Under the conditions of different amplitudes, truncation coefficients, and nonlocal degrees, we numerically study the evolution of shedding soltions generated by two kinds of symmetric Airy pulses with space-reversed shapes in a strongly nonlocal nonlinear medium by split-step Fourier method. The results indicate that as the amplitude increases, truncation coefficient and nonlocal coefficient decrease, a tail-leading Airy beam not only generates a shedding soliton at the main lobe, but also generates the shedding solitons at the side-lobes. Thus the number of shedding soliton further increases...
