AI Article Synopsis
- The study focuses on a newly restored mangrove wetland ecosystem in Quanzhou Bay, examining soil CO2 concentrations and emissions using a portable gas analyzer.
- The soil CO2 flux was relatively low due to the young age of the mangrove, with concentrations ranging between 557.08-2211.50 μmol mol(-1) and flux values from -0.21 to 0.40 μmol m(-2) s(-1).
- Differences were observed between early and late intertidal periods, with early intertidal showing higher CO2 concentrations and a bell-shaped curve relationship between CO2 flux and concentration, indicating a peak before flux began to decline.
Article Abstract
Mangrove wetland ecosystem in Quanzhou Bay in Fujian Province is newly restored with a regular semidiurnal tide. Soil CO2 concentration in the mangrove soil was determined by Li-840 portable gas analyzer, and periodic characteristics of soil CO2 emission was investigated. The soil CO2 flux in the wetland soil was relatively small because the mangrove was young. The change trends of soil CO2 concentration and flux with time were consistent in Kandelia obovate and Aegiceras corniculatum communities in the intertidal periods. The CO2 concentration and flux in the wetland soil were 557.08-2211.50 μmol · mol(-1) and -0.21-0.40 μmol · m(-2) · s(-1), respectively. The average CO2 flux in the wetland soil was 0.26 μmol · mol(-1) · s(-1) in the intertidal of morning and evening tides (early intertidal) and -0.01 μmol · m(-2) · s(-1) in the intertidal of evening and morning tides (late intertidal), respectively. At the same time after the tide, the concentration and flux of CO2 in the mangrove soil in early intertidal was higher than that in late intertidal. In early intertidal, the relationship between the flux and instantaneous concentration of CO2 in the wetland soil was expressed as a bell-shaped curve, and CO2 flux increased first and then decreased with the increasing CO2 concentration, which was in conformity with Gaussian distribution.
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