Cycles in triangle-free graphs of large chromatic number

More than twenty years ago Erd\H{o}s conjectured~\cite{E1} that a triangle-free graph $G$ of chromatic number $k \geq k_0(\varepsilon)$ contains cycles of at least $k^{2 - \varepsilon}$ different lengths as $k \rightarrow \infty$. In this paper, we prove the stronger fact that every triangle-free graph $G$ of chromatic number $k \geq k_0(\varepsilon)$ contains cycles of $(\frac{1}{64} - \varepsilon)k^2 \log k$ consecutive lengths, and a cycle of length at least $(\tfrac{1}{4} - \varepsilon)k^2 \log k$. As there exist triangle-free graphs of chromatic number $k$ with at most roughly $4k^2 \log k$ vertices for large $k$, theses results are tight up to a constant factor. We also give new lower bounds on the circumference and the number of different cycle lengths for $k$-chromatic graphs in other monotone classes, in particular, for $K_r$-free graphs and graphs without odd cycles $C_{2s+1}$.