I am posting this on behalf of a friend:

Frank Harary (in Graph Theory, 1969, p. 201) calls out-tree a digraph
that (1) it has no semicycles and (2) it contains a root (source). In
other words, an out-tree is a digraph such that the underlying graph
is a tree with a distinguished root.

On the other side, in his study of graph hierarchy, David Krackhardt
has defined the property of least upper boundedness (LUB) in a digraph
$D$: for any pair $x, y$ of vertices of $D$, there is a vertex $z$
which can reach both vertices and, moreover, $z$ is included in the
path from any other such vertex reaching both $x$ and $y$.

Apparently an out-tree satisfies LUB. What about the converse? Does
anyone know of any theorem connecting the LUB property with the
out-tree-ness of a digraph?

**EDIT:** Can one propose an example of weakly connected digraph without
semicycles which satisfies the property of Least Upper Boundedness
(LUB), while it is NOT an out-tree?