Let $\{M_i\}$ be a sequence of 2-dimensional orientable surfaces of genus $g$ with smooth Riemannian metrics with the Gauss curvature at least $-1$ and diameter at most $D$. By the Gromov compactness theorem, one can choose a subsequence converging in the Gromov-Hausdorff sense to a compact Alexandrov space with curvature at least $-1$ and Hausdorff dimension 0,1,or 2. One can show that if $g\geq 2$ then the limit space cannot be a point, thus the dimension of the limit space is at least 1 (while for $g=0,1$ it can be 0). 

Let us assume that the limit space has dimension 1. Then it is either circle or segment. 

**Whether these both possibilities (circle and segment) can be obtained in the limit?**