I found my answer after reading this great article.
I acheived what I was looking for by using a MERGE and its OUTPUT clause. Here is my sample code that I used to figure this out.
I started by creating 3 temporary tables, #Temp2, #Temp3 and #Temp4. #Temp2 is considered the source table. #Temp3 would be the target table and #Temp4 is a bridge. I then inserted a few rows of very simple data, in this case just one field - Value.
CREATE TABLE #Temp2(
OldID INT IDENTITY(1,1),
CREATE TABLE #Temp3(
NewerID INT IDENTITY(1,1),
CREATE TABLE #Temp4(
OldID INT NOT NULL,
NewerID INT NOT NULL,
INSERT INTO #Temp2(Value)
VALUES(30), (40), (50), (70)
INSERT INTO #Temp3(Value)
VALUES (333), (444), (555), (777)
Then comes the MERGE statement that does the dirty work. It will be taking the value from #Temp2 and putting it into #Temp3. It will then take the ID created in #Temp3, the ID from #Temp2 and the Value that was passed, and throw them all into #Temp4.
MERGE INTO #Temp3 AS tgt
USING #Temp2 AS src
WHEN NOT MATCHED THEN
INTO #Temp4(OldID, NewerID, Value);
Then I ran an UPDATE to the staging table #Temp2 to update the NewFK field with the new ID. Lastly, do a simple SELECT to see the updated information.
SET X.NewFK = Z.NewerID
FROM #Temp2 X
JOIN #Temp4 Z
ON X.OldID = Z.OldID
SELECT * FROM #Temp2
This acheived exactly what I needed and is a pretty streamlined way of doing things. I hope this will help some people who come across this question. Thanks everyone for your insight and responses.
I believe MERGE was introduced in SQL Server 2008.