Experimental Warming Increases Seasonal Methane Uptake in an Alpine Meadow on the Tibetan Plateau

详细信息    查看全文

• 作者：Xingwu Lin ; Shiping Wang ; Yigang Hu ; Caiyun Luo ; Zhenhua Zhang ; Haishan Niu…
• 关键词：warming ; grazing ; CH4 uptake ; alpine meadow ; Tibetan plateau ; climate change
• 刊名：Ecosystems
• 出版年：2015
• 出版时间：March 2015
• 年：2015
• 卷：18
• 期：2
• 页码：274-286
• 全文大小：544 KB
• 参考文献：1. Blankinship, JC, Brown, JR, Dijkstra, P, Allwright, MC, Hungate, BA (2010) Response of terrestrial CH4 uptake to interactive changes in precipitation and temperature along a climatic gradient. Ecosystems 13: pp. 1157-1170 CrossRef
  2. Blankinship, JC, Brown, JR, Dijkstra, P, Hungate, BA (2010) Effects of interactive global changes on methane uptake in an annual grassland. J Geophys Res Biogeo 115: pp. G02008 CrossRef
  3. Castaldi, S, Fierro, A (2005) Soil-atmosphere methane exchange in undisturbed and burned Mediterranean shrubland of southern Italy. Ecosystems 8: pp. 182-190 CrossRef
  4. Chen, WW, Wolf, B, Zheng, XH, Yao, ZS, Butterbach-Bahl, K, Bruggemann, N, Liu, CY, Han, SH, Han, XG (2011) Annual methane uptake by temperate semiarid steppes as regulated by stocking rates, aboveground plant biomass and topsoil air permeability. Global Change Biol 17: pp. 2803-2816 CrossRef
  5. Christensen, TR, Michelsen, A, Jonasson, S, Schmidt, IK (1997) Carbon dioxide and methane exchange of a subarctic heath in response to climate change related environmental manipulations. Oikos 79: pp. 34-44 CrossRef
  6. Dijkstra, FA, Morgan, JA, Fischer, JC, Follett, RF (2011) Elevated CO2 and warming effects on CH4 uptake in a semiarid grassland below optimum soil moisture. J Geophys Res Biogeo.
  7. Dlugokencky, EJ, Nisbet, EG, Fisher, R, Lowry, D (2011) Global atmospheric methane: Budget, changes and dangers. Phil Trans Soc A 369: pp. 2058-2072 CrossRef
  8. Dutaur A, Verchot LV. 2007. A global inventory of the soil CH₄ sink. Global Biogeochem Cycles. doi:10.1029/2006GB002734 .
  9. Hart, SC (2006) Potential impacts of climate change on nitrogen transformations and greenhouse gas fluxes in forests: A soil transfer study. Global Change Biol 12: pp. 1032-1046 CrossRef
  10. Hu, YG, Chang, XF, Lin, XW, Wang, YF, Wang, SP, Duan, JC, Zhang, ZH, Yang, XX, Luo, CY, Xu, GP, Zhao, XQ (2010) Effects of warming and grazing on N2O fluxes in an alpine meadow ecosystem on the Tibetan plateau. Soil Biol Biochem 42: pp. 944-952 CrossRef
  Chinese Soil Taxonomy. Science Press, Beijing, China
  11. IPCC. 2007. In: Soloman S, Qin D, Manning M, Chen,Z, Marquis M, Averyt KB, Tignor M, Miller HL (Eds.), Climate Change 2007: The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge, United Kingdom/New York, NY, USA. pp 539-43; 749-66.
  12. Kimball, BK, Conley, MM, Wang, SP, Lin, XW, Luo, CY, Morgan, J, Smith, D (2008) Infrared heater arrays for warming ecosystem field plots. Global Change Biol 14: pp. 309-320 CrossRef
  13. King, GM (1997) Responses of atmospheric methane consumption by soils to global climate change. Global Change Biol 3: pp. 351-362 CrossRef
  14. Krebs, CJ (1999) Ecological methodology. Addison Wesley Longman Educational Publishers Inc, Menlo Park, CA
  15. Mer, J, Roger, P (2001) Production, oxidation, emission and consumption of methane by soils: A review. Eur J Soil Biol 37: pp. 25-50 CrossRef
  16. Lin, XW, Wang, SP, Ma, XZ, Xu, GP, Luo, CY, Li, YN, Jiang, GM, Xie, ZB (2009) Fluxes of CO2, CH4, and N2O in an alpine meadow affected by yak excreta during summer grazing periods on the Qinghai-Tibetan plateau. Soil Biol Biochem 41: pp. 718-725 CrossRef
  17. Lin, XW, Zhang, ZH, Wang, SP, Hu, YG, Xu, GP, Luo, CY, Chang, XF, Dua
• 刊物类别：Biomedical and Life Sciences
• 刊物主题：Life Sciences
  Ecology
  Plant Sciences
  Zoology
  Environmental Management
  Geoecology and Natural Processes
  Nature Conservation
  
• 出版者：Springer New York
• ISSN：1435-0629

文摘

Increased understanding of the response of soil methane (CH4) uptake in alpine meadow ecosystems to warming and grazing could reduce uncertainty in estimates of the soil-atmospheric CH4 budget. To determine the effects of warming and grazing on soil CH4 uptake at different timescales (that is, daily, monthly, seasonal, and annual), we conducted a controlled warming and grazing experiment [that is, no warming with no grazing (NWNG), no warming with grazing (NWG), warming with no grazing (WNG), and warming with grazing (WG)] in an alpine meadow on the Tibetan plateau from 2006 to 2009. Soil CH4 uptake was mainly affected by warming and sample date and their interaction. Warming treatment regardless of grazing significantly increased seasonal average CH4 uptake by 31-39% during the growing season (from May to September) and by 162% during the non-growing season (from October to April next year) in 2007-008, whereas only WNG increased seasonal average CH4 uptake by 87-38% compared with NWNG during the non-growing seasons in 2006-007 and 2008-009. Warming in WNG and WG increased annual CH4 uptake by 50-7% compared with NWNG or NWG. Moreover, warming regardless of grazing and warming with grazing (compared with NWNG) significantly increased the contribution to annual uptake of CH4 uptake during the non-growing season in 2007-008 and 2008-009. However, moderate grazing did not significantly influence soil CH4 uptake, although grazing with warming decreased CH4 uptake by 43% during the growing season in 2006. Soil moisture explained 16-5% of the CH4 variation during the growing season, but there was no significant relationship between soil CH4 uptake and soil moisture during the non-growing season. Our results suggest that more attention should be paid to the stimulating effect of warming on soil CH4 uptake during the non-growing season due to its greater response to warming and different stimulating mechanisms compared to responses during the growing season in the alpine meadow.