Effects of Soil Conditioner (Volcanic Ash) on Yield Quality and Rhizosphere Soil Characteristics of Melon

Xue, Dongxu; Wang, Yangyang; Sun, Hong; Fu, Lina; Zhu, Lihe; Liu, Jiaqi; Zhi, Zhenyi; He, Jiayi; Wang, Wei; Wu, Chunyan

doi:10.3390/plants13131787

Plants

2024

DOI: 10.3390/plants13131787

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Effects of Soil Conditioner (Volcanic Ash) on Yield Quality and Rhizosphere Soil Characteristics of Melon

Dongxu Xue,

Yangyang Wang,

Hong Sun

et al.

Abstract: In this study, the effects of soil conditioners on the growth and development of melons and the rhizosphere soil environment were explored. The optimal amount of added soil conditioner was screened to solve the practical production problems of high-quality and high-yield thin-skinned melon. The melon variety “Da Shetou” was used as the material. Under the conditions of conventional fertilization and cultivation technology management, different soil conditioners were set up for potted melons. The effects of Pas… Show more

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Effects of Rotary and Deep Tillage on Soil Environment and Melon Root Development

Yan,

Xiong,

Yang

et al. 2024

Plants

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Tillage practices significantly influence crop yield and soil quality. This study investigated the impact of rotary tillage (RT) and deep tillage (DT) on soil properties, microbial diversity, and melon (Cucumis melo L.) root growth and yield. RT involved breaking up the topsoil to a depth of 15 cm using a rotary tiller, while DT employed a rotary tiller followed by a moldboard plow to turn the soil layer over to a depth of 35 cm. The melon variety “Nasimi” was used as the material. Our findings revealed a remarkable response of soil phosphorus to tillage practices. High-throughput sequencing results revealed a significant impact of tillage practices on the soil fungal composition, richness, and diversity but little impact on the bacterial communities. Compared to RT, DT markedly enhanced melon root length, root surface area, root volume, and mean root diameter by 47.42%, 56.70%, 58.83%, and 27.28%, respectively. Additionally, DT treatments significantly increased melon yield (53.46%) compared to RT. The results indicate that DT improves soil nutrient availability, affects soil fungal community characteristics, and optimizes root distribution in soil, thereby improving melon yield. The findings offer valuable theoretical insights for the implementation of effective tillage practices in open-field melon cultivation.

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Effects of Rotary and Deep Tillage on Soil Environment and Melon Root Development

Yan,

Xiong,

Yang

et al. 2024

Plants

View full text Add to dashboard Cite

show abstract

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Effects of Soil Conditioner (Volcanic Ash) on Yield Quality and Rhizosphere Soil Characteristics of Melon

Cited by 1 publication

References 20 publications

Effects of Rotary and Deep Tillage on Soil Environment and Melon Root Development

Effects of Rotary and Deep Tillage on Soil Environment and Melon Root Development

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