Abstract
There has been very little effort to incorporate foliar microbiomes into plant conservation efforts even though foliar endophytes are critically important to the fitness and function of hosts. Many critically endangered plants that have been extirpated from the wild are dependent on regular fungicidal applications in greenhouses that cannot be maintained for remote out-planted populations, which quickly perish. These fungicides negatively impact potentially beneficial fungal symbionts, which may reduce plant defenses to pathogens once fungicide treatments are stopped. Using the host/parasite system of Phyllostegia kaalaensis and Neoerysiphe galeopsidis, we conducted experiments to test total foliar microbiome transplants from healthy wild relatives onto fungicide-dependent endangered plants in an attempt to mitigate disease and reduce dependency on fungicides. Plants were treated with total microbiome transplants or cultured subsets of this community and monitored for disease severity. High-throughput DNA screening of fungal ITS1 rDNA was used to track the leaf-associated fungal communities and evaluate the effectiveness of transplantation methods. Individuals receiving traditionally isolated fungal treatments showed no improvement, but those receiving applications of a simple leaf slurry containing an uncultured fungal community showed significant disease reduction, to which we partially attribute an increase in the mycoparasitic Pseudozyma aphidis. These results were replicated in two independent experimental rounds. Treated plants have since been moved to a native habitat and, as of this writing, remain disease-free. Our results demonstrate the effectiveness of a simple low-tech method for transferring beneficial microbes from healthy wild plants to greenhouse-raised plants with reduced symbiotic microbiota. This technique was effective at reducing disease, and in conferring increased survival to an out-planted population of critically endangered plants. It was not effective in a closely related plant. Plant conservation efforts should strive to include foliar microbes as part of comprehensive management plans.
Highlights
Foliar fungal endophytes have been found in every natural plant examined (Petrini, 1986; Rodriguez et al, 2009)
This study demonstrates that foliar endophytes modify plant disease, and can be used in endangered plant conservation, much as they have been for agriculturally important plants
The donor plants showed no obvious signs of N. galeopsidis infection, and it is possible that the strain present in the slurry differed from the strain causing P. kaalaensis mortality
Summary
Foliar fungal endophytes have been found in every natural plant examined (Petrini, 1986; Rodriguez et al, 2009). Evidence suggests that naturally occurring fungal foliar endophytes partially determine disease severity in agricultural systems (Xia et al, 2015; Ridout & Newcombe, 2016), tropical trees (Arnold et al, 2003), and Populus models (Busby, Peay & Newcombe, 2016). Mechanisms for this function include antagonism or protagonism toward pathogenic species, competition for resources, and/or by altering plant host defenses. Endophytes may be most usefully thought of as modifiers of plant disease (Busby, Ridout & Newcombe, 2015), and/or insect herbivory (Breen, 1994; Hartley & Gange, 2009) rather than as transitively ‘‘non-pathogenic’’
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
