This thesis discusses the neutrino flavor physics from the source to the Earth. In first part, we analyze the measured flavor ratios on the Earth to reconstruct the flavor ratio at the source. We also estimate the critical event numbers for distinguishing two most common astrophysical sources. We not only introduce the standard oscillation mechanism but also neutrino decay mechanisms into the propagations of neutrinos. Applying the currently understood of neutrino mixing angle ranges, we obtain the corresponding flavor ratios on the Earth for different propagation mechanisms. In the second part, we discuss the neutrino detections. We simulate neutrinos interacting with the Earth and record the lepton fluxes inside the detector sensitive region. The leptons generate the electromagnetic and hadronic showers. We use CORSIKA simulate these showers and estimate the resulting synchrotron radiations