03761nam 22006612 450 991079207490332120151005020624.01-108-44582-91-107-30110-61-107-23366-61-107-31393-71-139-02540-61-107-30542-X1-107-30618-31-107-30838-01-299-25714-3(CKB)2560000000098585(EBL)1113033(OCoLC)828794199(SSID)ssj0000833096(PQKBManifestationID)11447608(PQKBTitleCode)TC0000833096(PQKBWorkID)10900941(PQKB)11444810(UkCbUP)CR9781139025409(MiAaPQ)EBC1113033(Au-PeEL)EBL1113033(CaPaEBR)ebr10664542(CaONFJC)MIL456964(PPN)21951769X(EXLCZ)99256000000009858520110218d2013|||| uy| 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierEarth dynamics deformations and oscillations of the rotating Earth /D.E. Smylie, York University, Toronto[electronic resource]Cambridge :Cambridge University Press,2013.1 online resource (xii, 543 pages) digital, PDF file(s)Title from publisher's bibliographic system (viewed on 05 Oct 2015).0-521-87503-X 1-107-31173-X Includes bibliographical references and indexes.Machine generated contents note: 1. Introduction and theoretical background; 2. Time sequence and spectral analysis; 3. Earth deformations; 4. Earth's rotation: observations and theory; 5. Earth's figure and gravitation; 6. Rotating fluids and the outer core; 7. The subseismic equation and boundary conditions; 8. Variational methods and core modes; 9. Static deformations and dislocation theory; Appendix A. Elementary results from vector analysis; Appendix B. Properties of Legendre functions; Appendix C. Numerical Earth models; References; Fortran index; Subject index.The Earth is a dynamic system. Internal processes, together with external gravitational forces of the Sun, Moon and planets, displace the Earth's mass, impacting on its shape, rotation and gravitational field. Doug Smylie provides a rigorous overview of the dynamical behaviour of the solid Earth, explaining the theory and presenting methods for numerical implementation. Topics include advanced digital analysis, earthquake displacement fields, Free Core Nutations observed by the Very Long Baseline Interferometric technique, translational modes of the solid inner core observed by the superconducting gravimeters, and dynamics of the outer fluid core. This book is supported by freeware computer code, available online for students to implement the theory. Online materials also include a suite of graphics generated from the numerical analysis, combined with 100 graphic examples in the book to make this an ideal tool for researchers and graduate students in the fields of geodesy, seismology and solid earth geophysics. The book covers broadly applicable subjects such as the analysis of unequally spaced time series by Singular Value Decomposition, as well as specific topics on Earth Dynamics.GeodynamicsEarth (Planet)RotationGeodynamics.551.1SCI032000bisacshSmylie D. E.62422UkCbUPUkCbUPBOOK9910792074903321Earth dynamics3775753UNINA04208nam 2200937z- 450 991056648120332120220506(CKB)5680000000037568(oapen)https://directory.doabooks.org/handle/20.500.12854/81126(oapen)doab81126(EXLCZ)99568000000003756820202205d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierAdvances in East Asian Agricultural Origins Studies: The Pleistocene to Holocene TransitionBaselMDPI - Multidisciplinary Digital Publishing Institute20221 online resource (176 p.)3-0365-3407-5 3-0365-3408-3 Scientific understanding about domestication and the origins of food production in East Asia is undergoing rapid change based on new data from archaeology, paleobiology, and paleoenvironmental studies. The earliest agricultural and pastoral societies emerged from the highly diverse habitats and Paleolithic cultures of East Asia. This offers an unprecedented opportunity to understand and predict variability in the tempo and mode of the Paleolithic to Neolithic transition. Advances in East Asian Agricultural Origins Studies: The Pleistocene to Holocene Transition aims to present the most advanced research from varied regions of East Asia, with the purpose of evaluating the significance of Paleolithic cultural influences on the transition to Neolithic adaptations by comparing cultural evolutionary scenarios through time and across space. The array of approaches will be multidisciplinary, featuring quantitative, qualitative, and integrated data and methodologies. Understanding the transition from foraging to Neolithic agriculture, which was among the most dramatic and influential in the history of modern Homo sapiens, has ramifications for the study of Late Quaternary growth of human populations, societal complexity, landscape use, migration, and impacts on ecosystems.Advances in East Asian Agricultural Origins StudiesResearch & information: generalbicssc8.2 ka BP cooling eventadaptive strategyagricultural adoptionaquatic utilizationaquatic-focused foragingbroad spectrum revolutionbronze ageChinaclimate fluctuationcomplex hunting-gatheringConstructing Frames of Referencedry-field farmingEarly NeolithicEast Asiafirst farmersHokkaidohunter gatherershunter-gatherersinitial Holoceneinteractioninvasion theoryirrigation systemJomonJomon peopleKorean Peninsulamacroecologymicroblade technologyn/aNeolithic Taiwanniche variation theoryNorth Chinaorigin of food productionorigins of agriculturepaddy rice farmingpalaeoenvironmentPaleolithic Taiwanpaleolithic to Neolithic transitionPaleolithic-Neolithic transitionPleistocene to Holocene transitionprey choice modelsedentarised hunter-gatherersterminal Pleistocenetransitional siteswet rice cultivationYayoiResearch & information: generalYu Pei-Linedt1314116Kazunobu IkeyaedtZhang MengedtYu Pei-LinothKazunobu IkeyaothZhang MengothBOOK9910566481203321Advances in East Asian Agricultural Origins Studies: The Pleistocene to Holocene Transition3031725UNINA