Soil fauna plays a critical role in various ecosystem processes, but empirical data measuring its impact on greenhouse gas (GHG) emissions from rangelands are limited. We quantified the effects of dung beetles on in situ CO2, CH4, and N2O emissions from simulated cattle dung deposits. Soil in meadows of the semiarid Nebraska Sandhills was treated with three treatments (dung pats with exposure and without exposure to dung beetles, and a no dung control). A closed‐chamber method was used to measure GHG fluxes at 0, 1, 2, 3, 7, 10, 14, 21, 28, and 56 d after dung placement in the early season (June–August) and late season (July–September) in 2014 and 2015. The greatest dung beetle abundance was 6 ± 2 beetles per quarter pat on Day 7; the abundance decreased to <2 ± 0.6 on Day 14 and 28 and zero on Day 56. Dung beetles increased fluxes of CO2 by 0.2 g C d−1 m−2, N2O by 0.4 mg N d−1 m−2 (only in late season 2015), and CH4 by 0.2 mg C d−1 m−2. These increases were due to beetle‐made macropores that facilitated gas transport in wet dung (initial moisture = 4.6 g g−1 on a dry‐weight basis) within 7 d after dung placement. Seasonal environmental differences resulted in greater CO2, N2O, and CH4 fluxes in the early season than in the late season. This study concluded that dung beetles increased GHG fluxes from early‐ and late‐season dung deposits on meadows of the semiarid Nebraska Sandhills.
Core Ideas
Dung beetle activities on dung pat enhanced CO2–C emission.
The effect of dung beetle activities on N2O emission from dung pat was inconsistent.
Soil moisture and temperature had a significant effect on GHG emission.
Soil fauna play critical roles in various ecosystem functions and services, but empirical data measuring their impact on dung pat decomposition and subsequent nutrient cycling into rangeland soils are limited. The objective of this study was to quantify the effect of soil fauna, using dung beetle as an indicator, on dung decomposition and subsequent translocation of dung nutrients into grassland soil over time. A field experiment was conducted early in the summer season and late in the summer season of 2014 and 2015. In each season, dung beetle abundance, changes in dung properties, and subsequent translocation of dung nutrients into soils were evaluated at 1, 3,
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