01159nam--2200385---450-99000320609020331620090316114839.01-4200-5317-5000320609USA01000320609(ALEPH)000320609USA0100032060920090316d2006----km-y0itay50------baengUS||||||||001yycomputer techniques in vibrationedited by Clarence W. de SilvaBoca RatonCRC press20061 v. (paginazione varia)26 cmMechanical Engineering Series2001Mechanical Engineering Series2001001-------2001VibrazioniModelli matematiciBNCF620.30285DE SILVA,Clarence W.603320ITsalbcISBD990003206090203316620.302 COM21138 Ing.620.30200186882BKTECFIORELLA9020090316USA011028FIORELLA9020090316USA011148Computer techniques in vibration1015535UNISA05147nam 22005893u 450 991046223300332120210107003134.01-283-57702-X97866138894780-19-164641-5(CKB)2670000000234059(EBL)1015326(OCoLC)808366371(MiAaPQ)EBC1015326(EXLCZ)99267000000023405920130418d2012|||| u|| |engur|n|---|||||Energetic Food Webs[electronic resource] An analysis of real and model ecosystemsOxford OUP Oxford20121 online resource (344 p.)Oxford Series in Ecology and EvolutionDescription based upon print version of record.0-19-856619-0 Cover; Contents; Chapter 1 Approaches to studying food webs; 1.1 Introduction; 1.2 Traditions in ecology; 1.2.1 The community perspective; 1.2.2 The ecosystem perspective; 1.3 Food webs and traditions in ecology; 1.3.1 Theoretically based food webs; 1.3.2 Empirically based food webs: architecture; 1.3.3 Empirically based food webs: information; 1.3.4 How useful are these descriptions?; 1.4 Bridging perspectives through energetics; 1.4.1 Core concepts and elements; 1.4.2 Comments on our approach to studying food webs; 1.5 An overview of the parts and chapters; 1.6 SummaryPart I: Modeling simple andmultispecies communitiesChapter 2 Models of simple and complex systems; 2.1 Introduction; 2.2 Model structure and assumptions; 2.3 Stability; 2.4 Simple food chains; 2.5 The dynamics of primary-producer-based and detritus-based models; 2.6 Summary and conclusions; Chapter 3 Connectedness food webs; 3.1 Introduction; 3.2 Soil food webs; 3.3 The CPER soil food web; 3.4 Summary and conclusions; Chapter 4 Energy flux food webs; 4.1 Introduction; 4.2 Biomass and physiological parameters; 4.3 Feeding rates and mineralization rates; 4.4 Energy flux descriptions4.5 Summary and conclusionsChapter 5 Functional webs; 5.1 Introduction; 5.2 Interaction strengths; 5.3 A functional food web for the CPER; 5.4 Summary and conclusions; Part II: The dynamics and stability of simple and complex communities; Chapter 6 Energetic organization and food web stability; 6.1 Introduction; 6.2 Energetic organization and stability; 6.3 Distribution of interaction strengths: trophic-level-dependent interaction strengths; 6.4 Summary and conclusions; Chapter 7 Enrichment, trophic structure, and stability; 7.1 Introduction7.2 Simple primary-producer-based and detritus-based models7.3 Trophic structure and dynamics along a productivity gradient; 7.4 More complex models; 7.5 Connections to real-world productivity; 7.6 Summary and conclusions; Chapter 8 Modeling compartments; 8.1 Introduction; 8.2 Complexity, diversity, compartments, and stability; 8.3 Defining compartments; 8.4 Approaches to studying compartments; 8.5 The energy channel; 8.6 Energy channels-structure and stability; 8.7 Summary and conclusions; Chapter 9 Productivity, dynamic stability, and species richness; 9.1 Introduction9.2 Trophic structure, dynamics, and productivity9.3 Feasibility revisited; 9.4 Feasibility and the hump-shaped curve; 9.5 Trophic structure and the diversity of production; 9.6 A review of hypotheses; 9.7 Summary and conclusions; Part III: Dynamic food web architectures; Chapter 10 Species-based versus biomass-based food web descriptions; 10.1 Introduction; 10.2 Dynamic food webs-playing Jenga; 10.3 Two case studies; 10.4 Stability, disturbance, and transition; 10.5 Summary and conclusions; Chapter 11 Dynamic architectures and stability of complex systems along productivity gradients11.1 IntroductionThis novel book bridges the gap between the energetic and species approaches to studying food webs, addressing many important topics in ecology. Species, matter, and energy are common features of all ecological systems. Through the lens of complex adaptive systems thinking, the authors explore how the inextricable relationship between species, matter, and energy can explain how systems are structured and how they persist in real and model systems. Food webs are viewed as open anddynamic systems. The central theme of the book is that the basis of ecosystem persistence and stability rests on theOxford Series in Ecology and EvolutionCoral reef ecologyFood chains (Ecology)Science -- ExperimentsScience -- Study and teachingElectronic books.Coral reef ecology.Food chains (Ecology).Science -- Experiments.Science -- Study and teaching.577577.16Moore John C197967De Ruiter Peter Cornelis1952-866026AU-PeELAU-PeELAU-PeELBOOK9910462233003321Energetic Food Webs1932874UNINA01521nam0 22003011i 450 UON0042698520231205104851.7420130617f1975 |0itac50 baitaIT|||| 1||||ˆLa ‰nazionalizzazione delle massesimbolismo politico e movimenti di massa in Germania dalle Guerre napoleoniche al Terzo ReichGeorge L. Mosse[trad. di Livia De Felice]Bologna : Il Mulino1975XIX253 p., [8] c. di tav. ; 21 cmit. orig.: The *Nationalization of the Masses. Political Symbolism and Mass Movements in Germany from the Napoleonic Wars through the Third Reichs.UON00426987ˆThe ‰Nationalization of the Masses. Political Symbolism and Mass Movements in Germany from the Napoleonic Wars through the Third ReichsGermaniaStoria sociale Sec. 19.-20.UONC035672FIITBolognaUONL000085943Storia dell'Europa centrale. Germania21MosseGeorge L.UONV099622123071DE_FELICELiviaUONV216992Il MulinoUONV245824650ITSOL20250307RICASIBA - SISTEMA BIBLIOTECARIO DI ATENEOUONSIUON00426985SIBA - SISTEMA BIBLIOTECARIO DI ATENEOSI TED 10 a MOS 01 SI ST 8591 5 01 BuonoNazionalizzazione delle masse89706UNIOR