Release of Invasive Plants from Fungal and Viral Pathogens

Overview

Journal Nature

Specialty Science

Date 2003 Feb 7

PMID 12571594

Citations 171

Authors

Charles E Mitchell

Alison G Power

Affiliations

Soon will be listed here.

Abstract

Invasive plant species both threaten native biodiversity and are economically costly, but only a few naturalized species become pests. Here we report broad, quantitative support for two long-standing hypotheses that explain why only some naturalized species have large impacts. The enemy release hypothesis argues that invaders' impacts result from reduced natural enemy attack. The biotic resistance hypothesis argues that interactions with native species, including natural enemies, limit invaders' impacts. We tested these hypotheses for viruses and for rust, smut and powdery mildew fungi that infect 473 plant species naturalized to the United States from Europe. On average, 84% fewer fungi and 24% fewer virus species infect each plant species in its naturalized range than in its native range. In addition, invasive plant species that are more completely released from pathogens are more widely reported as harmful invaders of both agricultural and natural ecosystems. Together, these results strongly support the enemy release hypothesis. Among noxious agricultural weeds, species accumulating more pathogens in their naturalized range are less widely noxious, supporting the biotic resistance hypothesis. Our results indicate that invasive plants' impacts may be a function of both release from and accumulation of natural enemies, including pathogens.

Citing Articles

Distinct foliar fungal communities in Pinus contorta across native and introduced ranges: evidence for context dependency of pathogen release.

Zhao R, Nuske S, Nunez M, Fajardo A, Moyano J, McIntosh A Sci Rep. 2025; 15(1):7273.

PMID: 40025140 PMC: 11873135. DOI: 10.1038/s41598-025-91639-z.

Evidence for the Vacated Niche Hypothesis in Parasites of Invasive Mammals.

Schatz A, Park A Ecol Evol. 2025; 15(2):e70959.

PMID: 39931250 PMC: 11808211. DOI: 10.1002/ece3.70959.

Defensive Mechanisms of Likely Enhance Its Invasiveness as One of the World's Worst Alien Species.

Clements D, Kato-Noguchi H Plants (Basel). 2025; 14(2).

PMID: 39861626 PMC: 11768483. DOI: 10.3390/plants14020269.

Compounds Involved in the Invasive Characteristics of .

Kato-Noguchi H, Kato M Molecules. 2025; 30(2).

PMID: 39860280 PMC: 11767948. DOI: 10.3390/molecules30020411.

Effects of Increasing Temperature on Bacterial Community Diversity in Mixed Stands of and in Eastern China.

Yu H, Ren G, Huang Z, Qi S, Zhao B, Fan X Microorganisms. 2025; 12(12.

PMID: 39770618 PMC: 11677931. DOI: 10.3390/microorganisms12122415.