This study investigates the effect of unbroken standing waves on riffles. In the previous studies, the researchers believe that exchange of hyporheic zone caused by the pressure difference because of different fluvial morphological and bed form. Because they can’t measure the fluid velocity field inside sediment bed directly, they use concentration change to study the exchange flow rate between surface flow and porous medium flow. Newson & Newson (2000) believe the biotopes can be classified according to the flow types on the surface of river. We suppose unbroken standing wave on riffles are undular hydraulic jump and a pressure variation under the waves is drivers of fluid exchange between surface flow and porous medium flow. In order to prove this thought, we use Refractive Index Matching (RIM) materials and Particle Tracking Velocimetry (PTV) technique to set up a experiment to measure the velocity field in porous medium under undular hydraulic jump. According to our research, we find out there are a stable downwelling fluxes upwelling fluxes on porous medium surface. We calculate the pressure distribution on porous medium surface by using time-average Navier-Stokes eqns. and find out up and down welling fluxes are corresponding to low and high pressure zone. The velocity field in porous medium also can be simulated by our Pipe Flow Network Analysis model.