Application of Two Bioenergy Byproducts with Contrasting Carbon Availability to a Prairie Soil: Three-Year Crop Response and Changes in Soil Biological and Chemical Properties

Application of Two Bioenergy Byproducts with Contrasting Carbon Availability to a Prairie Soil: Three-Year Crop Response and Changes in Soil Biological and Chemical Properties

The bioenergy industry produces a wide range of byproducts varying in their chemical composition depending on type of technology employed. In particular, pyrolysis and transesterification conversion processes generate C-rich byproducts of biochar (BC) and glycerol (GL), respectively, which can be ad...

Full description

Bibliographic Details
Main Authors: Khaled D. Alotaibi, Jeff J. Schoenau
Format: Article
Language:English
Published: MDPI AG 2016-02-01
Series:Agronomy
Subjects:
biochar
glycerol
yield
N uptake
microbial biomass
dehydrogenase enzyme
Online Access:http://www.mdpi.com/2073-4395/6/1/13
id doaj-e1c7117eb223411d924c4daa5f407286
record_format Article
spelling doaj-e1c7117eb223411d924c4daa5f4072862021-04-02T02:47:35ZengMDPI AGAgronomy2073-43952016-02-01611310.3390/agronomy6010013agronomy6010013Application of Two Bioenergy Byproducts with Contrasting Carbon Availability to a Prairie Soil: Three-Year Crop Response and Changes in Soil Biological and Chemical PropertiesKhaled D. Alotaibi0Jeff J. Schoenau1Department of Soil Science, University of Saskatchewan, 51 Campus Drive, Saskatoon, SK S7N 5A8, CanadaDepartment of Soil Science, University of Saskatchewan, 51 Campus Drive, Saskatoon, SK S7N 5A8, CanadaThe bioenergy industry produces a wide range of byproducts varying in their chemical composition depending on type of technology employed. In particular, pyrolysis and transesterification conversion processes generate C-rich byproducts of biochar (BC) and glycerol (GL), respectively, which can be added to soil. These two byproducts vary in their carbon availability, and comparing their effects when added to agricultural soil deserves attention. This study investigated the immediate and residual effects of a single application of BC and GL to a cultivated Brown Chernozem soil from the semi-arid region of southwestern Saskatchewan, Canada. In the first season following addition of amendments, BC and GL alone had no significant impact on all measured parameters. However, when combined with 50 kg urea N·ha−1 (BC + UR), the yields obtained were similar to those with 100 kg urea N·ha−1 alone. The GL with urea N (GL + UR) treatment had reduced crop yield and N uptake compared to urea alone in the year of application attributed to N immobilization, but had a positive residual effect in the second year due to remineralization. Both GL and GL + UR treatments enhanced dehydrogenase activity compared to other treatments whereas BC + UR tended to decrease microbial biomass C. The crop and soil response to application of biochar was less than observed in previous studies conducted elsewhere. Direct and residual effects of glycerol addition on the crop were more evident. An application rate greater than 2.8 t·ha−1 and 3.5 t·ha−1 for BC and GL, respectively, may be required to induce larger responses.http://www.mdpi.com/2073-4395/6/1/13biocharglycerolyieldN uptakemicrobial biomassdehydrogenase enzyme
collection DOAJ
language English
format Article
sources DOAJ
author Khaled D. Alotaibi
Jeff J. Schoenau
spellingShingle Khaled D. Alotaibi
Jeff J. Schoenau
Application of Two Bioenergy Byproducts with Contrasting Carbon Availability to a Prairie Soil: Three-Year Crop Response and Changes in Soil Biological and Chemical Properties
Agronomy
biochar
glycerol
yield
N uptake
microbial biomass
dehydrogenase enzyme
author_facet Khaled D. Alotaibi
Jeff J. Schoenau
author_sort Khaled D. Alotaibi
title Application of Two Bioenergy Byproducts with Contrasting Carbon Availability to a Prairie Soil: Three-Year Crop Response and Changes in Soil Biological and Chemical Properties
title_short Application of Two Bioenergy Byproducts with Contrasting Carbon Availability to a Prairie Soil: Three-Year Crop Response and Changes in Soil Biological and Chemical Properties
title_full Application of Two Bioenergy Byproducts with Contrasting Carbon Availability to a Prairie Soil: Three-Year Crop Response and Changes in Soil Biological and Chemical Properties
title_fullStr Application of Two Bioenergy Byproducts with Contrasting Carbon Availability to a Prairie Soil: Three-Year Crop Response and Changes in Soil Biological and Chemical Properties
title_full_unstemmed Application of Two Bioenergy Byproducts with Contrasting Carbon Availability to a Prairie Soil: Three-Year Crop Response and Changes in Soil Biological and Chemical Properties
title_sort application of two bioenergy byproducts with contrasting carbon availability to a prairie soil: three-year crop response and changes in soil biological and chemical properties
publisher MDPI AG
series Agronomy
issn 2073-4395
publishDate 2016-02-01
description The bioenergy industry produces a wide range of byproducts varying in their chemical composition depending on type of technology employed. In particular, pyrolysis and transesterification conversion processes generate C-rich byproducts of biochar (BC) and glycerol (GL), respectively, which can be added to soil. These two byproducts vary in their carbon availability, and comparing their effects when added to agricultural soil deserves attention. This study investigated the immediate and residual effects of a single application of BC and GL to a cultivated Brown Chernozem soil from the semi-arid region of southwestern Saskatchewan, Canada. In the first season following addition of amendments, BC and GL alone had no significant impact on all measured parameters. However, when combined with 50 kg urea N·ha−1 (BC + UR), the yields obtained were similar to those with 100 kg urea N·ha−1 alone. The GL with urea N (GL + UR) treatment had reduced crop yield and N uptake compared to urea alone in the year of application attributed to N immobilization, but had a positive residual effect in the second year due to remineralization. Both GL and GL + UR treatments enhanced dehydrogenase activity compared to other treatments whereas BC + UR tended to decrease microbial biomass C. The crop and soil response to application of biochar was less than observed in previous studies conducted elsewhere. Direct and residual effects of glycerol addition on the crop were more evident. An application rate greater than 2.8 t·ha−1 and 3.5 t·ha−1 for BC and GL, respectively, may be required to induce larger responses.
topic biochar
glycerol
yield
N uptake
microbial biomass
dehydrogenase enzyme
url http://www.mdpi.com/2073-4395/6/1/13
work_keys_str_mv AT khaleddalotaibi applicationoftwobioenergybyproductswithcontrastingcarbonavailabilitytoaprairiesoilthreeyearcropresponseandchangesinsoilbiologicalandchemicalproperties
AT jeffjschoenau applicationoftwobioenergybyproductswithcontrastingcarbonavailabilitytoaprairiesoilthreeyearcropresponseandchangesinsoilbiologicalandchemicalproperties
_version_ 1724174293488631808

Similar Items