>The main objective of this post is to apply the Gauss Bonnette Theorem to count the number of limit cycles of a polynomial vector field as described in [this MO post and its linked MO posts]( https://mathoverflow.net/questions/160945/limit-cycles-as-closed-geodesicsin-negatively-or-positively-curved-space) But we are highly reducing the requirement "Geodesibility" Let $X$ be a nonvanishing vector field on a Riemannian surface $(M,g)$. For $q\in M$, the geodesic curvature of the orbit of$ X$ passiing $q$ is denoted by $\kappa_g(q)$. **Definition:** A non vanishing vector field $X$ on a $2$-manifold $M$ satisfies WG property (weak geodesible) if there is a Riemannian metric $g$ on $M$ such that the smooth function $\kappa_g(q).|X(q)|$ belongs to the range of the derivation operator $X(u)=X.u=du(X)$. **Remark 1:** Obviousely every geodesible flow is a WG flow. **Question 1:** Is the Vander Pole vector field $(V)$ bellow a WG vector field on $\mathbb{R}^2\setminus \{0\}$?$$(V)\;\;\;\begin{cases} x'=y-(x^3-x)\\y'=-x\end{cases}$$ **Question 2:** Is there a negative curvature Riemannian metric $g$ on the punctured plane for which $\kappa_g |V|$ lies in the range of derivation associated to $(V)$. **Proposition:** If the answer to the second question is affirmative, then we obviousely have an alternative proof for the fact that $(V)$ has at most one limit cycle. **Proof:** If $\gamma_1, \gamma_2$ are two limit cycles then $\int_{\gamma_i} \kappa_gds=\int_{\gamma_i} \kappa_g|V|dt=0$. Applying the Gauss Bonnete theorem to the annular Region bounded by $\gamma_1, \gamma_2$ gives us a contradiction. **Remark 2:**As we mentioned in the head of this post, we are trying to find some resolutions to difficulties appeared in the following efforts for consideration of [Limit cycles as closed geodesics](https://mathoverflow.net/questions/160945/limit-cycles-as-closed-geodesicsin-negatively-or-positively-curved-space). So in this more flexible approach we do not require that all orbits would be geodesics.(A very rigid and non generic situation). On the other hand we are trying to find a relation for the problem of investigation of the range of the differential operator associated to a vector field.