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

Full record view

Delgado-Baquerizo, M./ L. Morillas/ F. T. Maestre/ A. Gallardo 2013: Biocrusts control the nitrogen dynamics and microbial functional diversity of semi-arid soils in response to nutrient additions. - Plant and Soil 372(1-2): 643-654. [RLL List # 233 / Rec.# 35159]
Keywords: Carbon/ Dissolved organic N/ Mineralization/ Phosphorus/ Shannon-Weaver diversity index/ biome/ biotransformation/ dominance/ microbial community/ mineralization/ nitrogen/ nitrogen fixation/ nutrient/ phosphorus/ resilience/ semiarid region/ soil/ Spain/ Bryophyta/ Cyanobacteria
Abstract: Aims: Human activities are causing imbalances in the nutrient cycles in natural ecosystems. However, we have limited knowledge of how these changes will affect the soil microbial functional diversity and the nitrogen (N) cycle in drylands, the biggest biome on Earth. Communities dominated by lichens, mosses and cyanobacteria (biocrusts) influence multiple processes from the N cycle such as N fixation and mineralization rates. We evaluated how biocrusts modulate the effects of different N, carbon (C) and phosphorus (P) additions on theN availability, the dominance of different available N forms and the microbial functional diversity in dryland soils. Methods: Soil samples from bare ground (BG) and biocrust-dominated areas were gathered from the center of Spain and incubated during seven or 21 days under different combinations of N, C and P additions (N, C, P, N + C, N + P, P + C, and C + N + P). Results: The relative dominance of dissolved organic N (DON) and the microbial functional diversity were higher in biocrust than in BG microsites when C or P were added. Changes in the C to N ratio, more than N availability, seem to modulate N transformation processes in the soils studied. In general, biocrusts increased the resilience to N impacts (N, C + N, N + P, C + N + P) of the total available N, ammonium, nitrate and DON when C was present. Conclusions: Our results suggest that biocrusts may buffer the effects of changes in nutrient ratios on microbial functional diversity and DON dominance in dryland soils. Thus, these organisms may have an important role in increasing the resilience of the N cycle to imbalances in C, N and P derived from human activities. © 2013 Springer Science+Business Media Dordrecht.

URL: http://dx.doi.org/10.1007/s11104-013-1779-9

[Email correction]

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: