Abstract
This study was designed to examine the responses of soil CO2 efflux to precipitation pulses of varying intensities using precipitation simulations in two subtropical forests [i.e., mixed and broadleaf forests (MF and BF)] in southern China. The artificial precipitation event was achieved by spraying a known amount of water evenly in a plot (50 × 50 cm2) over a 30 min period, with intensities ranging from 10, 20, 50 and 100 mm within the 30 min. The various intensities were simulated in both dry season (in December 2007) and wet (in May 2008) season. We characterized the dynamic patterns of soil CO2 efflux rate and environmental factors over the 5 h experimental period. Results showed that both soil moisture and soil CO2 efflux rate increased to peak values for most of the simulated precipitation treatments, and gradually returned to the pre-irrigation levels after irrigation in two forests. The maximum peak of soil CO2 efflux rate occurred at the 10 mm precipitation event in the dry season in BF and was about 3.5 times that of the pre-irrigation value. The change in cumulative soil CO2 efflux following precipitation pulses ranged from −0.68 to 1.72 g CO2 m−2 over 5 h compared to the pre-irrigation levels and was generally larger in the dry season than in the wet season. The positive responses of soil CO2 efflux to precipitation pulses declined with the increases in precipitation intensity, and surprisingly turned to negative when precipitation intensity reached 50 and 100 mm in the wet season. These findings indicated that soil CO2 efflux could be changed via pulse-like fluxes in subtropical forests in southern China as fewer but extreme precipitation events occur in the future.
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Austin AT, Yahdjian L, Stark JM, Belnap J, Porporato A, Norton U, Ravetta DA, Schaeffer SM (2004) Water pulses and biogeochemical cycles in arid and semiarid ecosystems. Oecologia 141:221–235
Bonan GB (2008) Forests and climate change: forcings, feedbacks, and the climate benefits from the forests. Science 320:1444–1449
Cable JM, Huxman TE (2004) Precipitation pulse size effects on Sonoran Desert soil microbial crusts. Oecologia 141:317–324
Cable JM, Ogle K, Williams DG, Weltzin JF, Huxman TE (2008) Soil texture drives responses of soil respiration to precipitation pulses in the Sonoran Desert: implications for climate change. Ecosystems 11:961–979
Cleveland CC, Wieder WR, Reed SC, Townsend AR (2010) Experimental drought in a tropical rain forest increases soil carbon dioxide losses to the atmosphere. Ecology 91:2313–2323
Cramer W, Bondeau A, Woodward FI, Prentice IC, Betts RA, Brovkin V, Cox PM, Fisher V, Foley JA, Friend AD, Kucharik C, Lomas MR, Ramankutty N, Sitch S, Smith B, White A, Young-Molling C (2001) Global response of terrestrial ecosystem structure and function to CO2 and climate change: results from six dynamic global vegetation models. Global Change Biology 7:357–374
Deng Q, Zhou GY, Liu JX, Liu SZ, Duan HL, Zhang DQ (2010) Responses of soil respiration to elevated carbon dioxide and nitrogen addition in young subtropical forest ecosystems in China. Biogeosciences 7:315–328
Falge E, Baldocchi D, Olson R et al (2001) Gap filling strategies for defensible annual sums of net ecosystem exchange. Agricultural and Forest Meteorology 107:43–69
Fang C, Moncrieff JB (2001) The dependence of soil CO2 efflux on temperature. Soil Biology and Biochemistry 33:155–165
Fay PA, Kaufman DM, Nippert JB, Carlisle JD, Harper CW (2008) Changes in grassland ecosystem function due to extreme rainfall events: implications for responses to climate change. Global Change Biology 14:1600–1608
Fierer N, Schimel JP (2002) Effects of drying-rewetting frequency on soil carbon and nitrogen transformations. Soil Biology and Biochemistry 34:777–787
Flanagan LB, Wever LA, Carlson PJ (2002) Seasonal and interannual variation in carbon dioxide exchange and carbon balance in a northern temperate grassland. Global Change Biology 8:599–615
Harper CW, Blair JM, Fay PA, Knapp AK, Carlisle JD (2005) Increased rainfall variability and reduced rainfall amount decreases soil CO2 flux in a grassland ecosystem. Global Change Biology 11:322–334
He C, Chen S, Liang Y (1982) The soils of Dinghushan Biosphere Reserve. Tropical and Subtropical Forest Ecosystem 1:25–38
Hui D, Luo Y (2004) Evaluation of soil CO2 production and transport in Duke Forest using a process-based modeling approach. Global Biogeochemical Cycles 18. doi:10.1029/2004GB002297
Huxman TE, Snyder KA, Tissue DT et al (2004) Precipitation pulses and carbon fluxes in semiarid and arid ecosystems. Oecologia 141:254–268
Ilstedt U, Nordgren A, Malmer A (2000) Optimum soil water for soil respiration before and after amendment with glucose in humid tropical acrisols and a boreal mor layer. Soil Biology and Biochemistry 32:1591–1599
Intergovernmental Panel on Climate Change (IPCC) (2007) Climate change 2007: the physical science basis. In: Solomon S, Qin D, Manning M et al. (eds) Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge, New York, p 996
Jackson RB, Cook CW, Pippen JS, Palmer SM (2009) Increased belowground biomass and soil CO2 fluxes after a decade of carbon dioxide enrichment in a warm-temperate forest. Ecology 90:3352–3366
Knapp AK, Fay PA, Blair JM, Collins SL, Smith MD, Carlisle JD, Harper CW, Danner BT, Lett MS, McCarron JK (2002) Rainfall variability, carbon cycling, and plant species diversity in a mesic grassland. Science 298:2202–2205
Knapp AK, Beier C, Briske DD, Classen AT, Luo YQ, Reichstein M, Smith MD, Bell JE, Fay PA (2008) Consequences of more extreme precipitation regimes for terrestrial ecosystems. Bioscience 58:811–821
Kucera CL, Kirkham DR (1971) Soil respiration studies in tallgrass prairie in Missouri. Ecology 52:912–915
Lee XH, Wu HJ, Sigler J, Oishi C, Siccama T (2004) Rapid and transient response of soil respiration to rain. Global Change Biology 10:1017–1026
Liu XZ, Wan SQ, Su B, Hui DF, Luo YQ (2002) Response of soil CO2 efflux to water manipulation in a tallgrass prairie ecosystem. Plant and Soil 240:213–223
Liu JX, Zhang DQ, Zhou GY, Benjamin FV, Deng Q, Wang CL (2008) CO2 enrichment increases cation and anion loss in leaching water of model forest ecosystems in southern China. Biogeosciences 5:1783–1795
Luo Y, Wan S, Hui D, Wallace LL (2001) Acclimatization of soil respiration to warming in a tall grass prairie. Nature 413:622–625
Mo JM, Brown S, Peng SL, Kong GH (2003) Nitrogen availability in disturbed, rehabilitated and mature forests of tropical China. Forest Ecology and Management 175:573–583
Raich JW, Schlesinger WH (1992) The global carbon dioxide flux in soil respiration and its relationship to vegetation and climate. Tellus 44B:81–99
Raich JW, Potter CS, Bhagawati D (2002) Interannual variability in global soil respiration, 1980–94. Global Change Biology 8:800–812
Shen CD, Yi WX, Sun YM, Xing CP, Yang Y, Chao Y, Li ZA, Peng SL, An ZS, Liu TS (2001) Distribution of 14C and 13C in forest soils of the Dinghushan Biosphere Reserve. Radiocarbon 43:671–678
Sponseller RA (2007) Precipitation pulses and soil CO2 flux in a Sonoran Desert ecosystem. Global Change Biology 13:426–436
Valentini R, Matteucci G, Dolman AJ et al (2000) Respiration as the main determinant of carbon balance in European forests. Nature 404:861–865
van Straaten O, Veldkamp E, Köhler M, Anas I (2010) Spatial and temporal effects of drought on soil CO2 efflux in a cacao agroforestry system in Sulawesi, Indonesia. Biogeosciences 7:1223–1235
Wang BS, Ma MJ (1982) The successions of the forest community in Dinghushan. Tropical and Subtropical Forest Ecosystem Research 1:142–156 (in Chinese with English abstract)
Xu LK, Baldocchi DD, Tang JW (2004) How soil moisture, rain pulses, and growth alter the response of ecosystem respiration to temperature. Global Biogeochemical Cycles 18:GB4002. doi:10.1029/2004GB002281
Zhang DQ, Sun XM, Zhou GY, Yan JH, Wang YS, Liu SZ, Zhou CY, Tang XL, Li J, Zhang QM (2006) Seasonal dynamics of soil CO2 effluxes with responses to environmental factors in lower subtropical forest of China. Science in China Series D Earth Sciences 49(S1):139–149
Acknowledgments
We thank three anonymous reviewers for their constructive comments that improve the manuscript, and Chloe Davidson for her help improving the English grammar. This work was financially supported by key projects in the national science & technology pillar program during the eleventh five-year plan period (2009BADC6B07), Strategic Priority Research Program - Climate Change: Carbon Budget and Relevant Issues of the Chinese Academy of Sciences (No. XDA05050205), and National Science Fund for Distinguished Young Scholars of China.
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Deng, Q., Zhou, G., Liu, S. et al. Responses of Soil CO2 Efflux to Precipitation Pulses in Two Subtropical Forests in Southern China. Environmental Management 48, 1182–1188 (2011). https://doi.org/10.1007/s00267-011-9732-2
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DOI: https://doi.org/10.1007/s00267-011-9732-2