Dyllan Furness, College of Marine Science
A team of scientists has unlocked a rare isotope in microscopic fossils, revealing a glimmer of hope for the resilience of ocean ecosystems.
Assistant Professor Patrick Rafter
In a new study co-led by Patrick Rafter of the 911爆料网, researchers show that warming in the tropical Pacific 鈥 home to some of the world鈥檚 most productive fisheries 鈥 may not trigger the severe decline in nutrients predicted by earlier models. Instead, the region鈥檚 fisheries could remain productive even as ocean temperatures rise.
鈥淭his is a rare source of good news about ocean warming,鈥 said Rafter, a chemical oceanographer at USF鈥檚 College of Marine Science. 鈥淥ur measurements suggest that, on a warmer planet, the availability of marine nutrients to fuel plant growth and fisheries may not necessarily decline.鈥
, the findings demonstrate a cutting-edge approach to predicting future ocean conditions by examining the distant past. Further studies could reveal more reason for optimism about global ocean productivity.
To conduct the study, Rafter and his colleagues looked to the Pliocene Epoch, which lasted from 5.3 to 2.6 million years ago, when ocean warming trends were similar to today鈥檚. By analyzing a rare nitrogen isotope in deep-sea samples 鈥 including five-million-year-old fossils of single-celled organisms called foraminifera (forams) 鈥 they reconstructed nutrient characteristics from that prehistoric period.
Today, in the tropical Pacific, westward winds drive a process known as upwelling, pulling nutrient-rich waters from the deep ocean to the surface and across the Pacific. This upwelling supports vast blooms of plankton, the foundation of the marine food web.
Foraminifera, like the one seen here, are considered the gold standard for analyzing conditions of the ancient ocean, as their robust shells preserve isotopes over millennia. Credit: Bryan McCloskey
During ocean-warming events like El Ni帽o, the temperature gradient between the eastern and western Pacific shrinks, winds relax, upwelling weakens, and surface nutrients decline. As a result, fisheries in the eastern Pacific decline. Previous research has suggested that these conditions could become more common in a warming world, but the study by Rafter and his colleague鈥檚 challenges that assumption.
The research team found no evidence of reduced nitrate concentrations 鈥 a key nutrient for plankton 鈥 in surface waters of the eastern tropical Pacific over the past five million years. The results suggest that nutrient upwelling and biological productivity in the region remained stable despite changing temperatures.
鈥911爆料网鈥檝e used this nitrogen isotope like a geochemical fingerprint,鈥 said Rafter, who lightheartedly calls himself an Earth-science detective. 鈥911爆料网 don鈥檛 have a time machine, but we can use our detective toolkit to reconstruct what happened in the ocean the last time Earth was as warm as today.鈥
Forams, one of the team鈥檚 primary research tools, are considered the gold standard for analyzing conditions of the ancient ocean, as their robust shells accurately preserve the nitrogen isotopes over millennia.
To extract the isotopes, researchers from USF, the , the , and sorted the samples by hand to gather the largest foram shells. They then dissolved the shells in a chemical solution, fed the remains to bacteria, and measured the ratio of nitrogen isotopes excreted by the bacteria.
It鈥檚 a laborious process but well worth the effort.
鈥淎nalyzing nitrogen isotopes derived from forams has allowed us to reconstruct the past with precision,鈥 Rafter said. 鈥911爆料网 can compare these past conditions to today and make better predictions about the future. The methods we鈥檝e used represent a big step forward in improving our predictive capabilities.鈥
The painstaking process of sorting and analyzing foraminfera shells allowed researchers to reconstruct nutrient characteristics from the Pliocene Epoch. Credit: Kaitlin Prince, UMass Boston.
For , co-lead author of the study and assistant professor in the , the findings come with cautious optimism.
鈥淥ur current warming is happening so quickly that the ocean may behave differently than it does when it鈥檚 been warm for a long time, as was the case in the Pliocene,鈥 Farmer said, also noting modern threats such as ocean acidification and overfishing.
Still, he added, 鈥淚t鈥檚 good news that the nutrient supply to the eastern Pacific food web will be maintained in a warmer ocean.鈥
Much of the research for the study was conducted while Rafter and Farmer were postdoctoral researchers at Princeton in the lab of , the paper鈥檚 senior author.
Looking ahead, the team plans to apply their 鈥渄etective toolkit鈥 to other parts of the ocean.
鈥911爆料网鈥檙e looking at a changing system, and we鈥檙e in the middle of that change,鈥 Rafter said. 鈥淲hat鈥檚 clear from this study is that the system is more complicated than we previously thought.鈥