Biochar Reduces the Adverse Effect of Saline Water on Soil Properties and Wheat Production Profitability
Agriculture • 2021
Publication Information
Authors
Mohamed E. A. El-sayed 1,*, Mohamed Hazman 2, Ayman Gamal Abd El-Rady 3, Lal Almas 4, Mike McFarland 5,
Ali Shams El Din 6 and Steve Burian 7
Keywords
salinity; biochar; drip irrigation; wheat; groundwater
Journal
Agriculture
Publisher
Not Available
Volume
11
Issue
1112
Pages
Not Available
publication.type
International
Paper Link
Open Link
Supplementary Materials
Not Available
Abstract
The goal of this study is to assess the use of saline groundwater in combination with soil
amendments to increase the efficiency of wheat production in new agricultural soil in Egypt. The
experiment was conducted during the two consecutive growing seasons, 2019/2020 and 2020/2021,
at the Shandaweel Agricultural Research Station, Sohag, Egypt. In this study, plants of Shandaweel
1 spring bread wheat cultivar were grown under the combinations of the two water treatments, i.e.,
freshwater (307.2 ppm) and saline water (3000 ppm (NaCl + MgCl2)) representing groundwater in
Egypt delivered by drip irrigation and the two biochar rates, i.e., zero and 4.8 ton/ha as a soil amendment.
The cob corn biochar (CCB) was synthesized by using the slow pyrolysis process (one hour
at 350 °C). The results revealed that saline water reduced the grain yield ratio by 8.5%, 11.0%, and
9.7% compared to non-saline water during seasons 2019/2020 and 2020/2021 and over seasons, respectively.
Concerning, combined over seasons, the biochar addition enhanced the grain yield by
5.6% and 13.8% compared to non-biochar addition under fresh and saline irrigation water conditions,
respectively. Thus, the results indicated and led to a preliminary recommendation that saline
groundwater is a viable source of irrigation water and that biochar seemed to alleviate salinity stress
on wheat production and in reclaimed soils of Egypt.
amendments to increase the efficiency of wheat production in new agricultural soil in Egypt. The
experiment was conducted during the two consecutive growing seasons, 2019/2020 and 2020/2021,
at the Shandaweel Agricultural Research Station, Sohag, Egypt. In this study, plants of Shandaweel
1 spring bread wheat cultivar were grown under the combinations of the two water treatments, i.e.,
freshwater (307.2 ppm) and saline water (3000 ppm (NaCl + MgCl2)) representing groundwater in
Egypt delivered by drip irrigation and the two biochar rates, i.e., zero and 4.8 ton/ha as a soil amendment.
The cob corn biochar (CCB) was synthesized by using the slow pyrolysis process (one hour
at 350 °C). The results revealed that saline water reduced the grain yield ratio by 8.5%, 11.0%, and
9.7% compared to non-saline water during seasons 2019/2020 and 2020/2021 and over seasons, respectively.
Concerning, combined over seasons, the biochar addition enhanced the grain yield by
5.6% and 13.8% compared to non-biochar addition under fresh and saline irrigation water conditions,
respectively. Thus, the results indicated and led to a preliminary recommendation that saline
groundwater is a viable source of irrigation water and that biochar seemed to alleviate salinity stress
on wheat production and in reclaimed soils of Egypt.
Staff Members - Benha University