根瘤菌 Tropici sp. 菌株 UD5 泥炭生物肥接种剂对四季豆生长、产量和氮浓度的影响

Nitrogen Pub Date : 2024-02-01 DOI:10.3390/nitrogen5010006
Auges Gatabazi, A. Ndhlala, Mireille Asanzi Mvondo-She, Semakaleng Mpai
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The experiment was conducted in two climatic zones, as described by the Koppen–Gieger climatic classification system. Treatments involved the peat-based inoculant Rhizobium tropici (T0 = 0 g without inoculation, T1 = 250 g of peat inoculant of strain UD5 for 50 kg seeds, T2 = 500 g of inoculant of strain UD5, and T3 = 200 g of comparative peat inoculant). The results indicated that common-bean-inoculated formulation of R. tropici sp. strain UD5 increased the following parameters compared to the controls: plant height (T1 = 18.22%, T2 = 20.41%, and T3 = 19.93% for bioclimatic zone 1; T1 = 16.78%, T2 = 20.71%, and T3 = 19.93% for bioclimatic zone 2), root length (T1 = 13.26%, T2 = 21.28%, and T3 = 19.38% for zone 1; T1 = 15.06%, T2 = 23.70%, and T3 = 19.20% for zone 2), number of nodules (T1 = 1162.57%, T2 = 1166.36%, and T3 = 1180.30% for zone 1; T1 = 1575%, T2 = 1616.5%, and T3 = 1608.25% for zone 2), size of nodules (T1 = 224.07%, T2 = 224.07%, and T3 = 208.33% for zone 1; T1 = 166.4%, T2 = 180%, and T3 = 140% for zone 2), and yield (T1 = 40.49%, T2 = 47.10%, and T3 = 45.45% for zone 1; T1 = 62.16%, T2 = 54.05%, and T3 = 58.55% for zone 2). R. tropici sp. UD5 peat inoculant formulation also increased the nitrogen concentration in leaves compared to the control (T1 = 3.75%, T2 = 1.12%, and T3 = 8.72%) in both bioclimatic zones. 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引用次数: 0

摘要

蚕豆(Phaseolus vulgaris L.)是产量和消费量最高的豆类作物之一,含有人体必需的宏量和微量营养元素。由于管理不善,特别是通过施肥缺乏额外的必需营养元素,粮食作物的谷物产量明显下降。除施肥外,学术研究和作物种植者的研究表明,使用生物肥料接种剂可提高豆科作物的产量。本研究的目的是评估泥炭基根瘤菌 UD5 对普通豆类的生长、产量和氮浓度的影响。泥炭接种剂含有 6.5 × 109 个存活细胞/克。根据 Koppen-Gieger 气候分类系统的描述,实验在两个气候区进行。处理涉及泥炭接种剂根瘤菌(T0 = 0 克不接种,T1 = 250 克泥炭接种剂菌株 UD5 用于 50 公斤种子,T2 = 500 克接种剂菌株 UD5,T3 = 200 克对比泥炭接种剂)。结果表明,与对照组相比,普通大豆接种 R. tropici sp. 菌株 UD5 的配方提高了以下参数:植株高度(T1 = 18.22%,T2 = 20.41%,T3 = 19.93%;生物气候区 2:T1 = 16.78%,T2 = 20.71%,T3 = 19.93%)、根长(生物气候区 1:T1 = 13.26%,T2 = 21.28%,T3 = 19.38%;生物气候区 2:T1 = 15.06%,T2 = 23.70%,T3 = 19.20%)、结核数量(1 区为 T1 = 1162.57%、T2 = 1166.36% 和 T3 = 1180.30%;2 区为 T1 = 1575%、T2 = 1616.5% 和 T3 = 1608.25%)、结核大小(T1 = 224.07%、T2 = 224.1区为 224.07%,T2 = 224.07%,T3 = 208.33%;2区为 T1 = 166.4%,T2 = 180%,T3 = 140%)和产量(1区为 T1 = 40.49%,T2 = 47.10%,T3 = 45.45%;2区为 T1 = 62.16%,T2 = 54.05%,T3 = 58.55%)。与对照组相比(T1 = 3.75%,T2 = 1.12%,T3 = 8.72%),R. tropici sp. UD5 泥炭接种剂配方也提高了两个生物气候区叶片中的氮浓度。这项研究的结果提供了重要信息,说明应用 R. tropic UD5 菌株泥炭接种剂可通过形成结核改善植物的生长、发育和产量。
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Effectiveness of Rhizobium tropici sp. Strain UD5 Peat Biofertilizer Inoculant on Growth, Yield, and Nitrogen Concentration of Common Bean
Common bean (Phaseolus vulgaris L.) ranks among the most produced and consumed legume crops and contains essential macro- and micronutrients. Grain yield of the food crop is markedly decreased by poor management, especially a lack of additional essential nutrient elements through the application of fertilizers. In addition to the application of fertilizers, scholarly research and crop farmers have shown that the use of biofertilizer inoculants improves the yield of legume crops. The objective of this research study was to assess the effectiveness of peat-based Rhizobium tropici sp. UD5 on the growth, yield, and nitrogen concentration of common bean. The peat inoculant contained 6.5 × 109 viable cells/g. The experiment was conducted in two climatic zones, as described by the Koppen–Gieger climatic classification system. Treatments involved the peat-based inoculant Rhizobium tropici (T0 = 0 g without inoculation, T1 = 250 g of peat inoculant of strain UD5 for 50 kg seeds, T2 = 500 g of inoculant of strain UD5, and T3 = 200 g of comparative peat inoculant). The results indicated that common-bean-inoculated formulation of R. tropici sp. strain UD5 increased the following parameters compared to the controls: plant height (T1 = 18.22%, T2 = 20.41%, and T3 = 19.93% for bioclimatic zone 1; T1 = 16.78%, T2 = 20.71%, and T3 = 19.93% for bioclimatic zone 2), root length (T1 = 13.26%, T2 = 21.28%, and T3 = 19.38% for zone 1; T1 = 15.06%, T2 = 23.70%, and T3 = 19.20% for zone 2), number of nodules (T1 = 1162.57%, T2 = 1166.36%, and T3 = 1180.30% for zone 1; T1 = 1575%, T2 = 1616.5%, and T3 = 1608.25% for zone 2), size of nodules (T1 = 224.07%, T2 = 224.07%, and T3 = 208.33% for zone 1; T1 = 166.4%, T2 = 180%, and T3 = 140% for zone 2), and yield (T1 = 40.49%, T2 = 47.10%, and T3 = 45.45% for zone 1; T1 = 62.16%, T2 = 54.05%, and T3 = 58.55% for zone 2). R. tropici sp. UD5 peat inoculant formulation also increased the nitrogen concentration in leaves compared to the control (T1 = 3.75%, T2 = 1.12%, and T3 = 8.72%) in both bioclimatic zones. The findings of this study provide significant information on the positive effect of R. tropic UD5 strain peat inoculant application in the improvement of plant growth, development, and yield through the formation of nodules.
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