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利用蘑菇栽培废弃稻秆作为生物肥料,其中含有具有潜力的 菌株,可提高黑麦草(L.)对养分的吸收、产量和冲积土肥力。

Improvement of Nutrient Uptake, Yield of Black Sesame ( L.), and Alluvial Soil Fertility in Dyke by Spent Rice Straw from Mushroom Cultivation as Biofertilizer Containing Potent Strains of .

机构信息

Faculty of Crop Science, College of Agriculture, Can Tho University, Can Tho 94000, Vietnam.

Experimental and Practical Area, An Giang University, Long Xuyen, An Giang 90000, Vietnam.

出版信息

ScientificWorldJournal. 2023 Apr 24;2023:1954632. doi: 10.1155/2023/1954632. eCollection 2023.

DOI:10.1155/2023/1954632
PMID:37138904
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10151153/
Abstract

The aim of the current research was to evaluate the effects of members of purple nonsulfur bacteria (PNSB), strains of VNW02, TLS06, VNW64, and VNS89, mixed with spent rice straw (SRS) from mushroom cultivation as a carrier on promoting sesame growth and yield, and ameliorating the alluvial soil (AS) fertility in dykes. A 4 × 3 factorial experiment consisting of different levels of the solid PNSB biofertilizer mixture at 0, 3, 4, and 5 t·ha (0, 1.81 × 10, 2.24 × 10, and 2.68 × 10 cells pot, respectively), and nitrogen (N) and phosphorus (P) inorganic fertilizer rates (100, 75, and 50 kg·N·ha; 60, 45, and 30 kg PO·ha, respectively) was performed in pots with the sesame variety of ADB1 in the dyked AS. The solid PNSB biofertilizer mixture at at least 3 t·ha significantly enhanced the sesame seed yield by providing higher macronutrients for plants by increasing available N and soluble P concentrations in the soil. The solid PNSB biofertilizer mixture in addition to 75% of the recommended N and P fertilizers produced an equivalent yield in comparison to the utilized 100% of N and P inorganic fertilizers. The solid PNSB biofertilizer mixture in the SRS from the mushroom production reduced at least 25% of N and P chemical fertilizers for gaining the maximal seed yield and enriched soil characteristics for the sustainable black sesame cultivation in the dyked AS.

摘要

本研究旨在评估紫色非硫细菌(PNSB)菌株 VNW02、TLS06、VNW64 和 VNS89 与蘑菇栽培后的废稻秸(SRS)混合作为载体,对促进芝麻生长和产量以及改善堤岸冲积土(AS)肥力的影响。采用不同水平的固体 PNSB 生物肥料混合物(0、3、4 和 5 t·ha-1,分别为 0、1.81×10、2.24×10 和 2.68×10 细胞盆-1)和氮(N)和磷(P)无机肥料率(100、75 和 50 kg·N·ha-1;60、45 和 30 kg PO4·ha-1,分别)的 4×3 因子试验在带有 ADB1 芝麻品种的围堤 AS 盆中进行。固体 PNSB 生物肥料混合物至少 3 t·ha-1 显著提高了芝麻种子产量,为植物提供了更高的大量营养素,增加了土壤中有效 N 和可溶 P 的浓度。与使用 100%的 N 和 P 无机肥料相比,固体 PNSB 生物肥料混合物加上推荐用量的 75%的 N 和 P 肥料产生了等效的产量。来自蘑菇生产的 SRS 中的固体 PNSB 生物肥料混合物至少减少了 25%的 N 和 P 化学肥料,从而获得了最大的种子产量,并使堤岸 AS 中可持续的黑芝麻种植的土壤特性得到了丰富。

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