知識服務系統 加值應用

知識文件檢視

回前頁
知識類型

期刊

標題

Chicken Manure Biochar as Liming and Nutrient Source for Acid Appalachian Soil

作者

Amir Hass, Javier M. Gonzalez, Isabel M. Lima, Harry W. Godwin, Jonathan J. Halvorson, Douglas G. Boyer

名稱(期刊/節目)

Journal of Environmental Quality

期刊期數/節目集數

Volume 41, Issue 4, Pages 1096-1106

出版單位

Wiley

出版年月日

2012/7/1

原文摘要

Acid weathered soils often require lime and fertilizer application to overcome nutrient deficiencies and metal toxicity to increase soil productivity. Slow‐pyrolysis chicken manure biochars, produced at 350 and 700°C with and without subsequent steam activation, were evaluated in an incubation study as soil amendments for a representative acid and highly weathered soil from Appalachia. Biochars were mixed at 5, 10, 20, and 40 g kg−1 into a Gilpin soil (fine‐loamy, mixed, active, mesic Typic Hapludult) and incubated in a climate‐controlled chamber for 8 wk, along with a nonamended control and soil amended with agronomic dolomitic lime (AgLime). At the end of the incubation, soil pH, nutrient availability (by Mehlich‐3 and ammonium bicarbonate diethylene triamine pentaacetic acid [AB‐DTPA] extractions), and soil leachate composition were evaluated. Biochar effect on soil pH was process‐ and rate‐dependent. Biochar increased soil pH from 4.8 to 6.6 at the high application rate (40 g kg−1), but was less effective than AgLime. Biochar produced at 350°C without activation had the least effect on soil pH. Biochar increased soil Mehlich‐3 extractable micro‐ and macronutrients. On the basis of unit element applied, increase in pyrolysis temperature and biochar activation decreased availability of K, P, and S compared to nonactivated biochar produced at 350°C. Activated biochars reduced AB‐DTPA extractable Al and Cd more than AgLime. Biochar did not increase NO3− in leachate, but increased dissolved organic carbon, total N and P, PO43−, SO42−, and K at high application rate (40 g kg−1). Risks of elevated levels of dissolved P may limit chicken manure biochar application rate. Applied at low rates, these biochars provide added nutritional value with low adverse impact on leachate composition.

原文摘要簡述

酸性風化土壤通常需要施用石灰和肥料以克服營養缺乏和金屬毒性以提高土壤生產力。在培養研究中評估了在350和700°C下產生和隨後有/無蒸汽活化的慢熱解雞糞生物炭,作為阿帕拉契州典型酸和高風化土壤的土壤改良劑。將生物炭分別以5、10、20和40 g kg-1混合到Gilpin土壤中(細質壤土、混合、活性、中性典型簡育濕潤極育土),並在氣候控制室中與未改良的控制組和用農藝白雲石石灰(AgLime)改良的土壤一起培養8週。培養結束時,評估了土壤的pH值、養分有效性(透過Mehlich-3和碳酸氫銨─二乙三胺五乙酸[AB-DTPA]萃取)和土壤淋溶液成分。生物炭對土壤pH的影響取決於過程和速率的依賴。在高施用率(40 g kg-1)下,生物炭將土壤pH從4.8提高到6.6,但效果不如農藝白雲石石灰。在350°C下未活化的生物炭對土壤pH的影響最小。生物炭增加了土壤Mehlich-3可萃取的微量養分和巨量養分。與在350°C產生的未活化生物炭相比,基於所應用的單位元素,熱解溫度的升高和生物炭活化降低了鉀、磷和硫的有效性。活化的生物炭減少的AB‐DTPA可萃取的鋁和鎘比農藝白雲石石灰減少的更多。在高施用率(40 g kg-1)下,生物炭不會增加淋溶液中的硝酸鹽,但會增加溶解的有機碳、總氮和磷、磷酸鹽、硫酸鹽和鉀。溶解磷水平升高的風險可能會限制雞糞生物炭的施用率。而施用率低時,這些生物炭可提供更高的養分價值,並且對淋溶液的成分影響很小。

關鍵字

Acid weathered soils, chicken manure biochar, agronomic dolomitic lime (AgLime), ammonium bicarbonate diethylene triamine pentaacetic acid [AB‐DTPA]

連結

https://doi.org/10.2134/jeq2011.0124

最新上傳文件

MORE

上傳日期

標題/分類

2020/12/16

Soil Carbon and Nitrogen Dynamics in Two Agricultural Soils Amended with Manure‐Derived Biochar

生物炭效益
 
加值應用
 
農業應用
檢視
2020/12/16

Emission Reduction of 1,3‐Dichloropropene by Soil Amendment with Biochar

生物炭效益
 
加值應用
 
農業應用
檢視
2020/12/16

Biochar Impacts on Crop Productivity and Greenhouse Gas Emissions from an Andosol

生物炭效益
 
加值應用
 
農業應用
檢視

電話:(02) 2303-9978 / 傳真:(02) 2314-2234

地址:10066 台北市中正區南海路53號

服務信箱:biochar@tfri.gov.tw

農業部林業試驗所版權 © TFRIAll Rights Reserved

目前線上人次1

瀏覽人次48317

更新日期2024.11.21