Scientia Agricultura Sinica ›› 2017, Vol. 50 ›› Issue (6): 1076-1087.doi: 10.3864/j.issn.0578-1752.2017.06.009

• SOIL & FERTILIZER·WATER-SAVING IRRIGATION·AGROECOLOGY & ENVIRONMENT • Previous Articles     Next Articles

Effects of Reduced N Fertilization on Crop N Uptake, Soil Ammonia Oxidation and Denitrification Bacteria Diversity in Maize/Soybean Relay Strip Intercropping System

ZHOU Li, FU ZhiDan, DU Qing, CHEN Ping, YANG WenYu, YONG TaiWen   

  1. College of Agronomy, Sichuan Agricultural University/Key Laboratory of Crop Physiology, Ecology and Cultivation in Southwest China, Ministry of Agriculture/Sichuan Engineering Research Center for Crop Strip Intercropping System, Chengdu 611130
  • Received:2016-09-08 Online:2017-03-16 Published:2017-03-16

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Abstract: 【Objective】The aim of this study is to reveal the variation characteristics of soil bacteria quantity and community in crop rhizosphere, and the relationship among bacteria quantity and community, soil total N content, crops N uptake in maize/soybean relay strip intercropping system, which will provide theoretical and technology support to reduce fertilizer input and efficient production in cereal/legumes intercropping system.【Method】Field experiments were conducted with two factors split-plot designed from 2013 to 2015, the main factor was planting patterns which included monoculture maize (MM), solo soybean (SS) and maize/soybean relay strip intercropping system (IMS), and the sub-factor total N for maize and soybean were no nitrogen 0 (NN), reduced nitrogen 180 kg N·hm-2 (RN), conventional nitrogen 240 kg N·hm-2 (CN), respectively. At V12, VT, R6 stages of maize and V5, R2, R5, R8 stages of soybean, the rhizosphere bacteria quantity was investigated by dilution-plate method, non-rhizosphere soil and crops shoot total N contents were determined by Kjeldahl method, and the diversity and gene abundance of ammonia oxdizing bacteria (amoA) and denitrifying bacteria (nirS) under different N fertilization rates were measured by combining clone library with FQ-PCR. 【Result】 The bacteria quantity in the rhizosphere of intercropped maize (IM) was 2.6% higher, and that of intercropped soybean (IS) was 12.9% higher compared with the corresponding monoculture. The total soil and shoot N contents of intercropped maize were increased by 13.39% and 2.10%, and that of intercropped soybean were decreased by 5.81% and 3.24% in contrast with corresponding monoculture, respectively. The gene abundance of ammonia oxdizing bacteria (amoA) of intercropped maize and soybean was 38.5% and 64.8% higher, and the gene abundance of denitrifying bacteria (nirS) of intercropped maize and soybean was 57.77% and 126.39% higher in contrast with corresponding monoculture, respectively. Under different N fertilization rates, the bacteria quantity in the rhizosphere of maize was 9.6% and 9.8% higher, and that of soybean was 11.7% and 11.0% greater in RN compared NN with CN, respectively. In addition, reduced N fertilization increased the diversity index of amoA gene in the rhizosphere of maize and soybean, and increased the diversity index of nirS of monoculture maize, moreover, reduced N fertilization decreased the diversity index of nirS of intercropped maize and soybean. 【Conclusion】 Reduced N fertilization contributed to increase bacteria quantity in the rhizosphere under maize/soybean relay strip intercropping system, improved the progress of soil N transfer, promoted the N uptake of maize and soybean thereby achieved saving fertilizer.

Key words: maize-soybean relay strip intercropping system, reduced N, bacterial diversity, N uptake

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