New Research Indicates That in the Future, Trees May Store Less Carbon Than Expected

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It’s intuitive to think that if a tree is photosynthesizing, it’s also growing.

It’s intuitive to think that if a tree is photosynthesizing, it’s also growing. But that’s not necessarily so—and a new study of oak trees, published in the journal Science Advances, found that even as they photosynthesize late into the year, their growth stops by mid-summer.

Much of the long-term carbon storage that forests provide depends on trees converting the carbon they absorb through photosynthesis into new wood. Many researchers have predicted that rising atmospheric carbon dioxide (CO2) levels will enhance photosynthesis and stimulate tree growth, putting some of that planet-warming carbon into long-term storage inside wood. However, the observed decoupling of photosynthesis from growth suggests that increased carbon uptake does not necessarily translate into greater wood production. Instead, some of the absorbed carbon may be used to produce foliage or used in short-lived metabolic processes rather than being locked away long term, reducing the amount of carbon stored in forests compared with previous expectations.

The finding has climate implications.

Read More: Columbia Climate School

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