AI Article Synopsis
- Research shows that deserts can capture carbon dioxide (CO) through processes not involving photosynthesis, but inconsistencies in measurement methods create uncertainty in these findings.
- A study in the Taklimakan Desert indicated that if certain measurement errors aren’t corrected, the carbon sequestration potential of shifting sand could be exaggerated.
- Results show that shifts in soil temperature influence CO exchange, with the sand acting as a carbon source in warmer months and a sink in cooler ones, demonstrating that deserts are significant in the global carbon cycle.
Article Abstract
Studies showing that deserts can sequester CO through non-photosynthetic processes have contributed to locating missing carbon sinks. However, the contradiction between the desert CO flux obtained by different observation methods leads to uncertainty in evaluating desert carbon sequestration. This has caused scepticism regarding desert carbon sequestration after years of research. Through a comparative experiment in the non-vegetated shifting sand of the Taklimakan Desert (TD), it was found that if the abnormal negative CO flux observed by IRGASON during the day was not corrected, the carbon sequestration of the TD would be overestimated. The CO flux observed by EC155 is highly consistent with that of LI-COR8100A and can reflect the real CO exchange in the desert. The CO flux observed by EC155 was used to correct the results of IRGASON. Results show that the expansion/contraction of soil air containing CO caused by the change in the daily average soil temperature difference (T) drives CO exchange in shifting sand. This results in diurnal variation of CO release caused by shifting sand during the day and CO absorption at night, and a unimodal distribution of CO exchange caused by shifting sand throughout the year. From April to September (T > 2 °C), the shifting sand releases CO as a carbon source. In the other months (T < 2 °C), the shifting sand absorbs CO as a carbon sink. The stronger absorption shows that the shifting sand in the TD provides carbon sequestration, with a CO uptake rate of ~148.85 × 10 tons a. This suggests that deserts play an active role in locating the missing carbon sinks and mitigating climate change, and that the status of deserts in the global carbon cycle cannot be ignored.
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| http://dx.doi.org/10.1016/j.scitotenv.2022.155988 | DOI Listing |
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