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Environmental Earth Sciences

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01.08.2014 | Original Article

Soil CO₂ concentration in biological soil crusts and its driving factors in a revegetated area of the Tengger Desert, Northern China

verfasst von: Lei Huang, Zhishan Zhang, Xinrong Li

Erschienen in: Environmental Earth Sciences | Ausgabe 3/2014

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Abstract

Biological soil crusts (BSCs) are an important cover in arid desert landscapes, and have a profound effect on the CO₂ exchange in the desert system. Although a large number of studies have focused on the CO₂ flux at the soil–air interface, relatively few studies have examined the soil CO₂ concentration in individual layers of the soil profile. In this study, the spatiotemporal dynamics of CO₂ concentration throughout the soil profile under two typical BSCs (algae crusts and moss crusts) and its driving factors were examined in a revegetated sandy area of the Tengger Desert from Mar 2010 to Oct 2012. Our results showed that the mean values of the vertical soil CO₂ concentrations under algal crusts and moss crusts were 600–1,200 μmol/mol at the 0–40 cm soil profiles and increased linearly with soil depth. Daily CO₂ concentrations showed a single-peak curve and often had a 1–2 h time delay after the maximum soil temperature. During the rainy season, the mean soil CO₂ concentration profile was 1,200–2,000 μmol/mol, which was 2–5 times higher as compared to the dry season (400–800 μmol/mol). Annually, soil moisture content was the key limiting factor of the soil CO₂ concentration, but at the daily time scale, soil temperature was the main limiting factor. Combined with infiltration depth of crusted soils, we predicted that precipitation of 10–15 mm was the most effective driving factor in arid desert regions.

Vorheriger Artikel Computational study on flow characteristics of acid mine drainage in oxidation pond with asymmetric and inclined shape

Nächster Artikel Tag-encoded pyrosequencing analysis of bacterial diversity within different alpine grassland ecosystems of the Qinghai-Tibet Plateau, China

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Abbasi MK, Muller C (2011) Trace gas fluxes of CO₂, CH₄ and N₂O in a permanent grassland soil exposed to elevated CO₂ in the Giessen FACE study. Atmos Chem Phys 11:9333–9342CrossRef

Bao F, Zhou GS, Wang FY, Sui XH (2010) Partitioning soil respiration in a temperate desert steppe in Inner Mongolia using exponential regression method. Soil Biol Biochem 42(12):2339–2341CrossRef

Barjracharya RM, Lai R, Kimble JM (2000) Erosion effects on carbon dioxide concentration and carbon flux from an Ohio Alfisol. Soil Sci 64:694–700CrossRef

Bekele A, Kellman L, Baltrami H (2007) Soil profile CO₂ concentrations in forested and clear cut sites in Nova Scotia, Canada. Forest Ecolo Manag 242:587–597CrossRef

Bowker MA (2007) Biological soil crust rehabilitation in theory and practice: an underexploited opportunity. Restor Ecol 15:3–23CrossRef

Bowling DR, Grote EE, Belnap J (2011) Rain pulse response of soil CO₂ exchange by biological soil crusts and grasslands of the semiarid Colorado Plateau, United States. J Geophys Res 116:G03028

Bubier JL, Bhatia G, Moore TR, Roulet NT, Lafleur PM (2003) Spatial and temporal variability in growing-season net ecosystem carbon dioxide exchange at a large peat-land in Ontario, Canada. Ecosystem 6:353–367

Buchmann N (2000) Biotic and abiotic factors controlling soil respiration rates in Picea abies stands. Soil Biol Biochem 32:1625–1635CrossRef

Castelle AJ, Galloway JN (1990) Carbon dioxide dynamics in acid forest soils in Shenandoah National Park. Soil Sci Soc Am J 54:252–257CrossRef

Chamran F, Gessler P, Chadwick O (2002) Spatially explicit treatment of soil–water dynamics along a semiarid catena. Soil Sci Soc Am J 66:1571–1583CrossRef

Daly E, Oishi AC, Porporato A, Katul GG (2008) A stochastic model for daily subsurface CO₂ concentration and related soil respiration. Adv Water Resour 31(7):987–994CrossRef

Davidson EA, Savage KE, Trumbore SE, Borken W (2006) Vertical partitioning of CO₂ production within a temperate forest soil. Glob Change Biol 12:944–956CrossRef

Diao YW, Zheng XH, Wang YS, Xu ZJ, Han SH, Zhu JG (2002) Measurement of CO₂ profiles in non-waterlogged soil in a FACE study. Chin J Appl Ecol 13(10):1249–1252

Elberling B (2003) Seasonal trends of soil CO₂ dynamics in a soil subject to freezing. J Hydrol 276:159–175CrossRef

Epron D, Farque L, Lucot E, Badot PM (1999) Soil CO₂ efflux in a beech forest: dependence on soil temperature and soil water content. Ann For Sci 56:221–226CrossRef

Fan J, Jones SB, Qi LB, Wang QJ, Huang MB (2012) Effects of precipitation pulses on water and carbon dioxide fluxes in two semiarid ecosystems: measurement and modeling. Environ Earth Sci 67(8):2315–2324CrossRef

Fang C, Monchieff JB (1998) Simple and fast technique to measure CO₂ profiles in soil. Soil Biol Biochem 30:2107–2112CrossRef

Fang C, Monchieff JB (1999) A model for soil CO₂ production and transport I: model development. Agric For Meteorol 95:225–236CrossRef

Fierer N, Chadwick OA, Trumbore SE (2005) Production of CO₂ in soil profiles of a California annual grassland. Ecosystems 8:412–429CrossRef

Flechard CR, Neftel A, Jocher M, Ammann C, Leifeld J, Fuhrer J (2007) Temporal changes in soil pore space CO₂ concentration and storage under permanent grassland. Agric For Meteorol 142:66–84CrossRef

Hansen JE, Lacis AA (1990) Sun and dust versus greenhouse gases: an assessment of their relative roles in global climate change. Nature 346(6286):713–719CrossRef

Hanson PJ, Edwards NT, Garten CT, Andrews JA (2000) Separating root and soil microbial contributions to soil respiration: a review of methods and observations. Biogeochemistry 48:115–146CrossRef

Huang L, Zhang ZS, Wu P (2010) Wavelet analysis of the precipitation time series in Shapotou desert area. J Lanzhou University (Natural Sciences) 46(5):63–66

Jassal RS, Black TA, Drewitt MD, Novak MD, Gaumont-Guay D, Nesic Z (2004) A model of the production and transport of CO₂ in soil: predicting soil CO₂ concentrations and CO₂ efflux from a forest floor. Agric For Meteorol 124:219–236CrossRef

Kammann C, Grunhage L, Jager HJ (2001) A new sampling technique to monitor concentrations of CO₂, CH₄ and N₂O in air at well defined depths in soils with varied water potential. Eur J Soil Sci 52:297–303CrossRef

Kuzyakov Y (2006) Sources of CO₂ efflux from soil and review of partitioning methods. Soil Biol Biochem 38(3):425–448CrossRef

Lan SB, Wu L, Zhang DL, Hu CX (2012) Successional stages of biological soil crusts and their microstructure variability in Shapotou region (China). Environ Earth Sci 65(1):77–88CrossRef

Li XR, Xiao HL, Zhang JG, Wang XP (2004) Long-term ecosystem effects of sandbinding vegetation in Shapotou region of Tengger Desert, northern China. Restor Ecol 12:376–390CrossRef

Li CH, Li Y, Tang LS (2010a) Soil organic carbon stock and carbon efflux in deep soils of desert and oasis. Environ Earth Sci 60(3):549–557CrossRef

Li XR, He MZ, Stefan Z, Li XJ, Liu LC (2010b) Micro-geomorphology determines community structure of BSCs at small scale. Earth Surf Proc Land 35:932–940CrossRef

Li XR, Zhang ZS, Huang L, Wang XP (2013) Review of the ecohydrological processes and feedback mechanisms controlling sand-binding vegetation systems in sandy desert regions of China. Chin Sci Bull 58(13):1483–1496CrossRef

Liikanen A, Huttunen JT, Karjalainen SM, Heikkinen K, Vaisanen TS, Nykanen H, Martikainen PJ (2006) Temporal and seasonal changes in greenhouse gas emissions from a constructed wetland purifying peat mining runoff waters. Ecol Eng 26:241–251CrossRef

Liu F, Liu CQ, Wang SL, Zhu ZJ (2012) Soil temperature and moisture controls on surface fluxes and profile concentrations of greenhouse gases in karst area in central part of Guizhou Province, southwest China. Environ Earth Sci 67(5):1431–1439CrossRef

Luo YQ, Wan SQ, Hui DF, Wallace LL (2001) Acclimatization of soil respiration to warming in a tall grass prairie. Nature 413:622–625CrossRef

Madonia P, Bellanca A, Di Pietro R, Mirabello L (2012) The role of near-surface cavities in the carbon dioxide cycle of karst areas: evidence from the Carburangeli Cave Natural Reserve (Italy). Environ Earth Sci 67(8):2423–2439CrossRef

Moncrieff J, Valentini R, Greco S, Seufert G, Ciccioli P (1997) Trace gas exchange over terrestrial ecosystems: methods and perspectives in micrometeorology. J Exp Bot 48:1133–1142CrossRef

Mosier AR, Mack L (1980) Gas chromatographic system for precise, rapid analysis of nitrous oxide. Soil Sci Soc Am J 44:1121–1123CrossRef

Pihlatie M, Pumpanen J, Rinne J, Ilvesniemi H, Simojoki A, Vesala T (2007) Gas concentration driven fluxes of nitrous oxide and carbon dioxide in boreal forest soil. Tellus 59B:458–469CrossRef

Pingintha N, Leclerc MY, Beasley JP, Zhang GJ, Senthong C (2010) Assessment of the soil CO₂ gradient method for soil CO₂ efflux measurements: comparison of six models in the calculation of the relative gas diffusion coefficient. Tellus 62B:47–58CrossRef

Post WM, Peng TH, Emanuel WR, King AW, Dale VH, DeAngelis DL (1990) The global carbon cycle. Am Sci 78:310–326

Pumpanen J, Ilvesniemi H, Peramaki M, Hari P (2003) Seasonal patterns of soil CO₂ efflux and soil air CO₂ concentration in a Scots pine forest: comparison of two chamber techniques. Glob Change Biol 9:371–382CrossRef

Rayment MB, Jarvis PG (2000) Temporal and spatial variation of soil CO₂ efflux in a Canadian boreal forest. Soil Biol Biochem 32:35–45CrossRef

Shi PL, Zhang XZ, Zhong ZM, Ouyang H (2006) Diurnal and seasonal variability of soil CO₂ efflux in a cropland ecosystem on the Tibetan Plateau. Agric For Meteorol 137:220–233CrossRef

Tang J, Baldocchi DD, Qi Y, Xu L (2003) Assessing soil CO₂ efflux using continuous measurements of CO₂ profiles in soils with small solid-state sensors. Agric For Meteorol 118:207–220CrossRef

Tang J, Baldocchi DD, Xu L (2005) Tree photosynthesis modulates soil respiration on a diurnal time scale. Global Change Biol 11(8):1298–1304CrossRef

Vargas R, Baldocchi DD, Allen MF, Bahn M, Black TA, Collins SL, Curiel Yuste J, Hirano T, Jassal RS, Pumpanen J, Tang J (2010) Looking deeper into the soil: biophysical controls and seasonal lags of soil CO₂ production and efflux. Ecol Appl 20:1569–1582CrossRef

Zhang ZS, Li XR, Nowak RS, Wu P, Gao YH, Zhao Y, Huang L, Hu YG, Jia RL (2013) Effect of sand-stabilizing shrubs on soil respiration in a temperate desert. Plant Soil 367(1–2):449–463CrossRef

Titel: Soil CO2 concentration in biological soil crusts and its driving factors in a revegetated area of the Tengger Desert, Northern China
verfasst von: Lei Huang
Zhishan Zhang
Xinrong Li
Publikationsdatum: 01.08.2014
Verlag: Springer Berlin Heidelberg
Erschienen in: Environmental Earth Sciences / Ausgabe 3/2014
Print ISSN: 1866-6280
Elektronische ISSN: 1866-6299
DOI: https://doi.org/10.1007/s12665-013-3000-0

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