Abstract
Purpose
Conservation tillage can significantly affect the biological, chemical, and physical properties of soil. This study aimed to determine the effect of conservation tillage on the soil microbial community and respiration and on soil CO2 emissions.
Materials and methods
In this study, the effects of 10 years of conservation tillage (no-till: NT and ridge tillage: RT) on soil CO2 fluxes and soil microbial communities were assessed in a black soil in Northeast China.
Results and discussion
The annual soil CO2 emissions were higher under moldboard plow (MP) than under NT by 7.8 % (P < 0.05). The average soil microbial respiration rate from RT was higher than that from MP by 11 % (P < 0.05). Soil microbial respiration under NT (65 %) and RT (64 %) contributed more to soil CO2 emissions than MP (54 %). Total soil bacterial and fungal phospholipid fatty acids (PLFAs) were 1.6 times and 2.6 times greater under NT and RT, respectively, than under MP in the 0–5 cm layer, whereas they decreased by 21–47 % under NT and 26–41 % under RT in the 5–10, 10–20, and 20–30 cm layers. The F:B (the ratio of soil fungal PLFAs to bacterial PLFAs) varied with soil depth (0–10 cm) between conservation tillage (NT and RT) and MP. Conservation tillage induced the stratification of the soil microbial community on the vertical profile.
Conclusions
RT increased soil microbial respiration, soil organic carbon (SOC) concentration, and soil microbial PLFAs at the 0–5 cm depth, whereas it did not influence the annual soil CO2 emissions compared to MP with a similar carbon input. These results suggested that RT might be an appropriate tillage practice for providing a better habitat for soil microbes and SOC sequestration in Northeast China.
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Discover the latest articles and news from researchers in related subjects, suggested using machine learning.Abbreviations
- CT:
-
Conventional tillage
- F:B:
-
The ratio of fungal:bacterial
- MP:
-
Mouldboard plough
- NT:
-
No-till
- PLFA:
-
Phospholipid fatty acids
- RT:
-
Ridge tillage
- SEM:
-
Structural equation modelling
- SOC:
-
Soil organic carbon
References
Aciego Pietri JC, Brookes PC (2009) Substrate inputs and pH as factors controlling microbial biomass, activity and community structure in an arable soil. Soil Biol Biochem 41:1396–1405
Acosta-Martínez V, Mikha MM, Vigil MF (2007) Microbial communities and enzyme activities in soils under alternative crop rotations compared to wheat-fallow for the Central Great Plains. Appl Soil Ecol 37:41–52
Al-Kaisi MM, Yin X (2005) Tillage and crop residue effects on soil carbon and carbon dioxide emission in corn-soybean rotations. J Environ Qual 34:437–445
Allison SD, Martiny JBH (2008) Resistance, resilience, and redundancy in microbial communities. PNAS 105:11512–11519
Allison VJ, Miller RM, Jastrow JD, Matamala R, Zak DR (2005) Changes in soil microbial community structure in a tallgrass prairie chronosequence. Soil Sci Soc Am J 69:1412–1421
Alvarez R, Diaz RA, Barbero N, Santanatoglia OJ, Blotta L (1995) Soil organic carbon, microbial biomass and CO2-C production from three tillage systems. Soil Tillage Res 33:17–28
Álvaro-Fuentes J, Cantero-Martínez C, López MV, Arrúe JL (2007) Soil carbon dioxide fluxes following tillage in semiarid Mediterranean agroecosystems. Soil Tillage Res 96:331–341
Álvaro-Fuentes J, Morell JF, Plaza-Bonilla D, Arrúe J, Cantero-Martinez C (2012) Modelling tillage and nitrogen fertilization effects on soil organic carbon dynamics. Soil Tillage Res 120:32–39
Arbuckle JL (2006) Amos (version 7.0) computer program. SPSS, Chicago
Bach EM, Baer SG, Meyer CK, Six J (2010) Soil texture affects soil microbial and structural recovery during grassland restoration. Soil Biol Biochem 42:2182–2191
Bajgai Y, Hulugalle N, Kristiansen P, McHenry M, Cowie A (2014) Residue incorporation mitigates tillage-induced loss of soil carbon in laboratory microcosms. Soil Use Manag 30:328–336
Baker JM, Ochsner TE, Venterea RT, Griffis TJ (2007) Tillage and soil carbon sequestration what do we really know? Agric Ecosyst Environ 118:1–5
Bardgett RD, Hobbs PJ, Frostegård A (1996) Changes in soil fungal: bacterial biomass ratios following reductions in the intensity of management of an upland grassland. Biol Fertil Soils 22:261–264
Bauer PJ, Frederick JR, Novak JM, Hunt PG (2006) Soil CO2 flux from a norfolk loamy sand after 25 years of conventional and conservation tillage. Soil Tillage Res 90:205–211
Benitio A (2010) Carbon accumulation in soil. Ten year study of conservation tillage and crop rotation in a semi-arid areas of Castile-Leon, Spain Aurora Sombrero. Soil Tillage Res 107:64–70
Biederbeck VO, Campbell CA, Hunter JH (1997) Tillage effects on soil microbial and biochemical characteristics in a fallow-wheat rotation in a dark brown soil. Can J Soil Sci 77:309–316
Blanco-Canqui H, Lal R (2008) No-tillage and soil-profile carbon sequestration: an on-farm assessment. Soil Sci Soc Am J 72:693–701
Bossio DA, Scow KM (1998) Impacts of carbon and flooding on soil microbial communities: phospholipid fatty acid profiles and substrate utilization patterns. Microb Ecol 35:265–278
Briar SS, Fonte SJ, Park I, Six J, Scow K, Ferris H (2011) The distribution of nematodes and soil microbial communities across soil aggregate fractions and farm management systems. Soil Biol Biochem 43:905–914
Carson JK, Gonzalez-Quinones V, Murphy DV, Hinz C, Shaw JA, Gleeson DB (2010) Low pore connectivity increase bacterial diversity in soil. Appl Environ Microbiol 76:3936–3942
Chen ST, Huang Y, Zou JW, Shi YS, Lu YY, Zhang W, Hu ZH (2012a) Interannual variability in soil respiration from terrestrial ecosystems in China and its response to climate change. Sci China Earth Sci 55:2091–2098
Chen XW, Zhang XP, Liang AZ, Jia SX, Shi XH, Fan RQ, Wei SC (2012b) Effects of tillage mode on black soil’s penetration resistance and bulk density. Chin J Appl Ecol 23:439–444 (in Chinese with English abstract)
Cheng WX, Johnson DW, Fu SL (2003) Rhizosphere effects on decomposition: controls of plant species, phenology, and fertilization. Soil Sci Soc Am J 67:1418–1427
Cookson WR, Murphy DV, Roper MM (2008) Characterizing the relationships between soil organic matter components and microbial function and composition along a tillage disturbance gradient. Soil Biol Biochem 40:763–777
Cotrufo MF, Alberti G, Inglima I, Marjanovic H, LeCain D, Zaldei A, Peressotti A, Miglietta F (2011) Decreased summer drought affects plant productivity and soil carbon dynamics in a Mediterranean woodland. Biogeosciences 8:2729–2739
Curtin D, Wang H, Selles F, McConkey BG, Campbell CA (2000) Tillage effects on carbon fluxes in continuous wheat and fallow-wheat rotations. Soil Sci Soc Am J 64:2080–2086
Davidson EA, Janssens IA (2006) Temperature sensitivity of soil carbon decomposition and feedbacks to climate change. Nature 440:165–173
Feng Y, Motta AC, Reeves DW, Burmester CH, van Santen E, Osborne JA (2003) Soil microbial communities under conventional-till and no-till continuous cotton systems. Soil Biol Biochem 35:1693–1703
Fierer N, Allen AS, Schimel JP, Holden PA (2003) Controls on microbial CO2 production: a comparison of surface and subsurface soil horizons. Glob Chang Biol 9:1322–1332
Franzluebbers AJ (2002) Soil organic matter stratification ratio as an indicator of soil quality. Soil Tillage Res 66:95–106
Franzluebbers AJ, Hons FM, Zuberer DA (1995) Tillage and crop effects on seasonal dynamics of soil CO2 evolution, water content, temperature, and bulk density. Appl Soil Ecol 2:95–109
Frey SD, Elliott ET, Paustian K (1999) Bacterial and fungal abundance and biomass in conventional and no-tillage agroecosystems along two climatic gradients. Soil Biol Biochem 31:573–585
Helgason BL, Walley FL, Germida JJ (2010) Long-term no-till management affects microbial biomass but not community composition in Canadian prairie agroecosytems. Soil Biol Biochem 42:2192–2202
Jastrow JD, Amonette JE, Bailey VL (2007) Mechanisms controlling soil carbon turnover and their potential application for enhancing carbon sequestration. Clim Chang 80:5–23
Johnson JMF, Franzluebbers AJ, Weyers SL, Reicosky DC (2007) Agricultural opportunities to mitigate greenhouse gas emissions. Environ Pollut 150:107–124
Koga N, Tsuji H (2009) Effects of reduced tillage, crop residue management and manure application practices on crop yields and soil carbon sequestration on an Andisol in northern Japan. Soil Sci Plant Nutr 55:546–557
Kuncoro PH, Koga K, Satta N, Muto Y (2014) A study on the effect of compaction on transport properties of soil gas and water I: relative gas diffusivity, air permeability, and saturated hydraulic conductivity. Soil Tillage Res 143:172–179
Kuzyakov Y (2006) Sources of CO2 efflux from soil and review of partitioning methods. Soil Biol Biochem 38:425–448
Kuzyakov Y, Subbotina I, Chen H, Bogomolova I, Xu X (2009) Black carbon decomposition and incorporation into microbial biomass estimated by 14C labeling. Soil Biol Biochem 41:210–219
La Scala JN, Bolonhezi D, Pereira GT (2006) Short-term soil CO2 emission after conventional and reduced tillage of a no-till sugar cane area in southern Brazil. Soil Tillage Res 91:244–248
La Scala JN, Lopes A, Spokas K, Bolonhezi D, Archer DW, Reicosky DC (2008) Short-term temporal changes of soil carbon losses after tillage described by a first-order decay model. Soil Tillage Res 99:108–118
Lal R (2004) Soil carbon sequestration to mitigate climate change. Geoderma 123:1–22
Lauber CL, Hamady M, Knight R, Fierer N (2009) Pyrosequencing-based assessment of soil pH as a predictor of soil bacterial community structure at the continental scale. Appl Environ Microbiol 75:5111–5120
Liang AZ, Zhang XP, Fang HJ, Yang XM, Drury CF (2007) Short-term effects of tillage practices on organic carbon in clay loam soil of Northeast China. Pedosphere 17:619–623
Liebig M, Carpenter-Boggs L, Johnson JMF, Wright S, Barbour N (2006) Cropping system effects on soil biological characteristics in the Great Plains. Renew Agric Food Syst 21:36–48
Lupwayi NZ, Lafond GP, Ziadi N, Grant CA (2012) Soil microbial response to nitrogen fertilizer and tillage in barley and corn. Soil Tillage Res 118:139–146
Lupwayi NZ, Clayton GW, ÓDonovan JT, Harker KN, Turkington TK, Rice WA (2004) Soil microbiological properties during decomposition of crop residues under conventional and zero tillage. Can J Soil Sci 84:411–419
Lupwayi NZ, Clayton GW, O’Donovan JT, Harker KN, Turkington TK, Soon YK (2006) Soil nutrient stratification and uptake by wheat after seven years of conventional and zero tillage in the Northern Grain belt of Canada. Can J Soil Sci 86(5):767–778
Lupwayi NZ, Rice WA, Clayton GW (1998) Soil microbial diversity and community structure under wheat as influenced by tillage and crop rotation. Soil Biol Biochem 30:1733–1741
Lupwayi NZ, Rice WA, Clayton GW (1999) Soil microbial biomass and carbon dioxide flux under wheat as influenced by tillage and crop rotation. Can J Soil Sci 79:273–280
Mardia KV (1985) Mardia’s test of multinormality. In: Kota S, Johnson NL (eds) Encyclopedia of statistical sciences. Wiley, New York, pp 217–221
McKinley VL, Peacock AD, White DC (2005) Microbial community PLFA and PHB responses to ecosystem restoration in tallgrass prairie soils. Soil Biol Biochem 37:1946–1958
Miura T, Niswati A, Swibawa IG, Haryani S, Gunito H (2013) No tillage and bagasse mulching alter fungal biomass and community structure during decomposition of sugarcane leaf litter in Lampung Province, Sumatra, Indonesia. Soil Biol Biochem 58:27–35
Moore-Kucera J, Dick R (2008) PLFA profiling of microbial community structure and seasonal shifts in soils of a Douglas-fir chronosequence. Microb Ecol 55:500–511
Morell FJ, Álvaro-Fuentes J, Lampurlanés J, Cantero-Martínez C (2010) Soil CO2 fluxes following tillage and rainfall events in a semiarid Mediterranean agroecosystem: effects of tillage systems and nitrogen fertilization. Agric Ecosyst Environ 139:167–173
Novara A, Armstrong A, Gristina L, Semple KT, Quinton JN (2012) Effects of soil compaction, rain exposure and their interaction on soil carbon dioxide emission. Earth Surf Process Landf 37:994–999
Omonode RA, Vyn TJ, Smith DR, Hegymegi P, Gál A (2007) Soil carbon dioxide and methane fluxes from long-term tillage systems in continuous corn and corn–soybean rotations. Soil Tillage Res 95:182–195
Paustian K, Andrén O, Janzen HH, Lal R, Smith P, Tian G, Tiessen H, Van Noordwijk M, Woomer PL (1997) Agricultural soils as a sink to mitigate CO2 emissions. Soil Use Manag 13:230–244
Powlson DS, Whitmore AP, Goulding WT (2011) Soil carbon sequestration to mitigate climate change: a critical re-examination to identify the true and the false. Eur J Soil Sci 62:42–55
Raich JW, Potter CS, Bhagawati D (2002) Interannual variability in global soil respiration, 1980–94. Glob Chang Biol 8:800–812
Raich JW, Schlesinger WH (1992) The global carbon dioxide flux in soil respiration and its relationship to vegetation and climate. Tellus 44B:81–99
Reicosky DC, Dugas WA, Torbert HA (1997) Tillage-induced soil carbon dioxide loss from different cropping systems. Soil Tillage Res 41:105–118
Sainju UM, Jabro JD, Stevens WB (2008) Soil carbon dioxide emission and carbon content as affected by irrigation, tillage, cropping system, and nitrogen fertilization. J Environ Qual 37:98–106
Sainju UM, Jabro JD, Caesar T (2010) Tillage, cropping sequence, and nitrogen fertilization effects on dryland soil carbon dioxide emission and carbon content. J Environ Qual 39:935–945
Schlesinger WH (1997) Biogeochemistry, an analysis of global change, 2nd edn. Academy, San Diego
Shi XH, Zhang XP, Yang XM, Drury CF, McLaughlin NB, Liang AZ, Fan RQ, Jia SX (2012a) Contribution of winter soil respiration to annual soil CO2 emission in a Mollisol under different tillage practices in Northeast China. Glob Biogeochem Cycles 26:GB2007. doi:10.1029/2011GB004054
Shi XH, Zhang XP, Yang XM, McLaughlin NB, Liang AZ, Fan RQ (2012b) An appropriate time-window for measuring soil CO2 efflux: a case study on a black soil in North-east China. Acta Agric Scand B - SP 62:449–454
Shipley B (2002) Cause and correlation in biology: a user’s guide to path analysis, structural equations and causal inference. Cambridge University Press, Cambridge
Simmons BL, Coleman DC (2008) Microbial community response to transition from conventional to conservation tillage in cotton fields. Appl Soil Ecol 40:518–528
Sims PL, Bradford JA (2001) Carbon dioxide fluxes in a southern plains prairie. Agric For Meteorol 109:117–134
Smith P, Martino D (2007) Agriculture. In: Metz B, Davidson OR, Bosch PR, Dave R, Meyer LA (eds) Climate change 2007: mitigation. Contribution of working group III to the fourth assessment report of the intergovernmental panel on climate change. Cambridge University Press, Cambridge, pp 497–540
Smith JL, Paul EA (1990) The significance of soil microbial biomass estimations. In: Bollag JM, Stotzky G (eds) Soil biochemistry. Marcel Dekker, New York, pp 357–386
Spedding TA, Hamel C, Mehuys GR, Madramootoo CA (2004) Soil microbial dynamics in maize-growing soil under different tillage and residue management systems. Soil Biol Biochem 36:499–512
Thomas GA, Dalal RC, Standley J (2007) No-till effects on organic matter, pH, cation exchange capacity and nutrient distribution in a Luvisol in the semi-arid subtropics. Soil Tillage Res 94:295–304
van Groenigen KJ, Bloem J, Bååth E, Boeckx P, Rousk J, Bodé S, Forristal D, Jones MB (2010) Abundance, production and stabilization of microbial biomass under conventional and reduced tillage. Soil Biol Biochem 42:48–55
Van Vleck, Harriet E (2011) Root-derived contributions to soil respiration as influenced by agricultural management systems. Soil Sci Soc Am J 75:1839–1850
Wang WJ, Dalal RC, Moody PW, Smith CJ (2003) Relationships of soil respiration to microbial biomass, substrate availability and clay content. Soil Biol Biochem 35:273–284
West TO, Post WM (2002) Soil organic carbon sequestration rates by tillage and crop rotation: a global data analysis. Soil Sci Soc Am J 66:1930–1946
Wu T, Milner H, Díaz-Pérez JC, Ji P (2015) Effects of soil management practices on soil microbial communities and development of southern blight in vegetable production. Appl Soil Ecol 91:58–67
Wuest SB, Durr D, Albrecht SL (2003) Carbon dioxide flux measurement during simulated tillage. Agron J 95:715–718
Yoo G, Wander MW (2006) Influence of tillage practices on soil structural controls over carbon mineralization. Soil Sci Soc Am J 70:651–659
Zhang B, He HB, Ding XL, Zhang XD, Zhang XP, Yang XM, Filley TR (2012) Soil microbial community dynamics over a maize (Zea mays L.) growing season under conventional- and no-tillage practices in a rainfed agroecosystem. Soil Tillage Res 124:153–160
Zhang XP, Fang HJ, Yang XM, Liang AZ, Wu SH (2005) Effects of no-tillage practices on temperature and moisture of a black soil in the spring and early summer. Acta Pedol Sin 36:313–316 (in Chinese)
Acknowledgments
The project was financially supported by the National Natural Science Foundation of China (41101241, 41201217), the Open Research Fund of Key Laboratory of Mollisols Agroecology, Chinese Academy of Sciences, and the Knowledge Innovation Program of the Chinese Academy of Sciences (KZCX2-EW-QN307).
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Jia, S., Zhang, X., Chen, X. et al. Long-term conservation tillage influences the soil microbial community and its contribution to soil CO2 emissions in a Mollisol in Northeast China. J Soils Sediments 16, 1–12 (2016). https://doi.org/10.1007/s11368-015-1158-7
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DOI: https://doi.org/10.1007/s11368-015-1158-7