Ecological Archives E096-245-A1

Zhongkui Luo, Enli Wang, and Chris Smith. 2015. Fresh carbon input differentially impacts soil carbon decomposition across natural and managed systems. Ecology 96:28062813. http://dx.doi.org/10.1890/14-2228.1

Appendix A. References used for data collection.

Bastida F., Torres I.F., Hernández T., Bombach P., Richnow H.H. and García C. 2013. Can the labile carbon contribute to carbon immobilization in semiarid soils? Priming effects and microbial community dynamics. Soil Biology and Biochemistry, 57:892–902.

Blagodatskaya E., Blagodatsky S., Anderson T.-H. and Kuzyakov Y. 2007. Priming effects in Chernozem induced by glucose and N in relation to microbial growth strategies. Applied Soil Ecology, 37:95–105.

Blagodatskaya E., Yuyukina T., Blagodatsky S. and Kuzyakov Y. 2011. Three-source-partitioning of microbial biomass and of CO2 efflux from soil to evaluate mechanisms of priming effects. Soil Biology and Biochemistry, 43:778–786.

Blagodatsky S., Blagodatskaya E., Yuyukina T. and Kuzyakov Y. 2010. Model of apparent and real priming effects: linking microbial activity with soil organic matter decomposition. Soil Biology and Biochemistry, 42:1275–1283.

Bol R., Moering J., Kuzyakov Y. and Amelung W. 2003. Quantification of priming and CO2 respiration sources following slurry‐C incorporation into two grassland soils with different C content. Rapid Commun Mass Sp, 17:2585–2590.

Chotte J.-L., Ladd J. and Amato M. 1998. Sites of microbial assimilation, and turnover of soluble and particulate 14C-labelled substrates decomposing in a clay soil. Soil Biology and Biochemistry, 30:205–218.

Conde E., Cardenas M., Ponce-Mendoza A., Luna-Guido M.L., Cruz-Mondragón C. and Dendooven L. 2005. The impacts of inorganic nitrogen application on mineralization of 14C-labelled maize and glucose, and on priming effect in saline alkaline soil. Soil Biology and Biochemistry, 37:681–691.

Dilly O. and Zyakun A. 2008. Priming effect and respiratory quotient in a forest soil amended with glucose. Geomicrobiology Journal, 25:425–431.

Falchini L., Naumova N., Kuikman P., Bloem J. and Nannipieri P. 2003. CO2 evolution and denaturing gradient gel electrophoresis profiles of bacterial communities in soil following addition of low molecular weight substrates to simulate root exudation. Soil Biology and Biochemistry, 35:775–782.

Fliebbach A., Mäder P. and Niggli U. 2000. Mineralization and microbial assimilation of 14C-labeled straw in soils of organic and conventional agricultural systems. Soil Biology and Biochemistry, 32:1131–1139.

Fontaine S., Bardoux G., Abbadie L. and Mariotti A. 2004a. Carbon input to soil may decrease soil carbon content. Ecology Letters, 7:314–320.

Fontaine S., Bardoux G., Benest D., Verdier B., Mariotti A. and Abbadie L. 2004b. Mechanisms of the priming effect in a savannah soil amended with cellulose. Soil Sci Soc Am J, 68:125–131.

Fontaine S., Henault C., Aamor A., Bdioui N., Bloor J., Maire V., Mary B., Revaillot S. and Maron P. 2011. Fungi mediate long term sequestration of carbon and nitrogen in soil through their priming effect. Soil Biology and Biochemistry, 43:86–96.

Guenet B., Juarez S., Bardoux G., Abbadie L. and Chenu C. 2012. Evidence that stable C is as vulnerable to priming effect as is more labile C in soil. Soil Biology and Biochemistry, 52:43–48.

Guenet B., Leloup J., Raynaud X., Bardoux G. and Abbadie L. 2010a. Negative priming effect on mineralization in a soil free of vegetation for 80 years. European Journal of Soil Science, 61:384–391.

Guenet B., Neill C., Bardoux G. and Abbadie L. 2010b. Is there a linear relationship between priming effect intensity and the amount of organic matter input? Applied Soil Ecology, 46:436–442.

Hamer U. and Marschner B. 2005. Priming effects in different soil types induced by fructose, alanine, oxalic acid and catechol additions. Soil Biology and Biochemistry, 37:445–454.

Hartley I.P., Hopkins D.W., Sommerkorn M. and Wookey P.A. 2010. The response of organic matter mineralisation to nutrient and substrate additions in sub-arctic soils. Soil Biology and Biochemistry, 42:92–100.

Hoyle F., Murphy D. and Brookes P. 2008. Microbial response to the addition of glucose in low-fertility soils. Biol. Fertil. Soils, 44:571–579.

Hu L. Su Y., He X., Wu J., Zheng H., Li Y. and Wang A. 2012. Response of soil organic carbon mineralization in typical Karst soils following the addition of 14C-labeled rice straw and CaCO3. J Sci Food Agr, 92:1112–1118.

Lienhard P., Terrat S., Mathieu O., Levêque J., Prévost-Bouré N.C., Nowak V., Régnier T., Faivre C., Sayphoummie S. and Panyasiri K. 2013. Soil microbial diversity and C turnover modified by tillage and cropping in Laos tropical grassland. Environmental Chemistry Letters, 11:391–398.

Luna-Guido M., Vega-Estrada J., Ponce-Mendoza A., Hernandez-Hernandez H., Montes-Horcasitas M.-C., Vaca-Mier M. and Dendooven L. 2003. Mineralization of 14C-labelled maize in alkaline saline soils. Plant Soil, 250:29–38.

Luna-Guido M.L., Beltrán-Hernández R.I. and Dendooven L. 2001. Dynamics of 14C-labelled glucose in alkaline saline soil. Soil Biology and Biochemistry, 33:707–719.

Magid J., Kjærgaard C., Gorissen A. and Kuikman P. 1999. Drying and rewetting of a loamy sand soil did not increase the turnover of native organic matter, but retarded the decomposition of added 14C-labelled plant material. Soil Biology and Biochemistry, 31:595–602.

Mary B., Fresneau C., Morel J. and Mariotti A. 1993. C and N cycling during decomposition of root mucilage, roots and glucose in soil. Soil Biology and Biochemistry, 25:1005–1014.

Pascault N., Ranjard L., Kaisermann A., Bachar D., Christen R., Terrat S., Mathieu O., Lévêque J., Mougel C. and Henault C. 2013. Stimulation of different functional groups of bacteria by various plant residues as a driver of soil priming effect. Ecosystems, 16:810–822.

Perelo L.W. and Munch J.C. 2005. Microbial immobilisation and turnover of 13C labelled substrates in two arable soils under field and laboratory conditions. Soil Biology and Biochemistry, 37:2263–2272.

Rukshana F., Butterly C., Xu J., Baldock J. and Tang C. 2013. Soil organic carbon contributes to alkalinity priming induced by added organic substrates. Soil Biology and Biochemistry, 65:217–226.

Wu J., Brookes P. and Jenkinson D. 1993. Formation and destruction of microbial biomass during the decomposition of glucose and ryegrass in soil. Soil Biology and Biochemistry, 25:1435–1441.

Wu J., Zhou P., Li L., Su Y., Yuan H. and Syers J.K. 2012. Restricted mineralization of fresh organic materials incorporated into a subtropical paddy soil. J Sci Food Agr, 92:1031–1037.

Zhang W., Wang X. and Wang S. 2014. Fate of Chinese-fir litter during decomposition as a result of inorganic N additions. Applied Soil Ecology, 74:30–36.


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