Different Intercropped Soybean Planting Patterns Regulate Leaf Growth and Seed Quality

Different Intercropped Soybean Planting Patterns Regulate Leaf Growth and Seed Quality

Solar radiation is crucial for intercropping, while partial shading can protect intercropped soybean leaves from irradiation damage during the pod-ripening period under high solar radiation. This study explored the leaf dynamics and soybean quality for the maize–soybean system, for monoculture soybe...

Full description

Saved in:
Bibliographic Details
Main Authors: Wei He, Qiang Chai, Cai Zhao, Wen Yin, Hong Fan, Aizhong Yu, Zhilong Fan, Falong Hu, Yali Sun, Feng Wang
Format: Article
Language:English
Published: MDPI AG 2025-03-01
Series:Agronomy
Subjects:
maize–soybean intercropping
endophyte
crude protein
isoflavone
Online Access:https://www.mdpi.com/2073-4395/15/4/880
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Solar radiation is crucial for intercropping, while partial shading can protect intercropped soybean leaves from irradiation damage during the pod-ripening period under high solar radiation. This study explored the leaf dynamics and soybean quality for the maize–soybean system, for monoculture soybean (MS), monoculture maize (MM), two-row maize + three-row soybean (IS2-3), and four-row maize + four-row soybean (IS4-4). The results revealed that soybean leaves under IS2-3 and IS4-4 treatments showed increases in Rubisco activity of 59.8% and 12.4% compared with MS, respectively. The antioxidant capacity in soybean leaves in MS was higher than that under intercropping treatments. Soybean leaves under IS2-3 and IS4-4 exhibited higher alpha and beta diversities in their endophytes compared with MS. The relative abundance of pathotrophs under IS2-3 was reduced by 19.1% and 22.6% compared to that of those under MS and IS4-4, respectively. The total land equivalent ratio (LER) under IS2-3 was more than 1.00, and increased by 6.4% and 15.7% compared with IS4-4 in 2023 and 2024, respectively. Soybean seeds under IS2-3 and IS4-4 showed 4.1% and 4.2% increases in crude protein content compared to those of MS, respectively. Among various biosynthesis and metabolism processes, flavone and flavonol biosynthesis exerted a stronger influence on soybean seeds in MS, IS2-3, and IS4-4. Soybean seeds under IS2-3 showed elevated genistein content and reduced daidzein content compared with those of MS. Intercropping soybean treatments, especially IS2-3, maintained leaf health during the pod-ripening period and enhanced the crude protein content compared with sole soybean treatment, thus guiding the design of intercropping in areas with high solar radiation.
ISSN:2073-4395

Similar Items