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Biochar alters nitrogen transformations but has minimal effects on nitrous oxide emissions in an organically managed lettuce mesocosm

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Author / Producer

Pujol Pereira, Engil Isadora Suddick, Emma C. Mansour, India

Date

2015-07

Publication Type

Journal Article

ETH Bibliography

yes

Citations

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OPEN ACCESS

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Full text (published version) (PDF, 341.26 KB)

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Rights / License

In Copyright - Non-Commercial Use Permitted north_east

Abstract

We investigated the effect of biochar type on plant performance and soil nitrogen (N) transformations in mesocosms representing an organic lettuce (Lactuca sativa) production system. Five biochar materials were added to a silt loam soil: Douglas fir wood pyrolyzed at 410 °C (W410), Douglas fir wood pyrolyzed at 510 °C (W510), pine chip pyrolyzed at 550 °C (PC), hogwaste wood pyrolyzed between 600 and 700 °C (SWC), and walnut shell gasified at 900 °C (WS). Soil pH and cation exchange capacity were significantly increased by WS biochar only. Gross mineralization increased in response to biochar materials with high H/C ratio (i.e., W410, W510, and SWC), which can be favorable for organic farming systems challenged by insufficient N mineralization during plant growth. Net nitrification was increased by W510, PC, and WS without correlating with the abundance of ammonia oxidizing gene (amoA). Increases in N transformation rates did not translate into increases in plant productivity or leaf N content. WS biochar increased the abundance of amoA and nitrite reductase gene (nirK), while SWC biochar decreased the abundance of amoA and nitrous oxide gene (nosZ). Decreases in N2O emissions were only observed in soil amended with W510 for 3 days out of the 42-day growing season without affecting total cumulative N2O fluxes. This suggests that effects of biochar on decreasing N2O emissions may be transient, which compromise biochar’s potential to be used as a N2O mitigation strategy in organic systems. Overall, our results confirm that different biochar materials can distinctively affect soil properties and N turnover.

Permanent link

https://doi.org/10.3929/ethz-b-000099882

Publication status

published

External links

https://doi.org/10.1007/s00374-015-1004-5 north_east

Editor

Book title

Journal / series

Biology and Fertility of Soils

Volume

51 (5)

Pages / Article No.

573 - 582

Publisher

Springer

Event

Edition / version

Methods

Software

Geographic location

Date collected

Date created

Subject

Mineralization; Nitrification; Functional gene abundance; Lettuce; Organic farming; Greenhouse gas emissions

Organisational unit

03982 - Six, Johan / Six, Johan check_circle

Notes

It was possible to publish this article open access thanks to a Swiss National Licence with the publisher.

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