Double ramification cycles within degeneracy loci via moduli of roots

Over the past decade, Janda, Pandharipande, Pixton, and Zvonkine introduced an extremely useful method using rth roots for singling out fundamental classes on moduli of curves within polynomials arising from Riemann--Roch. The so-called double ramification (DR) cycles provide a natural framework embracing most of these classes. They are both fundamental in recent developments in enumerative geometry and central in algebraic geometry, because they express the loci where line bundles on a family of curves are trivial along the fibres. The aim of this paper is to show that the above rth root method can be regarded as a technique to remove excess intersection occurring in the presence of an unwanted subcurve which we call the parasitic curve. To this end, we reinterpret the DR cycle as a distinguished component of the degeneracy class of a map of vector bundles. When applied to moduli of rth roots and combined with a Riemann--Roch computation, this point of view yields a proof of the Hodge-DR Conjecture, along with new proofs of many known formulae for DR cycles and logarithmic DR cycles. Our proofs are valid in arbitrary characteristic.