Advanced search
Publication Cover
Tellus B: Chemical and Physical Meteorology Volume 59, 2007 - Issue 3
Journal homepage
407
Views
91
CrossRef citations to date
0
Altmetric
Original Articles

Relationship between temperature and the seasonal course of photosynthesis in Scots pine at northern timberline and in southern boreal zone

Pasi KolariDepartment of Forest Ecology, P.O. Box 27, FI-00014University of Helsinki, FinlandCorrespondence[email protected]
,
Hanna K. LappalainenFinnish Meteorological Institute, P.O. Box 503, FI-00101Helsinki, Finland (Present address: Department of Physical Sciences, P.O. Box 64, FI-00014University of Helsinki)
,
Heikki HäNninenDepartment of Biological and Environmental Sciences, P.O. Box 65, FI-00014University of Helsinki, Finland
&
Pertti HariDepartment of Forest Ecology, P.O. Box 27, FI-00014University of Helsinki, Finland
Pages 542-552 | Received 29 Apr 2006, Accepted 12 Oct 2006, Published online: 18 Jan 2017

References

  • Altimir, N., Vesala, T., Keronen, R, Kulmala, M. and Han, P. 2002. Methodology for direct field measurements of ozone flux to foliage with shoot chambers. Atmos. Enviro. 36, 19–29.
  • Atkin, O. K., Holly, C. and Mall, M. C. 2000. Acclimation of snow gum (Eucalyptus pauciflora) leaf respiration to seasonal and diurnal variations in temperature: the importance of changes in the capacity and temperature sensitivity of respiration. Plant Cell Environ. 23, 15–26.
  • Bergh, J. and Linder, S. 1999. Effects of soil warming during spring on photosynthetic recovery in boreal Norway spruce stands. Global Change Biol. 5, 245–253.
  • Bergh, J., Ross, E. and Linder, S. 1998. Climatic factors controlling the productivity of Norway spruce: A model-based analysis. Forest EcoL Manage. 110, 127–139.
  • Berry, J. A. and Björkman, 0. 1980. Photosynthetic response and adap-tation to temperature in higher plants. Ann. Rev. Plant PhysioL 31, 491–543.
  • Beuker, E. 1994. Adaptation to climatic changes of the timing of bud burst in populations of Pinus sylvestris L. and Picea abies (L.) Karst. Tree PhysioL 14, 961–970.
  • Chuine, I., Kramer, K. and Hänninen, H. 2003. Plant development models. In: Phenology: An Integrative Environmental Science (ed. M. D. Schwartz). Kluwer Academic Publishers, Dordrecht, 305-333.
  • Cowan, I. R. and Farquhar, G. D. 1977. Stomatal function in relation to leaf metabolism and environment. Symp. Soc. Exp. Biol. 31,471–505.
  • Drebs, A., Nordlund, A., Karlsson, R, Helminen, J. and Riissanen, P. 2002. Climatological Statistics of Finland 1971-2000. Finnish Mete-orological Institute, Helsinki, 99.
  • Ensminger, I., Sveshnikov, D., Campbell, D. A., Funk, C., Jansson, S. and co-authors. 2004. Intermittent low temperatures constrain spring recovery of photosynthesis in boreal Scots pine forests. Global Change Biol. 10, 995–1008.
  • Hansen, J., Vogg, G. and Beck, E. 1996. Assimilation, allocation and utilization of carbon by three-year-old Scots pine (Pinus sylvestris L.) trees during winter and early spring. Trees 11, 83–90.
  • Hari, P., Keronen, P., Back, J., Altimir, N., Linkosalo, T. and co-authors. 1999a. An improvement of the method for calibrating mea-surements of photosynthetic CO2 flux. Plant Cell Environ. 22, 1297–1301.
  • Hari, P. and Kulmala, M. 2005. Station for measuring ecosystem-atmosphere relations (SMEAR II). Boreal Environ. Res. 10, 315–322.
  • Hari, P. and Makeld, A. 2003. Annual pattern of photosynthesis in Scots pine in the boreal zone. Tree PhysioL 23, 145–155.
  • Hari, R, Makeld, A., Berninger, F. and Pohja, T. 1999b. Field evidence for the optimality hypothesis of gas exchange in plants. Aust. J. Plant PhysioL 26, 239–244.
  • Hari, P., Makeld, A., Korpilahti, E. and Holmberg, M. 1986. Optimal control of gas exchange. Tree PhysioL 2, 169–175.
  • Heilcinheimo, M. and Lappalainen, H. 1997. Dependence of the flower bud burst of some plant taxa in Finland on effective temperature sum: Some implications for climate warming. Annales Botanici Fennici 34, 229–243.
  • Hjelm, U. and Ogren, E. 2003. Is photosynthetic acclimation to low temperature controlled by capacities for storage and growth at low temperature? Results from comparative studies of grasses and trees. Physiologia Planta rum 119, 113–120.
  • Kolari, P., Keronen, P. and Hari, P. 2004. The accuracy of transpiration measurements with a dynamic cuvette system. Rep. Series Aerosol Sci. 68, 112–114.
  • Krivosheeva, A., Tao, D. L., Ottander, C., Wingsle, G., Dube, S. L. and co-authors 1996. Cold acclimation and photoinhibition of photosyn-thesis in Scots pine. Planta 200, 296–305.
  • Law, B. E., Ryan, M. G. and Anthoni, P. M. 1999. Seasonal and annual respiration of a ponderosa pine ecosystem. Global Change Biol. 5, 169–182.
  • Leverenz, J. W. and Oquist, G. 1987. Quantum yields of photosynthesis at temperatures between -2°C and 35°C in cold-tolerant C3 plant (Pinus sylvestris) during the course of one year. Plant Cell Environ. 10, 287–295.
  • Linder, S. and Troeng, E. 1980. Photosynthesis and transpiration of 20-year-old Scots pine. Ecol. Bull. 32, 165–181.
  • Linlcosalo, T. 2002. Mutual regularity of spring phenology of some boreal tree species: predicting with other species and phonological models. Can. J. Forest Res. 30, 667–673.
  • Lloyd, J. and Taylor, J. A. 1994. On the temperature dependence of soil respiration. Funct. EcoL 8, 315–323.
  • Lundmark, T., Bergh, J., Strand, M. and Koppel, A. 1998. Seasonal variation of maximum photochemical efficiency in boreal Norway spruce stands. Trees 13, 63–67.
  • Oquist, G. and Huner, N. P. A. 2003. Photosynthesis of overwintering evergreen plants. Ann. Rev. Plant Biol. 54, 329–355.
  • Pelkonen, P. and Han, P. 1980. The dependence of the springtime recov-ery of CO2 uptake in Scots pine on temperature and internal factors. Flora 169, 398–404.
  • Pisek, A. and Winkler, E. 1958. Assimilationsvermögen und Respiration der Fichte (Picea excelsa Link) in vershiedener Höhenlage und der Zirbe (Pinus cembra L.) an der alpinen Waldgrenze. Planta 51, 518–543.
  • Polster, H. and Fuchs, S. 1963. Winterassimilation und -Atmung der Kiefer (Pinus silvestris L.) im mitteldeutschen Binnenlandklima. A rchiv fi,ir Forstwesen12, 1011–1024.
  • Porcar-Castell, A., Ensminger, I., Berninger, F., Juurola, E., Nikinmaa, E. and co-authors. 2005. Can temperature-light-interactions explain site-specific differences of the spring recovery of photosynthesis in boreal Scots Pine? In: Photosynthesis: Fundamental Aspects to Global Per-spectives (eds A. van der Est, D. Bruce). Allen Press Inc., Lawrence, KS, 591–593.
  • Repo, T. Leinonen, I., Wang, K.-Y. and Hänninen, H. 2006. Relation between photosynthetic capacity and cold hardiness in Scots pine. Physiologia Planta rum 126, 224–231.
  • Sarvas, R. 1967. The annual period of development of forest trees. Proc. Finn. Acad. Sci. Lett. 1965,211–231.
  • Sarvas, R. 1972. Investigations on the annual cycle of development of forest trees. Active period. Communicationes Instituti Forestalis Fen-niae 76, 1–110.
  • Sarvas, R. 1974. Investigations on the annual cycle of development of forest trees. II. Autumn dormancy and winter dormancy. Communi-cationes Instituti Forestalis Fenniae 84, 1–101.
  • Savitch, L. V, Leonardos, E. D., Krol, M., Jansson, S., Grodzinski, B. and co-authors. 2002. Two different strategies for light utilization in photosynthesis in relation to growth and cold acclimation. Plant Cell Environ. 25, 761–771.
  • Sharpe, P. J. H. 1983. Responses of photosynthesis and dark respiration to temperature. Ann. BoL 52, 325–343.
  • Suni, T., Berninger, F., Vesala, T., MarIcicanen, T., Han, P. and co-authors. 2003. Air temperature triggers the recovery of evergreen bo-real forest photosynthesis in spring. Global Change Biol. 9, 1410–1426.
  • Tiren, L. 1927. Om barrytans storlek hos tallbestind. Meddelanden fain statens skogsförsöksanstalt 23, 295–336.
  • Tjoelker, M. G., Olelcsyn, J. and Reich, P. B. 2000. Modelling respiration of vegetation: Evidence for a general temperature-dependent Q10. Global Change Biol. 7, 223–230.
  • Trumbore, S. 2006. Carbon respired by terrestrial ecosystems - recent progress and challenges. Global Change Biol. 12, 141–153.
  • Vesala, T., Haataj a, J., Aalto, P., Altimir, N., Buzorius, G. and co-authors. 1998. Long-term field measurements of atmosphere-surface interac-tions in boreal forest combining forest ecology, micrometeorology, aerosol physics and atmospheric chemistry. Trends Heat Mass Mo-mentum Transf 4, 17–35.
  • Vogg, G., Heim, R., Hansen, J., Schafer, C. and Beck, E. 1998. Frost hard-ening and photosynthetic performance in Scots pine (Pinus sylvestris L.) needles. I. Seasonal changes in the photosynthetic apparatus and its function. Planta 204, 193–200.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.