Graph of the Day: Burning the carbon sink | RenewEconomy

Graph of the Day: Burning the carbon sink

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The fires in NSW remind us of the many vulnerabilities the world’s natural carbon sinks face. How important are they to the delicate climate balance?

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Shrink That Footprint

My home is burning at the moment.  Not the bricks and mortar I live in here in the UK, but the place I call home. The coastal region of New South Wales. In fact there is a 750ha fire about 20km from my parents’ house as I write this.

Bush fires are part of life in Australia, and they always have been. But the fires at the moment are very early in the season, so people back home are asking if the fires are related to climate change.

Linking a single fire with climate change isn’t very sensible, particularly while peoples’ homes are still burning. But the long term link between climate change and the risk of heat related extreme weather events, like fire and heatwaves, is gradually being understood. It is a link which is better evidenced than for things like hurricanes and floods, where robust trends are virtually non-existent.

According to the CSIRO ”Australian annual average daily mean temperatures have increased by 0.9°C since 1910″.  In January it was so hot the Australian Bureau of Meteorology added some new colors to the legend on its heat map (above), the purple indicating above 50°C (122°F). As we have hotter and longer summers we face increased risks of heat related dangers, one of which is fires.

The current fires and the bit of climate debate they have provoked has gotten pretty ugly back home. But the vivid images serve to remind me of something else that I never read in the papers; the vulnerability of the carbon cycle to the risk of fire, and other feedbacks, in the coming century.

The importance of carbon sinks

In my recent climate science for beginners post I talked about why scientists are uncertain as to how much the planet will warm by the end of this century. The two reasons that are often discussed are the path of future emissions and climate sensitivity. But there is also a third important factor. The future of carbon sinks.

If it wasn’t for the increased absorption of carbon dioxide by the oceans and land sinks since the industrial revolution atmospheric concentrations of CO2 would already be above 500 ppm, and the world would be much warmer.


Click the image to expand it.

Of the total carbon dioxide emitted by human activity since 1750 about 44% remains in the atmosphere, 30% has been absorbed by the ocean and 26% by land sinks including trees, soils and fungi.

I’ve shown the annual sources of carbon emissions before, but where those emissions go in terms of sinks is hugely important too.

Carbonsinks As humans emit more and more carbon dioxide each year the atmospheric concentration of CO2 increases, while both land and ocean sinks also absorb more CO2. While absorption from the ocean has grown steadily, there is large annual variability and uncertainty surrounding land sinks.

If recent land sink growth is the result of CO2 fertilization and nitrogen deposition then land sinks may continue to absorb more and more carbon. Whereas if they are largely a response to past land use change in terms of regrowth and thickening they may weaken, exacerbating warming.

Such uncertainties seem common when looking at carbon sinks. Higher temperatures are generally associated with lower net absorption but increased CO2 and rainfall with more. Fires are an issue too.

During the 20th century annual carbon emissions from fire increased by around 40%, driven largely by increased tropical forest fires (see Mouillot). Some fires like the Amazonian fires of 1997/98 and the Black Dragon fires in China and Siberia in 1987 were big enough to have a discernible impact on global atmospheric concentrations.

The future of carbon sinks

If it wasn’t for the land and ocean sinks carbon dioxide concentrations would be growing at 4.8 ppm each year, rather than the recent average of 2.0 ppm. If you priced this mitigation service at $25/t CO2, it would be worth half a trillion dollars each year. But if you like the ocean, the price being paid in terms of acidification is virtually incalculable.

Hopefully land sinks will continue to absorb more carbon dioxide due to increased fertilization. But at the same time rising temperatures put natural carbon sinks at risk. This includes the more immediate risks like fire and dehydration of peatlands, through to the threats of melting permafrost, methane hydrates and ocean pump declines.

australiaThis image from the Global Carbon Project is a good visual summary of the many vulnerabilities carbon sinks face in the coming century. You can see the northern and eastern parts of Australia subject to fire.

This map isn’t saying that these things are going to happen, there is a lot of uncertainty. It is simply pointing out that as the world warms up the natural carbon sinks become more vulnerable to decline. For a proper summary check out the Global Carbon Balance and its Vulnerabilities.

As the Eucalypts continue to burn in New South Wales I can’t help but wonder if at some point in the future the oceans and land are going to start throwing more carbon dioxide back into the atmosphere.

This article was originally published on Shrink That Footprint. Reproduced with permission

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