Environment & Energy
Related: About this forumAcidification: Samples From HMS Challenger (1870s) Show Plankton Shells 76% Thicker Than Today
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Not everyone would consider 150-year-old plankton specimens a treasure with cutting-edge research potential. But thats precisely what Lyndsey Fox thought when she discovered a cache of single-celled, shell-building foraminifera deep in storage at Londons Museum of Natural History. Now, the Kingston University micropaleontologist and colleagues have shown that the samples, collected during the pioneering 187276 expedition of the HMS Challenger, hold valuable insights about modern-day climate change: Their shells are up to 76% thicker than those of todays foraminifera, which are thinning in our increasingly acidic oceans.
Scientists have known for years that ocean acidificationa drop in pH that occurs when excess carbon dioxide in the atmosphere dissolves in seawaterbrings bad news for most marine life. Acidic waters eat away at the calcium carbonate shells and exo-skeletons of organisms from crabs to corals and make it harder for them to build such structures in the first place. But most evidence has come from lab experiments that last no longer than a few years. Scientists havent been able to examine the long-term impacts of acidification in the open oceanuntil now.
To compare the Challenger samples to modern-day specimens, the researchers focused on two species of planktonNeogloboquadrina dutertrei and Globigerinoides rubercollected during Tara Oceans, a 2011 expedition to the eastern equatorial Pacific Ocean. Using detailed notes from the Challenger expedition as their guide, they pinpointed the precise locations and time of year that the Challenger samples were taken and selected comparable samples from the Tara voyage.
Next, the researchers used a computerized tomography scanner to create precise 3D images of the shells, which are less than 1 millimeter in diameter. They discovered that on average, all modern specimens had thinner shells than the historic specimens, up to 76% thinner in N. dutertrei, they reported last week in Scientific Reports. Some modern specimens had shells so thin that the team was unable to image some portions. I was a little bit shocked to see how dramatic the results were for some species, Fox says. Based on past experiments, the researchers say ocean acidification is likely to blame. They acknowledge, however, that other factors related to ocean acidification, including warmer water and lower amounts of oxygen, could also play a role.
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https://www.sciencemag.org/news/2020/02/plankton-shells-have-become-dangerously-thin-acidifying-oceans-are-blame