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知識類型

期刊

標題

Biochar and Water Quality

作者

Humberto Blanco‐Canqui

名稱(期刊/節目)

Journal of Environmental Quality

期刊期數/節目集數

Volume 48, Issue 1, Pages 2-15

出版單位

Wiley

出版年月日

2019/1/1

原文摘要

Biochar application is considered to be an emerging strategy to improve soil ecosystem services. However, implications of such application on water quality parameters have not been widely discussed. This paper synthesizes the state‐of‐the‐art research on biochar effects on water erosion, nitrate leaching, and other sources of water pollution. Literature indicates that in general, biochar application reduces runoff by 5 to 50% and soil loss by 11 to 78%, suggesting that it can be effective at reducing water erosion, but the magnitude of erosion reduction is highly variable. Co‐application of biochar with other organic amendments (i.e., animal manure, compost) appears to be more effective at reducing water erosion than biochar alone. A main mechanism by which biochar can reduce water erosion is by improving soil properties (i.e., organic C, hydraulic conductivity, aggregate stability), which affect soil erodibility. This review also indicates that biochar reduces nitrate leaching, in most cases by 2 to 88%, but has mixed effect on phosphate and dissolved C leaching. Additionally, biochar effectively filters urban runoff, adsorbs pollutants, and reduces pesticides losses. Biochar feedstock, pyrolysis temperature, application amount, time after application, and co‐application with other amendments affect biochar impacts on water quality. Biochar erosion and potential reduction in nutrient and pesticide use efficiency due to the strong adsorption are concerns that deserve consideration. Overall, biochar application has the potential to reduce water erosion, nitrate leaching, pesticide losses, and other pollutant losses, but more field‐scale data are needed to better discern the extent to which biochar can improve water quality.

原文摘要簡述

生物炭的應用被認為是改善土壤生態系服務的新興策略。然而,應用生物炭對水質參數可能的影響尚未有廣泛地討論。此篇文章綜合應用最新研究方法在水蝕、硝酸鹽淋溶作用以及其他水污染源使用生物炭後的影響。文獻顯示,一般而言,施用生物炭可減少5%至50%的徑流量,減少11%至78%的土壤流失,表示生物炭可以有效減少水蝕,但減少侵蝕的幅度是相當容易變動的。生物炭與其他有機土壤改良劑(如動物糞便、廚餘堆肥等)的共同施用似乎比單獨使用生物炭更有效地減少水蝕。生物炭可以減少水蝕的主要機制,是通過改善土壤特性(如有機碳、導水度、團粒穩定度等)中可影響土壤沖蝕因子。這篇評論還顯示,在大多數情況,生物炭減少2%至88%硝酸鹽的淋溶作用,但對磷酸鹽與被淋溶的碳具有混合作用。除此之外,生物炭可有效過濾城市徑流,吸收污染物並減少農藥損失。生物炭的原料、熱裂解溫度、施用量、施用次數以及與其他土壤改良劑的共同施用皆會造成生物炭對水質的影響。由於強烈的吸附作用,造成生物炭對於土壤沖蝕、潛在養分以及農藥使用效率降低,是值得探討的問題。總體而言,施用生物炭有減少水土流失、硝酸鹽淋溶、農藥損失和其他污染物損失的潛力,但需要更多的現地施用數據來更好地識別生物炭可改善水質的程度範圍。

關鍵字

soil ecosystem service, water erosion, nitrate leaching, hydraulic conductivity, aggregate stability

連結

https://doi.org/10.2134/jeq2018.06.0248

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