Stand ages adjust fluctuating patterns of soil respiration and decrease temperature sensitivity after revegetation

Tong, Di; Xiao, Huan; Li, Zhongwu; Nie, Xiaodong

doi:10.1002/saj2.20077

Cited by 12 publications

(5 citation statements)

References 76 publications

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“…Many studies believed that soil temperature were the main factors affecting soil respiration. It can explain seasonal changes in soil respiration [39,40]. In this study, the soil respiration and soil temperature of four reconstructed soils was exponentially correlated, which was consistent with the research conclusions of most scholars [41,42].…”

Section: The Relationship Between Soil Respiration and Hydrothermal Factorssupporting

confidence: 89%

Components of Soil Respiration and Its Temperature Sensitivity in Four Reconstructed Soils

Lei¹,

Wang²,

Chen³

2021

Preprint

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seasonal changes characteristics in the respiration of four reconstructed soils Abstract: seasonal changes characteristics in the respiration of four reconstructed soil masses 9 in a barren gravel land were monitored using soil carbon flux measurement system. The 10 results showed that (1) The seasonal changes in soil respiration and heterotrophic respiration 11 of four reconstructed soils of meteorite, shale, sand and soft rock were the same as the 12 seasonal change in soil temperature. Soil respiration and heterotrophic respiration increased 13 with soil temperature. It was gradually increasing, reaching the maximum in summer and 14 decreasing to the minimum in winter. Among the four reconstructed soils, the average annual 15 soil respiration of reconstructed soil with sand was 4.87 μmol•m –2 •s –1 , which was 16 significantly higher than the other reconstructed soils (p<0.05).(2) The autotrophic respiration 17 of four reconstructed soils showed obvious seasonal dynamic changes. The maximum and 18 minimum values appeared in August 2018 and January 2018, respectively. In the whole year, 19 The variation range of the annual average soil autotrophic respiration in the total respiration 20 of the reconstituted soil with addtion of meteorite, shale, sand and soft rock were 12.5-38.0%, 21 9.5-42.0%, 7.7-41.2%, and 5.0-39.3%, respectively.(3) Soil temperature was the main factor 22 affecting soil respiration. The four reconstructed respiration had a very significant correlation 23 with soil temperature (p<0.01). The relationship between reconstructed soils respiration and 24 soil temperature can be indexed function characterization. The 90% to 93% changes in soil 25 respiration of reconstructed soils were caused by soil temperature. The order of Q 10 in soils 26 respiration of four reconstructed was as follows: Sand> shale> soft rock > meteorite.

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Section: The Relationship Between Soil Respiration and Hydrothermal Factorssupporting

confidence: 89%

Components of Soil Respiration and Its Temperature Sensitivity in Four Reconstructed Soils

Lei¹,

Wang²,

Chen³

2021

Preprint

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“…The temperature sensitivity of R S (defined as Q 10 ) was always applied to represent the response of R S to temperature change (Meyer et al ., 2018). R S and Q 10 are influenced by multiple factors (e.g., vegetation coverage, the ages of plants, soil temperature, soil moisture, soil physicochemical and microbial properties), which can be altered by land‐use change (Kreba et al ., 2013; Camara Ferreira et al ., 2016; Wang et al ., 2016; Wang et al ., 2018; Tong et al ., 2020). More specific, R S is positively associated with root biomass amount, and varied with crop types and the stand years under different land‐use types, because of the different allocation of photosynthetic products (Wang et al ., 2016; Yao et al ., 2019; Tong et al ., 2020).…”

Section: Introductionmentioning

confidence: 99%

“…R S and Q 10 are influenced by multiple factors (e.g., vegetation coverage, the ages of plants, soil temperature, soil moisture, soil physicochemical and microbial properties), which can be altered by land‐use change (Kreba et al ., 2013; Camara Ferreira et al ., 2016; Wang et al ., 2016; Wang et al ., 2018; Tong et al ., 2020). More specific, R S is positively associated with root biomass amount, and varied with crop types and the stand years under different land‐use types, because of the different allocation of photosynthetic products (Wang et al ., 2016; Yao et al ., 2019; Tong et al ., 2020). Furthermore, the different quality and quantity of substrate, soil carbon degrading enzymes secreted by microbes and the microbial community structure can also result in the shifted R S and Q 10 (Fang et al ., 2014; Camara Ferreira et al ., 2016; Zhang et al ., 2016b; Wang et al ., 2018; Zhang et al ., 2020).…”

Section: Introductionmentioning

confidence: 99%

How do soil microbes exert impact on soil respiration and its temperature sensitivity?

Tong

Xiao

et al. 2021

Environmental Microbiology

Self Cite

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Understanding how soil microorganisms influence the direction and magnitude of soil carbon feedback to global warming is vital to predict future climate change. Although microbial activities are major contributors to soil respiration (R S ) and its temperature sensitivity (Q 10 ), the mechanisms underpinning microbial influence on R S and Q 10 remain unclear. Coupling variation partitioning analysis (VPA), correlation analysis and multiple stepwise linear regression analysis, we illustrate that bacteria mainly affect R S and its temperature sensitivity (Q 10 ) by shifting bacterial community composition (denoted by principal coordinates analysis). We also found that soil water content (SWC) and available nutrient (AN) were the factor key to changing bacterial community composition (P < 0.05). Co-occurrence network demonstrated that Mod 0 ecological cluster composed of copiotrophic taxa groups was significantly associated with R S and Q 10 (P < 0.01, R > 0.5), including Proteobacteria, Actinobacteria, and Bacteroidetes. Illuminating the mechanisms underpinning the influence of soil microbes on R S and Q 10 values is fundamental to understanding mechanistic soil-climate carbon cycles.

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“…Although water content and temperature have been established to be the main environmental factors influencing soil respiration in Chinese farmland ecosystems, this respiration and its components are characterized by differential responses to variations in temperature and water content 30 . The findings of numerous studies have indicated that soil temperature is the main factor influencing soil respiration, which is clearly reflected in the observed seasonal changes 31 , 32 . Consistent with the opinion of a majority of scholars 33 , 34 , we detected an exponential correlation between soil respiration and soil temperature among the four assessed reconstructed soils.…”

Section: Discussionmentioning

confidence: 99%

Components of respiration and their temperature sensitivity in four reconstructed soils

Lei

Wang

Zhang

et al. 2022

Sci Rep

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Seasonal changes characteristics in the respiration of four reconstructed soil masses in a barren gravel land were monitored. The results showed that (1) Respiration and heterotrophic respiration of the four reconstructed soils with added meteorite, shale, sand increased gradually with increasing soil temperatures, reaching its maximum in summer and decreasing to its minimum in winter. the average annual respiration of reconstructed soil with sand was 4.87 μmol·m–2·s–1, which was significantly higher than the other reconstructed soils (p < 0.05). (2) The maximum and minimum values of autotrophic respiration for the four reconstructed soils appeared in August 2018 and January 2018, respectively. the proportion of autotrophic respiration to total respiration was 12.5–38.0%, 9.5–42.0%, 7.7–41.2%, and 5.0–39.3% for the soils with reconstituted meteorite, shale, sand, and soft rock, respectively. (3) The relationship between respiration and the temperature of reconstructed soils can be represented by an exponential function. The 90% to 93% changes in reconstructed soils respiration were caused by soil temperature. The temperature sensitivity (Q10) of reconstituted soil with added sand was significantly higher than that of the other three reconstituted soils.

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Stand ages adjust fluctuating patterns of soil respiration and decrease temperature sensitivity after revegetation

Cited by 12 publications

References 76 publications

Components of Soil Respiration and Its Temperature Sensitivity in Four Reconstructed Soils

Components of Soil Respiration and Its Temperature Sensitivity in Four Reconstructed Soils

How do soil microbes exert impact on soil respiration and its temperature sensitivity?

Components of respiration and their temperature sensitivity in four reconstructed soils

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