This study is led by Dr. Lei Ding and Prof. Jianping Huang (College of Atmospheric Sciences, Lanzhou University). They found future terrestrial ecosystem will produce more oxygen for atmosphere when exploring the variation of the modern oxygen cycle. “Oxygen cycle is an essential biogeochemical cycle for all aerobic life on Earth. However, the modern oxygen cycle has experienced a drastic change compared with that in pre-industrial period.” Huang says. This change is characterized by the decline in atmospheric oxygen (O 2 ) level, which continued for recent decades.
As a main component of oxygen cycle, terrestrial ecosystem had attracted the researchers’ attention. To determine the response of ecosystem O 2 production to climate change and anthropogenic activities, the research group developed a long-term global terrestrial ecosystem O 2 production database. They found that, as the largest O 2 source on Earth, terrestrial ecosystem can produce more than 80% of the total O 2 production (7.10 Gt from land, 1.74 Gt from ocean). The main O 2 sources are located in the tropics, and the O 2 production decrease as the latitudes increase (see left image below).
The team also found, in the future, the terrestrial ecosystem O 2 productions will experience a significant increase, which may slow down the decline of atmospheric O 2 level (see below, right image). “With the increase in net photosynthesis of vegetation, more O 2 will be emitted into atmosphere,” Ding says.
Long-term analysis reveals that anthropogenic activities and climate change are responsible for the variations in terrestrial O 2 sources, owing to land-use changes and competing effects between net photosynthesis and heterotrophic respiration. By 2100, more O 2 will be produced from the low and middle latitudes, while the high latitudes will serve as a larger oxygen sink due to extreme land-use type changes and drastic increases in soil respiration.
"The increase of terrestrial O 2 production will partly compensate for the loss of O 2 in the atmosphere. However, we must stress that this situation is still not optimistic, as the amount of O 2 consumed by fossil fuel combustion is also increasing to unprecedented levels. If we rely entirely on ecosystem adaptation and recovery without reducing or limiting fuel combustion and other anthropogenic activities, the O 2 concentration will continue to decline." Huang says.
This study of O 2 production in terrestrial ecosystems complements the understanding of the modern oxygen cycle and helps provide better estimates for future variations in atmospheric O 2 level. Moreover, the integrated long-term global terrestrial ecosystem production database provides a new tool for assessing the ecosystem health.
See the article:
Ding L, Huang J, Li C, Han D, Liu X, Li H, Bai Y, Huang J. 2022. Variations in terrestrial oxygen sources under climate change. Science China Earth Sciences, 65(9): 1824–1836, https://doi.org/10.1007/s11430-021-9956-5
http://engine.scichina.com/doi/10.1007/s11430-021-9956-5
Science China Earth Sciences