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Do extreme environments provide a refuge from pathogens? A phylogenetic test using serpentine flax
Author(s) -
Springer Yuri P.
Publication year - 2009
Publication title -
american journal of botany
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.218
H-Index - 151
eISSN - 1537-2197
pISSN - 0002-9122
DOI - 10.3732/ajb.0900047
Subject(s) - biology , extreme environment , generalist and specialist species , ecology , habitat , soil water , range (aeronautics) , phylogenetic tree , host (biology) , persistence (discontinuity) , bacteria , biochemistry , genetics , materials science , geotechnical engineering , gene , engineering , composite material
Abiotically extreme environments are often associated with physiologically stressful conditions, small, low‐density populations, and depauperate flora and fauna relative to more benign settings. A possible consequence of this may be that organisms that occupy these stressful habitats receive fitness benefits associated with reductions in the frequency and/or intensity of antagonistic species interactions. I investigated a particular form of this effect, formalized as the “pathogen refuge hypothesis,” through a study of 13 species of wild flax that grow on stressful serpentine soils and are often infected by a pathogenic fungal rust. The host species vary in the degree of their serpentine association: some specialize on extreme serpentine soils, while others are generalists that occur on soils with a wide range of serpentine influence. Phylogenetically explicit analyses of soil chemistry and field‐measured disease levels indicated that rust disease was significantly less frequent and severe in flax populations growing in more stressful, low‐calcium serpentine soils. These findings may help to explain the persistence of extremophile species in habitats where stressful physical conditions often impose strong autecological fitness costs on associated organisms. Ancestral state reconstruction of serpentine soil tolerance (approximated using soil calcium concentrations) suggested that the ability to tolerate extreme serpentine soils may have evolved multiple times within the focal genus.

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