AI Article Synopsis
- The study investigates how plant carbon inputs affect the degradation of dissolved organic matter (DOM) and how different plant tissues impact this process.
- Different leachates from the plant Phragmites australis were shown to vary in composition and bioavailability, resulting in varying priming effects (PEs) on DOM degradation in fresh and tidal waters.
- Leaf and root leachates had stronger positive effects on DOM degradation in fresh water, while in tidal water, they had negative effects, suggesting the influence of water stability and microbial activity on these outcomes.
Article Abstract
The modification of dissolved organic matter (DOM) degradation by plant carbon inputs represents a critical biogeochemical process that controls carbon dynamics. However, the priming effects (PEs) different plant tissues induce on the degradation of DOM pools with different stabilities remain unknown. In this study, PEs, induced by different tissue leachates of Phragmites australis, were evaluated via changes in DOM components and properties of both fresh and tidal water (with different stabilities). The results showed that DOM derived from different plant tissue leachates differed in composition and bioavailability. Inputs of tissue leachates induced PEs with different intensities and directions (negative or positive) on DOM degradation of fresh and tidal water. In fresh water, the PEs of leaf and root leachates were significantly higher than those of stem and rhizome leachates. The PE direction changed for DOM degradation between fresh and tidal water. The addition of leaf and root leachates tended to induce positive PEs on DOM degradation of fresh water, while resulting in negative PEs on DOM degradation of tidal water. Negative PEs for tidal water DOM may be due to preferential utilization of microbes, high salinity, and/or the promotion of exogenous DOM production from plant tissues. The results indicate that intensity and direction of PEs induced by plant leachates depend on both leachate type and water stability. The findings highlight the necessity to examine the nature of exogenous and native DOM when interpreting the interactive processes that regulate DOM degradation.
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| http://dx.doi.org/10.1016/j.envres.2023.115482 | DOI Listing |
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