Journal
APPLIED ECOLOGY AND ENVIRONMENTAL RESEARCH
Volume 17, Issue 2, Pages 2551-2569Publisher
CORVINUS UNIV BUDAPEST
DOI: 10.15666/aeer/1702_25512569
Keywords
Rubisco; intercropping; chlorophyll fluorescence characteristics; sucrose synthesis; seed-yield
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In maize soybean intercropping-system maize plants significantly increase the shade density at soybean canopy, and few people studied the threshold level of shade for sustainable production of soybean in this system. This experiment was started to determine the effect of four different shade treatments T-75 (75%); T-50 (50%); T-25 (25%); T-0 (0%, control) on morphology, physiology and yield of soybean plants. Relative to T-75 , treatments T-25 and T-0 significantly increased the stem diameter and stem breaking strength while plant height was decreased. The chlorophyll a, chlorophyll b, and chlorophyll a + b, photosynthetic and chlorophyll fluorescence characteristics were improved as shade decreased, and maximum values were observed in T-25 and T-0. Similarly, enzymatic activity of Rubisco was accelerated from T-75 to T-0. However, genes related to sucrose synthesis (SS and SPS) were down-regulated by increasing shade (T-75). Importantly, non-significant differences were measured for seed-yield between T-25 and T-0, and the plants of soybean under T-25 produced 88% of T-0 yield. Overall, these results implied that agronomist should develop an appropriate intercropping planting pattern where the maximum shade density ranges from 20 to 30 % to obtain higher seed yield of soybean crop under intercropping-system.
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