Your search keyword '"Finlay, Roger D."' showing total 4 results

1. Ectomycorrhizal roots select distinctive bacterial and ascomycete communities in Swedish subarctic forests.

Author

Izumi, Hironari and Finlay, Roger D.

Subjects

*ECTOMYCORRHIZAS, *ECOLOGICAL niche, *PHYTOPATHOGENIC fungi, *POLYMERASE chain reaction, *COLONIZATION (Ecology), *TAIGAS

Abstract

Ectomycorrhizal (ECM) roots represent important niches for interactions with bacteria and ascomycete fungi, since they have a large surface area and receive a direct supply of plant assimilates from their tree hosts. We tested the hypothesis that the roots colonized by specific ECM fungi harbour distinct bacteria/ascomycete communities. Roots were collected from two different locations in a subarctic shrub forest dominated by Betula pubescens. Bacterial and ascomycete communities were analysed by PCR-DGGE and sequencing, in roots colonized by five frequently observed ECM fungi, Leccinum variicolor, Piloderma fallax, Tomentellopsis submollis, Lactarius torminosus and Pseudotomentella tristis. The bacterial communities associated with P. fallax- or P. tristis-colonized roots were distinct from those associated with roots colonized by three other ECM fungi at both sampling locations. Bacterial communities associated with T. submollis-, L. torminosus- and L. variicolor-colonized roots were more similar to each other. Lactarius- and Pseudotomentella-colonized roots hosted distinct ascomycete communities at one site while only the community associated with Lactarius was distinct at the second location. The results thus suggest that while the community structure of bacteria colonizing ECM roots can be influenced by the local soil environment, there can also be a strong selective effect of particular fungal symbionts. [ABSTRACT FROM AUTHOR]

Published

2011

2. Community analysis of arbuscular mycorrhizal fungi and bacteria in the maize mycorrhizosphere in a long-term fertilization trial.

Author

Toljander, Jonas F., Santos-González, Juan C., Tehler, Anders, and Finlay, Roger D.

Subjects

VESICULAR-arbuscular mycorrhizas, FUNGUS-bacterium relationships, FERTILIZERS for corn, SOIL fertility, MYCORRHIZAL fungi, SOIL microbiology, FERTILIZERS, PHYTOPATHOGENIC microorganisms

Abstract

In this study, we investigated the impact of organic and mineral fertilizers on the community composition of arbuscular mycorrhizal (AM) fungi and bacteria in the mycorrhizosphere of maize in a field experiment established in 1956, in south-east Sweden. Roots and root-associated soil aggregates were sampled four times during the growing season in 2005, in control plots and in plots amended with calcium nitrate, ammonium sulphate, green manure, farmyard manure or sewage sludge. Fungi in roots were identified by cloning and sequencing, and bacteria in soil aggregates were analysed by terminal-restriction fragment length polymorphism, cloning and sequencing. The community composition of AM fungi and bacteria was significantly influenced by the different fertilizers. Changes in microbial community composition were mainly correlated with changes in pH induced by the fertilization regime. However, other factors, including phosphate and soil carbon content, also contributed significantly to these changes. Changes in bacterial community composition and a reduction in bacterial taxon richness throughout the growing season were also manifest. The results of this study highlight the importance and significant effects of the long-term application of different fertilizers on edaphic factors and specific groups of fungi and bacteria playing a key role in arable soils. [ABSTRACT FROM AUTHOR]

Published

2008

3. Elevated atmospheric CO[sub2] alters root symbiont community structure in forest trees.

Author

Fransson, Petra M.A., Taylor, Andrew F.S., and Finlay, Roger D.

Subjects

EFFECT of carbon dioxide on plants, TREES

Abstract

• Changes in below-ground ectomycorrhizal (ECM) community structure in response to elevated CO[sub2] and balanced nutrient addition were investigated in a 37-yr-old Picea abies forest. • Trees in whole-tree chambers were exposed to factorial combinations of ambient/ elevated CO[sub2] (700 ppm) and fertilization (+/-). ECM fungal community structure was determined in 1997 and 2000 using a combination of morphotyping and molecular analyses. Samples were taken both from chambers and from reference trees receiving the same fertilization treatments but without chambers. • Significant effects on ECM community structure were found in response to elevated CO[sub2]. Neither elevated CO[sub2] nor fertilization altered species richness; however, there was considerable variation among samples, which may have masked treatment effects on individual species. After 3 yr, the effects of elevated CO[sub2] on community composition were of the same magnitude as those seen after 15 yr of fertilization treatment. • Our results show that increasing atmospheric CO[sub2] concentrations affect the community structure of root symbionts colonizing forest trees. The potential effects of altered ECM community structure on allocation and turnover of carbon and nutrients within forest ecosystems are discussed. [ABSTRACT FROM AUTHOR]

Published

2001

4. Carbon sequestration is related to mycorrhizal fungal community shifts during long-term succession in boreal forests.

Author

Clemmensen KE, Finlay RD, Dahlberg A, Stenlid J, Wardle DA, and Lindahl BD

Subjects

Biodiversity, Islands, Models, Biological, Phylogeny, Species Specificity, Sweden, Time Factors, Carbon Sequestration, Ecosystem, Mycorrhizae physiology, Taiga

Abstract

Boreal forest soils store a major proportion of the global terrestrial carbon (C) and below-ground inputs contribute as much as above-ground plant litter to the total C stored in the soil. A better understanding of the dynamics and drivers of root-associated fungal communities is essential to predict long-term soil C storage and climate feedbacks in northern ecosystems. We used 454-pyrosequencing to identify fungal communities across fine-scaled soil profiles in a 5000 yr fire-driven boreal forest chronosequence, with the aim of pinpointing shifts in fungal community composition that may underlie variation in below-ground C sequestration. In early successional-stage forests, higher abundance of cord-forming ectomycorrhizal fungi (such as Cortinarius and Suillus species) was linked to rapid turnover of mycelial biomass and necromass, efficient nitrogen (N) mobilization and low C sequestration. In late successional-stage forests, cord formers declined, while ericoid mycorrhizal ascomycetes continued to dominate, potentially facilitating long-term humus build-up through production of melanized hyphae that resist decomposition. Our results suggest that cord-forming ectomycorrhizal fungi and ericoid mycorrhizal fungi play opposing roles in below-ground C storage. We postulate that, by affecting turnover and decomposition of fungal tissues, mycorrhizal fungal identity and growth form are critical determinants of C and N sequestration in boreal forests., (© 2014 The Authors New Phytologist © 2014 New Phytologist Trust.)

Published

2015