Net changes of soil C stocks in two grassland soils 26 months after simulated pasture renovation including biochar addition

The use of deep‐rooting pasture species as a management practice can increase the allocation of plant carbon (C) below ground and enhance C storage. A 2‐year lysimeter trial was set up to compare changes in C stocks of soils under either deep‐ or shallow‐rooting pastures and investigate whether bioc...

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Published inGlobal change biology. Bioenergy Vol. 8; no. 3; pp. 600 - 615
Main Authors Calvelo Pereira, Roberto, Hedley, Mike, Camps Arbestain, Marta, Wisnubroto, Erwin, Green, Steve, Saggar, Surinder, Kusumo, Bambang H., Mahmud, Ainul F.
Format Journal Article
LanguageEnglish
Published Oxford John Wiley & Sons, Inc 01.05.2016
Wiley
Subjects
biochar management
carbon stocks
Charcoal
Cultivation
Equivalence
Grasslands
Horizon
Loam
Loam soils
Nutrients
Pasture
pasture renovation
Pastures
Physical properties
Plant growth
Rooting
Sand & gravel
sandy soil
Sandy soils
Silt loam
silt loam soil
Soil erosion
Soil fertility
Soil investigations
Soil layers
New Zealand
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Summary:The use of deep‐rooting pasture species as a management practice can increase the allocation of plant carbon (C) below ground and enhance C storage. A 2‐year lysimeter trial was set up to compare changes in C stocks of soils under either deep‐ or shallow‐rooting pastures and investigate whether biochar addition below the top 10 cm could promote root growth at depth. For this i) soil ploughing at cultivation was simulated in a silt loam soil and in a sandy soil by inverting the 0 to 10 and 10‐ to 20‐cm‐depth soil layers, and a distinctive biochar (selected for each soil to overcome soil‐specific plant growth limitations) was mixed at 10 Mg ha−1 in the buried layer, where appropriate and ii) three pasture types with contrasting root systems were grown. In the silt loam, soil inversion resulted in a general loss of C (2.0–8.1 Mg ha−1), particularly in the buried horizon, under shallow‐rooting pastures only. The addition of a C‐rich biochar (equivalent to 7.6 Mg C ha−1) to this soil resulted in a net C gain (21–40% over the non‐biochar treatment, P < 0.10) in the buried layer under all pastures; this overcame the loss of C in this horizon under shallow‐rooting pastures. In the sandy soil, all pastures were able to maintain soil C stocks at 10–20 cm depth over time, with minor gains of C (1.6–5.1 Mg ha−1) for the profile. In this soil, the exposure of a skeletal‐ and nutrient‐depleted soil layer at the surface may have fostered root growth at depth. The addition of a nutrient‐rich biochar (equivalent to 3.6 Mg C ha−1) to this soil had no apparent effect on C stocks. More research is needed to understand the mechanisms through which soil C stocks at depth are preserved.
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ISSN:1757-1693
1757-1707
DOI:10.1111/gcbb.12271