Journal
AGRONOMY JOURNAL
Volume 113, Issue 5, Pages 4292-4305Publisher
WILEY
DOI: 10.1002/agj2.20771
Keywords
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Categories
Funding
- CSIC-UDELAR [PDT 79.1-MEC]
- CSIC-ANCAP
- Agronomy Faculty
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The study in Uruguay showed that giant reed has high aboveground biomass production and positive impacts on soil organic carbon and total nitrogen pools. Elephantgrass had the highest biomass yield, but also had a high nitrogen and phosphorus negative balance.
Besides its bioenergy potential, perennial grasses can also have positive impacts on soil quality. However, responses of soil organic carbon (SOC) and total nitrogen (TN) depend on multiple factors, including grass species selection and N and P addition. We investigated the effect of four N and P fertility treatments (control = 0 kg N + 0 kg P ha(-1) [N0P0]; 100 kg N + 0 kg P ha(-1) [N1P0]; 0 kg N + 100 kg P ha(-1) [N0P1]; 100 kg N + 100 kg P ha(-1) [N1P1] applied annually] across 9 yr in Uruguay on soil nutrient balances, C and N pools, and biomass yields of elephantgrass (EG) (Pennisetum purpureum Schum.), giant reed (GR) (Arundo donax L.), and switchgrass (SW) (Panicum virgatum L.). Across years, EG had the highest biomass yield, followed by GR and SW (18.9, 16.3, and 14.1 Mg ha(-1) yr(-1), respectively). Across species, aboveground biomass increased by 46% with N addition. Yield response to P fertilization was lower (+11%). Elephantgrass had the highest N and P negative balance. Soil organic C and TN concentration were affected by species but not by fertilizer treatments. Giant reed had the highest SOC content gain in the first 0-40 cm (540 kg C ha(-) yr(-1)), and was the only species maintaining TN content from the beginning of the study. Giant reed could be an excellent option as a bioenergy crop due to its high aboveground biomass production, and its positive impacts on SOC and TN pools.
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