In fact, the name derives from helos, meaning marsh, so a more accurate translation of their scientific name would be marsh pitcher plants.

Species in the genus Heliamphora are carnivorous plants that consist of a modified leaf form that is fused into a tubular shape.

They have evolved mechanisms to attract, trap, and kill insects; and control the amount of water in the pitcher. At least one species (H. tatei) produces its own proteolytic enzymes that allows it to digest its prey without the help of symbiotic bacteria.

Though often counted among the various carnivorous plants, with the exception of Heliamphora tatei, the vast majority of plants in the genus Heliamphora do not produce their own digestive enzymes (i.e. proteases, ribonucleases, phosphatases, etc.), relying instead on the enzymes of symbiotic bacteria to break down their prey.

They do, however, attract prey through special visual and chemical signals and trap and kill the prey through a typical pitfall trap. Field studies of H. nutans, H. heterodoxa, H. minor, and H. ionasi have determined that none of these species produce their own proteolytic enzymes.

H. tatei is one of the few species observed to produce both digestive enzymes and wax scales, which also aid in prey capture.

The pattern of carnivory among Heliamphora species, combined with habitat data, indicates that carnivory in this genus evolved in nutrient-poor locations as a means to improve absorption of available nutrients.

Most Heliamphora typically capture ants, while H. tatei can capture and absorb nutrients from more flying insects.

The carnivorous habit among these species is lost in low light conditions, which suggests that certain nutrient concentrations (specifically nitrogen and phosphorus) are only limiting during periods of fast growth under normal light conditions, thus rendering most of the carnivorous adaptations inefficient and not energy cost effective.