4.7 Article

Raman spectroscopy detection of biomolecules in biocrusts from differing environmental conditions

Publisher

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.saa.2016.07.035

Keywords

Biomolecules; Cyanobacteria; Lichens; Microclimate; Seasonality; Hydration state

Categories

Funding

  1. Marie Curie Intra-European Fellowship (FP7-PEOPLE-IEF) [623393]
  2. Spanish Ministry of Economy and Competitiveness (MINECO) [CGL2015-71709-R]
  3. Asociacion Espanola de Ecologia Terrestre [Spanish Association for Terrestrial Ecology (AEET)]
  4. SCIN (Soil Crust Inter-National), a European project - ERA-NET BIODIVERSA [PRI-PIMBDV-2011-0874]
  5. Spanish Ministry of Economy and Competitiveness

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Lichens and cyanobacteria colonize inhospitable places covering a wide climate range due to their different survival strategies, such as the synthesis of protective biomolecules. The effect of ecological factors on the synthesis of biomolecules has not been widely analysed. This study aimed to assess the effects of four factors (species, microclimate, seasonality and hydration state) and their interactions on the biomolecule frequency detected by Raman Spectroscopy. We included cyanobacterial biocrusts, and the lichens Diploschistes diacapsis, Squamarina lentigera, and Lepraria isidiata; two contrasted microclimates (typical and marginal), two contrasted seasons (hot and dry vs cool and wet) and two hydration states (dry and wet). Species was the most influential factor in the identity and frequency of the main biomolecules. Microclimatic differences in the range of the local specific habitats only influenced the biomolecules in cyanobacteria. There was a quadruple interaction among the factors, the effects being different mainly depending on the species. At D. diacapsis, the production of their main biomolecules depended on microdimate, although it also depended on seasonality. Nevertheless, in L. isidiata and S. lentigera microclimatic differences did not significantly affect the production of biomolecules. In the lichen species, the microhabitats exposed to relatively larger incident radiation did not show significantly larger relative frequency of photoprotective biomolecules. No clear connection between higher production of oxalates and drier microhabitats was found, suggesting that the synthesis of oxalates is not related to water reserve strategy. The pros and cons of monitor biomolecules in biocrust by Raman spectrometry were also discussed. (C) 2016 Published by Elsevier B.V.

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