Search About RLL About Mattick About Supplement Add to Supplement PDF file providers Help

Full record view

Kuske, C. R./ C. M. Yeager/ S. Johnson/ L. O. Ticknor/ J. Belnap 2012: Response and resilience of soil biocrust bacterial communities to chronic physical disturbance in arid shrublands. - ISME Journal 6(4): 886-897. [RLL List # 226 / Rec.# 33669]
Keywords: 16S rRNA/ chlorophyll a/ cyanobacteria/ Microcoleus vaginatus/ scytonemin/ soil biocrust
Abstract: The impact of 10 years of annual foot trampling on soil biocrusts was examined in replicated field experiments at three cold desert sites of the Colorado Plateau, USA. Trampling detrimentally impacted lichens and mosses, and the keystone cyanobacterium, Microcoleus vaginatus, resulting in increased soil erosion and reduced C and N concentrations in surface soils. Trampled biocrusts contained approximately half as much extractable DNA and 20-52% less chlorophyll a when compared with intact biocrusts at each site. Two of the three sites also showed a decline in scytonemin-containing, diazotrophic cyanobacteria in trampled biocrusts. 16S rRNA gene sequence and terminal restriction fragment length polymorphism (T-RFLP) analyses of soil bacteria from untrampled and trampled biocrusts demonstrated a reduced proportion (23-65% reduction) of M. vaginatus and other Cyanobacteria in trampled plots. In parallel, other soil bacterial species that are natural residents of biocrusts, specifically members of the Actinobacteria, Chloroflexi and Bacteroidetes, became more readily detected in trampled than in untrampled biocrusts. Replicate 16S rRNA T-RFLP profiles from trampled biocrusts at all three sites contained significantly more fragments (n17) than those of untrampled biocrusts (n6) and exhibited much higher variability among field replicates, indicating transition to an unstable disturbed state. Despite the dramatic negative impacts of trampling on biocrust physical structure and composition, M. vaginatus could still be detected in surface soils after 10 years of annual trampling, suggesting the potential for biocrust re-formation over time. Physical damage of biocrusts, in concert with changing temperature and precipitation patterns, has potential to alter performance of dryland ecosystems for decades. © 2012 International Society for Microbial Ecology All rights reserved.

URL: http://dx.doi.org/10.1038/ismej.2011.153

[Email correction]

The services below has been taken off the server due to many inappropiate uploads. Please contact Einar.Timdal@nhm.uio.no directly for uploading files or links

Upload PDF file to the RLL web site

If you have a PDF file of this RLL/Mattic record, and there are no copyright problems involved, you may upload the file to the RLL/Mattick site. The PDF file will be automatically linked to the paper, and available for download by everyone. Only one PDF file can be linked to a paper, any previous link will be lost.

PDF file::
NB! Legal characters: a-z, A-Z, 0-9, hyphen, underscore, dot (i.e. no diacritics, ampersand, space, etc.).

  

Upload URL to PDF file or web site

Alternatively, you can link this RLL/Mattick record to a PDF file or web page placed somewhere else on the web. Again, only a single link can exist for each record; any previous link will be lost.

Copy and paste the URL you wish to link to this record: