Let's call the first DataGridView with all the rows Grid A and the DataGridView that shows only new rows Grid B. Don't define the contents of Grid B by observing changes to Grid A. Instead, create your own definition of what a "new row" is. One easy way to do this is to make a copy of the contents of Grid A during every update (in the OnChange event of our SqlDependency object). Then, on the next update you'll be able to select rows into the "new rows" DataSet.
Here's the pseudo-code for the OnChange handler for your SqlDependency object (this should be watching the SqlCommand that fills Grid A):
- Run a SqlCommand that selects rows from the Grid A datasource with an NOT IN clause that excludes rows with ID in a 2nd table called LastUpdate (see step 2). This will be the data source for Grid B
- Run a SqlCommand that copies all rows of the Grid A data source to the LastUpdate table. It may be easiest to just delete the contents of LastUpdate first, then run a statement of the form:
INSERT INTO LastUpdate(ID) SELECT ID FROM table_x
- Update the Grid A normally
The point I want to emphasize is that this update strategy creates an effective separation between data queries and the UI. In other words, the data that drives Grid B does not in any way depend on Grid A. If you stick with this principle, you should wind up with a much more maintainable application.