Leaf and root inputs additively contribute to soil organic carbon formation in various forest types

Wu, Qiuxia; Wu, Fuzhong; Zhu, Jingjing; Ni, Xiangyin

doi:10.1007/s11368-022-03403-9

Cited by 12 publications

(2 citation statements)

References 68 publications

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“…(1) Decomposition of matter above-and belowground. Most studies have revealed that the rate of litter decomposition is considerably faster than that of root litter decomposition and that there is a substantial difference between above-and belowground litter decomposition [102]; this difference and its effects are not well understood, and the influences of root litter decomposition and soil physicochemical properties remain unclear. (2) Mixed litter decomposition.…”

Section: Conclusion and Future Perspectivesmentioning

confidence: 99%

Research Progress on the Decomposition Process of Plant Litter in Wetlands: A Review

Zhou,

Dong,

Tang

et al. 2023

Water

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Wetland is a transitional area where terrestrial ecosystems and aquatic ecosystems interact and influence each other, and it is an important ecosystem on the Earth’s surface. Due to the special characteristics of wetland ecology, the decomposition of wetland plant litter is slightly different from litter in forests, grasslands, and meadows and other traditional areas. The role of litter mineralization in the wetland ecological C cycle and the functional role of plant litter have been neglected. This study analyzes the decomposition mechanism and decomposition model of wetland litter material and focuses on the effects of the decomposition process of wetland litter material on the structure of the soil fauna community, decomposition of soil organic matter, sediment properties, and the dynamic changes in the C cycle of the biological system by combining domestic and international studies from recent years. Finally, we propose that the direction of future research on wetland litter decomposition should be to reveal the mechanism of wetland biodiversity and ecology, as well as the ecological correlation between aboveground and belowground biodiversity, with a view to providing a decision-making basis for wetland phytoremediation and wetland wastewater treatment.

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Section: Conclusion and Future Perspectivesmentioning

confidence: 99%

Research Progress on the Decomposition Process of Plant Litter in Wetlands: A Review

Zhou,

Dong,

Tang

et al. 2023

Water

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“…Litter return to the soil could be a good indicator of turnover rates, yet in our study only the leaf litter fraction was measured. The coarse wood and root litter inputs could also play a substantial role in soil C and nutrient turnover (Cordeiro et al 2020;Wu et al 2023), yet for our site these effects remain to be quantified. Even so, it is improbable this would fully explain the magnitude of observed changes in soil P pools.…”

Section: The Challenge Of Quantifying Pools and Fluxesmentioning

confidence: 99%

Seasonality of C, N and P cycling in a tropical Terra Firme forest soil

Schaap

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��1. The seasonality of biogeochemical processes in tropical forest soils is more pronounced, and therefore more conse�uen�al, than generally recognized. (this thesis) 2. The tropical soil P-cycle depends more on the N-cycle than vice versa.(this thesis) 3. The scien��c value of a �or� increases �ith each contribu�ng co-author. 4. With the gro�ing presence of technology and computa�on in science, e�perimenta�on becomes more valuable. 5. We do not need more informa�on to ma�e be�er decisions. 6. Connec�ng cultures leads to societal progress.

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Relationships between 137Cs and soil carbon in artificial forests: results from the mountain areas of North China

Li,

Su,

Zhang

et al. 2024

J Radioanal Nucl Chem

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Leaf and root inputs additively contribute to soil organic carbon formation in various forest types

Cited by 12 publications

References 68 publications

Research Progress on the Decomposition Process of Plant Litter in Wetlands: A Review

Research Progress on the Decomposition Process of Plant Litter in Wetlands: A Review

Seasonality of C, N and P cycling in a tropical Terra Firme forest soil

Relationships between 137Cs and soil carbon in artificial forests: results from the mountain areas of North China

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