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

Full record view

Bidussi, M./ Y. Gauslaa/ K. A. Solhaug 2013: Prolonging the hydration and active metabolism from light periods into nights substantially enhances lichen growth. - Planta 237(5): 1359-1366. [RLL List # 232 / Rec.# 34856]
Keywords: Lobaria/ Nocturnal metabolism/ Photoinhibition/ Relative growth rate/ Specific thallus mass
Abstract: This study investigates how hydration during light and dark periods influences growth in two epiphytic old forest lichens, the green algal Lobaria pulmonaria and the cyanobacterial L. scrobiculata. The lichens were cultivated in growth chambers for 14 days (200 ?mol m-1 s-2; 12 h photoperiod) at four temperature regimes (25/20 °C, 21/16 °C, 13/8 °C, and 6/1 °C; day/night temperatures) and two hydration regimes (12 h day-time hydration; 12 h day-time + 12 h night-time hydration). Growth was highly dynamic, showing that short-term growth experiments in growth cabinets have a high, but largely unexplored potential in functional lichen studies. The highest measured growth rates were not far from the maximal dry matter gain estimated from published net photosynthetic CO2 uptake data. For the entire data set, photobiont type, temperature, hydration regime and specific thallus mass accounted for 46. 6 % of the variation in relative growth rate (RGR). Both species showed substantially higher relative growth rates based on both biomass (RGR) and thallus area (RTAGR) when they were hydrated day and night compared to hydration in light only. Chronic photoinhibition was substantial in thalli hydrated only during the day time and kept at the highest and lowest temperature regimes, resulting in exponential increases in RGR with increasing maximal PSII efficiency (Fv/Fm) in both species. However, the depression in Fv/Fm was stronger for the cyanolichen than for the cephalolichen at extreme temperatures. The growth-stimulating effect of night-time hydration suggests that nocturnal metabolic activity improves recovery of photoinhibition and/or enhances the conversion rate of photosynthates into thallus extension. © 2013 Springer-Verlag Berlin Heidelberg.

URL: http://dx.doi.org/10.1007/s00425-013-1851-y

[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: