Toric matroid bundles

Recent developments have produced new ways to encode the data of a torus equivariant vector bundle over a toric variety using certain representable matroid (s) labeled by polyhedral data. In this paper we show that this data makes sense for non-representable matroids as well. We call the resulting combinatorial objects toric matorid bundles. We define equivariant K-theory and characteristic classes of these bundles. As a particular case, we show that any matroid comes with tautological toric matroid bundles over the permutahedral toric variety and the corresponding equivariant K-classes and Chern classes agree with those in the recent work of Berger-Eur-Spink-Tseng on matroid invariants. Moreover, in analogy with toric vector bundles, we define sheaf of sections and Euler characteristic as well as positivity notions such as global generation, ampleness and nefness for toric matroid bundles. Finally, we study the splitting of toric matroid bundles and, in particular, an analogue of Grothendieck's theorem on splitting of vector bundles on the projective line.