Use of high throughput DNA analysis to characterize the nodule-associated bacterial community from four ages of Inga punctata trees in a Costa Rican cloud forest.

IF 2.7 Q3 MICROBIOLOGY AIMS Microbiology Pub Date : 2024-07-23 eCollection Date: 2024-01-01 DOI:10.3934/microbiol.2024027
William D Eaton, Debra A Hamilton, Wen Chen, Alexander Lemenze, Patricia Soteropoulos
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Abstract

Leguminous tree root nodule nitrogen-fixing bacteria are critical for recuperation of soil C and N cycle processes after disturbance in tropical forests, while other nodule-associated bacteria (NAB) may enhance nodule development and activity, and plant growth. However, little is known of these root nodule microbiomes. Through DNA analysis, we evaluated the bacterial taxa associated with the root nodules of the 1-year-old, 2-year-old, 13-year-old, and old growth Inga punctata trees in a cloud forest. Bradyrhizobium diazoefficiens was the dominant taxon found in all nodules at 63.16% to 85.71% mean percent sequences (MPS) of the total nodule bacterial DNA and was found in the youngest nodules examined (1 year old), suggesting that it is the primary nodular bacteria. There were 26 other NAB genera with collective MPS levels between 7.4% to 12.2%, while 15 of these genera were found in the Bulk Forest soils at collective MPS levels of 4.6%. These bacterial community compositions were different between the NAB and Bulk Forest soils, suggesting the NAB became concentrated within the root nodules, resulting in communities with different compositions from the Bulk Forest soils. Twenty-three of the 26 NAB genera were previously identified with the potential to perform 9 plant growth promoting (PGP) activities, suggesting their importance in root nodule development and plant growth. These NAB communities appeared to successionally develop over time into more complex taxonomic communities, which is consistent with the outcome of advanced microbial communities following succession. The presence of both B. diazoefficiens and the NAB communities in the nodules across all ages of tree roots, and the potential for PGP activities linked with most of the NAB genera, suggest the importance of B. diazoefficiens and the NAB community for nodule development and enhanced development and growth of I. punctata throughout its lifespan, and most critically in the younger plants.

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利用高通量 DNA 分析鉴定哥斯达黎加云雾林中四种树龄的 Inga punctata 树的结核相关细菌群落。
豆科植物根瘤固氮菌对热带森林受干扰后土壤碳和氮循环过程的恢复至关重要,而其他根瘤相关细菌(NAB)则可促进根瘤的发育和活性,并促进植物生长。然而,人们对这些根瘤微生物群知之甚少。通过 DNA 分析,我们评估了与云雾林中 1 年生、2 年生、13 年生和生长期较长的 Inga punctata 树的根瘤相关的细菌类群。Bradyrhizobium diazoefficiens 是所有结核中发现的主要类群,占结核细菌 DNA 总数的 63.16% 到 85.71% 的平均百分序列 (MPS),并且在最年轻的结核(1 年树龄)中也有发现,这表明它是主要的结核细菌。其他 26 个 NAB 菌属的总体 MPS 水平在 7.4% 到 12.2% 之间,其中 15 个菌属出现在散装森林土壤中,总体 MPS 水平为 4.6%。这些细菌群落组成在 NAB 和散生森林土壤中有所不同,表明 NAB 集中在根瘤中,导致群落组成与散生森林土壤不同。在 26 个 NAB 属中,有 23 个以前曾被确认具有 9 种促进植物生长(PGP)活动的潜力,这表明它们在根瘤发育和植物生长中的重要性。随着时间的推移,这些 NAB 群落似乎会演替发展成更复杂的分类群落,这与演替后高级微生物群落的结果是一致的。B. diazoefficiens 和 NAB 群落在所有树龄的树根结核中的存在,以及与大多数 NAB 属相关的潜在 PGP 活动,表明 B. diazoefficiens 和 NAB 群落对 I. punctata 在整个生命周期中的结核发育和增强发育与生长的重要性,最关键的是在较年轻的植物中。
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来源期刊
AIMS Microbiology
AIMS Microbiology MICROBIOLOGY-
CiteScore
7.00
自引率
2.10%
发文量
22
审稿时长
8 weeks
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