![]() Morganti, Autun Purser, Hans Tore Rapp, Christopher R. Reference: “ In situ observation of sponge trails suggests common sponge locomotion in the deep central Arctic” by Teresa M. ![]() To learn more about how fast and why the sponges make these unexpected moves, they say that further time-lapse imagery and other studies are needed. It’s also possible that the movement has something to do with reproduction or the dispersal of young sponges. We suggest that the mobility indicated here may be related to sponges searching for and feeding directly on the accumulated detrital matter trapped within the sponge spicule mat underlying the living sponges.” “The extremely low primary productivity, sedimentation, and particle advection rates of the Langseth Ridge region overall result in some of the lowest standing stocks of benthic life so potentially, this Arctic Geodia community relies on particulate and dissolved fractions from the degradation of old organic debris trapped within the spicule mat as additional food sources. “These features are all indicative of feeding and population density behavioral trends previously observed in encrusting sponges,” the researchers write. It may be that the sponges move in order to get food, perhaps driven by the scarce Arctic resources. In fact, the images suggest that the sponges frequently traveled uphill. They don’t think the movement is simply a matter of gravity. They say that the findings suggest that the moving sponges sometimes change direction. The researchers generated 3D models from the images and video to show the way the trails were interwoven with each other. Credit: AWI OFOBS team, PS101 Morganti et al./Current Biology This figure shows typical sponge spicule trails. The researchers report that they also often seemed to be in areas with smaller, juvenile sponges. The trails were seen in areas with lots of sponges, as well as in more sparsely populated areas. They often connected directly to living sponges. Those trails were several centimeters in height and up to many meters long. Far from a rarity, the researchers saw trails in nearly 70% of seafloor images that contained living sponges. But, even more intriguing were the numerous trails of sponge spicules. ![]() They say it’s not clear, given the challenging environment, how the area supports such a vast community of sponges. hentscheli, and Stelletta rhaphidiophora individuals. The researchers determined that the impressive sponge populations were primarily comprised of large numbers of Geodia parva, G. The discovery was made by studying video captured in 2016 by the research icebreaker Polarstern as it surveyed the submerged peaks of the permanently ice-covered Langseth Ridge.Ī towed marine camera sled and a hybrid remotely operated vehicle (HROV) showed that the peaks of the ridge were covered by one of the densest communities of sponges that’s ever been seen. Nevertheless, the new findings took the research team by surprise. In some cases, that movement involved remodeling their whole bodies. There also has been some evidence of movement in sponges raised in the lab. They can react to external stimulation and move a little by contracting or expanding their bodies. Sponges, after all, have no muscles or specialized organs for moving around. But most species are thought to become sessile as adults. In fact, sponges do have a motile larval stage. It looked as though the sponges had “crawled” into their current positions. “This is the first time abundant sponge trails have been observed in situ and attributed to sponge mobility.” “We observed trails of densely interwoven spicules connected directly to the underside or lower flanks of sponge individuals, suggesting these trails are traces of motility of the sponges,” the researchers, led by Teresa Morganti of the Max Planck Institute of Marine Microbiology and Autun Purser of the Alfred Wegener Helmholtz Centre for Polar and Marine Research, write. But, according to a new study in the journal Current Biology on Apin which researchers describe mysterious trails of light brown sponge spicules (spike-like support elements in sponges) across the Arctic seafloor - that isn’t always so. The aquatic animal known as the sponge is often described as entirely sessile: once they’ve settled in a spot and matured, they aren’t generally thought of as moving around. This image shows trails left by sponges as they crawl across the seafloor.
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