November 22, 2017

Radboud University Nijmegen

Due to climate change, including rising temperatures, more and more methane is bubbling up from lakes, ponds, rivers and wetlands throughout the world. The release of methane — a potent greenhouse gas — leads to a further increase in temperature, thus creating a positive feedback loop (also known as a ‘vicious circle’).


Bubbles filled with methane gas develop in the sediment at the bottom of shallow lakes.
Credit: © Olha Rohulya / Fotolia



Never before have such unequivocal, strong relationships between temperature and emissions of methane bubbles been shown on such a wide, continent-spanning scale.,” says biologist Sarian Kosten of Radboud University.

The study focused on shallow lakes, ponds, rivers and wetlands. These aquatic environments are relevant in the context of climate change because they are responsible for much of global greenhouse gas emissions. An important part of these emissions is caused by bubbles filled with methane gas that develop in the sediment at the bottom of these water bodies. When the bubbles reach the surface, the gas enters the atmosphere.

Higher methane emissions

For the current research, an international team of scientists studied existing literature and conducted a large experiment in close collaboration with the Netherlands Institute of Ecology (NIOO-KNAW). First, existing research into methane bubbles was collected from various locations, ranging from a fishing pond in Malden (a town near Nijmegen) to postglacial lakes in northern Sweden and forest ponds in Canada. “Next, we simulated methane bubble production in 1000-litre ‘mini-lakes’ at the NIOO, where we could accurately control temperature and other conditions,” explains Ralf Aben, biologist at Radboud University. “In this way we excluded causes other than the rise in temperature.”

In open tanks filled with water and sediment, the researchers were able to mimic an annual cycle. Four tanks had a ‘normal’ Dutch climate, and in four other tanks the average temperature was 4 degrees Celsius higher. That led to 50percent higher emission of methane bubbles. The biologists predict that a temperature rise of 1 degree Celsius leads to 6-20 percent higher emission of methane bubbles, which in turn leads to additional greenhouse gases in the atmosphere and to an additional temperature increase.

What is next?

Nutrient-rich sediments produce more methane than nutrient-poor sediments. One possibility for reducing methane production is therefore to make sure that sediments have fewer nutrients, which means using less fertiliser!

The global rise in temperature will be difficult to reverse, but not impossible. “Every tonne of greenhouse gas that we emit leads to additional emissions from natural sources such as methane bubbles,” says Kosten. “Luckily, the opposite is also true: if we emit less greenhouse gas and the temperature drops, we gain a bonus in the form of less methane production. This bonus from nature should be our motivation to reduce greenhouse gas emissions even further.”

Story Source:

Materials provided by Radboud University NijmegenNote: Content may be edited for style and length.

Journal Reference:

  1. Ralf C. H. Aben, Nathan Barros, Ellen van Donk, Thijs Frenken, Sabine Hilt, Garabet Kazanjian, Leon P. M. Lamers, Edwin T. H. M. Peeters, Jan G. M. Roelofs, Lisette N. de Senerpont Domis, Susanne Stephan, Mandy Velthuis, Dedmer B. Van de Waal, Martin Wik, Brett F. Thornton, Jeremy Wilkinson, Tonya DelSontro, Sarian Kosten. Cross continental increase in methane ebullition under climate changeNature Communications, 2017; 8 (1) DOI: 10.1038/s41467-017-01535-y


Source: Radboud University Nijmegen. “Worldwide increase in methane bubbles due to climate change.” ScienceDaily. ScienceDaily, 22 November 2017. <>.


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