A crocodile, which can remain underwater without breathing for up to 1 hour drowns its air-breathing prey, then dines at its leisure.  An adaptation that aids the crocodile in doing so is that it can utilize virtually 100% of the O2 in its blood whereas humans, for example, can only extract about 65% of the O2 in their blood.  Crocodile Hb does not bind BPG.  However, crocodile deoxyHb preferentially binds HCO3-.  How does this help the crocodile obtain its dinner? 

Please help explain why/if this is the answer, thank you!

As CO2 concentrations increase so will the concentration of HCO3-. The HCO3- preferentially binds to the crocodile's deoxyhemoglobin, which allosterically prompts the hemoglobin to assume the deoxy conformation and thus release its O2.