Seasonal and annual changes in soil respiration in relation to soil temperature, water potential and trenching

Tree Physiology

Volumn 24, Issue 4, 2004, Pages 415-424

  Lavigne, M B ^a   Foster, R J ^a   Goodine, G ^a  

^a LAURENTIAN FORESTRY CENTRE   (Canada)

Author keywords

Abies balsamea; Abiotic control; Interannual variation; Seasonal variation; Trenched plots

Indexed keywords

ANNUAL VARIATION; CONIFEROUS FOREST; DROUGHT STRESS; SEASONAL VARIATION; SOIL RESPIRATION; SOIL TEMPERATURE; SOIL WATER; TRENCH;

ABIES; ABIES BALSAMEA;

EID: 1942488290     PISSN: 0829318X     EISSN: None     Source Type: Journal    
DOI: 10.1093/treephys/24.4.415     Document Type: Article

References (48)

1. Atkin, O.K., E.J. Edwards and B.R. Loveys. 2000. Response of root respiration to changes in temperature and its relevance to global warming. New Phytol. 147:141-154.
2. Bernier, P.Y., R.A. Fournier, C.H. Ung et al. 1999. Linking ecophysiology and forest productivity: an overview of the ECOLEAP project. For. Chron. 75:417-421.
3. Boone, R.D., K.J. Nadelhoffer, J.D. Canary and J.P. Kaye. 1998. Roots exert a strong influence on the temperature sensitivity of soil respiration. Nature 396:570-572.
4. Bowden, R.D., K.M. Newkirk and G.M. Rullo. 1998. Carbon dioxide and methane fluxes by a forest soil under laboratory-controlled moisture and temperature conditions. Soil Biol. Biochem. 30:1591-1597.
5. Buchmann, N. 2000. Biotic and abiotic factors controlling soil respiration rates in Picea abies stands. Soil. Biol. Biochem. 32:1625-1635.
6. Burton, A.J. and K.S. Pregitzer. 2003. Field measurements of root respiration indicate little or no seasonal temperature acclimation for sugar maple and red pine. Tree Physiol. 23:273-280.
7. Burton, A.J., K.S. Pregitzer, G.P. Zogg and D.R. Zak. 1998. Drought reduces root respiration in sugar maple forests. Ecol. Appl. 8:771-778.
8. Davidson, E.A., E. Belk and R.D. Boone. 1998. Soil water content and temperature as independent or confounded factors controlling soil respiration in a mixed hardwood forest. Global Change Biol. 4:217-227.
9. Davidson, E.A., L.V. Verchot, J.H. Cattânio, I.L. Ackerman and J.E.M. Carvalho. 2000. Effects of soil water content on soil respiration in forests and cattle pastures of eastern Amazonia. Biogeochemistry 48:53-69.
10. 2 fluxes in a Douglas-fir forest. Agric. For. Meteorol. 110:299-317.
11. 2 efflux in a beech forest: dependence on soil temperature and soil water content. Ann. For. Sci. 56:221-226.
12. Epron, D., V. Le Dantec, E. Dufrêne and A. Granier. 2001. Seasonal dynamics of soil carbon dioxide efflux and simulated rhizosphere respiration in a beech forest. Tree Physiol. 21:145-152.
13. Espeleta, J.F. and D.M. Eissenstat. 1998. Responses of citrus fine roots to localized soil drying: a comparison of seedlings with adult fruiting trees. Tree Physiol. 18:113-119.
14. 2 production and transport 1: model development. Agric. For. Meteorol. 95:225-236.
15. 2 efflux on temperature. Soil Biol. Biochem. 33:155-165.
16. Giardina, C.P. and M.G. Ryan. 2000. Evidence that decomposition rates of organic carbon in mineral soil do not vary with temperature. Nature 404:858-861.
17. Grace, J. and M. Rayment. 2000. Respiration in the balance. Nature 404:819-820.
18. 2 efflux from an upland oak forest. Tree Physiol. 13:1-15.
19. Hanson, P.J., N.T. Edwards, C.T. Garten and J.A. Andrews. 2000. Separating root and soil microbial contributions to soil respiration: a review of methods and observations. Biogeochemistry 48:115-146.
20. 2 evolution, moisture content and temperature for a range of soil types. Soil Biol. Biochem. 25:1537-1546.
21. Irvine, J. and B.E. Law. 2002. Contrasting soil respiration in young and old-growth ponderosa pine forests. Global Change Biol. 8:1183-1194.
22. 10 of soil respiration in a beech forest. Global Change Biol. 9:911-918.
23. 2 fluxes estimated by eddy covariance and chamber-based model. Agric. For. Meteorol. 106:61-69.
24. Janssens, I.A., H. Lankreijer, G. Matteucci et al. 2001b. Productivity overshadows temperature in determining soil and ecosystem respiration across European forests. Global Change Biol. 7:269-278.
25. 2 efflux. In Fluxes of Carbon, Water and Energy of European Forests. Ed. R. Valentini. Ecol. Stud. 163:233-253.
26. Kelliher, F.M., J. Lloyd, A. Arneth et al. 1999. Carbon dioxide efflux density from the floor of a central Siberian pine forest. Agric. For. Meteorol. 94:217-232.
27. Kirschbaum, M.U.F. 1995. The temperature dependence of soil organic matter decomposition, and the effect of global warming on soil organic C storage. Soil Biol. Biochem. 27:753-760.
28. Lavigne, M.B., R. Boutin, R.J. Foster, G. Goodine, P.Y. Bernier and G. Robitaille. 2003. Soil respiration responses to temperature are controlled more by roots than by decomposition in balsam fir ecosystems. Can. J. For. Res. 33:1744-1753.
29. 2 fluxes in a ponderosa pine forest. Agric. For. Meteorol. 94:171-188.
30. Law, B.E., F.M. Kelliher, D.D. Baldocchi, P.M. Anthoni, J. Irvine, D. Moore and S. van Tuyl. 2001. Spatial and temporal variation in respiration in a young ponderosa pine forest during a summer drought. Agric. For. Meteorol. 110:27-43.
31. Leirós, M.C., C. Trasar-Cepeda, S. Seoane and F. Gil-Sotres. 1999. Dependence of mineralization of soil organic matter on temperature and moisture. Soil Biol. Biochem. 31:327-335.
32. Lomander, A., T. Kätterer and O. Andrén. 1998. Carbon dioxide evolution from top- and subsoil as affected by moisture and constant and fluctuating temperature. Soil Biol. Biochem. 30:2017-2022.
33. 2 evolution and root respiration in 11 year-old loblolly pine (Pinus taeda) plantations as affected by moisture and nutrient availability. Can. J. For. Res. 30:347-359.
34. 2 production and transport 2: application to a Florida Pinus elliotii plantation. Agric. For. Meteorol. 95:237-256.
35. 2 exchange at the floor of a boreal forest. Agric. For. Meteorol. 101:1-14.
36. 2 fluxes and the carbon budget of a grassland. J. Geophys. Res. 97:18,845-18,853.
37. Orchard, V.A. and F.J. Cook. 1983. Relationship between soil respiration and soil moisture. Soil Biol. Biochem. 15:447-453.
38. Pregitzer, K.S., J.S. King, A.J. Burton and S.E. Brown. 2000. Responses of tree fine roots to temperature. New Phytol. 147:105-115.
39. 2 efflux in a coniferous forest in the Sierra Nevada mountains. Plant Soil 237:15-23.
40. Raich, J.W. and W.H. Schlesinger. 1992. The global carbon dioxide flux in soil respiration and its relationship to vegetation and climate. Tellus 44B:81-99.
41. 2 efflux in a Canadian boreal forest. Soil Biol. Biochem. 32:35-45.
42. Rey, A., E. Pegoraro, V. Tedeschi, L. De Parri, P.G. Jarvis and R. Valentini. 2002. Annual variation in soil respiration and its components in a coppice oak forest in Central Italy. Global Change Biol. 8:851-866.
43. Saxton, K.E., W.J. Rawls, J.S. Romberger and R.I. Papendick. 1986. Estimating generalized soil-water characteristics from texture. Soil Sci. Soc. Am. J. 50:1031-1036.
44. 2 evolution from soil, substrate temperature, and substrate moisture in four mature forest types in interior Alaska. Can. J. For. Res. 15:97-106.
45. Trumbore, S.E. 2000. Age of soil organic matter and soil respiration: radiocarbon constraints on belowground C dynamics. Ecol. Appl. 10:399-411.
46. Valentini, R., G. Matteucci, A.J. Dolman et al. 2002. Seasonal respiration of foliage, fine roots, and woody tissues in relation to growth, tissue N, and photosynthesis. Global Change Biol. 8:182-193.
47. 2 exchange in a Swedish coniferous forest. Agric. For. Meteorol. 111:283-297.
48. Zak, D.R., W.E. Holmes, N.W. MacDonald and K.S. Pregitzer. 1999. Soil temperature, matric potential, and the kinetics of microbial respiration and nitrogen mineralization. Soil Sci. Soc. Am. J. 63:575-584.