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Recent decrease of the impact of tropical temperature on the carbon cycle linked to increased precipitation.

Wenmin ZhangGuy SchurgersJosep PenuelasRasmus FensholtHui YangJing TangXiaowei TongPhilippe CiaisSizhuo Li
Published in: Nature communications (2023)
The atmospheric CO 2 growth rate (CGR) variability is largely controlled by tropical temperature fluctuations. The sensitivity of CGR to tropical temperature [Formula: see text] has strongly increased since 1960, but here we show that this trend has ceased. Here, we use the long-term CO 2 records from Mauna Loa and the South Pole to compute CGR, and show that [Formula: see text] increased by 200% from 1960-1979 to 1979-2000 but then decreased by 117% from 1980-2001 to 2001-2020, almost returning back to the level of the 1960s. Variations in [Formula: see text] are significantly correlated with changes in precipitation at a bi-decadal scale. These findings are further corroborated by results from a dynamic vegetation model, collectively suggesting that increases in precipitation control the decreased [Formula: see text] during recent decades. Our results indicate that wetter conditions have led to a decoupling of the impact of the tropical temperature variation on the carbon cycle.
Keyphrases
  • climate change
  • smoking cessation
  • human milk
  • particulate matter
  • preterm infants
  • water quality