Biochar Improves Wax Gourd (Benincasa hispida (Thunb.) Cogn.) Yield and Quality by Regulating the Chemical Properties of Acidic Soil and Promoting Nutrient Uptake

Biochar is widely used to maintain crop yields and the sustainability of agroecosystems due to its characteristics. However, its effect on vegetable yield and quality in southern acidic soils has not been fully elucidated. The effects of two kinds of biochar application rates (3 t ha−1 and 12 t ha−1...

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Published inAgronomy (Basel) Vol. 14; no. 8; p. 1750
Main Authors Li, Zhen, Hao, Yongzhou, Li, Hongzhao, Fu, Tianhong, Li, Jing, Peng, Yutao, Chang, Jingjing, Chen, Lei, Xie, Dasen, Chen, Xiao, Gu, Wenjie, Song, Zhao, Zhang, Baige
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.08.2024
Subjects
Absorption
Acidic oxides
Acidic soils
Agricultural ecosystems
Agricultural production
Agrochemicals
biochar
Carbon content
Charcoal
Chemical properties
Crop yield
Effectiveness
Emissions
Environmental impact
Fertilization
Fertilizers
Fruits
Gourds
Greenhouse gases
Nitrogen
Nutrient availability
Nutrient content
Nutrient uptake
Nutrients
Nutritive value
Organic carbon
Organic soils
Precipitation
Raw materials
Rice
Sandy soils
Sawdust
Seeds
soil
Soil amendment
Soil chemistry
Soil improvement
Soil nutrients
Soil properties
Soils
Sugar
Vegetables
wax gourd
Waxes
yield
China
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Summary:Biochar is widely used to maintain crop yields and the sustainability of agroecosystems due to its characteristics. However, its effect on vegetable yield and quality in southern acidic soils has not been fully elucidated. The effects of two kinds of biochar application rates (3 t ha−1 and 12 t ha−1) on the nutrient availability, nutrient absorption, yield, and fruit quality of sandy acid oxide soil in South China were studied in a 2-year field experiment using two varieties of wax gourd (Tiezhu No. 2 and Dadao). The results showed that optimized fertilization (OPT, nitrogen, phosphorus, and potassium were reduced by 20.0%, 20.6%, and 21.1%, respectively) did not reduce the yield of the different varieties of wax gourd compared to FP (farmer practice). On the basis of the OPT treatment, the application of biochar increased the yield of Tiezhu No. 2 and Dadao wax gourd by 16.0–27.3% and 7.7–13.3%, respectively. The increase in yield was attributed to the improvement in soil organic carbon content which increased by 4.5–19.7%, nutrient effectiveness (NO3−-N and Olsen-P content enhanced by 23.7–27.0% and 15.3–23.4% in Tiezhu No. 2), and nutrient uptake (N, P, K, Ca, and Mg accumulation increased significantly by 21.1%, 46.1%, 36.8%, 25.7%, and 31.9%, respectively) by the plant after the biochar application. Different types of biochar also have some differences in these three aspects. Specifically, under the same dosage, rice biochar has a more significant effect on increasing the yield of winter melon, and has a better effect on the improvement of soil physical and chemical properties, while sawdust biochar has a more significant effect on nutrient absorption. In addition, the commercial quality, namely hardness and glossiness, and the nutritional quality, namely soluble sugar, soluble protein, VC content, and sugar–acid ratio of wax gourd fruits, were significantly improved after the biochar application. In summary, biochar application on acidic soils in South China could achieve a win–win situation in terms of increasing soil nutrient effectiveness to improve vegetable yield and quality while reducing chemical fertilizer.
ISSN:2073-4395
2073-4395
DOI:10.3390/agronomy14081750