| Record ID | marc_columbia/Columbia-extract-20221130-032.mrc:162386297:7698 |
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LEADER: 07698cam a2200661 i 4500
001 15830285
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008 211007s2021 xx o 000 0 eng d
035 $a(OCoLC)on1273728258
035 $a(NNC)15830285
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016 7 $a020380957$2Uk
020 $a9781003261131$q(electronic bk.)
020 $a1003261132$q(electronic bk.)
020 $a9781000534559$q(electronic bk. ;$qPDF)
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035 $a(OCoLC)1273728258
037 $a9781003261131$bTaylor & Francis
050 4 $aSF428.2
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072 7 $aSCI$x086000$2bisacsh
072 7 $aPSVP$2bicssc
082 04 $a636.73$223
049 $aZCUA
245 00 $aCanines :$bthe Original Biosensors.
250 $aFirst edition.
264 1 $a[Place of publication not identified] :$bJenny Stanford Publishing,$c2021.
300 $a1 online resource (900 pages)
336 $atext$btxt$2rdacontent
337 $acomputer$bc$2rdamedia
338 $aonline resource$bcr$2rdacarrier
500 $a"Jenny Stanford Publishing."
505 0 $aSection 1. A Dog's World: Chemical Sensing through OlfactionIntroductionLauryn E. DeGreeffComparing the Olfactory Capabilities of Dogs with Machines Designed to Detect OdorsKenneth G. Furton and David WinialskiSensitivity and Selectivity in Canine DetectorsLauryn E. DeGreeff, Melissa Singletary, and Lucia LazarowskiChemical Information in Olfactory and Sensor Array SystemsKevin. J. Johnson and Adam C. KnappInsect Olfaction in Chemical SensingDebjit SahaSection 2. Understanding the Canine Biosensor: FundamentalsNeurobiological and Behavioral Bases of Canine Olfactory Capabilities in DetectionMelissa Singletary and Lucia LazarowskiUnderstanding the Dynamics of Odor to Aid in Odor DetectionLauryn E. DeGreeff and Michele MaughanTowards the Development of a Human Scent ModelBrian Eckenrode, Paige Riley, Nirmeen Salah, Allyson Dailey, and Robin CouchHow Science Supports and Law Influences Forensic Canine Utilization in the United States: Considerations for Human Scent Evidence (Trailing) and Human Remains Detection CaninesCraig A. Schultz, Jan J. Topoleski, Brian Eckenrode, Nirmeen Salah, Christopher Tipple, Wynn G. Warren, and Mark RispoliSection 3. Fostering an Effective Sensor: Training and EvaluationTraining the Sensor: Impacts of Learning on Canine Detection and PerformanceEdgar O. Aviles-Rosa, Mallory T. DeChant, and Nathan J. HallTraining Consideration for Operational Performance: Train the Handler, Train the Dog, Train the TeamBradley GillespieWhen Does Handler Perception Become Canine Detection? How Applied Behavior Analysis and Ethology Can Improve Handler Interpretation of Canine BehaviorAnn Waterbury and Craig A. SchultzConsiderations for Testing the Capability of Operational Detection DogsFay Porritt , Nina Cracknell, Victoria Ratcliffe, Bethany Hutchings, Lorna Irish, Ella Birch, Hannah Robbins, Natasha D'Souza, Edward Croft, Emma Hobbs, and Nicola SibbaldConsiderations in Vapor Generation and Delivery for Canine Testing and TrainingMatthew Mullen and Braden C. GiordanoSection 4. The Canine Biosensor in PracticeDogs as Detectors for Hidden Digital Storage Devices: A Pilot Study from the National Police of The NetherlandsStèphan J. Petersen and Adee SchoonThe Use of Dogs for the Detection of Human RemainsLorna Irish and Natasha DilkieCanine Detection of Blood EvidenceLaTara Rust, Katie D. Nizio, and Shari L. ForbesUsing Trained Dogs in Rape and Assault CasesAdee Schoon, Annemieke van Dam, and Dick StaalRole of Dogs in Detection of Human DiseasesAdee Schoon, Patrick Hilverink, Danielle de Jonge, and Rune FjellangerCanine Detection Teams to Support Oil Spill Response SurveysEdward H. Owens and Paul C. BunkerBroader Perspectives: Case Studies of Detection Canines in the FieldLauryn E. DeGreeff
520 $aDetection canines have been utilized throughout the world for over a century, and while numerous attempts have been made to replicate the canine's ability to detect substances by mechanical means, none has been as successful. The olfactory system is a highly intricate and sophisticated design for chemical sensing, and the olfactory capacity of many animals, including canines, is considered unmatched by machine due to not only their great sensitivity and superior selectivity but also their trainability and mobility. These unique features have led to the use of such animals as ""whole-animal"" biosensors. Amplifying the benefits and diminishing the limitations of canine detectors' interdisciplinary research is crucial to understanding canine olfaction and detection and enhancing this powerful and complex detector. The past 50 years have produced vast advancements in animal behavior/training technology to develop canines into more proficient and reliable sensors, while scientific research has provided tremendous support to help practitioners better understand how to utilize this powerful sensor. This book assembles a diverse group of authors with expertise in a variety of fields relating to canine detection and chemical sensing, including both research and operational perspectives on the canine detector. It illustrates how science enhances our understanding of how canines are utilized for solving some of the world's leading detection challenges
545 0 $aLauryn E. DeGreeff earned her PhD in forensic chemistry from Florida International University. She is presently a research chemist at the US Naval Research Laboratory as well as a courtesy research professor in the Chemistry Department of Florida International University. She takes a chemistry-based approach to studying olfaction for the purpose of informing field vapor sampling practices. Her research focuses on trace vapor sampling, characterization, and generation in support of canine and other field detection approaches. Dr. DeGreeff regularly lectures on the dynamics of odor for the operational community. Craig Schultz has 30 years of experience in animal behavior with organizations such as Disney's Animal Kingdom, Palm Beach Zoo, Jacksonville Zoo, the United States Department of Agriculture's National Detector Dog Training Center, and the Federal Bureau of Investigation. Craig has been a guest lecturer at several universities in addition to presenting at exotic animal, veterinary behavior, and working dog national conferences. He has also served as an active member of the Scientific Working Group on Dog and Orthogonal Detector Guidelines (SWGDOG) and the National Institute for Standards and Technology's Organization of Scientific Area Committee (OSAC) Dogs and Sensors Subcommittee.
588 0 $aVendor-supplied metadata.
650 0 $aDetector dogs.
650 0 $aSmell.
650 6 $aChiens détecteurs.
650 6 $aOdorat.
650 7 $asmell (sense)$2aat
650 7 $aSCIENCE$xChemistry$xAnalytic.$2bisacsh
650 7 $aSCIENCE$xLife Sciences$xGeneral.$2bisacsh
650 7 $aDetector dogs.$2fast$0(OCoLC)fst00891593
650 7 $aSmell.$2fast$0(OCoLC)fst01121562
655 4 $aElectronic books.
700 1 $aDeGreeff, Lauryn E.
700 1 $aSchultz, Craig.
776 08 $iPrint version :$z9789814968041
856 40 $uhttp://www.columbia.edu/cgi-bin/cul/resolve?clio15830285$zTaylor & Francis eBooks
852 8 $blweb$hEBOOKS