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Interactive priming of soil N transformations from combining biochar and urea inputs: A 15N isotope tracer study

作者

N. Fiorentino, M.A. Sánchez-Monedero , J. Lehmann , A. Enders , M. Fagnano , M.L. Cayuela

名稱(期刊/節目)

Soil Biology and Biochemistry

期刊期數/節目集數

Volume 131 Pages 166-175

出版單位

ELSEVIER

出版年月日

April 2019

原文摘要

Biochar has been found to interact with N transformations in soil but the mechanisms remain largely unknown. In this study we investigated the priming effect of combined biochar and urea inputs on soil inorganic N pools through an isotope tracer approach. Biochar was applied in combination with urea in two complementary laboratory experiments: (i) in the first one, three 15N-labeled organic amendments (wheat straw (WS)), its biochars produced at 350 °C (B350) and at 550 °C (B550) were added to soil in combination with unlabeled urea; (ii) in the second experiment the three same, but unlabeled, amendments were added to soil in combination with 15N labeled urea. This system allowed partitioning between three N sources: native soil N, biochar-derived N and urea-derived N. In addition, CO2 fluxes were measured to follow total C mineralization in soil and N2O emissions were monitored. The proportion of N that mineralized from biochar was always below 0.5% of the added N. The co-addition of urea increased the concentration of NH4+ derived from B350, but not from B550, demonstrating the lower mineralization of N in biochars produced at 550 °C. Whereas the addition of WS led to a rapid immobilization of N, we found that despite their high C:N, none of the biochars, applied at a rate of 1.5%, immobilized inorganic N in soil. On the contrary, significantly higher NH4+ concentrations derived from native soil organic N (SON) and urea were found throughout the incubation when B550 was added. This effect can be attributed to an apparent priming effect since a net decrease in CO2 fluxes was recorded when biochar was added to the soil. The addition of glucose (a low molecular weight carbon source) stimulated an increase in CO2 fluxes in all treatments along with a net N immobilization in soil. However, both biochars significantly reduced C readily available to microbes, as proved by lower soil CO2 fluxes, and limited the immobilization of NH4+ induced by glucose addition. Our results suggest that biochar may partially offset the mineralization of easily available organic C, buffering the immobilization of inorganic N in soil when labile organic compounds (e.g. root exudates, fresh manure, etc.) are incorporated.

原文摘要簡述

目前已發現生物炭與土壤中的氮轉化相互作用,但是其機理仍然未知。在這項研究中,我們透過同位素示蹤法研究了生物炭和尿素組合輸入對土壤無機氮庫的引發作用。在兩個互補的實驗室實驗中,將生物炭與尿素結合使用:(i)在第一個實驗中,三個15N標記的有機改性劑(小麥秸稈(WS))在350°C(B350)和550°C的溫度下生產(B550)與未標記的尿素一起添加到土壤中;(ii)在第二個實驗中,將三種相同但未標記的改良劑與15N標記的尿素一起添加到土壤中。該系統允許在三種氮源之間進行分配:天然土壤氮,生物炭源氮和尿素源氮。此外,測量二氧化碳通量以追蹤土壤中總碳礦化作用,並監測N2O排放。

關鍵字

Stable isotopes; Nitrogen fertilization; Charcoal; Soil N mineralization; N priming

連結

https://doi.org/10.1016/j.soilbio.2019.01.005

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