Your search keyword '"ZAN Zhiman"' showing total 1 results

1. Effects of maize and peanut co-ridge intercropping on crop photosynthetic characteristics and intercropping advantages.

Author

CHEN Junnan, JIANG Wenyang, ZAN Zhiman, WANG Jiangtao, ZHENG Bin, LIU Ling, LIU Juan, and JIAO Nianyuan

Abstract

To clarify the photosynthetic mechanism contributing to the enhancement of intercropping advantages through co-ridge intercropping of maize and peanut, we conducted a field randomized block experiment under two phosphorus levels of 0 (P0) and 180 kg P2O5 ⋅ hm-2 (P180) with flat intercropping of maize and peanut (FIC) as the control. We analyzed the effects of co-ridge intercropping of maize and peanut (RIC) and groove-ridge intercropping of maize and peanut (GIC) on crop leaf area index (LAI), SPAD values, CO2 carboxylation ability, photosystems coordination (ΦPS I/PS II), and intercropping advantage of yield. The results showed that RIC significantly increased SPAD value at the silking stage of intercropping maize, and significantly improved the apparent quantum yield of photosynthesis (AQY), maximum electron transfer rate (Jmax), maximum rate of Rubisco carboxylation (Vc, max), net photosynthetic rate at the CO2 saturation (Amax) and ΦPS I/PS II of intercropping maize compared with those of FIC and GIC at silking stage and milking stage, but reduced the ratio of variable fluorescence Fj to amplitude Fp -Fo (Wk) and the ratio of variable fluorescence Fk to amplitude Fj -Fo (Vj) of the functional leaf photosystem II (PS II) at the milking stage of maize. There were no significant differences in these parameters between FIC and GIC. Compared with FIC, both RIC and GIC increased LAI of intercropping peanut at late growth stage and SPAD value at pod setting stage, significantly improved Vc, max, Amax, and ΦPS I/PS II and reduced Wk and Vj values of intercropping peanut functional leaves at pod expanding stage. The difference in these parameters between RIC and GIC were not significant. The land equivalent ratio and intercropping advantages of RIC were higher than those of FIC and GIC. Phosphorus application could further promote Vc, max Jmax, Amax, ΦPS I/PS II of intercropping maize and peanut, and significantly improve yield advantages of intercropping. The findings indicated that co-ridge intercropping could enhance CO2 carboxylation and fixation by improving photosynthetic electron transport and photosystems coordination, improve the photosynthetic rate of functional leaves of maize and peanut, thus increase crop yield and intercropping advantages. [ABSTRACT FROM AUTHOR]

Published

2023