Effects of introduced and indigenous viruses on native plants: exploring their disease causing potential at the agro-ecological interface

• Published in: PloS one Vol. 9; no. 3; p. e91224
• Main Authors: Vincent, Stuart J, Coutts, Brenda A, Jones, Roger A C
• Format: Journal Article
• Language: English
• Published: United States Public Library of Science 12.03.2014; Public Library of Science (PLoS)
• Subjects: Agriculture; Biodiversity; Biodiversity hot spots; Biology; Biomass; Conservation; Cultivated plants; Ecological and Environmental Phenomena; Ecosystems; Endangered plants; Endangered species; Environmental aspects; Environmental policy; Health aspects; Indigenous plants; Indigenous species; Introduced Species; Natural vegetation; Plant Development; Plant Diseases - virology; Plant species; Plant species introduction; Plants - virology; Virus Physiological Phenomena
• ISSN: 1932-6203; 1932-6203
• DOI: 10.1371/journal.pone.0091224

The ever increasing movement of viruses around the world poses a major threat to plants growing in cultivated and natural ecosystems. Both generalist and specialist viruses move via trade in plants and plant products. Their potential to damage cultivated plants is well understood, but little attention has been given to the threat such viruses pose to plant biodiversity. To address this, we studied their impact, and that of indigenous viruses, on native plants from a global biodiversity hot spot in an isolated region where agriculture is very recent (<185 years), making it possible to distinguish between introduced and indigenous viruses readily. To establish their potential to cause severe or mild systemic symptoms in different native plant species, we used introduced generalist and specialist viruses, and indigenous viruses, to inoculate plants of 15 native species belonging to eight families. We also measured resulting losses in biomass and reproductive ability for some host-virus combinations. In addition, we sampled native plants growing over a wide area to increase knowledge of natural infection with introduced viruses. The results suggest that generalist introduced viruses and indigenous viruses from other hosts pose a greater potential threat than introduced specialist viruses to populations of native plants encountered for the first time. Some introduced generalist viruses infected plants in more families than others and so pose a greater potential threat to biodiversity. The indigenous viruses tested were often surprisingly virulent when they infected native plant species they were not adapted to. These results are relevant to managing virus disease in new encounter scenarios at the agro-ecological interface between managed and natural vegetation, and within other disturbed natural vegetation situations. They are also relevant for establishing conservation policies for endangered plant species and avoiding spread of damaging viruses to undisturbed natural vegetation beyond the agro-ecological interface.