Sunset on a smoggy summer day in Los Angeles. The discovery of ancient 'hyperthermal' events in Earth's history could help scientists understand how modern global warming could affect the biosphere or Earth.
Credit: Barbara Gaitley, JPL image P-48863A
NEW YORK: Rapid increases in greenhouse gases have happened more frequently in the Earth’s history than previously realised, according to a new study.
Scientists at the Scripps Institution of Oceanography in San Diego have studied extensively the Palaeocene-Eocene Thermal Maximum (PETM), about 56 million years ago, a period of rapid global warming that is associated with a temperature spike on par with expectations for today’s global warming scenarios.
But according to the report in Nature there has been a series of six smaller greenhouse gas fluxes during the same geologic time period (the Palaeocene and Eocene epochs, 65 to 34 million years ago).
These so-called ‘modest hyperthermals’ - meaning a rapid, pronounced period of global warming - had shorter durations and recoveries (about a 40,000 year cycle) and involved an exchange of carbon between surface reservoirs into the atmosphere and then into sediment.
Plants can’t tell the difference
The researchers believe that large-scale carbon releases were vented from the ocean floor, but were reburied relatively quickly. Under higher CO2 levels, plants take up more toxic materials
Higher concentrations of CO2 in the atmosphere generally increase plant growth and productivity. Plants take up more nutrients from the soil. But according to a new study, they also take up more toxic materials from the soil.
Benjamin Duval from the University of Illinois at Urbana-Champaign and colleagues showed in a paper published in the journal Environmental Science & Technology that contaminants in the soil become increasingly mobile in vegetation and that these toxins could be cycling faster through the ecosystem.
“Plants can’t always distinguish toxic elements from nutrients,” Duval said in a review of his study published in Chemical & Engineering News. “For instance, arsenic can look a lot like phosphorous, which plants need for their metabolism.”
Worrisome toxicity rates
Duval and company collected soil and oak tree samples from a site at the Kennedy Space Centre in Florida. They measured toxins in samples growing under normal CO2 levels and compared them to those growing at 700 parts per million CO2, roughly double the concentration.
They found that concentrations of the 13 metals studied, which included lead, cadmium, and arsenic, among others, were up to twice as high in the plant materials in the elevated CO2 samples.
The researchers point out that the rates are worrisome because the toxic metals may be ingested up the food chain and can depress the decomposition rates of plant litter and hinder soil microbial activity.
The implications for people eating food crops under such a scenario is also troubling. Although, according to Duval, the current uptake of heavy metals didn’t exceed toxic thresholds set by health agencies.
