Preface. 1: Turbulence in the ISM.- Turbulence in the ISM. Overview; M. Heyer, E. Zweibel. Theory: A review of the theory of incompressible MHD turbulence; B. Chandran.- Basic properties of compressible MHD turbulence: implications for molecular cloud; A. Lazarian, J. Cho.-Magnetic flux transport in the ISM through turbulent ambipolar diffusion; F. Heitsch, et al. High resolution simulations of nonhelical MHD turbulence; N.E.L. Haugen, et al. Scaling relations of supersonic turbulence in molecular clouds; S. Boldyrev, et al. Hydrodynamical simulations of molecular dynamics in supersonic turbulent flow; G. Pavlovski, et al. Observations: Observational magnetodynamics. 21 years of HI Zeeman splitting measurements... and more; C. Heiles. Structure of molecular clouds; E. Falgarone, et al. The tiny-scale atomic structure: gas cloudlets or scintillation phenomenon? S. Stanimirovic, et al. The relation between the turbulent widths of emission lines from HII regions and the luminosities of the regions; J. Beckman, M. Relano. BIMA and JCMT spectropolarimetric observations of the CO J=2-1 line towards Orion KL/Irc2; J.M. Girart, et al. The measurement of the orientation of the magnetic field in molecular clouds; M. Houde, et al. 2: Formation of Structure and Fragmentation.- Formation of structure and fragmentation. Overview; E. Vazquez-Semandi. Theory: Turbulent Fragmentation and Star Formation; J. Ballesteros-Paredes. MHD simulations of the ISM: The importance of the galactic magnetic field on the ISM "phases"; M.A. D'Avillez, D. Breitschwerdt. Comments on turbulent star formation; R. Klessen. Observations: Magnetic fields in molecular clouds; R. Crutcher. Evolution of magnetic fields in Bok globules: observations vs. theory; S. Wolf. High resolution studies of the ion and neutral spectra as a probe of the magnetic field structure; S.P. Lai. 3: From Cores to Stars.- From cores to stars. Overview; R. Rebolo. Theory: From molecular cores to stars and brown dwarfs; M.R. Bate. Contraction and fragmentation of magnetized rotating clouds and formation of binary systems; K. Tomisaka, et al. Star formation and the Hall effect; M. Wardle. Observations: Submillimeter observations of protostellar cores: probing the initial conditions for protostellar collapse; P. Andre, et al. The substellar population in the young Sigma Orionis cluster: spatial distribution; V.J.S. Bejar, et al. On the internal structure of starless cores. Physical and chemical properties of L1498 and L1517B; M. Tafalla, et al. 4: Accretion Disks.- Accretion disks. Overview; M. Tagger. Theory: Turbulence in accretion disks; J.F. Hawley. Coronae & outflows from helical dynamos, compatibility with the MRI and application to protostellar disks; E. Blackman, J.C. Tan. Observations:- Observation of disks; A. Dutrey. On the alignment of T Tauri stars with the local magnetic field in the Taurus molecular cloud complex; F. Menard, G. Duchene. Polarization in the young cluster NGC 6611: circumstellar, interstellar, or both? P. Bastien, et al. 5: Jets and Large Scale Outflows.- Jets and large scale outflows. Overview; R. Pudritz. Theory: Self-collimated stationary disc winds; J. Ferreira, F. Casse. Outflows from dynamo-active protostellar accretion discs; B. von Rekowski, et al. H2 diagnostic of magnetic molecular shocks in bipolar outflows; S. Cabrit, et al. Observations: The magnetic environment of young stellar objects; A. Chrysostomou, et al.- A collimated stellar wind emanating from a massive protostar; G. Garay, et al.- 6: Interaction Disk-stellar Magnetosphere.- Interaction disk-stellar magnetosphere. Overview; A.I. Gomez de Castro.- Theory: Magnetic interaction between stars and accretion disks; D. Uzdensky.- The emergence of magnetic field into stellar atmospheres; F. Moreno-Insertis. Magnetic star-disk interaction in classical T Tauri stars; M. Kueker, et al. The temperature and ionization of T Tauri microjets; D. O'Brien, et al. Observations: Observations of magnetic fields on T Tauri stars; J. Valenti, C. Johns-Krull. X-ray activity and accretion in young stellar objects; T. Preibisch. The origin of jets from young stars: MHD disk wind models confronted to observations; C. Dougados, et al. Testing the models for jet generation with HST observations; F. Bacciotti, et al. Time dependent magnetospheric accretion in T Tauri stars; J. Bouvier, et al. Classical T Tauri stars and substellar analogs. Classification based on empirical criteria; D. Barrado y Navascues, et al. Clues to substellar formation: rotation and the low-mass end of the initial mass function; M.R. Zapatero Osorio, et al. On the nature of transport in fusion plasmas; C. Hidalgo.