Photosynthetica, 2018 (vol. 56), issue 2

Photosynthetica 2018, 56(2):527-536 | DOI: 10.1007/s11099-017-0691-6

Changes in thermic limits and acclimation assessment for an alpine plant by chlorophyll fluorescence analysis: Fv/Fmvs. Rfd

A. V. Perera-Castro1, P. Brito1, A. M. González-Rodríguez1,*
1 Department of Botany, Ecology and Plant Physiology, Universidad de La Laguna (ULL), La Laguna, Tenerife, Spain

A comparison between maximum quantum yield of PSII photochemistry (Fv/Fm) and chlorophyll fluorescence decrease ratio (Rfd) for low and high temperature resistance was assessed in a seasonal study of the acclimation in Pterocephalus lasiospermus. Analyzing the regression adjustment of both parameters and the lethal temperatures (LT50), Rfd resulted in being a more sensitive indicator for low and high temperature treatments, since the thermic resistance estimated with Rfd parameter was never higher than those estimated with Fv/Fm. Furthermore, the use of Fv/Fm led to an overestimation of the acclimation phenomena, with 6ºC of a maximum difference between both parameters. Using Rfd as the indicator parameter, P. lasiospermus acclimated to low temperatures but it kept on being a sensitive species (the lowest LT50 values only achieved-9.9 ± 0.3ºC). bserved (LT50 around 43.5ºC). Thus, according to Rfd evaluation of the thermic threshold, this species could be in risk of damage at low temperatures in this alpine ecosystem.

Keywords: freezing acclimation; heat; high mountain; Teide National Park; temperature resistance; vitality index

Received: April 15, 2016; Accepted: December 8, 2016; Published: June 1, 2018Show citation

ACS AIP APA ASA Harvard Chicago IEEE ISO690 MLA NLM Turabian Vancouver
Perera-Castro, A.V., Brito, P., & González-Rodríguez, A.M. (2018). Changes in thermic limits and acclimation assessment for an alpine plant by chlorophyll fluorescence analysis: Fv/Fmvs. Rfd. Photosynthetica56(2), 527-536. doi: 10.1007/s11099-017-0691-6.
Download citation
  • BibTeX (.bib)
  • Bookends (.ris)
  • EasyBib (.ris)
  • EndNote (.enw)
  • EndNote 8 (.xml)
  • ISI WoS (.isi)
  • Medlars (.medlars)
  • Mendeley (.ris)
  • MODS (.xml)
  • Papers (.ris)
  • RefWorks (.txt)
  • RefManager (.ris)
  • RIS (.ris)
  • MS Word (.xml)
  • Zotero (.ris)
    • Open full article

    References

    1. Acebes J.R., León M.C., Rodríguez M.L. et al.: Pteridophyta, Spermatophyta. - In: Arechavaleta M., Rodríguez S., Zurita N., García A. (ed.): [Canary Islands Wild Species Checklist. Fungi, Plants and Land Animals. Government of the Canary Islands.] Pp. 119-172. Gobierno de Canarias, Santa Cruz de Tenerife 2010 [In Spanish].
    2. Allen D.J., Ratner K., Giller Y.E. et al.: An overnight chill induces a delayed inhibition of photosynthesis at midday in mango (Mangifera indica L.). - J. Exp. Bot. 51: 1893-1902, 2000.
    3. Baker N.R.: Chlorophyll fluorescence: A probe of photosynthesis in vivo. - Annu. Rev. Plant Biol. 59: 89-113, 2008. Go to original source...
    4. Bannister P.: A touch of frost? Cold hardiness of plants in the Southern Hemisphere. - New Zeal. J. Bot. 45: 1-33, 2007. Go to original source...
    5. Bannister P., Lord J.M.: Comparative winter frost resistance of plant species from southern Africa, Australia, New Zealand, and South America grown in a common environment (Dunedin, New Zealand). - New Zeal. J. Bot. 44: 109-119, 2006. Go to original source...
    6. Bannister P., Maegli T., Dickinson K.J.M. et al.: Will loss of snow cover during climatic warming expose New Zealand alpine plants to increased frost damage? - Oecologia 144: 245-256, 2005. Go to original source...
    7. Balota M., Lichtenthaler H.K.: Red chlorophyll fluorescence as an ecophysiological method to assess the behaviour of wheat genotypes under drought and heat. - Cereal Res. Commun. 22: 179-187, 1999. Go to original source...
    8. Beniston M.: Climatic change in mountain regions: a review of possible impacts. - Climatic Change 59: 5-31, 2003. Go to original source...
    9. Bilger H.W., Schreiber U., Lange O.L.: Determination of leaf heat resistance: comparative investigation of chlorophyll fluorescence changes and tissue necrosis methods. - Oecologia 63: 256-262, 1984. Go to original source...
    10. Braun V., Buchner O., Neuner G.: Thermotolerance of photosystem 2 of three alpine plant species under field conditions. - Photosynthetica 40: 587-595, 2002. Go to original source...
    11. Briceño V.F., Harris-Pascal D., Nicotra A.B. et al.: Variation in snow cover drives differences in frost resistance in seedlings of the alpine herb Aciphylla glacialis. - Environ. Exp. Bot. 106: 174-181, 2014. Go to original source...
    12. Buchner O., Karadar M., Bauer I., Neuner G.: A novel system for in situ determination of heat tolerance of plants: first results on alpine dwarf shrubs. - Plant Methods 9: 7, 2013. Go to original source...
    13. Buchner O., Neuner G.: Variability of heat tolerance in alpine plant species measured at different altitudes. - Arct. Antarct. Alp. Res. 35: 411-420, 2003. Go to original source...
    14. Cabrera M.: [Ecophysiological responses of plants in ecosystems with Mediterranean-like climate and high mountain environments.]. - Rev. Chil. Hist. Nat. 75: 625-637, 2002 [In Spanish].
    15. Chersich S., Rejšek K., Vranová V. et al.: Climate change impacts on the Alpine ecosystem: an overview with focus on the soil. - a review. - J. Forest Sci. 61: 496-514, 2015.
    16. Cieraad E., McGlone M., Barbour M.M., Huntley B.: Seasonal frost tolerance of trees in the New Zealand treeline ecotone. - Arct. Antarct. Alp. Res. 44: 332-342, 2012. Go to original source...
    17. Dat J., Lopez-Delgado H., Foyer C.H., Scott I.M.: Parallel changes in H2O2 and catalase during thermotolerance induced by salicylic acid or heat acclimation in mustard seedling. - Plant. Physiol. 116: 1351-1357, 1998. Go to original source...
    18. de Lobo A.F., de Barros M.P., Dalmagro H.J. et al.: Fitting net photosynthetic light-response curves with Microsoft Excel. - a critical look at the models. - Photosynthetica 51: 445-456, 2013. Go to original source...
    19. Del-Arco M., Pérez-de-Paz P.L., Acebes J.R. et al.: Bioclimatology and climatophilous vegetation of Tenerife (Canary Islands). - Ann. Bot. Fenn. 43: 167-192, 2006.
    20. Del-Arco M.: [Consequences of climate change on Canary Island flora and vegetation.]. - In: Méndez J.M., Vázquez M. (ed.): [Climate Change in the Canary Islands.] Pp. 79-100. Academia Canaria de Ciencias, La Laguna 2008 [In Spanish].
    21. Devacht S., Lootens P., Baert J. et al.: Evaluation of cold stress of young industrial chicory (Cichorium intybus L.) plants by chlorophyll a fluorescence imaging. I. Light induction curve. - Photosynthetica 49: 161-171, 2011. Go to original source...
    22. Ehlert, B., Hincha D.K.: Chlorophyll fluorescence imaging accurately quantifies freezing damage and cold acclimation responses in Arabidopsis leaves. - Plant Methods 4: 12-19, 2008. Go to original source...
    23. Enami I., Kitamura M., Tomo T. et al.: Is the primary cause of thermal inactivation of oxygen evolution in spinach PS II membranes release of the extrinsic 33 kDa protein or of Mn? - BBA-Bioenergetics 1186: 52-58, 1994. Go to original source...
    24. Evangelista A., Frate L., Carranza M.L. et al.: Changes in composition, ecology and structure of high-mountain vegetation: a re-visitation study over 42 years. - AoB Plants 8: plw004, 2016.
    25. Fisker S.E., Rose R., Haase D.L.: Chlorophyll fluorescence as a measure of cold hardiness and freezing stress in 1 + 1 douglas-fir seedlings. - Forest Sci. 41: 564-575, 1995.
    26. Flexas J., Badger M., Chow W.S. et al.: Analysis of the relative increase in photosynthesic O2 uptake when photosynthesis in grapevine leaves is inhibited following low night temperatures and/or water stress. - Plant Physiol. 121: 675-684, 1999. Go to original source...
    27. Flexas J., Escalona J.M., Evain S. et al.: Steady-state chlorophyll fluorescence (Fs) measurements as a tool to follow variations of net CO2 assimilation and stomatal conductance during water-stress in C3 plants. - Physiol. Plantarum 114: 231-240, 2002. Go to original source...
    28. Germino M.J., Smith W.K.: High resistance to low-temperature photoinhibition in two alpine, snowbank species. - Physiol. Plantarum 110: 89-95, 2000. Go to original source...
    29. González-Rodríguez Á.M., Jiménez M.S., Morales D.: Seasonal and intraspecific variation of frost tolerance in leaves of three Canarian laurel forest tree species. - Ann. For. Sci. 62: 423-428, 2005. Go to original source...
    30. Haitz M., Lichtenthaler H.K.: The measurement of Rfd-values as plant vitality indices with the portable field fluorometer and the PAM-fluorometer. - In: Lichtenthaler H.K. (ed.): Applications of Chlorophyll Fluorescence. Pp. 249-254. Kluwer Academic Publishers, Dordrecht. - Boston. - London 1988. Go to original source...
    31. Hendrickson L., Vlčková A., Selstam E. et al.: Cold acclimation of the Arabidopsis dgd1 mutant results in recovery from photosystem I-limited photosynthesis. - FEBS Lett. 580: 4959-4968, 2006. Go to original source...
    32. Hincha D.K., Sieg F., Bakaltcheva I. et al.: Freeze-thaw damage to thylakoid membranes: specific protection by sugars and proteins. - In: Steponkus P.L. (ed.): Lowtemperature Biology. Pp: 141-183. JAI Press LTD, London 1996. Go to original source...
    33. Horgan D.B., Zabkiewicz J.A.: Fluorescence decline ratio: comparison with quantum yield ratio for plant physiological status and herbicide treatment responses. - New Zeal. Plant Protect. 61: 169-173, 2008. Go to original source...
    34. Huner N.P.A., Öquist G., Sarhan F.: Energy balance and acclimation to light and cold. - Trends Plant Sci. 3: 224-230, 1998. Go to original source...
    35. Körner, C.: Climatic stress. - In: Körner C. (ed.): Alpine Plant Life. Functional Plant Ecology of High Mountain Ecosystems. Pp. 101-114. Springer, Berlin-Heidelberg-New York} 200
    36. Larcher W.: Functional disturbances and injury patterns. - In: Larcher W. (ed.): Physiological Plant Ecology. Ecophysiology and Stress Physiology of Functional Groups. Pp. 374-375. Springer, Berlin 2003a.
    37. Larcher W.: Stress due to extreme temperatures. - In: Larcher W. (ed.): Physiological Plant Ecology. Ecophysiology and Stress Physiology of Functional Groups. Pp. 364-367. Springer, Berlin 2003b.
    38. Larcher W.: Survival capacity under heat stress. - In: Larcher W. (ed.): Physiological Plant Ecology. Ecophysiology and Stress Physiology of Functional Groups. Pp. 375-380. Springer, Berlin 2003c.
    39. Larcher W., Kainmüller C., Wagner J.: Survival types of high mountain plants under extreme temperatures. - Flora 205: 3-18, 2010. Go to original source...
    40. Larkindale J., Huang B.: Changes of lipid composition and saturation level in leaves and roots for heat-stressed and heatacclimated creeping bentgrass (Agrostis stolonifera). - Environ. Exp. Bot. 51: 57-67, 2004. Go to original source...
    41. Lichtenthaler H.K., Buschmann C., Knapp N.: How to correctly determine the different chlorophyll fluorescence parameters and the chlorophyll fluorescence decrease ratio Rfd of leaves with the PAM fluorometer. - Photosynthetica 43: 379-393, 2005a. Go to original source...
    42. Lichtenthaler H.K., Buschmann C., Rinderle U., Schmuck G.: Application of chlorophyll fluorescence in ecophysiology. - Radiat. Environ. Bioph. 25: 297-308, 1986. Go to original source...
    43. Lichtenthaler H.K., Langsdorf G., Lenk S., Buschmann C.: Chlorophyll fluorescence imaging of photosynthetic activity with the flash-lamp fluorescence imaging system. - Photosynthetica 43: 355-369, 2005b. Go to original source...
    44. Lichtenthaler H.K., Rinderle U.: The role of chlorophyll fluorescence in the detection of stress conditions in plants. - CRC Crit. Rev. Anal. Chem. 19: 29-85, 1988. Go to original source...
    45. Martín J.L., Bethencourt J., Cuevas-Agulló E.: Assessment of global warming on the island of Tenerife, Canary Islands (Spain). Trends in minimum, maximum and mean temperatures since 1944. - Climatic Change 114: 343-355, 2012. Go to original source...
    46. Martín V.E., Wildpret W.: [Evolution of flora and vegetation in the Cañadas del Teide in the last fifty years (1946-1996).]. - In: Fernández A. (ed.): [Canarian Studies. Yearbook of the Institute of Canarian Studies at La Laguna University.] Pp. 9-30. La Universidad de La Laguna, La Laguna 1999. [In Spanish]
    47. Martínez-Peñalver A., Reigosa M.J., Sánchez-Moreiras A.M.: Imaging chlorophyll a fluorescence reveals specific spatial distributions under different stress conditions. - Flora 206: 836-844, 2011. Go to original source...
    48. Mishra A., Hájek J., Tuháčková T. et al.: Features of chlorophyll fluorescence transients can be used to investigate low temperature induced effects on photosystem II of algal lichens from polar regions. - Czech Polar Rep. 5: 99-111, 2015. Go to original source...
    49. Mishra A., Heyet A.G., Mishra K.B.: Chlorophyll fluorescence emission can screen cold tolerance of cold acclimated Arabidopsis thaliana accessions. - Plant Methods 10: 38, 2014. Go to original source...
    50. Murkowski A.: Heat stress and spermidine: effect on chlorophyll fluorescence in tomato plants. - Biol. Plantarum 44: 53-57, 2001. Go to original source...
    51. Myers N., Mittermeier R.A., Mittermeier C.G. et al.: Biodiversity hotspots for conservation priorities. - Nature 403: 853-858, 2000. Go to original source...
    52. Neuner G., Buchner O.: Assessment of foliar frost damage comparison of in vivo fluorescence with other viability tests. - J. Appl. Bot. 73: 50-54, 1999.
    53. Neuner G., Pramsohler M.: Freezing and high temperature thresholds of photosystem 2 compared to ice nucleation, frost and heat damage in evergreen subalpine plants. - Physiol. Plantarum 126: 196-204, 2006. Go to original source...
    54. Pauli H., Gottfried M., Dirnböck T., Dullinger S., Grabherr G.: Assessing the long-term dynamics of endemic plants at summit habitats. - In: Nagy L., Grabherr G., Körner C., Thompson D.B.A., (ed.): Alpine Biodiversity in Europe. Pp. 195-207. Springer, Berlin 2003. Go to original source...
    55. Pauli H., Gottfried M., Dullinger S. et al.: Recent plant diversity changes on Europe's mountain summits. - Science 336: 353-355, 2012. Go to original source...
    56. Pescador D.S., Sierra-Almeida Á., Torres P.J., Escudero A.: Summer freezing resistance: a critical filter for plant community assemblies in mediterranean high mountains. - Front. Plant Sci. 7: 194, 2016. Go to original source...
    57. Pflug E., Brüggermann W.: Frost-acclimation of photosynthesis in overwintering Mediterranean holm oak, grown in Central Europe. - Int. J. Plant Biol. 3: 1, 2012.
    58. Rodríguez N., Notario J., Arbelo C.D. et al.: Spatial variability of soil properties and soils classification in Teide National Park (Tenerife, Canary Islands). - In: Arrouays D., McKenzie N., Hempel J. et al. (ed.): GlobalSoilMap. Basis of the Global Spatial Soil Information System. Pp. 191-196. CRC Press, London 2014. Go to original source...
    59. Ruelland E., Zachowski A.: How plants sense temperature. - Environ. Exp. Bot. 69: 225-232, 2010. Go to original source...
    60. Sakai A., Larcher W.: Frost resistance in plants. - In: Billings W.D., Galley E., Lange O.L. et al. (ed.): Ecological Studies Vol. 62. Frost Survival of Plants. Responses and Adaptation to Freezing Stress. Pp. 138-153. Springer-Verlag, Berlin 1987. Go to original source...
    61. Sassenrath G.F., Donald R.O., Portis A.R.: Impaired reductive activation of stromal bisphosphatases in tomato leaves following low-temperature exposure at high light. - Arch. Biochem. Biophys. 282: 302-308, 1990. Go to original source...
    62. Schreiber U., Bilger W.: Rapid assessment of stress effects on plant leaves by chlorophyll fluorescence measurements. - NATO ASI Ser. 15: 27-53, 1985.
    63. Seber G.A.F., Wild C.J.: Nonlinear Regression. Pp. 768. Wiley-Interscience, Hoboken 2003.
    64. Sierra-Almeida A., Cavieres L.: Summer freezing resistance of high-elevation plant species changes with ontogeny. - Environ. Exp. Bot. 80: 10-15, 2012. Go to original source...
    65. Sierra-Almeida A., Cavieres L., Bravo L.A.: Freezing resistance varies within the growing season and with elevation in high Andean species of central Chile. - New Phytol. 182: 461-469, 2009. Go to original source...
    66. Sventenius E.S.: [Notes on the Flora of Las Cañadas del Teide Tenerife.] Pp. 149. Ministerio de Agricultura, Madrid 1946. [In Spanish].
    67. Taschler D., Neuner G.: Summer frost resistance and freezing patterns measured in situ in leaves of major alpine plant growth forms in relation to their upper distribution boundary. - Plant Cell Environ. 27: 737-746, 2004. Go to original source...
    68. Thomashow M.F.: Plant cold acclimation: Freezing tolerance genes and regulatory mechanisms. - Annu. Rev. Plant Phys. 50: 571-99, 1999. Go to original source...
    69. Venn S.E., Morgan J.W., Lord J.M.: Foliar freezing resistance of Australian alpine plants over the growing season. - Austral Ecol. 38: 152-161, 2013. Go to original source...
    70. Wahid A., Gelani S., Ashraf M., Foolad M.R.: Heat tolerance in plants: An overview. - Environ. Exp. Bot. 61: 199-223, 2007. Go to original source...
    71. Xin Z., Browse J.: Cold comfort farm: the acclimation of plants to freezing temperatures. - Plant Cell Environ. 23: 893-902, 2000. Go to original source...
    72. Xu S., Li J.L., Zhang X.Q. et al.: Effects of heat acclimation pretreatment on changes of membrane lipid peroxidation, antioxidant metabolites, and ultrastructure of chloroplast in two cool-season turfgrass species under heat stress. - Environ. Exp. Bot. 56: 274-285, 2006. Go to original source...

    Return to the content