Water & Climate

How many are too many snails?

UC Master of Science student Kate Hornblow is part of a BioHeritage project that’s investigating the recovery of streams and rivers. Kate collected snails from Grasmere Stream which runs through the University's Cass Research Station.

Snails could stop freshwater invertebrate populations from recovering, even after the stream habitat has been restored. That’s why a University of Canterbury (UC) student has spent much of her summer creating snail baskets.

UC Master of Science student Kate Hornblow is part of a BioHeritage project that’s investigating the recovery of streams and rivers.

Healthy waterways support a number of native plant, invertebrate and fish species. However, as they become degraded, barriers can develop that prevent native populations being restored.

Kate is looking at how snail density impacts the ability of other invertebrates to colonise an area.

“In areas of high snail density, like degraded stream systems, when the abiotic factors are restored, macroinvertebrates are still likely to have low colonisation rates,” she says.

“This is due to being out-competed – regardless of the improved water quality.”

Kate collected snails from Grasmere Stream which runs through the University’s Cass Research Station. She placed them in rock baskets at different densities and measured the colonisation rates of other invertebrates within the baskets.

“This research, especially if looked at more in-depth during my Master’s, could assist stream restoration efforts by finding a possible density threshold,” she says.

“If we can control the snail populations to that particular density threshold, we could enable other invertebrates to successfully colonise the area and therefore improve the biotic health of the waterway.”

Source: University of Canterbury

Featured Image: UC Master of Science student Kate Hornblow is part of a BioHeritage project that’s investigating the recovery of streams and rivers. Kate collected snails from Grasmere Stream which runs through the University’s Cass Research Station.