Marnie E Rout1, Ragan M Callaway. 1. USDA-ARS Fort Keogh Livestock Range & Research Laboratory, Miles City, MT 59301, USA. marnie.rout@ars.usda.gov
Abstract
BACKGROUND: The study of soil biota in the context of exotic plant invasions has led to an explosion in our understanding of the ecological roles of many different groups of microbes that function in roots or at the root-soil interface. Part of this progress has been the emergence of two biogeographic patterns involving invasive plants and soil microbes. First, in their non-native ranges invasive plants commonly interact differently with the same soil microbes than native plants. Second, in their native ranges, plants that are invasive elsewhere commonly interact functionally with soil microbes differently in their home ranges than they do in their non-native ranges. These studies pose a challenge to a long-held paradigm about microbial biogeography - the idea that microbes are not limited by dispersal and are thus free from the basic taxonomic, biogeographical and evolutionary framework that characterizes all other life on Earth. As an analogy, the global distribution of animals that function as carnivores does not negate the fascinating evolutionary biogeographic patterns of carnivores. Other challenges to this notion come from new measurements of genetic differences among microbes across geographic boundaries, which also suggest that meaningful biogeographic patterns exist for microorganisms. SCOPE AND CONCLUSIONS: We expand this discussion of whether or not 'everything is everywhere' by using the inherently biogeographic context of plant invasions by reviewing the literature on interactions among invasive plants and the microorganisms in the rhizosphere. We find that these interactions can be delineated at multiple scales: from individual plants to continents. Thus the microbes that regulate major aspects of plant biology do not appear to be exempt from the fundamental evolutionary processes of geographical isolation and natural selection. At the important scales of taxonomy, ecotype and ecosystem functions, the fundamental ecology of invaders and soil microbes indicates that everything might not be everywhere.
BACKGROUND: The study of soil biota in the context of exotic plant invasions has led to an explosion in our understanding of the ecological roles of many different groups of microbes that function in roots or at the root-soil interface. Part of this progress has been the emergence of two biogeographic patterns involving invasive plants and soil microbes. First, in their non-native ranges invasive plants commonly interact differently with the same soil microbes than native plants. Second, in their native ranges, plants that are invasive elsewhere commonly interact functionally with soil microbes differently in their home ranges than they do in their non-native ranges. These studies pose a challenge to a long-held paradigm about microbial biogeography - the idea that microbes are not limited by dispersal and are thus free from the basic taxonomic, biogeographical and evolutionary framework that characterizes all other life on Earth. As an analogy, the global distribution of animals that function as carnivores does not negate the fascinating evolutionary biogeographic patterns of carnivores. Other challenges to this notion come from new measurements of genetic differences among microbes across geographic boundaries, which also suggest that meaningful biogeographic patterns exist for microorganisms. SCOPE AND CONCLUSIONS: We expand this discussion of whether or not 'everything is everywhere' by using the inherently biogeographic context of plant invasions by reviewing the literature on interactions among invasive plants and the microorganisms in the rhizosphere. We find that these interactions can be delineated at multiple scales: from individual plants to continents. Thus the microbes that regulate major aspects of plant biology do not appear to be exempt from the fundamental evolutionary processes of geographical isolation and natural selection. At the important scales of taxonomy, ecotype and ecosystem functions, the fundamental ecology of invaders and soil microbes indicates that everything might not be everywhere.
Authors: Jennifer Firn; Joslin L Moore; Andrew S MacDougall; Elizabeth T Borer; Eric W Seabloom; Janneke HilleRisLambers; W Stanley Harpole; Elsa E Cleland; Cynthia S Brown; Johannes M H Knops; Suzanne M Prober; David A Pyke; Kelly A Farrell; John D Bakker; Lydia R O'Halloran; Peter B Adler; Scott L Collins; Carla M D'Antonio; Michael J Crawley; Elizabeth M Wolkovich; Kimberly J La Pierre; Brett A Melbourne; Yann Hautier; John W Morgan; Andrew D B Leakey; Adam Kay; Rebecca McCulley; Kendi F Davies; Carly J Stevens; Cheng-Jin Chu; Karen D Holl; Julia A Klein; Philip A Fay; Nicole Hagenah; Kevin P Kirkman; Yvonne M Buckley Journal: Ecol Lett Date: 2011-02-01 Impact factor: 9.492
Authors: Hieu X Cao; Thomas Schmutzer; Uwe Scholz; Ales Pecinka; Ingo Schubert; Giang T H Vu Journal: Front Microbiol Date: 2015-07-14 Impact factor: 5.640