The issue is that you are specifying two conditions with OR that apply to separate tables in your query. Because of this, the nonclustered index seek has to return most or all of the rows in your big table because OR logic means they might also match the condition clause in the second table.
Look at the SQL execution plan in all three examples above, and notice the number of rows that come out of the nonclustered index seek from the big table. The ultimate result may only return 1,000 or fewer of the 800,000 rows in the table but the OR clause means that the contents of that table have to be cross-referenced with the conditional in the second table since OR means they may be needed for the final query output.
Depending on your execution plan, the index seek may pull out all 800,000 rows in big table because they may also match the conditions of the OR clause in the second table. The UNION ALL is two separate query against one table each, so the index seek only has to output the smaller result set that might match the condition for that query.
I hope this makes sense. I've run across the same situation while refactoring slow-running SQL statements.