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標題

Characterization, Stability, and Plant Effects of Kiln‐Produced Wheat Straw Biochar

作者

A. O'Toole, K. Knoth de Zarruk, M. Steffens, D. P. Rasse

名稱(期刊/節目)

Journal of Environmental Quality

期刊期數/節目集數

Volume 42, Issue 2, Pages 429-436

出版單位

Wiley

出版年月日

2013/3/1

原文摘要

Biochar is a promising technology for improving soil quality and sequestering C in the long term. Although modern pyrolysis technologies are being developed, kiln technologies often remain the most accessible method for biochar production. The objective of the present study was to assess biochar characteristics, stability in soil, and agronomic effects of a kiln‐produced biochar. Wheat‐straw biochar was produced in a double‐barrel kiln and analyzed by solid‐state 13C nuclear magneticresonance spectroscopy. Two experiments were conducted with biochar mixed into an Ap‐horizon sandy loam. In the first experiment, CO2 efflux was monitored for 3 mo in plant‐free soil columns across four treatments (0, 10, 50, and 100 Mg biochar ha−1). In the second experiment, ryegrass was grown in pots having received 17 and 54 Mg biochar ha−1 combined with four N rates from 144 to 288 kg N ha−1. Our kiln method generated a wheat‐straw biochar with carbon content composed of 92% of aromatic structures. Our results suggest that the biochar lost <0.16% C as CO2 over the 90‐d incubation period. Biomass yields were not significantly modified by biochar treatments, except for a slight decrease at the 144 kg N ha−1 rate. Foliar N concentrations were significantly reduced by biochar application. Biochar significantly increased soil water content; however, this increase did not result in increased biomass yield. In conclusion, our kiln‐produced biochar was highly aromatic and appeared quite recalcitrant in soil but had no overall significant impact on ryegrass yields.

原文摘要簡述

從長遠來看,生物炭在改善土壤質量和碳吸存有前途的技術。儘管目前正開發現代化熱裂解技術,但窯爐燒製技術通常仍是最容易取得生物炭的方法。研究目的是評估窯爐燒製生產的生物炭特性、在土壤中的穩定性以及農藝效應。小麥秸稈生物炭是從雙筒窯爐燒製生產,並以固態13-碳核磁共振波譜法進行分析。進行兩個實驗,並將生物炭混合到耕犛層(Ap‐horizon)沙質壤土中。在第一個實驗中,添加生物炭0mg/ha、10 mg/ha、50 mg/ha和100 mg/ha四種處理在無植物土壤柱中,有3次被監測出二氧化碳流出量。在第二個實驗中,黑麥草栽種盆中,添加兩種生物炭17 mg/ha和54 mg/ha與4種氮素比例(144 kg/ha到288 kg/ha)混和。窯爐燒製生產一種小麥秸稈生物炭,其碳含量由92%的芳香烴結構組成。結果意味著在90天的孵育期間,生物炭損失小於0.16%以內的碳。生物質產量除了在氮素比例144 kg/ha略有下降外,其他並沒有因使用生物炭處理得到顯著改變。施用生物炭可顯著降低葉面氮的濃度。總之,窯爐燒製生產的生物炭具有很高的芳香性,並且在土壤中表現出難以分解的特性,但對黑麥草的產量沒有總體上的顯著影響。

關鍵字

sequestering carbon, CO2 efflux, Ap‐horizon, aromatic structure

連結

https://doi.org/10.2134/jeq2012.0163

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