Livestock systems with scattered trees in paddocks reduce soil CO2 fluxes compared to grass monoculture in the humid tropics

The incorporation of trees in livestock systems can influence the fluxes of CO 2 from soil to the atmosphere. The aim of this study was to evaluate the diurnal and seasonal variations of soil CO 2 fluxes in grazing livestock systems with and without trees in the State of Tabasco, southern Mexico. We...

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Bibliographic Details
Published in:Agroforestry systems 2023-02, Vol.97 (2), p.209-221
Main Authors: López-Santiago, José Germain, Villanueva-López, Gilberto, Casanova-Lugo, Fernando, Aryal, Deb Raj, Pozo-Leyva, Dixan
Format: Article
Language:English
Subjects:
Agriculture
Biomedical and Life Sciences
Carbon dioxide
Carbon dioxide emissions
Dry season
Emissions
Fluxes
Forestry
Gas analyzers
Infrared analysis
Life Sciences
Livestock
Livestock farming
Moisture effects
Monoculture
Pasture
Rainy season
Seasonal variations
Seasons
Soil dynamics
Soil moisture
Soil temperature
Summer
Sustainable development
Trees
Tropical environments
Variance analysis
Winter
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Summary:The incorporation of trees in livestock systems can influence the fluxes of CO 2 from soil to the atmosphere. The aim of this study was to evaluate the diurnal and seasonal variations of soil CO 2 fluxes in grazing livestock systems with and without trees in the State of Tabasco, southern Mexico. We selected two livestock systems, one with scattered trees in paddocks (STP) and the other pasture monoculture (PM) without trees. We measured the soil CO 2 fluxes, soil temperature, and moisture in the winter-rainy, dry and summer-rainy seasons. Measurements were made five consecutive days a month from 06:00 to 14:00, with an infrared gas analyzer and a closed dynamic chamber (LI-COR). Pasture monoculture showed a higher soil CO 2 flux, compared to the STP (6.72 vs. 4.30 μmol m −2  s −1 ). Soil moisture to 5 cm depth was higher in the PM, while soil temperature did not differ between these systems. Soil CO 2 fluxes were higher in the summer rainy season compared to the winter-rainy and dry seasons in both livestock systems. Soil temperature and moisture also differed between seasons for both systems. Soil CO 2 fluxes were higher in the afternoon, while soil moisture was lower in both livestock systems. Soil temperature did not differ between livestock systems (ANOVA, p  > 0.05). Soil CO 2 fluxes in STP showed significant positive correlations with soil temperature and soil moisture. We conclude that STP system is an alternative, with a high potential to mitigate CO 2 emissions from the soil, and to promote the sustainable development of livestock farming in the tropics.
ISSN:0167-4366
1572-9680
DOI:10.1007/s10457-022-00799-8