Worms of different sizes extend burrows through muddy sediments by fracture applying dorso-ventral forces that are amplified at the crack tip. Lanice conchilega commonly known as the sand mason worm is a species of burrowing marine polychaete worm It builds a characteristic tube which projects from the seabed consisting of. Notable polychaetes One notable polychaete the Pompeii worm Alvinella pompejana is endemic to the hydrothermal vents of the Pacific. This study suggests that I-shaped burrow dominants the burrow architecture of P The polychaete with large size has a higher HEindex burrow complexity indicating a strong. Sedentary burrowing polychaetes including ambush predators mostly employ peristaltic locomotion when they burrow 52 which produces a smooth-walled burrow without sinuosity..
Worms of different sizes extend burrows through muddy sediments by fracture applying dorso-ventral forces that are amplified at the crack tip. Lanice conchilega commonly known as the sand mason worm is a species of burrowing marine polychaete worm It builds a characteristic tube which projects from the seabed consisting of. Notable polychaetes One notable polychaete the Pompeii worm Alvinella pompejana is endemic to the hydrothermal vents of the Pacific. This study suggests that I-shaped burrow dominants the burrow architecture of P The polychaete with large size has a higher HEindex burrow complexity indicating a strong. Sedentary burrowing polychaetes including ambush predators mostly employ peristaltic locomotion when they burrow 52 which produces a smooth-walled burrow without sinuosity..
Worms of different sizes extend burrows through muddy sediments by fracture applying dorso-ventral forces that are amplified at the crack tip. Lanice conchilega commonly known as the sand mason worm is a species of burrowing marine polychaete worm It builds a characteristic tube which projects from the seabed consisting of. Notable polychaetes One notable polychaete the Pompeii worm Alvinella pompejana is endemic to the hydrothermal vents of the Pacific. This study suggests that I-shaped burrow dominants the burrow architecture of P The polychaete with large size has a higher HEindex burrow complexity indicating a strong. Sedentary burrowing polychaetes including ambush predators mostly employ peristaltic locomotion when they burrow 52 which produces a smooth-walled burrow without sinuosity..
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