Department of Plant Sciences, School of Life Sciences, University of Hyderabadgrid.18048.35, Hyderabad, Telangana, India.
Department of Plant Sciences, University of Oxford, Oxford, United Kingdom.
mBio. 2021 Aug 31;12(4):e0042321. doi: 10.1128/mBio.00423-21. Epub 2021 Jul 6.
Pigeon pea, a legume crop native to India, is the primary source of protein for more than a billion people in developing countries. The plant can form symbioses with N-fixing bacteria; however, reports of poor crop nodulation in agricultural soils abound. We report here a study of the bacterial community associated with pigeon pea, with a special focus on the symbiont population in different soils and vegetative and non-vegetative plant growth. Location with respect to the plant roots was determined to be the main factor controlling the bacterial community, followed by developmental stage and soil type. Plant genotype plays only a minor role. Pigeon pea roots have a reduced microbial diversity compared to the surrounding soil and select for , especially for spp., during vegetative growth. While , a native symbiont of pigeon pea, can be found associating with roots, its presence is dependent on plant variety and soil conditions. A combination of 16S rRNA gene amplicon survey, strain isolation, and co-inoculation with nodule-forming spp. and non-N-fixing spp. demonstrated that the latter is a much more successful colonizer of pigeon pea roots. Poor nodulation of pigeon pea in Indian soils may be caused by a poor competitiveness against non-nodulating root colonizers such as . Hence, inoculant strain selection of symbionts for pigeon pea should be based not only on their nitrogen fixation potential but, more importantly, on their competitiveness in agricultural soils. Plant symbiosis with N-fixing bacteria is a key to sustainable, low-input agriculture. While there are ongoing projects aiming to increase the yield of cereals using plant genetics and host-microbiota interaction engineering, the biggest potential lies in legume plants. Pigeon pea is a basic food source for a billion low-income people in India. Improving its interactions with N-fixing rhizobia could dramatically reduce food poverty in India. Despite the Indian origin of this plant, pigeon pea nodulates only poorly in native soils. While there have been multiple attempts to select the best N-fixing symbionts, there are no reliable strains available for geographically widespread use. In this article, using 16S rRNA gene amplicon, culturomics, and plant co-inoculation assays, we show that the native pigeon pea symbionts such as spp. are able to nodulate their host, despite being poor competitors for colonizing roots. Hence, in this system, the establishment of effective symbiosis seems decoupled from microbial competition on plant roots. Thus, the effort of finding suitable symbionts should focus not only on their N-fixing potential but also on their ability to colonize. Increasing pigeon pea yield is a low-hanging fruit to reduce world hunger and degradation of the environment through the overuse of synthetic fertilizers.
兵豆,一种原产于印度的豆类作物,是发展中国家超过 10 亿人的主要蛋白质来源。这种植物可以与固氮细菌形成共生关系;然而,在农业土壤中,作物结瘤不良的报告比比皆是。我们在这里报告了一项与兵豆相关的细菌群落研究,特别关注不同土壤和营养与非营养生长阶段中共生体种群。研究表明,与植物根系的位置是控制细菌群落的主要因素,其次是发育阶段和土壤类型。植物基因型只起次要作用。与周围土壤相比,兵豆根的微生物多样性减少,并且在营养生长过程中选择特定的共生体,特别是 spp.。虽然 ,一种兵豆的本地共生体,可以与根相关联,但它的存在取决于植物品种和土壤条件。16S rRNA 基因扩增子调查、菌株分离以及与结瘤 spp.和非固氮 spp.的共同接种证明,后者是兵豆根更成功的定植者。印度土壤中兵豆结瘤不良可能是由于其对非结瘤根定植者如 spp.的竞争力较差所致。因此,用于兵豆的共生体接种剂菌株的选择不仅应基于其固氮潜力,而且更重要的是应基于其在农业土壤中的竞争力。植物与固氮细菌的共生关系是可持续、低投入农业的关键。虽然有正在进行的项目旨在利用植物遗传学和宿主微生物群相互作用工程来提高谷物的产量,但最大的潜力在于豆科植物。兵豆是印度 10 亿低收入人群的基本食物来源。改善其与固氮根瘤菌的相互作用可以显著减少印度的粮食贫困。尽管这种植物原产于印度,但在本土土壤中结瘤不良。虽然已经多次尝试选择最佳的固氮共生体,但没有可靠的菌株可在地理上广泛使用。在本文中,我们使用 16S rRNA 基因扩增子、培养组学和植物共接种实验表明,尽管 spp.等本地兵豆共生体在定植根时竞争力较差,但仍能结瘤其宿主。因此,在这个系统中,有效的共生关系的建立似乎与植物根上的微生物竞争脱钩。因此,寻找合适共生体的努力不仅应集中在它们的固氮潜力上,还应集中在它们的定植能力上。提高兵豆的产量是减少世界饥饿和通过过度使用合成肥料导致的环境退化的一个低风险选择。
