Stand ages regulate the response of soil respiration to temperature in a Larix principis-rupprechtii plantation

Agricultural and Forest Meteorology

Volumn 184, Issue , 2014, Pages 179-187

  Ma, Yuecun ^a   Piao, Shilong ^a   Sun, Zhenzhong ^a   Lin, Xin ^b,c,d   Wang, Tao ^d   Yue, Chao ^d   Yang, Yan ^a  

^a PEKING UNIVERSITY   (China)

^b CHINESE RESEARCH ACADEMY OF ENVIRONMENTAL SCIENCES   (China)

^c BEIJING NORMAL UNIVERSITY   (China)

^d LABORATOIRE DES SCIENCES DU CLIMAT ET DE L ENVIRONNEMENT   (France)

Author keywords

Autotrophic respiration; Heterotrophic respiration; Larix principis rupprechtii; Soil respiration; Stand age; Temperature sensitivity of soil respiration

Indexed keywords

AFFORESTATION; AGE; AUTOTROPHY; CARBON BALANCE; CARBON CYCLE; CONIFEROUS TREE; SAPLING; SOIL ORGANIC MATTER; SOIL RESPIRATION; SOIL TEMPERATURE; TEMPERATURE EFFECT; TREE PLANTING;

CHINA;

EID: 84887350936     PISSN: 01681923     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.agrformet.2013.10.008     Document Type: Article

References (67)

1. Bahn M., Reichstein M., Davidson E.A., Grünzweig J., Jung M., Carbone M.S. Soil respiration at mean annual temperature predicts annual total across vegetation types and biomes. Biogeosciences 2010, 7:2147-2157.
2. Bahn M., Rodeghiero M., Anderson-Dunn M., Dore S., Gimeno C., Drosler M., Williams M., Ammann C., Berninger F., Flechard C., Jones S., Balzarolo M., Kumar S., Newesely C., Priwitzer T., Raschi A., Siegwolf R., Susiluoto S., Tenhunen J., Wohlfahrt G., Cernusca A. Soil respiration in European grasslands in relation to climate and assimilate supply. Ecosystems 2008, 11:1352-1367.
3. Bond-Lamberty B., Thomson A. Temperature-associated increases in the global soil respiration record. Nature 2010, 464:579-584.
4. 2 flux in a boreal black spruce chronosequence. Tree Physiology 2004, 24:1387-1395.
5. Boone R.D., Nadelhoffer K.J., Canary J.D., Kaye J.P. Roots exert a strong influence on the temperature sensitivity of soil respiration. Nature 1998, 396:570-572.
6. Bradford M.A., Davies C.A., Frey S.D., Maddox T.R., Melillo J.M., Mohan J.E. Thermal adaptation of soil microbial respiration to elevated temperature. Ecology Letters 2008, 11:1316-1327.
7. 2 flux in a boreal forest to ecosystem warming. Global Change Biology 2008, 14:856-867.
8. Buchmann N. Biotic and abiotic factors controlling soil respiration rates in Picea abies stands. Soil Biology and Biochemistry 2000, 32:1625-1635.
9. Chen H., Tian H.Q. Does a general temperature-dependent Q(10) model of soil respiration exist at biome and global scale?. Journal of Integrative Plant Biology 2005, 47:1288-1302.
10. Clark K.L., Gholz H.L., Castro M.S. Carbon dynamics along a chronosequence of slash pine plantations in north Florida. Ecological Applications 2004, 14(4):1154-1171.
11. Conant R.T., Drijber R.A., Haddix M.L., Parton W.J., Paul E.A., Plante A.F. Sensitivity of organic matter decomposition to warming varies with its quality. Global Change Biology 2008, 14:868-877.
12. 10 of soil respiration reflects plant phenological patterns as well as temperature sensitivity. Global Change Biology 2004, 10:161-169.
13. 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. Global Change Biology 1998, 4:217-227.
14. Davidson E.A., Janssens I.A. Temperature sensitivity of soil carbon decomposition and feedbacks to climate change. Nature 2006, 440:165-173.
15. 10. Global Change Biology 2006, 12:154-164.
16. Enquist B.J., Kerkhoff A.J., Huxman T., Economo E.P. Adaptive differences in plant physiology and ecosystem paradoxes: insights from metabolic scaling theory. Global Change Biology 2007, 13:591-609.
17. Fang C., Smith P., Smith J.U. Is resistant soil organic matter more sensitive to temperature than the labile organic matter?. Biogeosciences 2006, 3:65-68.
18. Fang C.M., Smith P., Moncrieff J.B., Smith J.U. Similar response of labile and resistant soil organic matter pools to changes in temperature. Nature 2005, 433:57-59.
19. Fierer N., Craine J.M., Mclauchlan K., Schimel J.P. Litter quality and the temperature sensitivity of decomposition. Ecology 2005, 86(2):320-326.
20. Food and Agricultural Organization The Assessment of Global Forest Resources in 2005: Progress Towards Sustainable Forest Management 2006, Food and Agricultural Organization of the United Nations, Rome, Italy.
21. Friedlingstein P., Cox P., Betts R., Bopp L., von Bloh W., Brovkin V. Climate-carbon cycle feedback analysis: results from the C4MIP model intercomparison. Journal of Climate 2006, 19:3337-3343.
22. Gaumont-Guay D., Black A., Barr A.G., Jassal R.S., Nesic Z. Biophysical controls of rhizospheric and heterotrophic components of soil respiration in a boreal black spruce stand. Tree Physiology 2008, 28:161-171.
23. Gershenson A., Bader N.E., Cheng W.X. Effects of substrate availability on the temperature sensitivity of soil organic matter decomposition. Global Change Biology 2009, 15:176-183.
24. Graf A., Weihermüller L., Huisman J.A., Herbst M., Bauer J., Vereecken H. Measurement depth effects on the apparent temperature sensitivity of soil respiration in field studies. Biogeosciences 2008, 5:1175-1188.
25. Grayston S.J., Vaughan D., Jones D. Rhizosphere carbon flows in trees, in comparison with annual plants: the importance of root exudation and its impact on microbial activity and nutrient availability. Applied Soil Ecology 1996, 5:29-56.
26. Hanson P.J., Edwards N.T., Garten C.T., Andrews J.A. Separating root and soil microbial contributions to soil respiration: a review of methods and observations. Biogeochemistry 2000, 48:115-146.
27. Högberg P., Nordgren A., Buchmann N., Taylor A.F.S., Ekblad A., Högberg M.N. Large-scale forest girdling shows that current photosynthesis drives soil respiration. Nature 2001, 411:789-792.
28. Jandl R., Lindner M., Vesterdal L., Bauwens B., Baritz R., Hagedorn F. How strongly can forest management influence soil carbon sequestration?. Geoderma 2007, 137:253-268.
29. 10 of soil respiration in a beech forest. Global Change Biology 2003, 9:911-918.
30. Knorr W., Prentice I.C., House J.I., Holland E.A. Long term sensitivity of soil carbon turnover to warming. Nature 2005, 433:298-301.
31. Krinner G., Viovy N., de Noblet-Ducoudré N., Ogée J., Polcher J., Friedlingstein P. A dynamic global vegetation model for studies of the coupled atmosphere-biosphere system. Global Biogeochemistry Cycles 2005, 19:GB1015. 10.1029/2003GB002199.
32. Laganière J., Paré D., Bergeron Y., Chen Y.H. The effect of boreal forest composition on soil respiration is mediated through variations in soil temperature and C quality. Soil Biology and Biochemistry 2012, 53:18-27.
33. Lavigne M.B., Boutin R., Foster R.J., Goodine G., Bernier P.Y., Robitaille G. Soil respiration responses to temperature are controlled more by roots than by decomposition in balsam fir ecosystem. Canadian Journal of Forest Research 2003, 33:1744-1753.
34. Law B.E., Sun O.J., Campbell J., van Tuyl S., Thornton P.E. Changes in carbon storage and fluxes in a chronosequence of ponderosa pine. Global Change Biology 2003, 9:510-524.
35. Le Quéré C., Raupach M.R., Canadell J.G., Marland G., Bopp L., Ciais P. Trends in the sources and sinks of carbon dioxide. Nature Geoscience 2009, 2:831-836.
36. 2 efflux measurements in a mixed forest: impact of chamber distances, spatial variability and seasonal evolution. Global Change Biology 2000, 6:907-917.
37. Luo Y.Q., Wan S.Q., Hui D.F., Wallace L.L. Acclimatization of soil respiration to warming in a tall grass prairie. Nature 2001, 413:622-625.
38. Mahecha M.D., Reichstein M., Carvalhais N., Lasslop G., Lange H., Seneviratne S.I. Global convergence in the temperature sensitivity of respiration at ecosystem level. Science 2010, 329:838-841.
39. Maseyk K., Grünzweig J.M., Rotenberg E., Yakir D. Respiration acclimation contributes to high carbon-use efficiency in a seasonally dry pine forest. Global Change Biology 2008, 14:1553-1567.
40. Ohashi M., Gyokusen K. Temporal change in spatial variability of soil respiration on a slope of Japanese cedar (Cryptomeria japonica D. Don) forest. Soil Biology and Biochemistry 2007, 39:1130-1138.
41. 10 values on the depth of the soil temperature measuring point. Plant and Soil 2007, 292:171-179.
42. Peng S.S., Piao S.L., Wang T., Sun J.Y., Shen Z.H. Temperature sensitivity of soil respiration in different ecosystems in China. Soil Biology and Biochemistry 2009, 41:1008-1014.
43. Phillips R.P., Fahey T.J. Tree species and mycorrhizal associations influence the magnitude of rhizosphere effects. Ecology 2006, 87:1302-1313.
44. Piao S.L., Fang J.Y., Ciais P., Peylin P., Huang Y., Sitch S., Wang T. The carbon balance of terrestrial ecosystems in China. Nature 2009, 458:1009-1013.
45. Piao S.L., Luyssaert S., Ciais P., Janssens I.A., Chen A.P., Cao C. Forest annual carbon cost: a global-scale analysis of autotrophic respiration. Ecology 2010, 91:652-661.
46. Pregitzer K., Euskirchen E. Carbon cycling and storage in world forests: biome patterns related to forest age. Global Change Biology 2004, 10:2052-2077.
47. Raich J.W., Potter C.S., Bhagawati D. Interannual variability in global soil respiration, 1980-94. Global Change Biology 2002, 8:800-812.
48. Raich J.W., Schlesinger W.H. The global carbon dioxide flux in soil respiration and its relationship to vegetation and climate. Tellus 1992, 44(B):81-89.
49. Reichstein M., Rey A., Freibauer A., Tenhunen J., Valentini R., Banza J., Casals P., Cheng Y., Grünzweig J.M., Irvine J., Joffre R., Law B.E., Loustau D., Miglietta F., Oechel W., Ourcival J.-M., Pereira J.S., Peressotti A., Ponti F., Qi Y., Rambal S., Rayment M., Romanya J., Rossi F., Tedeschi V., Tirone G., Xu M., Yakir D. Modeling temporal and large-scale spatial variability of soil respiration from soil water availability, temperature and vegetation productivity indices. Global Biogeochemical Cycles 2003, 17:1104. 10.1029/2003gb 002035.
50. Reichstein M., Subke J.A., Angeli A.C., Tenhunen J.D. Does the temperature sensitivity of decomposition of soil organic matter depend upon water content, soil horizon, or incubation time?. Global Change Biology 2005, 11:1754-1767.
51. Salz G., Byrne K., Butterbach-Bahl K., Kiese R., Blujdea V., Farrell E.P. Stand age-related effects on soil respiration in a first rotation Sitka spruce chronosequence in central Ireland. Global Change Biology 2006, 12:1007-1020.
52. Sampson D.A., Janssens I.A., Yuste J.C., Ceulemans R. Basal rates of soil respiration are correlated with photosynthesis in a mixed temperate forest. Global Change Biology 2007, 13:2008-2017.
53. Schindlbacher A., Zechmeister-Boltenstern S., Jandl R. Carbon losses due to soil warming: do autotrophic and heterotrophic soil respiration respond equally?. Global Change Biology 2009, 15:901-913.
54. Schindlbacher A., Wunderlich S., Borken W., Kitzler B., Zechmeister-Boltenstern S., Jandl R. Soil respiration under climate change: prolonged summer drought offsets soil warming effects. Global Change Biology 2012, 18:2270-2279.
55. Schlesinger W.H., Andrews J.A. Soil respiration and the global carbon cycle. Biogeochemistry 2000, 48:7-20.
56. Scott N.A., Tate K.R., Ford-Robertson J. Soil carbon storage in plantation forests and pastures: land-use change implications. Tellus 1999, 51B:326-335.
57. Sitch S., Smith B., Prentice I.C., Arneth A., Bondeau A., Cramer W., Kaplan J.O., Levis S., Lucht W., Sykes M.T., Thonicke K., Venevsky S. Evaluation of ecosystem dynamics, plant geography and terrestrial carbon cycling in the LPJ dynamic global vegetation model. Global Change Biology 2003, 9:161-185.
58. Subke J.A., Bahn M. On the "temperature sensitivity of soil respiration": can we use the immeasurable to predict the unknown?. Soil Biology and Biochemistry 2010, 42:1653-1656.
59. Tang J.W., Baldocchi D.D., Xu L. Tree photosynthesis modulates soil respiration on a diurnal time scale. Global Change Biology 2005, 11:1298-1304.
60. Tang J.W., Bolstad P.V., Martin J.G. Soil carbon fluxes and stocks in a Great Lakes forest chronosequence. Global Change Biology 2009, 15:145-155.
61. Vargas R., Carbone M.S., Reichstein M., Baldocchi D. Frontiers and challenges in soil respiration research: from measurements to model-data integration. Biogeochemistry 2011, 102:1-13.
62. Vicca S., Janssens I.A., Flessa H., Fiedler S., Jungkunst H.F. Temperature dependence of greenhouse gas emissions from three hydromorphic soils at different groundwater levels. Geobiology 2009, 7:465-476.
63. 10 of soil respiration explained by climate or by vegetation seasonality?. Soil Biology and Biochemistry 2010, 42:1728-1734.
64. 2 efflux and its contribution to annual soil respiration in different ecosystems of a forest-steppe ecotone, north China. Soil Biology and Biochemistry 2010, 42:451-458.
65. Wetterstedt J.A.M., Persson T., Ågren G.I. Temperature sensitivity and substrate quality in soil organic matter decomposition: results of an incubation study with three substrates. Global Change Biology 2010, 16:1806-1819.
66. Yan M., Zhang X., Zhou G., Gong J., You X. Temporal and spatial variation in soil respiration of poplar plantations at different developmental stages in Xinjiang, China. Journal of Arid Environments 2011, 75:51-57.
67. Zhu B., Cheng W.X. Rhizosphere priming effect increases the temperature sensitivity of soil organic matter decomposition. Global Change Biology 2011, 17:2172-2183.