Soil carbon stocks and nitrous oxide emissions of pasture systems in Orinoquía region of Colombia: Potential for developing land-based greenhouse gas removal projects
Improving grassland conditions under grazing has the potential not only to accumulate carbon in soils, but also to reduce nitrous oxide (N 2 O) emissions from animal urine deposition. However, measurements in developing countries are still scarce. In the Orinoquia region, permanent grasslands (PG; t...
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Veröffentlicht in: | Frontiers in climate 2022-09, Vol.4 |
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Zusammenfassung: | Improving grassland conditions under grazing has the potential not only to accumulate carbon in soils, but also to reduce nitrous oxide (N
2
O) emissions from animal urine deposition. However, measurements in developing countries are still scarce. In the Orinoquia region, permanent grasslands (PG; this unimproved, native pasture is considered as at some state of degradation) based on unimproved grasses are found due to extensive, inefficient grazing combined with annual burning of pastures. We hypothesized that, compared to PG, improved grasslands (IG) managed through rotational grazing of introduced, productive and deep-rooted pasture grass species promote soil organic carbon (SOC) accumulation and reduce N
2
O emission from urine deposited by grazing cattle. We determined SOC and N
2
O emissions from urine deposited on soils in an area of PG and in a 6.5 year-old IG area of
Urochloa
(Syn.
Brachiaria
)
humidicola
grass pasture in a beef cattle ranch in Orinoquía region (Colombia). In both areas, we sampled soil for chemical/physical analysis, and measured N
2
O emissions by simulating urine deposition over 21 days. We applied two-way analysis of variance considering pasture type and soil depth as fixed factors. Estimated SOC stocks (0–100 cm) were in the range of 224.8 Mg C ha
−1
for the PG and 259.0 Mg C ha
−1
for the IG, with a significant (
p
< 0.05) average accumulation of 2.0 Mg C ha
−1
y
−1
(0–20 cm) in the IG area. N
2
O emissions were 10 times lower in the IG compared to the PG. The introduction of
U. humidicola
grass influenced SOC accumulation probably through its more abundant root system and greater turnover together with higher (14%) forage dry matter production compared to PG. The reduced N
2
O emissions observed from urine patches in IG were attributed to biological nitrification inhibition ability and greater nitrogen uptake of
U. humidicola
grass. Compared to the reference default value of IPCC for, the SOC stock found in PG was almost 40% higher, whereas the N
2
O emission factor (5%) was within the uncertainty range (0.7–6%). The Orinoquía region shows significant potential for SOC storage and reduced N
2
O emissions in improved pastures with deep root systems. Thus, scaling the implementation of land-based SOC storage practices/projects could significantly contribute to reducing net emissions from beef production from this region. |
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ISSN: | 2624-9553 2624-9553 |
DOI: | 10.3389/fclim.2022.916068 |