry, Beirut Arab University, LebanonProf. Mihaela Popescu, University of Craiova, RomaniaDr. Weimo Liu, Google, CA, USAProf. Roohollah Bagherzadeh, Amirkabir University, IranProf. Anand Nayyar, Duy Tan University, VietnamProf. Ilya Simanovskii, Technion-Israel Institute of Technology, IsraelProf. Karim eL Moutaouakil, Polydisciplinary Fuculty of Taza, MorrocoDr. Guillermo Escrivá-Escrivá, Universitat Politècnica de València, SpainProf. Zattera Mekkioui, University of Tlemcen. AlgeriaDr. Lecturer, Lutz Schubert, University of Ulm, GermanyProf. M. Prabukumar, School of IT, Vellore Institute of technology, IndiaDr. Senior researcher, Ladislav Zjavka, Technical University of Ostrava, Czech RepProf. Mădălina Dumitriu, University Politehnica of Bucharest, RomaniaDr. Ateeq ur Rehman, University of Agriculture, PakistanProf. Manu Pratap Singh, Ambedkar University, Khandari Campus, AgraDr. Lecturer, Mihaela Andrei, Dunarea de Jos” University of Galati, IndiaProf. Loc Nguyen, Loc Nguyen’s Academic Network, VietnamProf. J.-R. Poirier, Laplace, University of Toulouse, FranceDr. Loganathan. S, Arba Minch University, EthiopiaProf. Taissir Elganimi, University of Tripoli, LibyaProf. Issam Dawoud, Al-Aqsa University, PalestineProf. Zoltán Ernő Csajbók, University of Debrecen, HungaryProf. Nahid Fatima, Amity University, IndiaProf. Vineet Jain, Mewat Engineering College, IndiaSenior Lecturer, Ioan-Lucian Popa, University Alba Iulia, RomaniaDr. Sarah Samad, Lebanese University, LebanonDr. Merouane SALHI, Blida University, AlgeriaProf. Dejan Dragan, University of Maribor, SloveniaProf. Rémi Léandre, University of Bourgogne, FranceDr. R. DELSHIHOWSALYA DEVI, Bharat Institute of Engineering & Technology, IndiaDr. M.M.KAMRUZZAMAN, Al Jouf University, Saudi ArabiaProf. Takfarinas Saber, School of Computer Science, University College Dublin, IrelandProf. Dariusz Jacek Jakóbczak, University of Gdansk, PolandProf. Khadir Mohamed Tarek, University of Badji Mokhtar, AlgeriaDr. Ray-Hwa Wong, Industrial Technology Research Institute, Taiwan, R.O.C.Dr. M. MADHIARASAN, Bharat Institute of Engineering and Technology, IndiaProf. Ayeley P. TCHANGANI, Université Toulouse, FranceProf. Gorakh Nath Chaurasia, Motilal Nehru National Institute of Technology Allahabad, IndiaProf. S.Balakrishnan, Sri Krishna College of Engineering and Technology, IndiaDr. Kotapally Harish Kumar, IIT Roorkee, IndiaDr. Shikha Kumari, Jawaharlal Nehru University, IndiaProf. Hasan AYDOGAN, Selcuk University, TurkeyProf. Hua Yi Lin, China University of Technology, TaiwanDr. Paria Assari, Islamic Azad University, Hamadan Branch IranProf. Elżbieta Macioszek, Silesian University of Technology, PolandProf. Manoj Kumar Patra, National Institute of Technology Rourkela, IndiaDr. A.Venkata Subramanian, Anna University, IndiaDr. Sajib Chakraborty, Vrije Universiteit Brussel, BelgiumProf. Najmeh Neysani Samany, University of Tehran, IranDr. Chaoxian Wu, University of Liverpool, UKDr. Omid Aminoroayai Yamani, K. N. Toosi University of Technology, IranDr. Grzegorz Woroniak, Bialystok University of Technology, PolandProf. Grande Nagajyothi, Dept.of Micro & Nanoelectronics SENSE School, IndiaDr. Mohamad Nejat, Fasa University,IranDr. Arun Kishor Johar, Malaviya National Institute of Technology Jaipur, IndiaDr. Konstantinos M. Giannoutakis, Centre for Research and Technology Hellas, GreeceDr. Ertugrul Dogruluk, Centro Algoritmi / University of Minho-PortugalProf. Galkowski Krzysztof, University of Zielona Gora, PolandProf. Stefan SEGLA, Faculty of Mechanical Engineering, SLOVAKIADr. Shamsa Kanwal, Fatima Jinnah Women University, PakistanDr. Nelson Méndez Lianes, University of Havana, Cuba.Dr. Salem Sati, Misurata University, LibyaDr. Mohamed El-Amine SLIMANI, University of Science and Technology “USTHB”, AlgeriaDr. Ali Al-Balhawi, Mustansiriyah University, IraqDr. Amira Zaylaa, Lebanese University, LebanonProf. Pedram MASOUDI, Geovariances, FranceDr. Seyedahmad Shahahmadi, Universiti Tenaga Nasional, MalaysiaProf. Pavlo Maruschak, Ternopil Ivan Pul’uj National Technical University, UkraineDr. Vaishali Gupta, IPS Academy, Institute of Engineering & Science, IndiaDr. Peter ChunYu YAU, School of Continuing and Professional Education, City University of Hong KongDr. Shonak Bansal, Punjab Engineering College (Deemed to be University), IndiaDr. Ridhwaan Suliman, Council for Scientific and Industrial Research (CSIR), South AfricaDr. Thein, Yu University of Computer Studies, MyanmarProf. Curtis Miller, College of Pharmacy, University of New Mexico, U.S.A.Dr. Mouhat Ouadia, University Mohammed V, MoroccoDr. Amir Shirkhani, Civil Structural Engineering University of Tabriz, IranProf. Volodymyr Khilenko, National University of Life and Environmental Sciences, UkraineProf. Badrul Hisham Ahmad, Universiti Teknikal Malaysia Melaka, MalaysiaDr. Stamatis Karlos, Unversity of Patras, GreeceProf. Said El Kafhali, Hassan 1st University, MoroccoProf. Amirreza Ghadimi-Avval, University of Arkansas, USADr. Vrjayan Gurumurthy Iyer, Open Learning Program in Entrepreneurship of The EDI, India

Materials Research at Yonsei University.

In order to investigate the Chinese representatives from two genera of the tribe Oodini LaFerté-Sénectère, 1851, twenty-three Palaearctic and Oriental species of the genera Lachnocrepis LeConte, 1853 and Oodes Bonelli, 1810 are taxonomically reviewed. Because the species in question share a high degree of morphological similarity they are grouped in the "Oodes generic group". The character-analysis showed that seven species belong to Oodes, including five species to Oodes s.str. and two species to Lachnocrepis (downgraded to subgenus). The remaining sixteen species are classified in three genera: ten species in Pseudoodes gen. n. (type species: Oodes cribristernis Bates, 1892), two species in Sundaoodes gen. n. (type species: Sundaoodes hainanensis sp. n.), and four species in Nothoodes gen. n. (type species: Oodes angustatus Lorenz, 2005). The taxa of Oodes s.str. and Pseudoodes gen. n. are arranged in two and four species groups, respectively. Eleven species from three genera, including six new to science, are found in China: Oodes (Oodes) echigonus Habu Baba, 1960, Oodes (Lachnocrepis) desertus Motschulsky, 1858, Oodes (Lachnocrepis) japonicus (Bates, 1873), Pseudoodes cribristernis (Bates, 1892) (first record for China), Pseudoodes rambouseki (Jedlička, 1931), Pseudoodes ampliusculus, sp. n. (type locality: Mingfenggu Valley, Jiangfengling Mountains, Hainan), Pseudoodes emeishanicus, sp. n. (type locality: Xixinsuo Temple, Emei Shan, Leshan City, Sichuan), Pseudoodes hunanensis, sp. n. (type locality: Xiaozhuangping, Tianping Shan, Sangzhi County, Hunan), Pseudoodes leigongshanicus, sp. n. (type locality: Xijiang Town, Leigong Shan, Leishan County, Guizhou), Pseudoodes tianlinensis, sp. n. (type locality: Cenwanglao Shan, Tianlin County, Guangxi), and Sundaoodes hainanensis, sp. n. (type locality: Nada Town, Danzhou City, Hainan). Two further new species, Sundaoodes kalimantanensis, sp. n. (type locality: Bukit Liang Mount, West Kalimantan Province, Indonesia) and Nothoodes bharat, sp. n. (type locality: Dwarakapuram Village, Naidupet Mandal, Nellore District, Andhra Pradesh, India), are also described. The following new synonymies are proposed: Oodes parallelus Motschulsky, 1858, syn. n. of Oodes helopioides (Fabricius, 1792); Oodes parallelogrammus Motschulsky, 1858, syn. n. of Oodes helopioides (Fabricius, 1792); Oodes prolixus Bates, 1873, syn. n. of Oodes desertus Motschulsky, 1858; Simous viridissimus Louwerens, 1951, syn. n. of Pseudoodes coelestinus (Chaudoir, 1882). The synonymy of Oodes hahni Reitter, 1908 with Oodes desertus Motschulsky, 1858 is confirmed. Also, the following new combinations are introduced: Oodes japonicus (Bates, 1873), comb. n. of Lachnocrepis japonica Bates, 1873; Pseudoodes vicarius (Bates, 1873), comb. n. of Oödes vicarius Bates, 1873; Pseudoodes coelestinus (Chaudoir, 1882), comb. n. of Oodes coelestinus Chaudoir, 1882; Pseudoodes subcoriaceus (Chaudoir, 1882), comb. n. of Oodes subcoriaceus Chaudoir, 1882; Pseudoodes cribristernis (Bates, 1892), comb. n. of Oodes cribristernis Bates, 1892; Pseudoodes rambouseki (Jedlička, 1931), comb. n. of Holosoma rambouseki Jedlička, 1931; Nothoodes taprobanae (Andrewes, 1923), comb. n. of Oodes taprobanae Andrewes, 1923; Nothoodes longus (Andrewes, 1940), comb. n. of Oodes longus Andrewes, 1940; Nothoodes angustatus (Lorenz, 1998), comb. n. of Oodes angustatus Lorenz, 1998. Lectotypes are designated for Oodes parallelus Motschulsky, 1858, Oodes parallelogrammus Motschulsky, 1858, Oodes desertus Motschulsky, 1858, Oodes cribristernis Bates, 1892, Oodes hahni Reitter, 1908, Oodes thessalonicensis Schatzmayr, 1909, Oodes helopioides var. fiorii Porta, 1923, and Holosoma rambouseki Jedlička, 1931. A key to the species, diagnoses, descriptions, notes on type specimens, relationships, distribution, bionomics when available, and figures of body, genitalia and other characters useful for taxonomy are provided. Numerous new records, including first country records for Romania, Israel, Nepal, China, Thailand, Laos, Vietnam, Brunei, and Indonesia, are registered.

The main goal of this paper is to present the history and actual situation in research on LCA and LCM in Poland. This task will be performed by reviewing the different activities and their results in this field, from the very beginning. The paper includes the review of the activities of LCA/LCM main research centres in Poznań (Poznań University of Technology (PUT), Poznań University of Economics and Business (PUEB)), Cracow (Polish Academy of Sciences, AGH University of Science and Technology, Cracow University of Economics), Zielona Góra (University of Zielona Góra), Bydgoszcz (UTP University of Science and Technology), Katowice-Gliwice (Silesian University of Technology), Częstochowa (Częstochowa University of Technology) and Szczecin (ZUT Western Pomeranian University of Technology). LCA/LCM researches are also performed in several smaller research groups in R&D centres. In the end of the paper, some conclusions referring to the actual situation of research on LCA/LCM, dealing with critical evaluation of the LCA/LCM centres in Poland location, issues and problems addressed, areas of the projects covered and the desired activities in the future, are presented.

PrefaceThe previous First International Conference on Advances in Energy Resources and Environment Engineering (ICAESEE 2015) was organized by Northeast Petroleum University, China and successfully taken place on March 14-15, 2015 in Daqing, China.The 2016 2nd International Conference on Advances in Energy Resources and Environment Engineering (ICAESEE 2016) has been held on December 30-31, 2016 in Guangzhou, China. ICAESEE 2016 is to bring together innovative academics and industrial experts in the field of energy resources and environment engineering to a common forum. The primary goal of the conference is to promote research and developmental activities in energy resources and environment engineering and another goal is to promote scientific information interchange between researchers, developers, engineers, students, and practitioners working all around the world. The conference will be held every year to make it an ideal platform for people to share views and experiences in energy resources and environment engineering and related areas.The conference will be held every year to make it an ideal platform for people to share views and experiences in energy resources and environment engineering and related areas. We invite original papers describing an idea or concept, addressing issues and problems, or focusing empirically on potential or realistic fields.In order to organize ICAESEE 2016, we have sent our invitation to scholars and researchers from all around the world. Eventually, over 200 submissions were submitted to us. These papers have gone through a strict reviewing process performed by our international reviewers and 74 papers have been accepted. All the submissions were double-blind reviewed, both the reviewers and the authors remaining anonymous. First, all the submissions were divided into several chapters according to the topics, and the information of the authors, including name, affiliation, email and so on, removed. Then the TPC chairs assigned the submissions to reviewers according to their research interests. Each submission was reviewed by two reviewers. The review results should be sent to chairs on time. If two reviewers had conflicting opinions, the paper would be transmitted to the third reviewer assigned by the chairs. Only papers which were approved by all reviewers were accepted for publication.We sincerely express our thanks to all the members of 2016 2nd International Conference on Advances in Energy Resources and Environment Engineering (ICAESEE 2016). Thanks are also given to IOP publisher for producing this volume.Conference Chair of ICAESEE 2016Shiquan ZhouHuazhong University of Science and Technology, ChinaICAESEE 2016 Organizing CommitteesConference ChairsAssoc. Prof. Dr.Low Tang Jung, Universiti Teknologi PETRONAS, MalaysiaProf.Shiquan Zhou, Huazhong University of Science and Technology, ChinaTechnical Program CommitteesAssistant Prof.Chien Chiang Lin, Shih Hsin University, TaiwanProf.Alexander Ginzburg, National Research Moscow State University, Russian FederationA.Prof. Jingcheng Liu, Chongqing Petroleum and Natural gas Society, ChinaProf.Onea Alexandru, Junior Development Labs, Romania(Managing Director)A.Prof.Hemin Du, Xi`an Technological University, ChinaProf. Jyhjong Lin, Department of Information Management, Ming Chuan University, TaiwanDistinguished Professor Li-Der Chou, National Central University, TaiwanAssoc. Prof. Eng. Krzysztof WITKOWSKI, University of Zielona Gora, PolandProf.Mohd Khairol Anuar Mohd Ariffin, Universiti Putra Malaysia, MalaysiaProf.Mingming Mao, Shandong University of Technology, ChinaA.Prof.Yu-Ming Fei, Chilhlee University of Technology, TaiwanPro.Yongming Wang, Anhui University of Technology, ChinaDr.Shuanghong Li, Shanghai Jiao Tong University, ChinaProf.Shenggang Li, Shaanxi Normal Universtiy, ChinaProf.Genqing Bian, Xi’an University Of Architecture & Technology, ChinaProf.Shang Liu, Tianjin University of Finance & Economics, ChinaDr.Youqiang Xing, Southeast University, ChinaDr.Libiao Bai, Chang’ an University, ChinaDr.WenbinYang, Xi’an University of Posts & Telecommunications, ChinaDr.Dongping Zhao, Northwestern Polytechnical University, China

Aplacophoran molluscs are a small, often neglected and still poorly known but phylogenetically important basal group, with taxa possessing morphological characters considered essential for the reconstruction of the basal Mollusca and their evolution. Currently, in most textbooks of zoology and major malacological treatise Solenogastres and Caudofoveata are viewed as constituting a monophyletic clade called Aplacophora Von Ihering, 1876, although evidence is available to the contrary, suggesting the latter to be a paraphyletic grade. Accordingly, the hitherto accepted “Aplacophora” may consist of two Recent, diphyletic taxa, viz. Solenogastres Gegenbaur, 1878 (sensu Simroth, 1893) or Neomeniomorpha Pelseneer, 1906 (also called Ventroplicida Boettger, 1955) and Caudofoveata Boettger, 1955 or Chaetodermomorpha Pelseneer, 1906. The Museum of Natural History Berlin (formerly Zoological Museum Berlin, ZMB) houses rich type material essentially of Solenogastres on which to a substantial degree the preeminent German malacologist Johannes Thiele (1860–1935), working as curator in this collection from 1905 on, has based his respective systematic accounts of that time. A review given here briefly outlines the historical development of knowledge on the systematics and phylogeny of aplacophoran molluscs allowing two conclusions: First, that evidendently Thiele struggled with the very same problems of molluscan classification as we still do more than a century of zoological systematics later; and second, that Thiele's erroneous assumption of Solenogastres being closely related to annelids rather than molluscs resulted in the deposition of aplacophoran material of the ZMB (and hence the late re-discovery of it) in the “Vermes” department, then initiating this annotated type catalogue. Here we provide information on a total of 31 aplacophoran taxa in the ZMB, including notes on type specimens and localities, their original description and current systematic placement. The majority (i.e. 25 taxa) are represented by types, essentially being named by Thiele in 23 cases. With the exception of one caudofoveate, all these aplacophoran molluscs in the ZMB are Solenogastres. Following recent classification they are assigned to 20 genera. The type material was mainly collected by German imperial expeditions, which are briefly reviewed, in particular the First German South Polar Expedition on board of the sailing vessel “Gauss”, 1901–1903, with a total of 15 new aplacophoran species, all from the very same type locality near the Antarctic Gaussberg volcano at 66°2′S, 89°38′E, collected by the expedition's biologist Ernst Vanhoffen. (© 2005 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim)

Schneider C.W., Lane C.E. and Saunders G.W. 2010. Notes on the marine algae of the Bermudas. 11. More additions to the benthic flora and a phylogenetic assessment of Halymenia pseudofloresii (Halymeniales, Rhodophyta) from its type locality. Phycologia 49: 154–168. DOI: 10.2216/09-46.1This paper contains the first reports of Veleroa magneana in the Atlantic Ocean, Chylocladia schneideri outside of its type locality in Puerto Rico, and Verdigellas peltata and Cladocephalus luteofuscus from shallow water. Also reported are new northern limits of distribution for Chondria leptacremon, Dasya antillarum, Laurencia caraibica, Lomentaria corallicola, Myriogramme prostrata and Udotea caribaea as well as the first four mentioned. Fertile gametophytes are documented for Ptilothamnion speluncarum for the first time from the type locality. Molecular evidence shows that Halymenia pseudofloresii, a species with its type locality in Bermuda, is sister to Halymenia floresii, the generitype, in the present analysis. More critically, molecular data establish that H. pseudofloresii has a broad range of morphological variation encompassing that displayed by true H. floresii and bringing into question reports of the latter from Bermudian waters.

physica status solidi (a)Volume 157, Issue 1 p. K5-K8 Short Note Synthesis of Tl-1222 phase from new composition H. M. Luo, H. M. Luo Department of Applied Chemistry, University of Science and Technology of China, Hefei Search for more papers by this authorZ. Y. Chen, Z. Y. Chen Department of Applied Chemistry, University of Science and Technology of China, Hefei Structure Research Laboratory, University of Science and Technology of China, Hefei Search for more papers by this authorB. Qu, B. Qu Department of Applied Chemistry, University of Science and Technology of China, Hefei Search for more papers by this authorY. T. Qian, Y. T. Qian Department of Applied Chemistry, University of Science and Technology of China, Hefei Structure Research Laboratory, University of Science and Technology of China, Hefei Search for more papers by this authorL. Yang, L. Yang Structure Research Laboratory, University of Science and Technology of China, Hefei Search for more papers by this author H. M. Luo, H. M. Luo Department of Applied Chemistry, University of Science and Technology of China, Hefei Search for more papers by this authorZ. Y. Chen, Z. Y. Chen Department of Applied Chemistry, University of Science and Technology of China, Hefei Structure Research Laboratory, University of Science and Technology of China, Hefei Search for more papers by this authorB. Qu, B. Qu Department of Applied Chemistry, University of Science and Technology of China, Hefei Search for more papers by this authorY. T. Qian, Y. T. Qian Department of Applied Chemistry, University of Science and Technology of China, Hefei Structure Research Laboratory, University of Science and Technology of China, Hefei Search for more papers by this authorL. Yang, L. Yang Structure Research Laboratory, University of Science and Technology of China, Hefei Search for more papers by this author First published: 16 September 1996 https://doi.org/10.1002/pssa.2211570128 Anhui, Hefei 230026, People's Republic of China. AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Volume157, Issue116 September 1996Pages K5-K8 RelatedInformation

physica status solidi (a)Volume 115, Issue 1 p. K71-K74 Short Note The effect of substitution of Cd for Ca in the BiSrCaCdCuO system studied by X-ray photoemission spectroscopy S. X. Wang, S. X. Wang Department of Physics, University of Science and Technology of China, Hefei Search for more papers by this authorZ. H. He, Z. H. He Department of Physics, University of Science and Technology of China, Hefei Search for more papers by this authorX. H. Chen, X. H. Chen Department of Applied Chemistry, University of Science and Technology of China, Hefei Search for more papers by this authorM. R. Ji, M. R. Ji Central Laboratory of Structure and Elements Analysis, University of Science and Technology of China, HefeiSearch for more papers by this authorY. T. Qian, Y. T. Qian Department of Applied Chemistry, University of Science and Technology of China, Hefei Search for more papers by this authorZ. Y. Chen, Z. Y. Chen Department of Applied Chemistry, University of Science and Technology of China, Hefei Search for more papers by this authorQ. R. Zhang, Q. R. Zhang Department of Physics, University of Science and Technology of China, Hefei Search for more papers by this author S. X. Wang, S. X. Wang Department of Physics, University of Science and Technology of China, Hefei Search for more papers by this authorZ. H. He, Z. H. He Department of Physics, University of Science and Technology of China, Hefei Search for more papers by this authorX. H. Chen, X. H. Chen Department of Applied Chemistry, University of Science and Technology of China, Hefei Search for more papers by this authorM. R. Ji, M. R. Ji Central Laboratory of Structure and Elements Analysis, University of Science and Technology of China, HefeiSearch for more papers by this authorY. T. Qian, Y. T. Qian Department of Applied Chemistry, University of Science and Technology of China, Hefei Search for more papers by this authorZ. Y. Chen, Z. Y. Chen Department of Applied Chemistry, University of Science and Technology of China, Hefei Search for more papers by this authorQ. R. Zhang, Q. R. Zhang Department of Physics, University of Science and Technology of China, Hefei Search for more papers by this author First published: 16 September 1989 https://doi.org/10.1002/pssa.2211150156Citations: 2 Hefei, Anhui, People's Republic of China. AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Citing Literature Volume115, Issue116 September 1989Pages K71-K74 RelatedInformation

Medical physics and engineering education in Poland started in the 1930s with the foundation of the Radium Institute in Warsaw by Maria Sklodowska-Curie. Prof. Cezary Pawlowski, one of the assistants and then collaborators of Mme Curie (fig. 1), organized the first courses in medical physics and biomedical engineering at the Physics Department of the Radium Institute. The first course in medical engineering started at the Faculty of Electrical Engineering of the Warsaw University of Technology in the 1950s. Then, at the Faculty of Electrical Engineering, Automatics, Computer Science and Electronics of the AGH University of Science and Technology (former University of Mining and Metallurgy) in Krakow, Prof. Ryszard Tadeusiewicz organized the first courses in biomedical engineering in the 1970s. Fig. 2 shows the first Polish textbooks in Medical Electronics and in Biocybernetics. Note the year of the issue of both books, 1978. Until the academic year 2005/2006, education in biomedical engineering was offered only as a specialization in other fields of studies, e.g. mechanics, automatics & robotics and electronics. The development of new technologies in medical diagnosis and therapy required a new approach to biomedical engineering education. Therefore, a consortium was set up of six technical universities (in alphabetical order): The AGH University of Science and Technology (Krakow), The Gdansk University of Technology (Gdansk), The Silesian University of Technology (Gliwice), The Technical University of Lodz (Lodz), The Warsaw University of Technology (Warsaw) and The Wroclaw University of Technology (Wroclaw). The consortium developed a new programme of education and then applied to the Ministry of Science and Higher Education for an official permit to create a new field of studies referred to as “Biomedical Engineering” (BME). In June 2006, the Ministry gave its consent to this proposal. The AGH University of Science and Technology was first in Poland to