Bac-for good: Bacteria passed between generations benefits you more than others
Bacteria passed straight to children have more healthcare benefits than if they are transmitted via the surrounding environment, new Oxford University research reveals.
Many insects and plant species carry beneficial bacteria, which provide a variety of services. Some provide nutrients, such as those living in aphids, the green and black fly which plague garden plants. Others help their animal hosts defend against parasites. However, while animals would die without some bacteria, they would hardly notice the absence of others. Why do we get this variation?
New research, published in Nature Communications, researchers from the University of Oxford, Department of Zoology, tracked the evolutionary history of 106 bacterial symbioses, in a range of animal plant and fungi species.
The findings have revealed that how bacteria is passed and contracted is key to the intensity of symbiont relationships. When bacteria are passed vertically, straight from mother to offspring, they tend to be much better for their hosts than if they are transmitted via the environment (horizontally).
The team found that when bacteria are passed on vertically, hosts evolve to depend on them. Removing these bacteria can have a significant negative impact on the host. In the case of Aphids, also known as plant lice, individuals die if you take away their bacteria. In contrast, bacteria that are passed via the environment, has a smaller impact. Plants such as peas and beans acquire Rhizobia bacteria from the soil, which can extract nitrogen from the air and put it into a form that the plant can use. Rhizobia plays an important role in plant rotations, but the plants do not die without them.
The paper's co-author, Professor Stuart West of Oxford's Department of Zoology, said: 'If a bacteria is passed on vertically, it has a vested interest in its host's wellbeing. A healthy host, who is doing well, will produce more offspring, and in doing so, it will also pass on its bacteria as well. These offspring will then follow the same cycle with the next generation, and so on. The vertically transmitted symbionts have a lot to gain from a healthy, happy host. Whereas those passed on horizontally, via the environment, are less invested in their host's fitness and wellbeing, since it has no bearing on their own success.'
The study represents a first step towards improving understanding of symbiont relationships and their benefit or lack of benefit, for plant and insect species. As humans interact with a lot of bacteria, with further research, the work could be used to inform medical understanding.
Notes to editors:
The full study 'The evolution of host-symbiont dependence' was published in Nature Communications and the DOI link is: 10.1038/NCOMMS15973
Bacterial symbiosis considered: https://www.nature.com/articles/ncomms15973/figures/2
For further information please contact Lanisha Butterfield in the University of Oxford press office at [email protected] or on+44 (0)1865 280531
The Mathematical, Physical and Life Sciences Division (MPLS) is one of four academic divisions at the University of Oxford, representing the non-medical sciences. Oxford is one of the world's leading universities for science, and MPLS is at the forefront of scientific research across a wide range of disciplines. Research in the mathematical, physical and life sciences at Oxford was rated the best in the UK in the 2014 Research Excellence Framework (REF) assessment. MPLS received £133m in research income in 2014/15.