Abstract

We explore the trace (Weyl) anomaly within a general metric-affine geometry that includes both torsion and nonmetricity. Using the heat kernel method and Seeley's algorithm, we compute the Minakshisundaram coefficients for arbitrary spacetimes within this framework, incorporating the effects of the nonmetricity and torsion tensors for the first time. We then determine the corrections to the trace anomaly at one loop for the matter sector in theories invariant under conformal transformation, frame rescaling transformation, and projective transformation. We identify a new anomaly related to hypermomentum, arising from the dilation part mediated by the Weyl component of nonmetricity. As particular cases, we analyze the spin 0 and spin 1/2 cases, considering various couplings between matter and the gravitational sector. We demonstrate that invariance under the frame rescaling transformation results in an anomaly in the relationship between the hypermomentum and the stress-energy tensor. In contrast, under the projective transformation, no anomaly is present; specifically, there is no nonzero trace of the hypermomentum tensor in any of our concrete examples.