The rhizosphere is the region of soil directly influenced by plant roots. The microbial community in the rhizosphere includes fungi, protists, and bacteria, all of which play a significant role in plant health. The beneficial bacterium Sinorhizobium meliloti infects growing root hairs on nitrogen starved leguminous plants. Infection leads to the formation of a root nodule, where S. meliloti converts atmospheric nitrogen to ammonia, the usable form of nitrogen for plants. However, S. meliloti, often found in biofilms, travels slowly; whereas infectible root hairs are found at the growing root tip, potentially causing many root hairs to remain uninfected by S. meliloti when it is delivered as a seed inoculant. Soil protists are an important component of the rhizosphere system who prey on soil bacteria and have been known to egest undigested phagosomes. We show that the soil protist, Colpoda sp., plays an important role in transporting S. meliloti down Medicago truncatula roots. By using pseudo-3D soil microcosms we directly observed the presence of fluorescently labelled S. meliloti along M. truncatula roots and track the displacement of bacteria over time. In the presence of Colpoda sp., S. meliloti was detected 44 mm, on average, farther down the roots, compared with the Bacteria Only Treatment. Facilitating bacterial transport may be an important mechanism whereby soil protists promote plant health. Protist facilitated transport as a sustainable agriculture biotechnology has the potential to boost efficacy of bacterial inoculants, avoid overuse of nitrogen fertilizers, and enhance performance of no-till farming practices.
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