Fine root growth and contribution to soil carbon in a mixed mature Pinus koraiensis forest

详细信息    查看全文

• 作者：Cunguo Wang ; Shijie Han ; Yumei Zhou ; Junhui Zhang ; Xingbo Zheng…
• 关键词：Old growth forests ; Fine root mass ; Fine root production ; Soil carbon
• 刊名：Plant and Soil
• 出版年：2016
• 出版时间：March 2016
• 年：2016
• 卷：400
• 期：1-2
• 页码：275-284
• 全文大小：674 KB
• 参考文献：Bai F, Sang W, Axmacher JC (2011) Forest vegetation responses to climate and environmental change: a case study from Changbai Mountain, NE China. For Ecol Manag 262:2052–2060. doi:10.​1016/​j.​foreco.​2011.​08.​046 CrossRef
  Brunner I, Bakker MR, Björk RG, Hirano Y, Lukac M, Aranda X, Børja I, Eldhuset TD, Helmisaari H-S, Jourdan C (2013) Fine-root turnover rates of European forests revisited: an analysis of data from sequential coring and ingrowth cores. Plant Soil 362:357–372. doi:10.​1007/​s11104-012-1313-5 CrossRef
  Clemmensen KE, Bahr A, Ovaskainen O, Dahlberg A, Ekblad A, Wallander H, Stenlid J, Finlay RD, Wardle DA, Lindahl BD (2013) Roots and associated fungi drive long-term carbon sequestration. Science 339:1615–1618. doi:10.​1126/​science.​1231923 CrossRef PubMed
  Côté B, Hendershot WH, Fyles JW, Roy AG, Bradley R, Biron PM, Courchesne F (1998) The phenology of fine root growth in a maple-dominated ecosystem: relationships with some soil properties. Plant Soil 201:59–69. doi:10.​1023/​A:​1004351705516 CrossRef
  De Kauwe MG, Medlyn BE, Zaehle S, Walker AP, Dietze MC, Wang YP, Luo Y, Jain AK, El-Masri B, Hickler T (2014) Where does the carbon go? A model-data intercomparison of vegetation carbon allocation and turnover processes at two temperate forest free-air CO2 enrichment sites. New Phytol 203:883–899. doi:10.​1111/​nph.​12847 PubMedCentral CrossRef PubMed
  Eissenstat DM, Wells CE, Yanai RD, Whitbeck JL (2000) Building roots in a changing environment: implications for root longevity. New Phytol 147:33–42. doi:10.​1046/​j.​1469-8137.​2000.​00686.​x CrossRef
  Ekblad A, Wallander H, Godbold D, Cruz C, Johnson D, Baldrian P, Björk R, Epron D, Kieliszewska-Rokicka B, Kjøller R (2013) The production and turnover of extramatrical mycelium of ectomycorrhizal fungi in forest soils: role in carbon cycling. Plant Soil 366:1–27. doi:10.​1007/​s11104-013-1630-3 CrossRef
  Fairley R, Alexander I (1985) Methods of calculating fine root production in forests. Blackwell Scientific Publications, Oxford
  Fang JY, Chen AP, Peng CH, Zhao SQ, Ci LJ (2001) Changes in forest biomass carbon storage in China between 1949 and 1998. Science 292:2320–2322. doi:10.​1126/​science.​1058629 CrossRef PubMed
  Fierer N, Schimel JP, Holden PA (2003) Variations in microbial community composition through two soil depth profiles. Soil Biol Biochem 35:167–176. doi:10.​1016/​S0038-0717(02)00251-1 CrossRef
  Finér L, Ohashi M, Noguchi K, Hirano Y (2011) Factors causing variation in fine root biomass in forest ecosystems. For Ecol Manag 261:265–277. doi:10.​1016/​j.​foreco.​2010.​10.​016 CrossRef
  Godbold DL, Hoosbeek MR, Lukac M, Cotrufo MF, Janssens IA, Ceulemans R, Polle A, Velthorst EJ, Scarascia-Mugnozza G, De Angelis P, Miglietta F, Peressotti A (2006) Mycorrhizal hyphal turnover as a dominant process for carbon input into soil organic matter. Plant Soil 281:15–24. doi:10.​1007/​s11104-005-3701-6 CrossRef
  Gough C, Vogel C, Schmid H, Su H-B, Curtis P (2008) Multi-year convergence of biometric and meteorological estimates of forest carbon storage. Agric For Meteorol 148:158–170. doi:10.​1016/​j.​agrformet.​2007.​08.​004 CrossRef
  Guo ZL, Zheng JP, Ma YD, Han SJ (2006) A preliminary study on fine root biomass and dynamics of woody plants in several major forest communities of Changbai Mountain, China. Acta Ecol Sin 26:2855–2862 in Chinese with English abstract
  Heimann M, Reichstein M (2008) Terrestrial ecosystem carbon dynamics and climate feedbacks. Nature 451:289–292. doi:10.​1038/​nature06591 CrossRef PubMed
  Helmisaari HS (1995) Nutrient cycling in Pinus sylvestrisstands in eastern Finland. Plant Soil 168:327–336. doi:10.​1007/​BF00029345 CrossRef
  Hendrick RL, Pregitzer KS (1992) The demography of fine roots in a northern hardwood forest. Ecology 73:1094–1104CrossRef
  Hendrick RL, Pregitzer KS (1996) Temporal and depth-related patterns of fine root dynamics in northern hardwood forests. J Ecol 84:167–176CrossRef
  Hendrick RL, Pregitzer K (1997) The relationship between fine root demography and the soil environment in northern hardwood forests. Ecoscience 4:99–105
  Hertel D, Leuschner C (2002) A comparison of four different fine root production estimates with ecosystem carbon balance data in a Fagus-Quercus mixed forest. Plant Soil 239:237–251. doi:10.​1023/​A:​1015030320845 CrossRef
  Hertel D, Strecker T, Müller-Haubold H, Leuschner C (2013) Fine root biomass and dynamics in beech forests across a precipitation gradient-is optimal resource partitioning theory applicable to water-limited mature trees? J Ecol 101:1183–1200. doi:10.​1111/​1365-2745.​12124 CrossRef
  Hodge A (2004) The plastic plant: root responses to heterogeneous supplies of nutrients. New Phytol 162:9–24. doi:10.​1111/​j.​1469-8137.​2004.​01015.​x CrossRef
  Högberg P, Read DJ (2006) Towards a more plant physiological perspective on soil ecology. Trends Ecol Evol 21:548–554. doi:10.​1016/​j.​tree.​2006.​06.​004 CrossRef PubMed
  Jackson RB, Mooney HA, Schulze ED (1997) A global budget for fine root biomass, surface area, and nutrient contents. Proc Natl Acad Sci U S A 94:7362–7366PubMedCentral CrossRef PubMed
  Jobbágy EG, Jackson RB (2001) The distribution of soil nutrients with depth: global patterns and the imprint of plants. Biogeochemistry 53:51–77. doi:10.​1023/​A:​1010760720215 CrossRef
  Karhu K, Auffret MD, Dungait JAJ, Hopkins DW, Prosser JI, Singh BK, Subke J-A, Wookey PA, Agren GI, Sebastia M-T, Gouriveau F, Bergkvist G, Meir P, Nottingham AT, Salinas N, Hartley IP (2014) Temperature sensitivity of soil respiration rates enhanced by microbial community response. Nature 513:81–84. doi:10.​1038/​nature13604 CrossRef PubMed
  Konôpka B, Noguchi K, Sakata T, Takahashi M, Konôpková Z (2006) Fine root dynamics in a Japanese cedar (Cryptomeria japonica) plantation throughout the growing season. For Ecol Manag 225:278–286. doi:10.​1016/​j.​foreco.​2006.​01.​004 CrossRef
  Konôpka B, Pajtík J, Malová M (2013) Fine root standing stock and production in young beech and spruce stands. Lesn Cas For J 59:163–171
  Liu QJ, Xu QQ, Zhang GP, Zhou CP (2009) Temporal and spatial variation of soil nitrogen mineralization in northern slope of Changbai Mountain in Northeast China. Acta Ecol Sin 29:5656–5664 in Chinese with English abstract
  Lukac M, Godbold DL (2010) Fine root biomass and turnover in southern taiga estimated by root inclusion nets. Plant Soil 331:505–513. doi:10.​1007/​s11104-009-0271-z CrossRef
  Luyssaert S, Schulze E-D, Börner A, Knohl A, Hessenmöller D, Law BE, Ciais P, Grace J (2008) Old-growth forests as global carbon sinks. Nature 455:213–215. doi:10.​1038/​nature07276 CrossRef PubMed
  Lyr H, Hoffmann G (1967) Growth rates and growth periodicity of tree roots. Int Rev For Res 2:181–236CrossRef
  Mainiero R, Kazda M, Schmid I (2010) Fine root dynamics in 60-year-old stands of Fagus sylvatica and Picea abies growing on haplic luvisol soil. Eur J For Res 129:1001–1009. doi:10.​1007/​s10342-010-0383-2
  McClaugherty CA, Aber JD, Melillo JM (1982) The role of fine roots in the organic matter and nitrogen budgets of two forested ecosystems. Ecology 63:1481–1490CrossRef
  McCormack ML, Adams TS, Smithwick EA, Eissenstat DM (2014) Variability in root production, phenology, and turnover rate among 12 temperate tree species. Ecology 95:2224–2235. doi:10.​1890/​13-1942.​1 CrossRef PubMed
  McCormack ML, Gaines K, Pastore M, Eissenstat DM (2015a) Early season root production in relation to leaf production among six diverse temperate tree species. Plant Soil 389:121–129. doi:10.​1007/​s11104-014-2347-7 CrossRef
  McCormack ML, Crisfield E, Raczka B, Schnekenburger F, Eissenstat DM, Smithwick EA (2015b) Sensitivity of four ecological models to adjustments in fine root turnover rate. Ecol Model 297:107–117. doi:10.​1016/​j.​ecolmodel.​2014.​11.​013 CrossRef
  Meier I, Leuschner C (2008) Belowground drought response of European beech: fine root biomass and carbon partitioning in 14 mature stands across a precipitation gradient. Glob Chang Biol 14:2081–2095. doi:10.​1111/​j.​1365-2486.​2008.​01634.​x
  Persson HÅ, Stadenberg I (2009) Spatial distribution of fine-roots in boreal forests in eastern Sweden. Plant Soil 318:1–14. doi:10.​1007/​s11104-008-9811-1 CrossRef
  Persson HÅ, Stadenberg I (2010) Fine root dynamics in a Norway spruce forest (Picea abies (L.) karst) in eastern Sweden. Plant Soil 330:329–344. doi:10.​1007/​s11104-009-0206-8 CrossRef
  Pregitzer KS, King JS, Burton AJ, Brown SE (2000) Responses of tree fine roots to temperature. New Phytol 147:105–115. doi:10.​1046/​j.​1469-8137.​2000.​00689.​x CrossRef
  R Core Team (2013) R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. URL http://​www.​R-project.​org/​
  Ruess RW, Hendrick RL, Burton AJ, Pregitzer KS, Sveinbjornssön B, Allen MF, Maurer GE (2003) Coupling fine root dynamics with ecosystem carbon cycling in black spruce forests of interior Alaska. Ecol Monogr 73:643–662. doi:10.​1890/​02-4032 CrossRef
  Shan JP, Tao DL, Wang M, Zhao SD (1993) Fine roots turnover in a broad-leaved Korean pine forest of Changbai mountain. Chin J Appl Ecol 4:241–245 in Chinese with English abstract
  Steinaker DF, Wilson SD (2008) Phenology of fine roots and leaves in forest and grassland. J Ecol 96:1222–1229. doi:10.​1111/​j.​1365-2745.​2008.​01439.​x CrossRef
  Steinaker DF, Wilson SD, Peltzer DA (2010) Asynchronicity in root and shoot phenology in grasses and woody plants. Glob Chang Biol 16:2241–2251. doi:10.​1111/​j.​1365-2486.​2009.​02065.​x CrossRef
  Stephenson NL, Das AJ, Condit R, Russo SE, Baker PJ, Beckman NG, Coomes DA, Lines ER, Morris WK, Rüger N (2014) Rate of tree carbon accumulation increases continuously with tree size. Nature 507:90–93. doi:10.​1038/​nature12914 CrossRef PubMed
  Trumbore SE, Gaudinski JB (2003) The secret lives of roots. Science 302:1344–1345. doi:10.​1126/​science.​1091841 CrossRef PubMed
  Vargas R, Trumbore SE, Allen MF (2009) Evidence of old carbon used to grow new fine roots in a tropical forest. New Phytol 182:710–718. doi:10.​1111/​j.​1469-8137.​2009.​02789.​x CrossRef PubMed
  Vogt KA, Grier CC, Vogt DJ (1986) Production, turnover, and nutrient dynamics of above- and belowground detritus of world forests. Adv Ecol Res 15:303–377CrossRef
  Walle IV, Mussche S, Samson R, Lust N, Lemeur R (2001) The above- and belowground carbon pools of two mixed deciduous forest stands located in East-Flanders (Belgium). Ann For Sci 58:507–517. doi:10.​1051/​forest:​2001141 CrossRef
  Wang CG, Han SJ, Zhou YM, Yan CF, Cheng XB, Zheng XB, Li MH (2012a) Responses of fine roots and soil N availability to short-term nitrogen fertilization in a broad-leaved Korean pine mixed forest in northeastern China. PLoS One 7:e31042. doi:10.​1371/​journal.​pone.​0031042 PubMedCentral CrossRef PubMed
  Wang CG, Han SJ, Zhou YM, Zhang JH, Zhang Y, Xu Y, Wang ST (2012b) Fine root mass and internal nutrient cycling in a broad leaved-Korean pine forest community of the Changbai Mountain. Sci Silvae Sin 48:148–153 in Chinese with English abstract
  Wiley E, Huepenbecker S, Casper BB, Helliker BR (2013) The effects of defoliation on carbon allocation: can carbon limitation reduce growth in favour of storage? Tree Physiol 33:1216–1228. doi:10.​1093/​treephys/​tpt093 CrossRef PubMed
  Xiao CW, Sang WG, Wang RZ (2008) Fine root dynamics and turnover rate in an Asia white birch forest of Donglingshan Mountain, China. For Ecol Manag 255:765–773. doi:10.​1016/​j.​foreco.​2007.​09.​062 CrossRef
  Yang LY, Li WH (2005) Fine root distribution and turnover in a broad-leaved and Korean pine climax forest of the Changbai Mountain in China. J Beijing For Uni 27:1–5 in Chinese with English abstract
  Yang X, Xu M (2003) Biodiversity conservation in Changbai Mountain biosphere reserve, northeastern China: status, problem, and strategy. Biodivers Conserv 12:883–903. doi:10.​1023/​A:​1022841107685 CrossRef
  Yang LY, Luo TX, Wu ST (2007) Fine root biomass and its depth distribution across the primitive Korean pine and broad-leaved forest and its secondary forests in Changbai Mountain, northeast China. Acta Ecol Sin 27:3609–3617 in Chinese with English abstract
  Yang LY, Wu ST, Zhang LB (2010) Fine root biomass dynamics and carbon storage along a successional gradient in Changbai Mountains, China. Forestry 83:379–387. doi:10.​1093/​forestry/​cpq020 CrossRef
  Yuan ZQ, Li BH, Bai XJ, Lin F, Shi S, Ye J, Wang XG, Hao ZQ (2010) Composition and seasonal dynamics of litter falls in a broad-leaved Korean pine (Pinus koraiensis) mixed forest in Changbai Mountains, Northeast China. Chin J Appl Ecol 21:2171–2178 in Chinese with English abstract
  Zhang N, Yu GR, Zhao SD, Yu ZL (2003) Ecosystem productivity process model for landscape based on remote sensing and surface data. Chin J Appl Ecol 14:643–652 in Chinese with English abstract
  Zheng JP, Guo ZL, Xu CY, Fan CN (2011) Seasonal dynamics of litter accumulation in major forest communities on the northern slope of Changbai mountain northeast China. Acta Ecol Sin 31:4299–4307 in Chinese with English abstract
  Zhou GY, Liu SG, Li Z, Zhang DQ, Tang XL, Zhou CY, Yan JH, Mo JM (2006) Old-growth forests can accumulate carbon in soils. Science 314:1417–1417. doi:10.​1126/​science.​1130168 CrossRef PubMed
  Zhou Y, Su JQ, Janssens IA, Zhou GS, Xiao CW (2014) Fine root and litterfall dynamics of three Korean pine (Pinus koraiensis) forests along an altitudinal gradient. Plant Soil 374:19–32. doi:10.​1007/​s11104-013-1816-8 CrossRef
  
• 作者单位：Cunguo Wang (1) (2)
  Shijie Han (2)
  Yumei Zhou (3)
  Junhui Zhang (2) (4)
  Xingbo Zheng (4)
  Guanhua Dai (4)
  Mai-He Li (2) (5)
  
  1. College of Agronomy, Shenyang Agricultural University, Shenyang, 110866, China
  2. State Key Laboratory of Forest and Soil Ecology, Institute of Applied Ecology, Chinese Academy of Sciences, Shenyang, 110016, China
  3. Shanghai Institute of Technology, Shanghai, 201418, China
  4. Research Station of Changbai Mountain Forest Ecosystems, Chinese Academy of Sciences, Antu, 133613, China
  5. Swiss Federal Research Institute WSL, Zuercherstrasse 111, CH-8903, Birmensdorf, Switzerland
  
• 刊物类别：Biomedical and Life Sciences
• 刊物主题：Life Sciences
  Plant Sciences
  Soil Science and Conservation
  Plant Physiology
  Ecology
  
• 出版者：Springer Netherlands
• ISSN：1573-5036

文摘

Background and aims Forest fine roots contribute substantially to carbon cycling, and old growth forests have an important role in the global carbon budget. We, hence, studied temporal variation in fine root production and turnover in an old forest.