03887nam 2200613 a 450 991043778710332120200520144314.01-283-90931-694-007-5709-310.1007/978-94-007-5709-7(CKB)2670000000280548(EBL)1083623(OCoLC)820955254(SSID)ssj0000799290(PQKBManifestationID)11462959(PQKBTitleCode)TC0000799290(PQKBWorkID)10763406(PQKB)10602440(DE-He213)978-94-007-5709-7(MiAaPQ)EBC1083623(PPN)168341573(EXLCZ)99267000000028054820120918d2013 uy 0engur|n|---|||||txtccrWater management and public participation case studies from the Yamuna River Basin, India /Alka Upadhyay, Raveendra Kumar Rai1st ed. 2013.New York Springer20131 online resource (162 p.)SpringerBriefs in earth sciences,2191-5369Description based upon print version of record.94-007-5708-5 Includes bibliographical references and index.Preface -- Introduction -- Brief Overview of the Yamuna River Basin and Issues -- Methodology for Public Awareness Campaign -- Case Study: Somb and Boli catchments -- Case Study: Middle Alluvial Plains -- Case Study: Banganga Catchment -- Case Study: Banas Catchment -- Case Study: Chambal Catchment -- Case Study: Sind and Betwa Catchment -- Case Study: Ken Catchment -- Lesson Learned.-  Index.Integrated Water Resources Management (IWRM) is an approach that promotes the coordinated development and management of water, land and related resources, in order to maximize economic and social welfare in an equitable manner without compromising the sustainability of vital ecosystems. Without public interest and participation, successful implementation of IWRM plans for river basin cannot be possible. Further to this, management at the watershed level to assure water supplies to support livelihood (i.e. domestic water, irrigation, industries, etc.) and sustainable groundwater development requires water augmentation through water conservation structures, and pollution control will also play a vital role. In India, because of limited period of rainfall during Monsoon (i.e. three to four months), water conservation and rainwater harvesting have been practiced since ancient days in order to meet water demands throughout the year. These structures are generally constructed and operated through the public participation. Keeping in view of the importance of public partnership, the role of public partnership in context of water-related awareness and practices has been investigated in different parts of the Yamuna River basin. The investigation evaluates the impact of various water conservation devices on livelihood; compares the performance of recently developed water conservation structures with ancient structures; examines spatial variation of water-related problems in the basin; and proposes an institutional setup for effective governance.SpringerBriefs in Earth Sciences,2191-5369 ;16Water resources developmentIndiaYamuna RiverWater-supplyIndiaManagementYamuna River (India)Water resources developmentWater-supplyManagement.333.72Upadhyay Alka1059091Rai Raveendra Kumar959169MiAaPQMiAaPQMiAaPQBOOK9910437787103321Water management and public participation4195983UNINA05308nam 2200697Ia 450 991101947940332120200520144314.09786612685453978128268545112826854579780470611869047061186397804706104040470610409(CKB)2550000000005896(EBL)477685(OCoLC)609853571(SSID)ssj0000354221(PQKBManifestationID)11256484(PQKBTitleCode)TC0000354221(PQKBWorkID)10302775(PQKB)11464694(MiAaPQ)EBC477685(Perlego)2760638(EXLCZ)99255000000000589620090424d2009 uy 0engur|n|---|||||txtccrFrom speech physiology to linguistic phonetics /Alain MarchalHoboken, NJ John Wiley & Sons, Inc. ISTE Ltd20091 online resource (229 p.)ISTE ;v.145Description based upon print version of record.9781848211131 1848211139 Includes bibliographical references and index.From Speech Physiology to Linguistic Phonetics; Table of Contents; Preface; Chapter 1. Respiration and Pulmonary Initiation; 1.1. The rib cage; 1.2. Lungs; 1.3. Normal respiration; 1.3.1. Inhalation; 1.3.2. Exhalation; 1.4. Respiration muscles; 1.4.1. Inhalation muscles; 1.4.2. Exhalation muscles; 1.5. Pulmonary capacity and pulmonary volume; 1.6. Respiration in phonation; 1.6.1. The respiratory cycle; 1.6.2. Control of exhalation; 1.6.3. Subglottal pressure; 1.6.4. Subglottal pressure and stress; Chapter 2. Phonation and the Larynx; 2.1. The larynx2.1.1. External configuration of the larynx2.1.2. Internal configuration; 2.2. The laryngeal cartilages; 2.2.1. The cricoid cartilage; 2.2.2. The thyroid cartilage; 2.2.3. The arytenoid cartilages; 2.2.4. The epiglottic cartilage; 2.3. Joints and ligaments; 2.3.1. Intrinsic joints and ligaments; 2.3.2. The membranes and the extrinsic ligaments; 2.4. The larynx muscles; 2.4.1. The intrinsic muscles; 2.4.2. The extrinsic muscles; 2.5. Innervation of the larynx; 2.6. The mucous membrane of the larynx; 2.7. Phonation; 2.7.1. Opening and closing of the glottis; 2.7.2. Vocal fold vibration2.7.3. Voice registers2.7.4. Head voice?; 2.7.5. Efficiency of the vocal generator; 2.7.6. The evaluation of phonation: voice quality; 2.8. The linguistic functions of laryngeal activity; 2.8.1. Glottal states and phonation types; 2.8.2. Tone and intonation; 2.8.3. Glottal articulation; 2.9. Phonetic features; Chapter 3. Articulation: Pharynx and Mouth; 3.1. The oral cavity; 3.1.1. The tongue; 3.1.2. Tongue control; 3.2. The pharynx; 3.2.1. The rhino-pharynx; 3.2.2. The hypopharynx and the oropharynx; 3.2.3. The role of the pharynx in speechChapter 4. Articulation: The Labio-Mandibular System4.1. The lips: anatomical and functional description; 4.1.1. Lip closure; 4.1.2. Lip protrusion; 4.1.3. Lip rounding; 4.1.4. Raising the upper lip; 4.1.5. Lowering the lower lip; 4.1.6. Lip spreading; 4.1.7. Lowering the corners of the mouth; 4.1.8. Raising the corners of the mouth; 4.2. The jaw; 4.2.1. Muscles of the lower jaw; 4.2.2. The suprahyoid muscles; 4.3. Linguistic functions of lip movement; 4.3.1. Vowels; 4.3.2. Consonants; 4.4. Motor coordination between the lips and the lower jaw; Chapter 5. Elements of Articulatory Typology5.1. Aerodynamic mechanisms5.1.1. Pulmonary initiation; 5.1.2. The larynx; 5.1.3. The supralaryngeal articulators; 5.2. Phonatory modes; 5.2.1. Voicing or modal voice; 5.2.2. Voicelessness; 5.2.3. Breathy mode; 5.2.4. The murmur; 5.2.5. Laryngealization or "creaky" mode; 5.2.6. Whisper mode; 5.2.7. Glottal closure; 5.3. Articulation; 5.3.1. The dimensions of the articulatory description of speech sounds; Chapter 6. The Articulatory Description of Vowels and Consonants; 6.1. Vowels; 6.1.1. Mode; 6.1.2. Articulatory region/zone; 6.1.3. Vocalic aperture; 6.1.4. The vowel space: cardinal vowels6.1.5. The temporal dimensionCommunicating by speech is seemingly one of the most natural activities for humans. However, despite its apparent obviousness and ease, speech production is a very complex activity with multiple levels of organization involved with transforming cognitive intent into a meaningful sequence of sounds. This book establishes a connection between the physiology of speech and linguistics, and provides a detailed account of speech production processes, indicating how various languages of the world make use of human anthropophonic capacities. The book also offers new insights into the possible ways in ISTESpeechPhoneticsSpeech.Phonetics.414.8612.7/8Marchal Alain287549MiAaPQMiAaPQMiAaPQBOOK9911019479403321From speech physiology to linguistic phonetics4419508UNINA