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{userid:"isabelle.dusfour", "refid":111,"repocollections":"","attachment":"","_thumb":"","articletype":"article","sectionheading":"","title":"Public health contributions of entomological surveillance of West Nile virus (WNV) and other mosquito-borne\r\narboviruses in a context of climate change. ","year":"2024","author":"Bakhiyi B, Irace-Cima A, Ludwig A, Rakotoarinia MR, Therrien C, Dusfour I, Adam-Poupart A.","journal":"Can Commun Dis Rep","volume":"50","number":"9","pages":"294-304","month":"","doi":"https:\/\/doi.org\/10.14745\/ccdr.v50i09a02","pubmed":"","pdflink":"","urllink":"","abstract":"","note":"","tags":"","weight":111}
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{userid:"jean-louis.hemptinne",  _fulltext:1,  _thumb:'_thumb.png', "refid":"17","repocollections":"","attachment":"ref-17\/Sexual maturity in twospot.pdf","_thumb":"_thumb.png","articletype":"article","sectionheading":"","title":"Do males and females of the two-spot ladybird, Adalia bipunctata (L.), differ in when they mature sexually?","year":"2001","author":"J L Hemptinne, A F G Dixon, B Adam","journal":"JOURNAL OF INSECT BEHAVIOR","volume":"14","number":"25","pages":"411-419","month":"MAY","doi":"","pubmed":"","pdflink":"","urllink":"","abstract":"After emergence from pupae males and females of Adalia bipunctata reared under the same constant conditions showed similar refractory periods in their mating behavior. The statistically significant slight protogyny might indicate that it is advantageous for females to accept mating and stove sperm for a short period prior to becoming sexually mature, whereas males need to become sexually mature in order to mate. As the two-spot ladybird has overlapping generations, theory predicts that the most effective strategy for both sexes is to have similar sexual maturation periods. The results of this study support this prediction, The actual lengths of the maturation periods, however, will depend largely on the prevailing temperatures and the quality and quantity of food available to the beetle.","note":"Times Cited: 8","tags":"Adalia bipunctata,Coccinellidae,sexual maturity,protandry,protogny,MATE RECOGNITION,MALE BUTTERFLIES,SIZE DIMORPHISM,HYPOTHESIS,EMERGE,BEETLE","publisher":"KLUWER ACADEMIC\/PLENUM PUBL","booktitle":"","editor":"","address":"NEW YORK","school":"","issn":"0892-7553","isi":"ISI:000169306700011","key":"Hemptinne2001","howpublished":""}
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{userid:"adelalzubairi", "articletype":"article","pages":"","author":"S I Abdelwahab, A B Abdul, M M Elhassan, S Mohan, A S Al-zubairi, N A Alhaj, R Abdullah, A Adam","year":"","title":"Biological and phytochemical investigations of Goniothalamus umbrosus leaves hexane extract","month":"","journal":"","publisher":"","volume":"","number":"","note":"","tags":"","booktitle":"","editor":"","abstract":"","address":"","school":"","issn":"","doi":"","isi":"","pubmed":"","key":"ref3","howpublished":"","urllink":"","refid":29}
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{userid:"c.g.floare", "refid":27,"repocollections":"","attachment":"","_thumb":"","articletype":"article","sectionheading":"","title":"Grid based high performance computing in satellite imagery. Case study - Perona-Malik filter","year":"2015","author":"B Belean, C Belean, C G Floare, C M Varodi, A Bot, G Adam","journal":"Computer Research and Modeling","volume":"7","number":"3","pages":"399-406","month":"","doi":"","pubmed":"","pdflink":"","urllink":"","abstract":"The present paper discusses an approach to the efficient satellite image processing which involves two steps. The first step assumes the distribution of the steadily increasing volume of satellite collected data through a Grid infrastructure. The second step assumes the acceleration of the solution of the individual tasks related to image processing by implementing execution codes which make heavy use of spatial and temporal parallelism. An instance of such execution code is the image processing by means of the iterative Perona-Malik filter within FPGA application specific hardware architecture.","note":"","tags":"","weight":27}
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{userid:"p_v", "articletype":"article","pages":"3424-3432","author":"Ashton Lesiak, Rabi Musah, Robert B Cody, Marek Adam Domin, John Dane, Jason R E Shepard","year":"2013","title":"","month":"","journal":"","publisher":"","volume":"138","number":"","note":"","tags":"","booktitle":"","editor":"","abstract":"Rapid and versatile direct analysis in real time mass spectrometry (DART-MS) methods were developed for detection and characterization of synthetic cathinone designer drugs, also known as \"bath salts\". The speed and efficiency associated with DART-MS testing of such highly unpredictable samples demonstrate the technique as an attractive alternative to conventional GC-MS and LC-MS methods. A series of isobaric and closely related synthetic cathinones, alone and in mixtures, were differentiated using high mass accuracy and in-source collision induced dissociation (CID). Crime laboratories have observed a dramatic rise in the use of these substances, which has caused sample testing backlogs, particularly since the myriad of closely structurally related compounds are challenging to efficiently differentiate. This challenge is compounded by the perpetual emergence of new structural variants as soon as older generation derivatives become scheduled. Because of the numerous chemical substances that fall into these categories, along with the varying composition and complexity of mixtures of these drugs, DART-MS CID has the potential to dramatically streamline sample analysis, minimize the number of sample preparation steps, and enable rapid characterization of emerging structural analogs.","address":"","school":"","issn":"0003-2654","doi":"10.1039\/C3AN00360D","isi":"","pubmed":"","key":"Lesiak2013","howpublished":"","urllink":"","refid":72,"weight":72}
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{userid:"p_v", "articletype":"article","pages":"3424-3432","author":"Ashton Lesiak, Rabi Musah, Robert B Cody, Marek Adam Domin, John Dane, Jason R E Shepard","year":"2013","title":"","month":"","journal":"","publisher":"","volume":"138","number":"","note":"","tags":"","booktitle":"","editor":"","abstract":"Rapid and versatile direct analysis in real time mass spectrometry (DART-MS) methods were developed for detection and characterization of synthetic cathinone designer drugs, also known as \"bath salts\". The speed and efficiency associated with DART-MS testing of such highly unpredictable samples demonstrate the technique as an attractive alternative to conventional GC-MS and LC-MS methods. A series of isobaric and closely related synthetic cathinones, alone and in mixtures, were differentiated using high mass accuracy and in-source collision induced dissociation (CID). Crime laboratories have observed a dramatic rise in the use of these substances, which has caused sample testing backlogs, particularly since the myriad of closely structurally related compounds are challenging to efficiently differentiate. This challenge is compounded by the perpetual emergence of new structural variants as soon as older generation derivatives become scheduled. Because of the numerous chemical substances that fall into these categories, along with the varying composition and complexity of mixtures of these drugs, DART-MS CID has the potential to dramatically streamline sample analysis, minimize the number of sample preparation steps, and enable rapid characterization of emerging structural analogs.","address":"","school":"","issn":"0003-2654","doi":"10.1039\/C3AN00360D","isi":"","pubmed":"","key":"Lesiak2013","howpublished":"","urllink":"","refid":1009,"weight":1009}
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{userid:"p_v", "articletype":"article","pages":"3424-3432","author":"Ashton Lesiak, Rabi Musah, Robert B Cody, Marek Adam Domin, John Dane, Jason R E Shepard","year":"2013","title":"","month":"","journal":"","publisher":"","volume":"138","number":"","note":"","tags":"","booktitle":"","editor":"","abstract":"Rapid and versatile direct analysis in real time mass spectrometry (DART-MS) methods were developed for detection and characterization of synthetic cathinone designer drugs, also known as \"bath salts\". The speed and efficiency associated with DART-MS testing of such highly unpredictable samples demonstrate the technique as an attractive alternative to conventional GC-MS and LC-MS methods. A series of isobaric and closely related synthetic cathinones, alone and in mixtures, were differentiated using high mass accuracy and in-source collision induced dissociation (CID). Crime laboratories have observed a dramatic rise in the use of these substances, which has caused sample testing backlogs, particularly since the myriad of closely structurally related compounds are challenging to efficiently differentiate. This challenge is compounded by the perpetual emergence of new structural variants as soon as older generation derivatives become scheduled. Because of the numerous chemical substances that fall into these categories, along with the varying composition and complexity of mixtures of these drugs, DART-MS CID has the potential to dramatically streamline sample analysis, minimize the number of sample preparation steps, and enable rapid characterization of emerging structural analogs.","address":"","school":"","issn":"0003-2654","doi":"10.1039\/C3AN00360D","isi":"","pubmed":"","key":"Lesiak2013","howpublished":"","urllink":"","refid":1942,"weight":1942}
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{userid:"p_v", "articletype":"misc","pages":"3424-3432","author":"Ashton Lesiak, Rabi Musah, Robert B Cody, Marek Adam Domin, John Dane, Jason R. E. Shepard","year":"","title":"Direct Analysis in Real Time Mass Spectrometry (DART-MS) of \"Bath Salt\" Cathinone Drug Mixtures","month":"","journal":"","publisher":"","volume":"138","number":"","note":"","tags":"","booktitle":"","editor":"","abstract":"Rapid and versatile direct analysis in real time mass spectrometry (DART-MS) methods were developed for detection and characterization of synthetic cathinone designer drugs, also known as \"bath salts\". The speed and efficiency associated with DART-MS testing of such highly unpredictable samples demonstrate the technique as an attractive alternative to conventional GC-MS and LC-MS methods. A series of isobaric and closely related synthetic cathinones, alone and in mixtures, were differentiated using high mass accuracy and in-source collision induced dissociation (CID). Crime laboratories have observed a dramatic rise in the use of these substances, which has caused sample testing backlogs, particularly since the myriad of closely structurally related compounds are challenging to efficiently differentiate. This challenge is compounded by the perpetual emergence of new structural variants as soon as older generation derivatives become scheduled. Because of the numerous chemical substances that fall into these categories, along with the varying composition and complexity of mixtures of these drugs, DART-MS CID has the potential to dramatically streamline sample analysis, minimize the number of sample preparation steps, and enable rapid characterization of emerging structural analogs.","address":"","school":"","issn":"0003-2654","doi":"10.1039\/C3AN00360D","isi":"","pubmed":"","key":"","howpublished":"http:\/\/dx.doi.org\/10.1039\/C3AN00360D","urllink":"http:\/\/dx.doi.org\/10.1039\/C3AN00360D","refid":383,"weight":383}
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{userid:"p_v", "articletype":"article","pages":"3424-3432","author":"Ashton Lesiak, Rabi Musah, Robert B Cody, Marek Adam Domin, John Dane, Jason R E Shepard","year":"","title":"Direct Analysis in Real Time Mass Spectrometry (DART-MS) of \"Bath Salt\" Cathinone Drug Mixtures","month":"","journal":"","publisher":"","volume":"138","number":"","note":"","tags":"","booktitle":"","editor":"","abstract":"Rapid and versatile direct analysis in real time mass spectrometry (DART-MS) methods were developed for detection and characterization of synthetic cathinone designer drugs, also known as \"bath salts\". The speed and efficiency associated with DART-MS testing of such highly unpredictable samples demonstrate the technique as an attractive alternative to conventional GC-MS and LC-MS methods. A series of isobaric and closely related synthetic cathinones, alone and in mixtures, were differentiated using high mass accuracy and in-source collision induced dissociation (CID). Crime laboratories have observed a dramatic rise in the use of these substances, which has caused sample testing backlogs, particularly since the myriad of closely structurally related compounds are challenging to efficiently differentiate. This challenge is compounded by the perpetual emergence of new structural variants as soon as older generation derivatives become scheduled. Because of the numerous chemical substances that fall into these categories, along with the varying composition and complexity of mixtures of these drugs, DART-MS CID has the potential to dramatically streamline sample analysis, minimize the number of sample preparation steps, and enable rapid characterization of emerging structural analogs.","address":"","school":"","issn":"0003-2654","doi":"10.1039\/C3AN00360D","isi":"","pubmed":"","key":"lesiak_direct_2013","howpublished":"http:\/\/dx.doi.org\/10.1039\/C3AN00360D","urllink":"http:\/\/dx.doi.org\/10.1039\/C3AN00360D","refid":1320,"weight":1320}
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{userid:"p_v", "articletype":"article","pages":"3424-3432","author":"Ashton Lesiak, Rabi Musah, Robert B Cody, Marek Adam Domin, John Dane, Jason R E Shepard","year":"","title":"Direct Analysis in Real Time Mass Spectrometry (DART-MS) of \"Bath Salt\" Cathinone Drug Mixtures","month":"","journal":"","publisher":"","volume":"138","number":"","note":"","tags":"","booktitle":"","editor":"","abstract":"Rapid and versatile direct analysis in real time mass spectrometry (DART-MS) methods were developed for detection and characterization of synthetic cathinone designer drugs, also known as \"bath salts\". The speed and efficiency associated with DART-MS testing of such highly unpredictable samples demonstrate the technique as an attractive alternative to conventional GC-MS and LC-MS methods. A series of isobaric and closely related synthetic cathinones, alone and in mixtures, were differentiated using high mass accuracy and in-source collision induced dissociation (CID). Crime laboratories have observed a dramatic rise in the use of these substances, which has caused sample testing backlogs, particularly since the myriad of closely structurally related compounds are challenging to efficiently differentiate. This challenge is compounded by the perpetual emergence of new structural variants as soon as older generation derivatives become scheduled. Because of the numerous chemical substances that fall into these categories, along with the varying composition and complexity of mixtures of these drugs, DART-MS CID has the potential to dramatically streamline sample analysis, minimize the number of sample preparation steps, and enable rapid characterization of emerging structural analogs.","address":"","school":"","issn":"0003-2654","doi":"10.1039\/C3AN00360D","isi":"","pubmed":"","key":"lesiak_direct_2013","howpublished":"http:\/\/dx.doi.org\/10.1039\/C3AN00360D","urllink":"http:\/\/dx.doi.org\/10.1039\/C3AN00360D","refid":1631,"weight":1631}
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