For
$1\le p <\infty $
, we present a reflexive Banach space
$\mathfrak {X}^{(p)}_{\text {awi}}$
, with an unconditional basis, that admits
$\ell _p$
as a unique asymptotic model and does not contain any Asymptotic
$\ell _p$
subspaces. Freeman et al., Trans. AMS. 370 (2018), 6933–6953 have shown that whenever a Banach space not containing
$\ell _1$
, in particular a reflexive Banach space, admits
$c_0$
as a unique asymptotic model, then it is Asymptotic
$c_0$
. These results provide a complete answer to a problem posed by Halbeisen and Odell [Isr. J. Math. 139 (2004), 253–291] and also complete a line of inquiry of the relation between specific asymptotic structures in Banach spaces, initiated in a previous paper by the first and fourth authors. For the definition of
$\mathfrak {X}^{(p)}_{\text {awi}}$
, we use saturation with asymptotically weakly incomparable constraints, a new method for defining a norm that remains small on a well-founded tree of vectors which penetrates any infinite dimensional closed subspace.