Let $L \rightarrow X$ be an ample line bundle over $X$ a compact complex manifold. Suppose that I have a ***first-order*** deformation of the pair $(X,L)$. When does this first-order deformation gives rise to a **complex** deformation of the pair $(X,L)$ in the sence of Kodaira and Spencer? 
If one consider the extension 
$$ 0 \rightarrow \mathcal{O}_X \rightarrow \mathcal{E}_L \rightarrow T_X \rightarrow 0$$
defined by the first Chern class of $L$,
then $H^2(X, \mathcal{E}_L)$ is an obstruction space for the functor of **infinitesimal deformations** of $(X,L)$. Is $H^2(X, \mathcal{E}_L)$=0 sufficient to ensure the existence of an associated **complex** deformation?