The great rainfall effect on soil respiration of Pinus tabulaeformis plantation in Taiyue Mountain

Guanyi, 金冠一 Jin; Xiuhai, 赵秀海 Zhao; Fengfeng, 康峰峰 Kang; Jinsong, 汪金松 Wang

doi:10.5846/stxb201112211944

Cited by 2 publications

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“…The ecological balance of the steppe has been destroyed by drought and intense land use (Jin et al, 2013). Exploring the in uence of precipitation on the dynamic balance of carbon source and carbon sink in the steppe and analyzing the variation of aboveground biomass of C 3 and C 4 species, carbon and water uxes under different precipitation gradients at different times play a very important role in improving the carbon exchange e ciency of the steppe ecosystem.…”

Section: )mentioning

confidence: 99%

Increasing precipitation promotes carbon exchange in the Stipa breviflora desert steppe ecosystem

Liu,

Wang,

Han

et al. 2024

Preprint

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A five-year rainfall control experiment was conducted in-field on the Stipa breviflora desert steppe in Inner Mongolia, China. We set four precipitation gradients on the fenced grassland: reduce precipitation by 50%, P1; natural precipitation, P2; increase precipitation by 50%, P3; increase precipitation by 100%, P4. We used a portable photosynthesis system Li-6400 measured the ecosystem carbon and water fluxes of each plot during the growing season (May-October). Results showed that precipitation had a significant impact on ecosystem carbon exchange. With increasing precipitation, net ecosystem carbon exchange (NEE), ecosystem respiration (ER), gross ecosystem productivity (GEP), evapotranspiration (ET) and water use efficiency (WUE) increased by 1.89, 0.37, 2.21, 0.80 µmol·m-2·s-1 and 2.16 µmol·mmol-1, respectively. NEE、ER、GEP、WUE is more sensitive to precipitation. Increasing precipitation will significantly increase the aboveground biomass of C3 species and promote carbon flux. In summary, increasing precipitation will increase carbon flux and promote carbon sink on the desert steppe.

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Section: )mentioning

confidence: 99%

Increasing precipitation promotes carbon exchange in the Stipa breviflora desert steppe ecosystem

Liu,

Wang,

Han

et al. 2024

Preprint

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Effect of precipitation on respiration of different reconstructed soils

Lei

Han²

2020

Sci Rep

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Respiration and hydrothermal characteristics of four reconstructed soils in barren gravel land at a site in Shaanxi Province were monitored before, during, and after two precipitation events. Both precipitation events significantly reduced soil temperature but there were great fluctuations in temperature after the second precipitation event. Moreover, precipitation increased the moisture content of the reconstructed soils. Before the first precipitation event, the soil volumetric water content was relatively stable, while it gradually decreased before the second precipitation event. The first precipitation event significantly stimulated the respiration rate for all reconstructed soils, while the second precipitation event generally inhibited it, especially during the precipitation event. The key factors influencing respiration for different reconstructed soils were different between the precipitation events. When soil volumetric water content showed persistent variation before precipitation, soil moisture was the most influential factor. In contrast, if water content was stable, soil temperature was more influential. Soil moisture and temperature jointly influenced soil respiration before, during, and after the precipitation event, while soil moisture was always the most influential factor after precipitation. Soil respiration is the main component of the carbon cycle in terrestrial ecosystems. It is the second largest source of carbon emissions after atmospheric photosynthesis between the atmosphere and terrestrial ecosystems 1,2. Small changes in soil respiration significantly affected global carbon dynamics 3. A detailed analysis of the dynamics of soil respiration and its controlling factors is of great significance for accurately predicting changes in the carbon cycle under future climate change conditions 4. Soil temperature and soil moisture are the most important environmental factors affecting soil respiration 5,6 , and there is an interaction between the effects of soil temperature and soil moisture on soil respiration. Under conditions of future climate change, precipitation will change greatly, and the frequency of drought and extreme precipitation will increase 7. There are two different views on how precipitation might affect soil respiration. One is that precipitation will strongly and quickly stimulate soil respiration. This pulse is called the 'Birch effect' 8. However, it has been shown that the 'Birch effect' does not apply to all soils, and that for moist to wet soils, precipitation will instead inhibit soil respiration 9. The effect of precipitation on soil respiration is affected by environmental conditions such as soil temperature and moisture, and there is complex relationship of soil respiration with soil temperature and moisture. Several previous studies have demonstrated that there are many factors that could influence the response of soil respiration to precipitation events, including, both antecedent soil moisture and precipitation conditions 10 , different soil temperature and moistu...

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The great rainfall effect on soil respiration of Pinus tabulaeformis plantation in Taiyue Mountain

Cited by 2 publications

References 0 publications

Increasing precipitation promotes carbon exchange in the Stipa breviflora desert steppe ecosystem

Increasing precipitation promotes carbon exchange in the Stipa breviflora desert steppe ecosystem

Effect of precipitation on respiration of different reconstructed soils

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