Multifunctional microorganisms and phosphorus dosages in soybean-maize and soybean-rice successions under no-till systems in the cerrado

IF 0.6 4区农林科学 Q3 AGRICULTURE, MULTIDISCIPLINARY

Bioscience Journal Pub Date : 2024-07-17 DOI:10.14393/bj-v40n0a2024-70492

D. R. C. Cruz, Natasha Ohanny da Costa Monteiro, Izabely Vitória Lucas Ferreira, Victórya Gabrielly Manzan Souza, Juracy Barroso Neto, M. A. Silva, A. Nascente

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引用次数: 0

Abstract

Multifunctional phosphate solubilizing microorganisms can contribute to reducing phosphorus doses without affecting the grain yield of crops. The aim of this work was to evaluate agricultural production systems involving soybean-maize and soybean-rice successions, inoculation of beneficial microorganisms and application of phosphorus doses with a view to sustainable intensification of agriculture and soil health and fertility in the Cerrados region. The experimental design was a randomized block design in a 2x4 factorial scheme with four replications. The treatments were composed of the combination of two phosphorus doses, 50% (45 kg ha-1 of P2O5) and 100% (90 kg ha-1 of P2O5) of the recommended dose with four uses of multifunctional microorganisms: 1. BRM 32111 (Burkholderia sp.), 2. BRM 32114 (Serratia marcescens), 3. co-inoculation (BRM 32111 + BRM 32114), and 4. control (no application of microorganisms). The microorganisms provided significant increases in the 100-grain weight and grain yield of soybeans, dry matter and nutrient accumulation of rice and maize, reduction of phytopathogenic fungus propagules, and increased accumulation of nutrients and activity of the enzymes Betaglicosidase and Arilsulfatase in the soil. Applying 50% phosphorus reduced the 100-grain weight and grain yield of soybean, dry matter and nutrient accumulation of rice, propagules of Trichoderma spp., and the nutrients in the soil. The soybean-maize succession showed higher levels of Arylsulfatase than the soybean-rice succession. The highest soybean yields were obtained by applying BRM 32114 with 50% and co-inoculation with 100% phosphorus.

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塞拉多地区免耕系统下大豆-玉米和大豆-水稻连作中的多功能微生物和磷剂量

多功能磷酸盐溶解微生物有助于在不影响作物产量的情况下减少磷的用量。这项工作的目的是评估农业生产系统，包括大豆-玉米和大豆-水稻连作、有益微生物的接种以及磷剂量的应用，以期在 Cerrados 地区实现农业的可持续集约化以及土壤的健康和肥力。实验设计采用 2x4 因式方案的随机区组设计，有四个重复。处理包括两种磷剂量的组合，即推荐剂量的 50%（45 千克/公顷 P2O5）和 100%（90 千克/公顷 P2O5），以及四种多功能微生物的使用：1.BRM 32111（伯克霍尔德氏菌）；2.BRM 32114（侯氏沙雷氏菌）；3.联合接种（BRM 32111 + BRM 32114）；4.对照（不使用微生物）。微生物显著提高了大豆的百粒重和谷物产量、水稻和玉米的干物质和养分积累、植物病原真菌繁殖体的减少、养分积累以及土壤中 Betaglicosidase 和 Arilsulfatase 酶的活性。施用 50%的磷会降低大豆的百粒重和谷物产量、水稻的干物质和养分积累、毛霉菌繁殖体和土壤中的养分。与大豆-水稻连作相比，大豆-玉米连作显示出更高水平的蝼蛄硫酸酯酶。在施用 50%的 BRM 32114 和 100%的磷联合接种时，大豆产量最高。

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来源期刊

Bioscience Journal Agricultural and Biological Sciences-General Agricultural and Biological Sciences

CiteScore

1.00

自引率

0.00%

发文量

审稿时长

48 weeks

期刊介绍： The Bioscience Journal is an interdisciplinary electronic journal that publishes scientific articles in the areas of Agricultural Sciences, Biological Sciences and Health Sciences. Its mission is to disseminate new knowledge while contributing to the development of science in the country and in the world. The journal is published in a continuous flow, in English. The opinions and concepts expressed in the published articles are the sole responsibility of their authors.