Modelling the effect of low soil temperatures on transpiration by Scots pine

Hydrological Processes

Volumn 20, Issue 9, 2006, Pages 1929-1944

  Mellander, Per Erik ^a   Stähli, Manfred ^b   Gustafsson, David ^c   Bishop, Kevin ^a  

^a SWEDISH UNIVERSITY OF AGRICULTURAL SCIENCES   (Sweden)

^b SWISS FEDERAL RESEARCH INSTITUTE WSL   (Switzerland)

^c ROYAL INSTITUTE OF TECHNOLOGY   (Sweden)

Author keywords

COUP model; Root water uptake; Sap flow; Snow; Soil frost; Soil temperature

Indexed keywords

FORESTRY; FROST EFFECTS; LOW TEMPERATURE EFFECTS; MATHEMATICAL MODELS; SNOW; SOILS; TRANSPIRATION;

ROOT WATER UPTAKE; SAP FLOW; SOIL FROST; SOIL TEMPERATURE;

ECOSYSTEMS;

ECOSYSTEMS; FORESTRY; FROST EFFECTS; LOW TEMPERATURE EFFECTS; MATHEMATICAL MODELS; SNOW; SOILS; TRANSPIRATION;

BOREAL FOREST; CONIFEROUS TREE; ECOSYSTEM MODELING; MODELING; SAP FLOW; SOIL TEMPERATURE; TRANSPIRATION; WATER UPTAKE;

ECOSYSTEMS; FROST; LOW TEMPERATURE; MATHEMATICAL MODELS; PINUS SYLVESTRIS; ROOTS; SNOW; SOIL; TRANSPIRATION;

PINUS SYLVESTRIS;

EID: 33745066660     PISSN: 08856087     EISSN: 10991085     Source Type: Journal    
DOI: 10.1002/hyp.6045     Document Type: Article

References (49)

1. Andrews DL, Drew MC, Johnson JR, Cobb BG. 1994. The response of maize seedlings of different ages to hypoxic and anoxic stress. Plant Physiology 105: 53-60.
2. Axelsson B, Ågren G. 1976. Tree growth model (PT 1) - a development paper. Swedish Coniferous Forest Project Internal Report 41.
3. Barney CW. 1951. Effects of soil temperature and light intensity on root growth of loblolly pine seedlings. Plant Physiology 26: 146-163.
4. Bergh J, Linder S. 1999. Effects of soil warming during spring on photosynthetic recovery in boreal Norway spruce stands. Global Change Biology 5: 245-253.
5. Brooks RH, Corey AT. 1964. Hydraulic properties of porous media. Hydrology Paper No. 3, Colorado State University: Fort Collins, CO.
6. Cermak J, Deml M, Penka M. 1973. A new model of sap flow rate method determination in trees. Biologia Plantarium 15: 171-178.
7. Cienciala E, Mellander P-E, Kučera J, Opluštilová M, Ottosson-Löfvenius M, Bishop K. 2002. The effect of a north-facing forest edge on tree water use in a boreal Scots pine stand. Canadian Journal of Forest Research 32: 693-702.
8. Day TA, Heckathorn SA, DeLucia EH. 1991. Limitations on photosynthesis in Pinus taeda L. (loblolly pine) at low soil temperatures. Plant Physiology 96: 1246-1254.
9. Degermark C (ed.). 1981-1998. Climate and water chemistry of water at Svartberget. Reference measurements (1981 to 1998). Vindeln Experimental Forests, Swedish University of Agricultural Sciences, Umeå.
10. Eckersten H, Jansson P-E. 1991. Modelling water flow, nitrogen uptake and production of wheat. Fertilizer Research. 27: 313-329.
11. FAO. 1988. FAO/UNESCO soil map of the world. Revised legend. World Resources Report 60. Food and Agricultural Organization, Rome.
12. Fitzhugh RD, Driscoll CT, Groffman PM, Tierney GL, Fahey TJ, Hardy JP. 2001. Effects of soil freezing disturbance on soil solution nitrogen, phosphorus, and carbon chemistry in a northern hardwood ecosystem. Biogeochemistry 56: 215-238.
13. Gandahl R. 1957. Bestämning av tjälgräns i mark med enkel typ av mätare. Grunförbättring 10: 7-19.
14. Giesler R, Ilvesniemi H, Nyberg L, van Hees P, Starr M, Bishop K, Kareinen T, Lundström US. 2000. Distribution and mobilization of Al, Fe and Si in the podzolic soil profiles in relation to the humus layer. Geoderma 94: 249-263.
15. Grossnickle SC. 1988. Planting stress in newly planted jack pine and white spruce. Factors influencing water uptake. Tree Physiology 4: 71-83.
16. Hardy JP, Groffman PM, Fitzhugh RD, Henry KS, Welman AT, Demers JD, Fahey TJ, Driscoll CT, Tierney G, Nolan S. 2001. Snow depth manipulation and its influence on soil frost and water dynamics in a northern hardwood forest. Biogeochemistry 56: 151-174.
17. Jansson P-E, Halldin S. 1979. Model for the annual water and energy flow in a layered soil. In Comparison of Forest and Energy Models, Halldin S (ed.). Society for Ecological Modelling: Copenhagen; 145-163.
18. Jansson P-E, Karlberg L. 2001. Coupled heat and mass transfer model for soil-plant-atmosphere systems. Royal Institute of Technology, Department of Civil and Environmental Engineering, Stockholm.
19. Jansson P-E, Moon D. 2001. A coupled model of water, heat and mass transfer using object orientation to improve flexibility and functionality. Environmental Modeling and Software. 16: 37-46.
20. Johnsson H, Jansson P-E. 1991. Water balance and soil moisture dynamics of field plots with barley and grass lay. Journal of Hydrology 129: 149-173.
21. Kaufmann MR. 1975. Leaf water stress in Engelmann spruce: influence of the root and shoot environments. Plant Physiology 58: 841-844.
22. Kluge M. 2001. Snow, soil frost and springtime soil temperature regimes in a Boreal forest. Department of Forest Ecology, Stencil No. 68.
23. Kramer PJ. 1940. Root resistance as a cause of decreased water adsorption by plants at low temperatures. Plant Physiology 15: 63-79.
24. Kramer PJ. 1942. Species differences with respect of water absorption by plants at low temperatures. American Journal of Botany 29: 828-832.
25. Kramer PJ. 1969. Plant and Soil Water Relationships: A Modern Synthesis. McGraw-Hill: New York.
26. Kramer PJ, Boyer JS. 1995. Water relations of plants and soil. Academic Press: San Diego; ISBN 0-12-425060-2.
27. Kozlowski TT, Kramer PJ, Pallardy SG. 1991. The Physiological Ecology of Woody Plants. Academic Press: San Diego.
28. Kučera J, Cermak J, Penka M. 1977. Improved thermal method of continual recording the transpiration flow rate dynamics. Biologia Plantarium 19: 413-420.
29. Langlet O. 1935. Till frågan om sambandet mellan temperatur och växtgränser. Meddelande från statliga skogsförs.-ast 28, Stockholm.
30. Lohammar T, Larsson S, Linder S, Falk SO. 1980. FAST - simulation models of gaseous exchange in Scots pine. In Structure and Function of Northern Coniferous Forests - an Ecosystem Study, Persson T (ed.). Ecological Bulletins vol. 32. Swedish Natural Science Research Council: Stockholm; 505-523.
31. Mellander P-E, Bishop K, Lundmark T. 2004. The influence of soil temperature on transpiration: a plot scale manipulation. Forest Ecology and Management 195: 15-28.
32. Monteith JL. 1965. Evaporation and environment. 19th Symposia of the Society for Experimental Biology, University Press: Cambridge; 19: 205-234.
33. Odin H. 1992. Climate and conditions in forest soils during winter and spring at Svartberget Experimental Station. Swedish University of Agricultural Science, Department of Ecology and Environmental Research, Report 56.
34. Rickard W, Brown J. 1972. The performance of a frost tube for determination of soil freezing and thawing depths. Soil Science 113: 149-154.
35. Robitaille G, Boutin R, Lachance D. 1994. Effects of soil freezing stress on sap flow and sugar content on mature sugar maples (Acer saccharum). Canadian Journal of Forest Research 25: 577-587.
36. Running SW, Reid CP. 1980. Soil temperature influences on root resistance of Pinus contorta seedlings. Plant Physiology 65: 635-640.
37. Shanley JB, Chalmers A. 1999. The effect of frozen soil on snowmelt runoff at Sleepers River, Vermont. Hydrological Processes 13: 1843-1858.
38. Shaw RH, Pereira AR. 1982. Aerodynamic roughness of plant canopy: a numerical experiment. Agricultural Forest Meteorology 26: 51-65.
39. Sperry JS, Adler FR, Campbell GS, Comstock JP. 1998. Limitation of plant water use by rhizosphere and xylem conductance: results from a model. Plant, Cell and Environment 21: 347-359.
40. Stadler D, Wunderli H, Auckenthaler A, Flühler H. 1996. Measurement of frost-induced snowmelt runoff in a forest soil. Hydrological Processes 10: 1293-1304.
41. Stähli M, Jansson P-E. 1998. Test of two SVAT snow submodels during different winter conditions. Agricultural and Forest Meteorology 92: 29-41.
42. Stähli M, Nyberg L, Mellander P-E, Bishop K. 2001. Soil frost effects on soil water and runoff dynamics along a boreal transect: 2. Simulations. Hydrological Processes 15: 927-941.
43. Strand M, Lundmark T, Söderberh I, Mellander P-E. 2002. Impact of seasonal air and soil temperatures on photosynthesis in Scots pine trees. Tree Physiology 22: 839-847.
44. Sutinen M-L, Mäkitalo K, Sutinen R. 1996. Freezing dehydration damages roots of containerized Scots pine (Pinus sylvestris) seedlings overwintering under subarctic conditions. Canadian Journal of Forest Research 26: 1602-1609.
45. Tierney GL, Fahey TJ, Groffman PM, Hardy JP, Fitzhugh RD, Driscoll CT. 2001. Soil freezing alters fine root dynamics in a northern hardwood forest. Biogeochemistry 56: 175-190.
46. Vapaavuori EM, Rikala R, Ryyppö A. 1992. Effects of root temperature on growth and photosynthesis in conifer seedlings during shoot elongation. Tree Physiology 10: 217-230.
47. Wan X, Landhäusser SM, Zwiazek JJ, Lieffers J. 1999. Root water flow and growth of aspen (Populus tremuloides) at low root temperatures. Tree Physiology 19: 879-884.
48. Wang Y, Zwiazek JJ. 1999. Spring changes in water relations, gas exchange and carbohydrates of white spruce (Picea glauca) seedlings. Canadian Journal of Forest Research 29: 332-338.
49. Zhang J, Schurr U, Davies WJ. 1987. Control of stomatal behaviour by abscisic acid which apparently originates in the roots. Journal of Experimental Botany 38: 1174-1181.