Free Access
Issue
Ann. For. Sci.
Volume 60, Number 6, September 2003
Page(s) 519 - 526
DOI https://doi.org/10.1051/forest:2003045
References of  Ann. For. Sci. 60 (2003) 519-526
  1. Aubinet M., Grelle A., Ibrom A., Rannik U., Moncrieff J., Foken T., Kowalski A.S., Martin P.H., Berbigier P., Bernhofer C., Clement R., Elbers J., Granier A., Grunwald T., Morgenstern K., Pilegaard K., Rebmann C., Snijders W., Valentini R., Vesala T., Estimates of the annual net carbon and water exchange of forests: the Euroflux methodology, Adv. Ecol. Res. 30 (2000) 113-175.
  2. Baldocchi D.D., Hicks B.B., Meyers T.P., Measuring biosphere-atmosphere exchanges of biologically related gases with micrometeorological methods, Ecology 69 (1988) 1331-1340.
  3. Baldocchi D.D., Verma S.B., Matt D.R., Anderson D.E., Eddy-correlation measurements of carbon dioxide efflux from the floor of deciduous forest, J. Appl. Ecol. 23 (1986) 967-975.
  4. Billès G., Cortez J., Lossaint P., L'activité biologique des sols dans les écosystèmes méditerranéens. I. Minéralisation du carbone, Rev. Ecol. Biol. Sol 8 (1971) 375-395.
  5. Billès G., Cortez J., Lossaint P., Lafont F., Prioton J., Étude comparative de l'activité biologique des sols sous peuplements arbustifs et herbacés de la garrigue méditerranéenne. I. Minéralisation du carbone et de l'azote, Rev. Ecol. Biol. Sol 12 (1975) 115-139.
  6. Bowden R.D., Newkirk K.M., Rullo G.M., Carbon dioxide and methane fluxes by a forest soil under laboratory-controlled moisture and temperature conditions, Soil Biol. Biochem. 30 (1998) 1591-1597  [CROSSREF link].
  7. Buchan G.D., Grewal K.S., The power-function model for the soil moisture characteristic, J. Soil Sci. 41 (1990) 111-117.
  8. Campbell G.S., A simple method for determining unsaturated conductivity from moisture retention data, Soil Sci. 117 (1974) 311-314.
  9. Carlyle J.C., Ba Than U., Abiotic controls of soil respiration beneath an eighteen-year-old Pinus radiata stand in south-eastern Australia, J. Ecol. 76 (1988) 654-662.
  10. Casals P., Romanya J., Cortina J., Bottner P., Couteaux M.M., Vallejo V.R., CO2 efflux from a Mediterranean semi-arid forest soil. I. Seasonality and effects of stoniness, Biogeochemistry 48 (2000) 261-281  [CROSSREF link].
  11. Davidson E.A., Belk E., Boone R.D., Soil water content and temperature as independent or confounded factors controlling soil respiration in a temperate mixed hardwood forest, Glob. Change Biol. 4 (1998) 217-227  [CROSSREF link].
  12. Ellis R.C., The respiration of the soil beneath some eucalyptus forest stands as related to the productivity of the stands, Aust. J. Soil Res. 7 (1969) 349-357.
  13. Epron D., Farque L., Lucot E., Badot P.M., Soil CO2 efflux in a beech forest: dependence on soil temperature and soil water content, Ann. For. Sci. 56 (1999) 221-226.
  14. Fang C., Moncrieff J.B., A model for soil CO2 production and transport. 1. Model development, Agric. For. Meteorol. 95 (1999) 225-236  [CROSSREF link].
  15. Fouseki E., Margaridis N.S., Soil metabolism and decomposition in a phryganic (East Mediterranean) ecosystem, Oecologia 50 (1981) 417-421.
  16. Hanson P.J., Wullschleger S.A., Bohlman S.A., Todd D.E., Seasonal and topographic pattern of forest floor CO2 efflux from an upland oak forest, Tree Physiol. 13 (1993) 1-15.
  17. Holt J.A., Hodgen J., Lamb D., Soil respiration in the seasonally dry tropics near Tawnsville, North Queensland, Soil Biol. Biochem. 28 (1990) 737-745.
  18. Howard P.J.A., Howard D.M., Respiration of decomposing litter in relation to temperature and moisture. Microbial decomposition of tree and shrub leaf litter, Oikos 33 (1979) 457-465.
  19. Jenkinson D.S., Adams D.E., Wild A., Model estimates of CO2 emissions from soil in response to global warming, Nature 351 (1991) 304-306  [CROSSREF link].
  20. Joffre R., Rambal S., Romane F., Local variations of ecosystem functions in Mediterranean evergreen oak woodland, Ann. Sci. For. 53 (1996) 561-570.
  21. Kätterer T., Reichstein M., Andrén O., Lomander A., Temperature dependence of organic matter decomposition: a critical review using literature data analyzed with different models, Biol. Fertil. Soils 27 (1998) 258-262  [CROSSREF link].
  22. Kicklighter D.W., Melillo J.M., Peterjohn W.T., Rastetter E.B., McGuire D.A., Steudler P.A., Aber J.D., Aspects of spatial and temporal aggregation in estimating regional carbon dioxide fluxes from temperate forest soils, J. Geophys. Res. 99 (1994) 1305-1315.
  23. Kirschbaum M.U.F., The temperature dependence of soil organic matter decomposition, and the effect of global warming on soil organic C storage, Soil Biol. Biochem. 27 (1995) 753-760  [CROSSREF link].
  24. Kirschbaum M.U.F., Will changes in soil organic carbon act as a positive or negative feedback on global warming?, Biogeochemistry 48 (2000) 21-51  [CROSSREF link].
  25. Lloyd J., Taylor J.A., On the temperature dependence of soil respiration, Funct. Ecol. 8 (1994) 315-323.
  26. Merzouki A., Les effets d'une coupe à blanc sur l'activité biologique d'un sol fersiallitique méditerranéen, Université des Sciences et Techniques du Languedoc, Montpellier, 1986, p. 185.
  27. Moncrieff J., Massheder J., De Bruin H., Elbers J., Friborg T., Heusinkveld B., Kabat P., Scott S., Soegaard H., Verhoef A., A system to measure surface fluxes of momentum, sensible heat, water vapour and carbon dioxide, J. Hydrol. 188-189 (1997) 589-611  [CROSSREF link].
  28. Nakane K., Khono T., Horikoshi T., Root respiration rate before and just after clear-felling in a mature, deciduous, broad-leaved forest, Ecol. Res. 11 (1996) 111-119.
  29. O'Connel A.M., Litter decomposition, soil respiration and soil chemical and biochemical properties at three contrasting sites in karri (Eucalyptus diversicolor F. Muell.) forests of south-western Australia, Aust. J. Ecol. 12 (1987) 31-40.
  30. Ohashi M., Gyokusen K., Saito A., Measurement of carbon dioxide evolution from a Japanese cedar (Cryptomeria japonica D. Don) for floor using an open-flow chamber method, For. Ecol. Manage. 123 (1999) 105-114.
  31. Orchard V.A., Cook F.J., Relationship between soil respiration and soil moisture, Soil Biol. Biochem. 15 (1983) 447-453  [CROSSREF link].
  32. Piñol J., Alcañiz J.M., Rodà F., Carbon dioxide efflux and pCO2 in soils of the Quercus ilex montane forests, Biogeochemistry 30 (1995) 191-215.
  33. Raich J.W., Potter C.S., Bhagawati D., Interannual variability in global soil respiration, 1980-94, Glob. Change Biol. 8 (2002) 800-812  [CROSSREF link].
  34. Raich J.W., Schlesinger W.H., The global carbon dioxide flux in soil respiration and its relationship to vegetation and climate, Tellus 44B (1992) 81-99.
  35. Rambal S., The differential role of mechanisms for drought resistance in a Mediterranean evergreen shrub: a simulation approach, Plant Cell Environ. 16 (1993) 35-44.
  36. Rambal S., Productivity of Mediterranean-type ecosystems, in: Mooney H.A., Roy J., Saugier B. (Eds.), Terrestrial global productivity: past, present, future, Academic Press, San Diego, 2001, pp. 315-344.
  37. Reichstein M., Tenhunen J.D., Roupsard O., Ourcival J.M., Rambal S., Dore S., Valentini R., Ecosystem respiration in two Mediterranean Holm Oak forests: drought effect and decomposition dynamics, Funct. Ecol. 16 (2002) 27-39  [CROSSREF link].
  38. Rey A., Pegoraro E., Tedeschi V., De Parri I., Jarvis P.G., Valentini R., Annual variation in soil respiration and its components in a coppice oak forest in Central Italy, Glob. Change Biol. 8 (2002) 851-866  [CROSSREF link].
  39. Ritchie J.T., Model for predicting evaporation from a row crop with incomplete cover, Water Resour. Res. 8 (1972) 1204-1213.
  40. Rodrigo A., Recous S., Neel C., Mary B., Modelling temperature and moisture effects on C-N transformations in soils: comparaison of nine models, Ecol. Model. 102 (1997) 325-339  [CROSSREF link].
  41. Rustad L.E., Huntington T.G., Boone R.D., Controls on soil respiration: implications for climate change, Biogeochemistry 48 (2000) 1-6  [CROSSREF link].
  42. Sampson D.A., Janssens I.A., Ceulemans R., Simulated soil CO2 efflux and net ecosystem exchange in a 70-year-old Belgian Scots pine stand using the process model SECRETS, Ann. For. Sci. 58 (2001) 31-46  [EDPS link].
  43. Saxton K.E., Rawls W.J., Romberger J.S., Papendick R.I., Estimating generalized soil-water characteristics from texture, Soil Sci. Soc. Am. J. 50 (1986) 1031-1036.
  44. Schlesinger W.H., Andrews J.A., Soil respiration and the global carbon cycle, Biogeochemistry 48 (2000) 7-20  [CROSSREF link].
  45. Singh J.S., Gupta S.R., Plant decomposition and soil respiration in terrestrial ecosystems, Bot. Rev. 43 (1977) 449-528.
  46. Tate K.R., Ross D.J., O'Brien B.J., Kelliher F.M., Carbon storage and turnover, and respiratory activity, in the litter and soil of old-growth southern beech (Nothofagus) forest, Soil Biol. Biochem. 25 (1993) 1601-1612  [CROSSREF link].
  47. Thuille A., Buchmann N., Schulze E.-D., Carbon stocks and soil respiration rates during deforestation, grassland use and subsequent Norway spruce afforestation in the Southern Alps, Italy, Tree Physiol. 20 (2000) 849-857  [PUBMED link].
  48. Valentini R., Matteucci G., Dolman A.J., Schulze E.-D., Rebmann C., Moors E.J., Granier A., Gross P., Jensen N.O., Pilegaard K., Lindroth A., Grelle A., Bernhofer C., Grünwald T., Aubinet M., Ceulemans R., Kowalski A.S., Vesala T., Rannick Ü., Berbigier P.D.L., Gumundsson J., Thorgeirsson H., Ibrom A., Morgenstern K., Clement R., Moncrieff J., Montagnani L., Minerbi S., Jarvis P.G., Respiration as the main determinant of carbon balance in European forests, Nature 404 (2000) 861-865  [PUBMED link].
  49. Wildung R.E., Garland T.R., Buschbom R.L., The interdependent effects of soil temperature and water content on soil respiration rate and plant root decomposition in arid grassland soils, Soil Biol. Biochem. 7 (1975) 373-378  [CROSSREF link].
  50. Wilson J.M., Griffin D.M., Water potential and the respiration of microorganisms in the soil, Soil Biol. Biochem. 7 (1975) 199-204  [CROSSREF link].