Systems and methods for delivering aqueous pearlescent digital printing ink compositions using digital offset lithographic printing techniques

We claim: 1. A method for forming a plurality of variable pearlescent image elements or portions on image receiving media substrates, comprising: applying at least first image elements or portions on image receiving media substrates using at least one first ink from at least one first ink source for inked image formation on the image receiving media substrates in a single image forming device, the at least one first ink being a conventional imaging ink; at least partially curing the at least first image elements or portions on the image receiving media substrates; applying variable second image elements or portions on the image receiving media substrates with at least one variable data lithography device, the second image elements or portions being variable pearlescent image elements or portions and the at least one variable data lithography device including: an imaging member with a reimageable surface supporting digital data reimaging for lithographic image transfer to an image receiving medium substrate; a wetting solution source that deposits a layer of wetting solution on the reimageable surface; an optical patterning subsystem that patterns a latent image according to received digital data in the layer of wetting solution through selective evaporation of the layer of wetting solution; a second ink source that supplies a pearlescent ink to the reimageable surface to produce a pearlescent inked image from the patterned latent image for transfer of the variable pearlescent image elements or portions to the image receiving media substrates, the pearlescent ink including a solid particle pearlescent pigment component in a proportion of at least 30% by weight, and having an average particle size of greater than 15 microns, suspended in a solution in the pearlescent ink, the solution having a functional acrylate monomer, at least one dispersant, a thermal stabilizer, and a photo initiator system; and final curing the pearlescent image elements or portions and the first image image elements or portions as image elements on the image receiving media substrates by a curing device to produce an output document that includes the variable pearlescent image elements or portions in different parts of the output document. 2. The method of claim 1 , the first ink source being included as a module in the at least one variable data lithography device. 3. The method of claim 2 , the first ink source applying the at least one first ink to the reimageable surface to produce the first image elements or portions from the patterned latent image on at least one imaging cycle in which the at least one variable data lithography device transfers the first image elements or portions to the image receiving media substrates in at least one imaging cycle that is a separate imaging cycle of the at least one variable data lithography device from an imaging cycle in which the pearlescent image elements or portions are applied to the image receiving media substrates using the pearlescent ink from the second ink source. 4. The method of claim 1 , the first ink source being a component of a separate marking module. 5. The method of claim 4 , the separate marking module applying the first image elements or portions on the image receiving media substrates separately from the at least one variable data lithography device applying the pearlescent image elements or portions on the image receiving media substrates using the pearlescent ink from the second ink source. 6. The method of claim 5 , the separate marking module comprising a conventional lithographic marking device. 7. The method of claim 5 , the separate marking module comprising another at least one variable data lithography device. 8. The method of claim 5 , further comprising at least partially curing applied image elements or portions on the image receiving media substrates by another curing device prior to applying other image elements or portions on the image receiving media substrates, the another curing device positioned between the separate marking module and the at least one variable data lithography device in a process direction. 9. The method of claim 3 , further comprising at least partially curing each image element or portion on the image receiving media substrates by another curing device between steps of applying other image elements or portions on the image receiving media substrates.