SEARCH

SEARCH BY CITATION

References

  • Agren, G. I., and E. Bosatta. 2002. Reconciling differences in predictions of temperature response of SOM. Soil Biol. Biochem. 34:129132.
  • Allison, S. D., C. A. Hanson, and K. K. Treseder. 2007. N fertilization reduces diversity and alters community structure of active fungi in boreal ecosystems. Soil Biol. Biochem. 39:18781887.
  • Bergh, J., and S. Linder. 1999. Effects of soil warming during spring on photosynthetic recovery in boreal Norway spruce stands. Glob. Change Biol. 5:245253.
  • Biasi, C., O. Rusalimova, H. Meyer, C. Kaiser, W. Wanek, P. Barsukov, et al. 2005. Temperature-dependent shift from labile to recalcitrant C sources of arctic heterotrophs. Rapid Commun. Mass Spectrom. 19:14011408.
  • Bjerke, J. W., S. Bokhorst, M. Zielke, T. V. Callaghan, F. W. Bowles, and G. K. Phoenix. 2011. Contrasting sensitivity to extreme winter warming events of dominant sub-Arctic heathland bryophyte and lichen species. J. Ecol. 99:14811488.
  • Bradford, M. A., C. A. Davies, S. D. Frey, T. R. Maddox, J. M. Melillo, J. E. Mohan, et al. 2008. Thermal adaptation of soil microbial respiration to elevated temperature. Ecol. Lett. 11:13161327.
  • Campbell, B. J., S. W. Polson, T. E. Hanson, M. C. Mack, and E. A. G. Schuur. 2010. The effect of nutrient deposition on bacterial communities in Arctic tundra soil. Environ. Microbiol. 12:18421854.
  • Cannell, M. G. R., and R. C. Dewar. 1994. C allocation in trees – a review of concepts for modelling. Adv. Ecol. Res. 25:59104.
  • Conant, R. T., M. G. Ryan, G. I. Ågren, H. E. Birge, E. A. Davidson, P. E. Eliasson, et al. 2011. Temperature and soil organic matter decomposition rates – synthesis of current knowledge and a way forward. Glob. Change Biol. 17:33923404.
  • Contosta, A. R., S. D. Frey, and A. B. Cooper. 2011. Seasonal dynamics of soil respiration and N mineralization in chronically warmed and fertilized soils. Ecosphere 2:art36.
  • Cusack, D. F., M. S. Torn, W. H. McDowell, and W. L. Silver. 2010. The response of heterotrophic activity and C cycling to N additions and warming in two tropical soils. Glob. Change Biol. 16:25552572.
  • Demoling, F., L. O. Nilsson, and E. Bååth. 2008. Bacterial and fungal response to N fertilization in three coniferous forest soils. Soil Biol. Biochem. 40:370379.
  • Eliasson, P. E., and G. I. Ågren. 2011. Feedback from soil inorganic nitrogen on soil organic matter mineralisation and growth in a boreal forest ecosystem. Plant Soil 338:193203.
  • Fog, K. 1988. The effect of added N on the rate of decomposition of organic-matter. Biol. Rev. Camb. Philos. Soc. 63:433462.
  • Franklin, O., P. Högberg, A. Ekblad, and G. I. Ågren. 2003. Pine forest floor C accumulation in response to N and PK additions: bomb C-14 modelling and respiration studies. Ecosystems 6:644658.
  • Frey, S. D., M. Knorr, J. L. Parrent, and R. T. Simpson. 2004. Chronic N enrichment affects the structure and function of the soil microbial community in temperate hardwood and pine forests. For. Ecol. Manage. 196:159171.
  • Frey, S. D., R. Drijber, H. Smith, and J. Melillo. 2008. Microbial biomass, functional capacity, and community structure after 12 years of soil warming. Soil Biol. Biochem. 40:29042907.
  • Fritze, H., J. Pietikäinen, and T. Pennanen. 2000. Distribution of microbial biomass and phospholipid fatty acids in Podzol profiles under coniferous forest. Eur. J. Soil Sci. 51:565573.
  • Fröberg, M., H. Grip, E. Tipping, M. Svensson, M. Strömgren, and D. B. Kleja. 2013. Long-term effects of experimental fertilization and soil warming on dissolved organic matter leaching from a spruce forest in Northern Sweden. Geoderma 200–201:172179.
  • Frostegard, A., A. Tunlid, and E. Baath. 1993. Phospholipids fatty-acid composition, biomass, and activity of microbial communities from 2 soil types experimentally exposed to different heavy-metals. Appl. Environ. Microbiol. 59:36053617.
  • Gärdenäs, A. I., G. I. Ågren, J. A. Bird, M. Clarholm, S. Hallin, P. Ineson, et al. 2010. Knowledge gaps in soil C and N interactions – From molecular to global scale. Soil Biol. Biochem. 43:702717.
  • Gillabel, J., B. Cebrian-Lopez, J. Six, and R. Merckx. 2010. Experimental evidence for the attenuating effect of SOM protection on temperature sensitivity of SOM decomposition. Glob. Change Biol. 16:27892798.
  • Hartley, I. P., A. Heinemeyer, and P. Ineson. 2007. Effects of three years of soil warming and shading on the rate of soil respiration: substrate availability and not thermal acclimation mediates observed response. Glob. Change Biol. 13:17611770.
  • Heinemeyer, A., I. P. Hartley, S. P. Evans, J. A. Carreira De La Fuente, and P. Ineson. 2007. Forest soil CO2 flux: uncovering the contribution and environmental responses of ectomycorrhizas. Glob. Change Biol. 13:17861797.
  • Heinemeyer, A., M. Wilkinson, R. Vargas, J. A. Subke, E. Casella, J. I. L. Morison, et al. 2011. Exploring the “overflow tap” theory: linking forest soil CO2 fluxes and individual mycorrhizosphere components to photosynthesis. Biogeosciences 8:31553201.
  • Herrmann, A. M., and E. Witter. 2002. Sources of C and N contributing to the flush in mineralization upon freeze–thaw cycles in soils. Soil Biol. Biochem. 34:14951505.
  • Högberg, M. N., E. Baath, A. Nordgren, K. Arnebrant, and P. Högberg. 2003. Contrasting effects of N availability on plant C supply to mycorrhizal fungi and saprotrophs – a hypothesis based on field observations in boreal forest. New Phytol. 160:225238.
  • Högberg, M. N., P. Högberg, and D. D. Myrold. 2007. Is microbial community composition in boreal forest soils determined by pH, C-to-N ratio, the trees, or all three? Oecologia 150:590601.
  • Hyvönen, R., G. I. Ågren, S. Linder, T. Persson, M. S. Cotrufo, A. Ekblad, et al. 2007. The likely impact of elevated CO2, nitrogen deposition, increased temperature and management on carbon sequestration in temperate and boreal forest ecosystems: a literature review. New Phytol. 173:463480.
  • Jandl, R., M. Lindner, L. Vesterdal, B. Bauwens, R. Baritz, F. Hagedorn, et al. 2007. How strongly can forest management influence soil C sequestration? Geoderma 137:253268.
  • Janssens, I. A., W. Dieleman, S. Luyssaert, J. A. Subke, M. Reichstein, R. Ceulemans, et al. 2010. Reduction of forest soil respiration in response to N deposition. Nat. Geosci. 3:315322.
  • Jin, X. B., J. H. Bai, and Y. K. Zhou. 2010. Temperature sensitivity of soil respiration is affected by N fertilization and land use. Acta Agr. Scand. B-S P. 60:427436.
  • Leppälammi-Kujansuu, J., I. Ostonen, M. Strömgren, L. O. Nilsson, D. B. Kleja, S. P. Sah, et al. 2013. Effects of long-term temperature and nutrient manipulation on Norway spruce fine roots and mycelia production. Plant Soil 366:287303.
  • Linder, S. 1995. Foliar analysis for detecting and correcting nutrient imbalances in Norway spruce. Pp. 178190. Effects of acid deposition and tropospheric ozone on forest ecosystems in Sweden. Ecological Bulletins.
  • Long, X., C. Chen, Z. Xu, S. Linder, and J. He. 2012. Abundance and community structure of ammonia oxidizing bacteria and archaea in a Sweden boreal forest soil under 19-year fertilization and 12-year warming. J. Soils Sediments 12:11241133.
  • Lu, M., Y. H. Yang, Y. Q. Luo, C. M. Fang, X. H. Zhou, J. K. Chen, et al. 2011. Responses of ecosystem N cycle to N addition: a meta-analysis. New Phytol. 189:10401050.
  • von Lutzow, M., and I. Kogel-Knabner. 2009. Temperature sensitivity of SOM decomposition-what do we know? Biol. Fertil. Soils 46:115.
  • Magill, A. H., and J. D. Aber. 1998. Long-term effects of experimental N additions on foliar litter decay and humus formation in forest ecosystems. Plant Soil 203:301311.
  • Magnani, F., M. Mencuccini, M. Borghetti, P. Berbigier, F. Berninger, S. Delzon, et al. 2007. The human footprint in the carbon cycle of temperate and boreal forests. Nature 447:848850.
  • Moni, C., A. Chabbi, N. Nunan, C. Rumpel, and C. Chenu. 2010. Spatial dependance of organic carbon–metal relationships. Geoderma 158:120127.
  • Moyano, F., W. L. Kutsch, and C. Rebmann. 2008. Soil respiration fluxes in relation to photosynthetic activity in broad-leaf and needle-leaf forest stands. Agric. For. Meteorol. 148:135143.
  • Oksanen, J., F. G. Blanchet, R. Kindt, P. Legendre, R. B. O' Hara, G. L. Simpson, et al. 2011. Vegan: community ecology package. R package version 1.17-6. Available at http.//vegan.r-forge.r-project.org/.
  • O'Leary, W. M., and S. G. Wilkinson. 1988. Gram-positive bacteria. Vol. 1, Pp. Xviii+963. in C. Ratledge, S. G. Wilkinson, eds. Microbial lipids. Academic Press, London, UK; San Diego, CA, USA. Illus 117-202.
  • Olsson, P., S. Linder, R. Giesler, and P. Högberg. 2005. Fertilization of boreal forest reduces both autotrophic and heterotrophic soil respiration. Glob. Change Biol. 11:17451753.
  • Phillips, R. P., and T. J. Fahey. 2007. Fertilization effects on fineroot biomass, rhizosphere microbes and respiratory fluxes in hardwood forest soils. New Phytol. 176:655664.
  • R Development Core Team. 2008. R: a language and environment for statistical computing. Available at http://www.R- project.org.
  • Rinnan, R., A. Michelsen, E. Bååth, and S. Jonasson. 2007. Fifteen years of climate change manipulations alter soil microbial communities in a subarctic heath ecosystem. Glob. Change Biol. 13:2839.
  • Rustad, L. E., J. L. Campbell, G. M. Marion, R. J. Norby, M. J. Mitchell, A. E. Hartley, et al. 2001. A meta-analysis of the response of soil respiration, net N mineralization, and aboveground plant growth to experimental ecosystem warming. Oecologia 126:543562.
  • Salome, C., N. Nunan, V. Pouteau, T. Z. Lerch, and C. Chenu. 2010. C dynamics in topsoil and in subsoil may be controlled by different regulatory mechanisms. Glob. Change Biol. 16:416426.
  • Schindlbacher, A., S. Zechmeister-Boltenstern, and R. Jandl. 2009. Carbon losses due to soil warming: do autotrophic and heterotrophic soil respiration respond equally? Glob. Change Biol. 15:901913.
  • Schindler, D. W., and P. G. Lee. 2010. Comprehensive conservation planning to protect biodiversity and ecosystem services in Canadian boreal regions under a warming climate and increasing exploitation. Biol. Conserv. 143:15711586.
  • Schmidt, M. W. I., M. S. Torn, S. Abiven, T. Dittmar, G. Guggenberger, I. A. Janssens, et al. 2011. Persistence of soil organic matter as an ecosystem property. Nature 478:4956.
  • Sjöberg, G., H. Knicker, S. I. Nilsson, and D. Berggren. 2004. Impact of long-term N fertilization on the structural composition of spruce litter and mor humus. Soil Biol. Biochem. 36:609618.
  • Sokolov, A. P., D. W. Kicklighter, J. M. Melillo, B. S. Felzer, C. A. Schlosser, and T. W. Cronin. 2008. Consequences of considering C-N interactions on the feedbacks between climate and the terrestrial C cycle. J. Clim. 21:37763796.
  • Strömgren, M. 2001. Soil-surface CO2 Flux and growth in a Boreal Norway Spruce stand: effects of soil warming and nutrition. Doctoral Thesis, Swedish University of Agricultural Sciences, Uppsala.
  • Strömgren, M., and S. Linder. 2002. Effects of nutrition and soil warming on stemwood production in a boreal Norway spruce stand. Glob. Change Biol. 8:11951204.
  • Swanston, C., P. S. Homann, B. A. Caldwell, D. D. Myrold, L. Ganio, and P. Sollins. 2004. Long-term effects of elevated N on forest SOM stability. Biogeochemistry 70:227250.
  • Tilman, D. 1987. Secondary succession and the pattern of plant dominance along experimental N gradients. Ecol. Monogr. 57:189214.
  • Treseder, K. K. 2004. A meta-analysis of mycorrhizal responses to N, phosphorus, and atmospheric CO2 in field studies. New Phytol. 164:347355.
  • Treseder, K. K. 2008. N additions and microbial biomass: a meta-analysis of ecosystem studies. Ecol. Lett. 11:11111120.
  • Vallack, H. W., V. Leronni, D. B. Metcalfe, P. Högberg, I. Ineson, and J. A. Subke. 2012. Application of nitrogen fertilizer to a boreal pine forest has a negative impact on the respiration of ectomycorrhizal hyphae. Plant Soil 352:405417.
  • Vanhala, P., K. Karhu, M. Tuomi, K. Bjorklof, H. Fritze, and J. Liski. 2008. Temperature sensitivity of SOM decomposition in southern and northern areas of the boreal forest zone. Soil Biol. Biochem. 40:17581764.
  • Vitousek, P. M., J. D. Aber, R. W. Howarth, G. E. Likens, P. A. Matson, D. W. Schindler, et al. 1997. Human alteration of the global N cycle: sources and consequences. Ecol. Appl. 7:737750.
  • Xu, C. G., C. Liang, S. Wullschleger, C. Wilson, and N. McDowell. 2011. Importance of feedback loops between soil inorganic N and microbial communities in the heterotrophic soil respiration response to global warming. Nat. Rev. Microbiol. 9:222.
  • Zelles, L. 1997. Phospholipid fatty acid profiles in selected members of soil microbial communities. Chemosphere 35:275294.
  • Zelles, L. 1999. Fatty acid patterns of phospholipids and lipopolysaccharides in the characterisation of microbial communities in soil: a review. Biol. Fertil. Soils 29:111129.