My only concern about LINQ is with its implementation of joins.
As I determined when trying to answer this question (and it's confirmed here), the code LINQ generates to perform joins is (necessarily, I guess) naive: for each item in the list, the join performs a linear search through the joined list to find matches.
Adding a join to a LINQ query essentially turns a linear-time algorithm into a quadratic-time algorithm. Even if you think premature optimization is the root of all evil, the jump from O(n) to O(n^2) should give you pause. (It's O(n^3) if you join through a joined item to another collection, too.)
It's relatively easy to work around this. For instance, this query:
var list = from pr in parentTable.AsEnumerable()
join cr in childTable.AsEnumerable() on cr.Field<int>("ParentID") equals pr.Field<int>("ID")
where pr.Field<string>("Value") == "foo"
is analogous to how you'd join two tables in SQL Server. But it's terribly inefficient in LINQ: for every parent row that the
where clause returns, the query scans the entire child table. (Even if you're joining on an unindexed field, SQL Server will build a hashtable to speed up the join if it can. That's a little outside LINQ's pay grade.)
This query, however:
string fk = "FK_ChildTable_ParentTable";
var list = from cr in childTable.AsEnumerable()
where cr.GetParentRow(fk).Field<string>("Value") == "foo"
produces the same result, but it scans the child table once only.
If you're using LINQ to objects, the same issues apply: if you want to join two collections of any significant size, you're probably going to need to consider implementing a more efficient method to find the joined object, e.g.:
Dictionary<Foo, Bar> map = buildMap(foos, bars);
var list = from Foo f in foos
where map[f].baz == "bat"