Abstract
A climatic change was simulated transplanting samples of the lichens Evernia prunastri (L.) Ach. and Pseudevernia furfuracea (L.) Zopf v. furfuracea along a 1,400 m altitudinal gradient in the northern side of the island of Crete (Greece). The working hypothesis was that the photosynthetic performance (i.e. pigment content, chlorophyll degradation and photosynthetic efficiency) of transplanted lichens varies along the altitudinal gradient. The overall effect observed was a general depression of the photosynthetic performance along the gradient. Concentrations of chlorophyll a, chlorophyll b and carotenoids decreased with decreasing elevation and along with the hottest and driest months of the year, with chlorophyll b being the most sensitive parameter to dry conditions. Chlorophyll degradation decreased with increasing elevation. The exposure period was the main factor affecting photosynthetic efficiency, with lower values during summer months. We argued that the water content of lichen thalli is the most important factor determining differences in photosynthesis under the experimental conditions. This allowed to suggest that the lichen photosynthetic performance deserves further investigation as early biological indicator of atmospheric stress induced by dry conditions and, to a greater extent, for the assessment of the desertification risk in the arid Mediterranean environment.
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Barkman JJ (1958) Phytosociology and ecology of cryptogamic epiphytes. Van Gorcum, Assen, 628 pp
Barnes JD, Balaguer L, Manrique E, Elvira S, Davison AW (1992) A reappraisal of the use of DMSO for the extraction and determination of chlorophylls a and b in lichens and higher plants. Environ Exp Bot 32:85–100
Barták M, Hájek H, Vráblíkóvá H, Dubová J (2004) High-light stress and photoprotection in Umbilicaria Antarctica monitored by chlorophyll fluorescence imaging and changes in zeaxanthin and glutathione. Plant Biol 6:333–341
Bjerke JW, Zielke M, Solheim B (2003) Long-term impacts of simulated climatic change on secondary metabolism, thallus structure and nitrogen fixation activity in two cyanolichens from the Arctic. New Phytol 159:361–367
Brandt J, Geeson N, Imeson A (2003) A desertification indicator system for Mediterranean Europe. DESERTLINKS Project (www.kcl.ac.uk/desertlinks)
Chartzoulakis K, Psarras G (2005) Global change effects on crop photosynthesis and production in Mediterranean: the case of Crete, Greece. Agric Ecosyst Environ 106:147–157
Czeczuga B, Krukowska K (2001) Effect of habitat conditions on phycobionts and the content of photosynthesising pigments in five lichen species. Journal of the Hattori Botanical Laboratory 90:293–305
Demmig-Adams B, Máguas C, Adams WW, Meyer A, Kilian E, Lange OL (1990) Effect of high light on the efficiency of photochemical energy conversion in a variety of lichen species with green and blue-green phycobionts. Planta 180:400–409
Ferm M (1998) Atmospheric ammonia and ammonium transport in Europe and critical loads: a review. Nutr Cycl Agroecosyst 51:5–17
Fowler D, Pitcairn CER, Sutton MA, Flechard C, Loubet B, Coyle M, Munro RC (1998) The mass budget of atmospheric ammonia in woodland within 1 km of livestock buildings. Environ Pollut 102:343–348
Frati L, Santoni S, Nicolardi V, Gaggi C, Brunialti G, Guttová A, Gaudino S, Pati A, Pirintsos SA, Loppi S (2007) Lichen biomonitoring of ammonia emission and nitrogen deposition around a pig stockfarm. Environ Pollut 146:311–316
Gauslaa Y, Solhaug KA (2000) High-light-intensity damage to the foliose lichen Lobaria pulmonaria within a natural forest: the applicability of chlorophyll fluorescence methods. Lichenologist 32:271–289
Greek National Action Plan for combating desertification (2001) Athens – January, 2001. http://www.unccd.int/actionprogrammes/northmed/national/2001/greece-eng.pdf
Green TGA, Lange OL, Cowan IR (1994) Ecophysiology of lichen photosynthesis: the role of water status and thallus diffusion resistances. Cryptogam Bot 4:166–178
Grove AT, Mooney J, Rackham O (1991) Crete and the South Aegean Islands: effects of changing climate on the environment. Robinson College, Oxford, 445 pp
Honegger R (2003) The impact of different long-term storage conditions on the viability of lichen-forming ascomycetes and their green-algal photobiont, Trebouxia spp. Plant Biol 5:324–330
Insarov G, Insarova I (1996) Assessment of lichen sensitivity to climate change. Isr J Plant Sci 44:309–334
Insarov G, Schroeter B (2002) Lichen monitoring and climate change. In: Nimis PL, Scheidegger C, Wolseley PA (eds) Monitoring with lichens-monitoring lichens. Kluwer, Dordrecht, pp 183–201
Insarov G, Semenov S, Insarova I (1999) A system to monitor climate change with epilithic lichens. Environ Monit Assess 55:279–298
Kakani VG, Reddy KR, Zhao D, Sailaja K (2003) Field crop responses to ultraviolet-B radiation: a review. Agric For Meteorol 120:191–218
Kappelle M, Van Vuuren MMI, Baas P (1999) Effects of climate change on biodiversity: a review and identification of key research issues. Biodivers Conserv 8:1383–1397
Kappen L (1973) Response to extreme environments. In: Ahmadjian V, Hale ME (eds) The lichens. Academic, London, pp 311–380
Kershaw KA (1985) Physiological ecology of lichens. Cambridge University Press, Cambridge, 293 pp
Kosmas C, Kirkby MJ, Geeson N (1999) Manual on key indicators of desertification and mapping environmentally sensitive areas to desertification. European Commission Publication EUR 18882, 87 pp
Krause GH (1988) Photoinhibition of photosynthesis. An evaluation of damaging and protective mechanisms. Physiol Plant 74:566–574
Lange OL (1953) Hitze-und Trockenresistenz der Flechten in Beziehung zu ihrer Verbreitung. Flora 140:39–97
Lange OL (2003) Photosynthetic productivity of the epilithic lichen Lecanora muralis: long-term field monitoring of CO2 exchange and its physiological interpretation II. Daily and seasonal pattern of net photosynthesis and respiration. Flora 198:55–70
Lange OL, Bilger W, Rimke S, Schreiber U (1989) Chlorophyll fluorescence of lichens containing green and blue-green algae during hydration by water vapour uptake and by addition of liquid water. Bot Acta 102:306–313
Lange OL, Green TG, Heber U (2001) Hydration-dependent photosynthetic production of lichens: what do laboratory studies tell us about field performance? J Exp Bot 52:2033–2042
Legendre P, Legendre L (1998) Numerical ecology: development in environmental modelling 20. Elsevier, Amsterdam, 853 pp
MacFarlane JD, Kershaw KA (1978) Thermal sensitivity in lichens. Science 201:739–741
Manrique E, Balaguer L, Barnes J, Davison AW (1993) Photoinhibition studies in lichens using chlorophyll fluorescence analysis. Bryologist 96:443–449
Melillo JM, Callaghan TV, Woodward FI, Salati E, Sinha SK (1990) Climate change: effects on ecosystems. In: Houghton JT, Jenkins GJ, Ephraums JJ (eds) Climate change—the IPCC scientific assessment. Cambridge Univ. Press, New York, pp 282–310
Mouillot F, Rambal S, Joffre R (2002) Simulating climate change impacts on fire frequency and vegetation dynamics in a Mediterranean-type ecosystem. Glob Chang Biol 8:423–437
Nash TH, Reiner A, Demmig-Adams B, Kilian E, Kaiser WM, Lange OL (1990) The effect of atmospheric desiccation and osmotic water stress on photosynthesis and dark respiration of lichens. New Phytol 116:269–276
Oppenheimer M (1989) Climate change and environmental pollution: physical and biological interactions. Clim Change 15:255–270
Osmond CB, Chow WS (1988) Ecology of photosynthesis in the sun and shade: summary and prognostications. In: Evans JR, von Caemmerer S, Adams WW III (eds) Ecology of photosynthesis in sun and shade. Melbourne, pp 1–10
Paoli L, Pisani T, Munzi S, Gaggi C, Loppi S (2010) Influence of sun irradiance and water availability on lichen photosynthetic pigments during a Mediterranean summer. Biologia 65:776–783
Parmesan C, Yohe G (2003) A globally coherent fingerprint of climate change impacts across natural systems. Nature 421:37–42
Pearcy RW, Sims DA (1994) Photosynthetic acclimation to changing light environments: scaling from the leaf to the whole plant. In: Caldwell MM, Pearcy RW (eds) Exploitation of environmental heterogeneity by plants. Academic, San Diego, pp 145–174
Pirintsos SA, Loppi S (2003) Lichens as bioindicators of environmental quality in dry Mediterranean areas: a case study from Northern Greece. Isr J Plant Sci 51:143–151
Pirintsos SA, Loppi S, Dalaka A, De Dominicis V (1998) Effects of grazing on epiphytic lichen vegetation in a Mediterranean mixed evergreen sclerophyllous and deciduous shrubland (Northern Greece). Isr J Plant Sci 46:303–307
Pisani T, Paoli L, Gaggi C, Pirintsos SA, Loppi S (2007) Effects of high temperature on epiphytic lichens: issues for consideration in a changing climate scenario. Plant Biosyst 141:164–169
Rambal S, Ourcival JM, Joffre R, Mouillot F, Nouvellon Y, Reichstein M, Rocheteau A (2003) Drought controls over conductance and assimilation of a Mediterranean evergreen ecosystem: scaling from leaf to canopy. Glob Chang Biol 9:1813–1824
Ronen R, Galun M (1984) Pigment extraction from lichens with dimethylsulfoxide (DMSO) and estimation of chlorophyll degradation. Environ Exp Bot 24:239–245
Rubio JL, Bochet E (1998) Desertification indicators as diagnosis criteria for desertification risk assessment in Europe. J Arid Environ 39:113–120
Solhaug KA, Gauslaa Y (1996) Parietin, a photoprotective secondary product of the lichen Xanthoria parietina. Oecologia 108:412–418
Valladares F, Sanchez-Hoyos A, Manrique E (1995) Diurnal changes in photosynthetic efficiency and carotenoid composition of the lichen Anaptychia ciliaris: effects of hydration and light intensity. Bryologist 98:375–382
van Herk CM, Aptroot A, van Dobben HF (2002) Long-term monitoring in the Netherlands suggests that lichens respond to global warming. Lichenologist 34:141–154
Vráblíkóvá H, McEvoy M, Solhaug KA, Barták M, Gauslaa Y (2006) Annual variation in photoacclimation and photoprotection of the photobiont in the foliose lichen Xanthoria parietina. J Photochem Photobiol 83:151–162
Walther GR, Post E, Convey P, Menzel A, Parmesan C, Beebee TJC, Formentin JM, Hoegh-Guldberg O, Bairlein F (2002) Ecological responses to recent climate change. Nature 416: 389–395
Wellburn AR (1994) The spectral determination of chlorophylls a and b, as well as total carotenoids, using various solvents with spectrophotometers of different resolution. J Plant Physiol 144: 307–313
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Pirintsos, S.A., Paoli, L., Loppi, S. et al. Photosynthetic performance of lichen transplants as early indicator of climatic stress along an altitudinal gradient in the arid Mediterranean area. Climatic Change 107, 305–328 (2011). https://doi.org/10.1007/s10584-010-9989-0
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DOI: https://doi.org/10.1007/s10584-010-9989-0