Real world uses should probably use a database or at least a mapping (from the containers or unordered-containers packages), but a simple solution can be obtained using simple list comprehension.
Assuming you have simple lists of Subject and Sell:
type Subjects = [Subject]
type Sells = [Sell]
You could make an O(n*m) implementation (good for play only!):
price :: Sell -> Double
price (Sell _ _ d) = d
calTime :: Subject -> CalendarTime
calTime (Subject _ c) = c
sIdent :: Subject -> Int -- Omitted, you should use record syntax anyway
eIdent :: Sell -> Int -- Omitted
sumPred :: (CalendarTime -> Bool) -> Subjects -> Sells -> Double
sumPred js es = sum [price e | j <- js, e <- es
, sIdent j == eIdent e
, pred (calTime j)]
But as I said, that's foolish. Using a DB with Subjects keyed by CalendarTime and Sell's keyed by identity will give you a more practical solution.