Estimation of annual spatial variations in forest production and crop yields at landscape scale in temperate climate regions

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• 作者：M. Ruidisch (1)
  T. T. Nguyen (2)
  Y. L. Li (3)
  R. Geyer (1)
  J. Tenhunen (1)
  
  1. Department of Plant Ecology ; University of Bayreuth ; 95440 ; Bayreuth ; Germany
  2. Institute of Environmental Economics and World Trade ; Leibnitz University Hannover ; 30167 ; Hannover ; Germany
  3. South China Botanical Garden ; Chinese Academy of Sciences ; Guangzhou ; 510650 ; China
  
• 关键词：Photosynthesis ; Bioenergy production ; Plant growth model ; Spatial analysis ; Climate change ; Drought
• 刊名：Ecological Research
• 出版年：2015
• 出版时间：March 2015
• 年：2015
• 卷：30
• 期：2
• 页码：279-292
• 全文大小：1,592 KB
• 参考文献：1. Adiku, S, Reichstein, M, Lohila, A, Dinh, NQ, Aurela, M, Laurila, T, Lueers, J, Tenhunen, JD (2006) PIXGRO: a model for simulating the ecosystem CO2 exchange and growth of spring barley. Ecol Model 190: pp. 260-276 CrossRef
  In: Regionalentwicklungskonzept der Bioenergieregion Bayreuth, Fortschreibung 2012鈥?015. Regionalmanagement Stadt und Landkreis Bayreuth GbR, Bayreuth
  2. Bringezu, S, Sch眉tz, H, Arnold, K, Merten, F, Kabasci, S, Borelbach, P, Michels, C, Reinhardt, GA, Rettenmaier, N (2009) Global implications of biomass and biofuel use in Germany鈥攔ecent trends and future scenarios for domestic and foreign agricultural land use and resulting GHG emissions. J Clean Prod 17: pp. S57-S68 CrossRef
  3. Brown, PW (1989) Cooperative extension 8915. University of Arizona, Heat units
  4. Ciais, P, Reichstein, M, Viovy, N, Granier, A, Ogee, J, Allard, V, Aubinet, M, Buchmann, N, Bernhofer, C, Carrara, A, Chevallier, F, Noblet, N, Friend, AD, Friedlingstein, P, Grunwald, T, Heinesch, B, Keronen, P, Knohl, A, Krinner, G, Loustau, D, Manca, G, Matteucci, G, Miglietta, F, Ourcival, JM, Papale, D, Pilegaard, K, Rambal, S, Seufert, G, Soussana, JF, Sanz, MJ, Schulze, ED, Vesala, T, Valentini, R (2005) Europe-wide reduction in primary productivity caused by the heat and drought in 2003. Nature 437: pp. 529-533 CrossRef
  5. Core Team R, R (2013) A language and environment for statistical computing. R Foundation for statistical computing, Vienna
  6. Diekmann, M (1996) Relationship between flowering phenology of perennial herbs and meteorological data in deciduous forests of Sweden. Can J Bot 74: pp. 528-537 CrossRef
  7. Dixon, RK, Solomon, AM, Brown, S, Houghton, RA, Trexier, MC, Wisniewski, J (1994) Carbon pools and flux of global forest ecosystems. Science 263: pp. 185-190 CrossRef
  8. Fargione, J, Hill, J, Tilman, D, Polasky, S, Hawthorne, P (2008) Land clearing and the biofuel carbon debt. Science 319: pp. 1235-1238 CrossRef
  9. Farquhar, GD, Caemmerer, S Modelling of photosynthetic response to environmental conditions. In: Lange, OL, Nobel, PS, Osmond, CB, Ziegler, H eds. (1982) Physiological plant ecology II, 12/B. Springer, Berlin Heidelberg, pp. 549-587 CrossRef
  10. Fritsche, UR, Sims, REH, Monti, A (2010) Direct and indirect land-use competition issues for energy crops and their sustainable production鈥攁n overview. Biofuels Bioprod Bioref 4: pp. 692-704 CrossRef
  11. Granier, A, Br茅da, N, Longdoz, B, Gross, P, Ngao, J (2008) Ten years of fluxes and stand growth in a young beech forest at Hesse, North-eastern France. Ann For Sci 65: pp. 704 CrossRef
  12. Hackett, C, Carolane, J Introduction and crop profiles. In: Hackett, C, Carolane, J eds. (1982) Edible horticultural crops: a compendium on information on fruit, vegetable, spice and nut species. Press, Sydney, Australia, Acad
  13. Harley, PC, Tenhunen, JD Modeling the photosynthetic response of C3 leaves to environmental factors. In: Boote, KJ, Loomis, RS eds. (1991) Modeling crop photosynthesis鈥攆rom biochemistry to canopy. Anaheim, California, pp. 17-39
  14. Hussain, MZ, Gr眉nwald, T, Tenhunen, JD, Li, YL, Mirzae, H, Bernhofer, C, Otieno, D, Dinh, NQ, Schmidt, M, Wartinger, M, Owen, K (2011) Summer drought influence on CO2 and water fluxes of extensively managed grassland in Germany. Agric Ecosyst Environ 141: pp. 67-76 CrossRef
  15. Hutchinson, GK, Richards, K, Risk, WH (2000) Aspects of accumulated heat patterns (growing degree-days) and pasture growth in Southland. Proc NZ Grassl Assoc 62: pp. 81-85
  16. Kang, S, Post, WM, Nichols, JA, Wang, D, West, TO, Bandaru, V, Izaurralde, RC (2013) Marginal lands: concepts, assessment and management. J Agr Sci 5: pp. 129-139
  17. Kiniry, JR, Williams, JR, Major, DJ, Izaurralde, RC, Gassman, PW, Morrison, M, Bergentine, R, Zentner, RP (1995) EPIC model parameters for cereal, oilseed, and forage crops in the northern Great Plains region. Can J Plant Sci 75: pp. 679-688 CrossRef
  18. Levy, PE, Grelle, A, Lindroth, A, M枚lder, M, Jarvis, PG, Kruijt, B, Moncrieff, JB (1999) Regional-scale CO2 fluxes over central Sweden by a boundary layer budget method. Agricult Forest Meteorol 98鈥?9: pp. 169-180 CrossRef
  19. Luyssaert, S, Inglima, I, Jung, M, Richardson, AD, Reichstein, M, Papale, D, Piao, SL, Schulze, E, Wingate, L, Matteucci, G, Aragao, L, Aubinet, M, Beer, C, Bernhofer, C, Black, KG, Bonal, D, Bonnefond, J, Chambers, J, Ciais, P, Cook, B, Davis, KJ, Dolman, AJ, Gielen, B, Goulden, M, Grace, J, Granier, A, Grelle, A, Griffis, T, Gr眉nwald, T, Guidolotti, G, Hanson, PJ, Harding, R, Hollinger, DY, Hutyra, LR, Kolari, P, Kruijt, B, Kutsch, W, Lagergren, F, Laurila, T, Law, BE, Lemaire, G, Lindroth, A, Loustau, D, Malhi, Y, Mateus, J, Migliavacca, M, Misson, L, Montagnani, L, Moncrieff, J, Moors, E, Munger, JW, Nikinmaa, E, Ollinger, SV, Pita, G, Rebmann, C, Roupsard, O, Saigusa, N, Sanz, MJ, Seufert, G, Sierra, C, Smith, M, Tang, J, Valentini, R, Vesala, T, Janssens, IA (2007) CO2 balance of boreal, temperate, and tropical forests derived from a global database. Global Change Biol 13: pp. 2509-2537 CrossRef
  20. Luyssaert, S, Ciais, P, Piao, SL, Schulze, E, Jung, M, Zaehle, S, Schelhaas, MJ, Reichstein, M, Churkina, G, Papale, D, Abril, G, Beer, C, Grace, J, Loustau, D, Matteucci, G, Magnani, F, Nabuurs, GJ, Verbeeck, H, Sulkava, M, Werf, GR, Janssens, IA (2010) The European carbon balance. Part 3: forests. Global Change Biol 16: pp. 1429-1450 CrossRef
  21. Mendham, NJ, Shipway, PA, Scott, RK (1981) The effects of delayed sowing and weather on growth, development and yield of winter oil-seed rape (Brassica napus). J Agr Sci 96: pp. 389-416 CrossRef
  22. Muraoka, H, Saigusa, N, Nasahara, KN, Noda, H, Yoshino, J, Saitoh, TM, Nagai, S, Murayama, S, Koizumi, H (2010) Effects of seasonal and interannual variations in leaf photosynthesis and canopy leaf area index on gross primary production of a cool-temperate deciduous broadleaf forest in Takayama, Japan. J Plant Res 123: pp. 563-576 CrossRef
  23. Neitsch SL, Arnold JG, Kiniry JR, Williams JR (2009) Soil and Water Assessment Tool. Theoretical Documentation Version 2009, Texas Water Resources Institute Technical Report No. 406. Texas, pp 1鈥?18
  24. Nguyen, TT, Tenhunen, JD (2013) Review of integrated ecological-economic analyses for bioenergy plants under climate change at local scale. Int J Clim Change Strateg Manag 5: pp. 324-343 CrossRef
  25. Olesen, JE, Bindi, M (2002) Consequences of climate change for european agricultural productivity, land use and policy. Eur J Agron 16: pp. 239-262 CrossRef
  26. Olesen, JE, Trnka, M, Kersebaum, KC, Skjelv氓g, AO, Seguin, B, Peltonen-Sainio, P, Rossi, F, Kozyra, J, Micale, F (2011) Impacts and adaptation of european crop production systems to climate change. Eur J Agron 34: pp. 96-112 CrossRef
  27. Rebetez, M, Mayer, H, Dupont, O, Schindler, D, Gartner, K, Kropp, JP, Menzel, A (2006) Heat and drought 2003 in Europe: a climate synthesis. Ann For Sci 63: pp. 569-577 CrossRef
  28. R枚tter, R, Geijn, SC (1999) Climate change effects on plant growth, crop yield and livestock. Clim Change 43: pp. 651-681 CrossRef
  29. Rouault, G, Candau, JN, Lieutier, F, Nageleisen, LM, Martin, JC, Warz茅e, N (2006) Effects of drought and heat on forest insect populations in relation to the 2003 drought in Western Europe. Ann For Sci 63: pp. 613-624 CrossRef
  30. Shurpali, NJ, Hyv枚nen, NP, Huttunen, JT, Clement, RJ, Reichstein, M, Nyk盲nen, H, Biasi, C, Martikainen, PJ (2009) Cultivation of a perennial grass for bioenergy on a boreal organic soil鈥攃arbon sink or source?. Global Change Biol Bioenergy 1: pp. 35-50 CrossRef
  31. Solomon S, Qin D, Manning M, Marquis M, Averyt K, Tignor MMB, Le Roy Miller H Jr, Chen Z (2007) Climate Change 2007. The physical science basis. Contribution of working group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change (IPCC). Cambridge, Cambridge University Press
  32. Tenhunen J (2013) Relating forest ecosystem flux studies to regional ecosystem services. In: Synthesis workshop on the carbon budget and forest ecosystem in the Asian Monitoring Network鈥攖he 20th Anniversary of the Takayama Site, Japan. Hida Earth Wisdom Center Takayama, pp 40鈥?3
  33. Tenhunen, J, Geyer, R, Adiku, S, Reichstein, M, Tappeiner, U, Bahn, M, Cernusca, A, Dinh, NQ, Kolcun, O, Lohila, A, Otieno, D, Schmidt, M, Schmitt, M, Wang, Q, Wartinger, M, Wohlfahrt, G (2009) Influences of changing land use and CO2 concentration on ecosystem and landscape level carbon and water balances in mountainous terrain of the Stubai Valley, Austria. Global Planet Change 67: pp. 29-43 CrossRef
  34. Titei, V, Teleuta, A, Muntean, A (2013) The perspective of cultivation and utilization of the species Silphium Perfoliatum L. Bull UASMV Ser Agric 70: pp. 160-166
  35. Vadas, PA, Barnett, KH, Undersander, DJ (2008) Economics and energy of ethanol production from alfalfa, corn, and switchgrass in the Upper Midwest, USA. Bioenerg Res 1: pp. 44-55 CrossRef
  36. Zenone, T, Chen, J, Deal, MW, Wilske, B, Jasrotia, P, Xu, J, Bhardwaj, AK, Hamilton, SK, Philip Robertson, G (2011) CO2 fluxes of transitional bioenergy crops: effect of land conversion during the first year of cultivation. Global Change Biol Bioenerg 3: pp. 401-412 CrossRef
  
• 刊物主题：Ecology; Plant Sciences; Zoology; Evolutionary Biology; Behavioural Sciences; Forestry;
• 出版者：Springer Japan
• ISSN：1440-1703

文摘

Simulating regional variations in gross primary production (GPP) and yields of major land cover types is complex due to differences in plant physiological properties, landscape topography, and climate gradients. In our study, we analyzed the inter-annual and inter-regional variation, as well as the effect of summer drought, on gross primary production and crop yields of 9 major land uses within the state-funded Bioenergy Region Bayreuth in Germany. We developed a simulation framework using a process based model which accounts for variations in both CO2 gas exchange, and in the case of crops, growth processes. The results indicated a severe impact of summer drought on GPP, particularly of forests and grasslands. Yields of winter crops, early planted summer grain crops as well as the perennial 2nd generation biofuel crop Silphium perfoliatum, on the other hand, were buffered despite drought by comparatively mild winter and spring temperatures. We estimated regional yield increases from SW to NE, suggesting a comparative advantage for these crops in the cooler and upland part of the region. In contrast, grasslands and annual summer crops such as maize and potato did not exhibit any apparent regional pattern in the simulations. The 2nd generation bioenergy crop exhibited significantly higher GPP and yields compared to the conventional bioenergy crop maize, suggesting that cultivation of S. perfoliatum should be increased for economic and environmental reasons, but additional study of the growth of S. perfoliatum is still required.