The Concurrent Application of Phosphogypsum and Modified Biochar as Soil Amendments Influence Sandy Soil Quality and Wheat Productivity

Sandy soil covers a significant portion of Egypt's total land area, representing a crucial agricultural resource for future food security and economic growth. This research adopts the hypothesis of maximizing the utilization of secondary products for soil improvement to reduce ecosystem polluti...

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Bibliographic Details
Published in:Plants (Basel) 2024-05, Vol.13 (11), p.1492
Main Authors: Elbagory, Mohssen, Shaker, Eman M, El-Nahrawy, Sahar, Omara, Alaa El-Dein, Khalifa, Tamer H
Format: Article
Language:English
Subjects:
Agricultural production
Agricultural resources
Cation exchange
Cation exchanging
Charcoal
Comparative analysis
Cotton
cotton stalk biochar
Crop yield
Crop yields
Economic development
Economic growth
Environmental aspects
Fertilizers
Food security
Growth
Gypsum
loamy sand soil
Measurement
modified biochar
Organic carbon
Organic soils
Phosphogypsum
Physiological aspects
Pollution control
Productivity
Rice
Rice straw
rice straw biochar
Sand
Sandy soils
Soil amendment
Soil fertility
Soil improvement
Soil pollution
Soil quality
Straw
Wheat
wheat yield
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Summary:Sandy soil covers a significant portion of Egypt's total land area, representing a crucial agricultural resource for future food security and economic growth. This research adopts the hypothesis of maximizing the utilization of secondary products for soil improvement to reduce ecosystem pollution. The study focuses on assessing the impact of combining phosphogypsum and modified biochar as environmentally friendly soil amendments on loamy sand soil quality parameters such as soil organic carbon, cation exchange capacity, nutrient levels, and wheat yield. The treatments were T : the recommended NPK fertilizer (control); T : 2.5 kg phosphogypsum m soil; T : 2.5 kg rice straw biochar m soil; T : 2.5 kg cotton stalk biochar m soil; T : 2.5 kg rice-straw-modified biochar m soil; T : 2.5 kg cotton-stalk-modified biochar m soil; and T to T : mixed phosphogypsum and biochar treatments. The results revealed that the combined use of phosphogypsum and modified cotton stalk biochar (T ) significantly enhanced soil organic carbon (SOC) by 73.66% and 99.46% in both seasons, the soil available N both seasons by 130.12 and 161.45%, the available P by 89.49% and 102.02%, and the available K by 39.84 and 70.45% when compared to the control treatment. Additionally, this treatment led to the highest grain yield of wheat (2.72 and 2.92 Mg ha ), along with a significant increase in straw yield (52.69% and 59.32%) compared to the control treatment. Overall, the findings suggest that the combined use of phosphogypsum and modified biochar, particularly cotton-stalk biochar, holds promise for improving loamy sand-soil quality and wheat productivity.
ISSN:2223-7747
2223-7747
DOI:10.3390/plants13111492