Abstract
The annual dynamics of live and dead fine roots for trees and the field layer species and live/dead ratios were investigated at a coniferous fern forest (Picea abies L. Karts) in Sweden. Our methods of estimating the average amount of fine roots involved the periodic sampling of fine roots in sequential cores on four sampling occasions. The highest live/dead ratio was found in the upper part of the humus layer for both tree and field-layer species and decreased with depth. Most tree fine roots on the four sampling occasions were found in the mineral soil horizon, where 86, 81, 85 and 89% of <1 mm and 89, 88, 89 and 92% of <2 mm diameter of the total amounts of live fine roots in the soil profile were found. The mean amounts of live fine roots of tree species for the total soil profile on the four sampling occasions was 317, 150, 139 and 248 g m−2 for <1 mm and 410, 225, 224 and 351 g m−2 for <2 mm diameter fine roots. The related amount of dead fine roots was 226, 321, 176 and 299 g m−2 and 294, 424, 282 and 381 g m−2, respectively. Average amounts of live and dead fine-roots and live/dead ratios from other Picea abies forest ecosystems were within the range of our estimates. The production of fine roots, <1 and <2 mm in diameter, estimated from the annual increments in live fine roots, was 207 and 303 g m−2. The related accumulation of dead fine roots was 257 and 345 g m−2, The turnover rate of tree fine roots <1 mm in diameter in the total soil profile amounted to 0.7 yr−1 for live and 0.8 yr−1 for dead fine roots. The related turnover rates for tree fine roots <2 mm were 0.4 yr−1 and 0.7 yr−1. Our data, although based on minimum estimates of the annual fluxes of live and dead fine roots, suggests a carbon flow to the forest soil from dead fine-roots even more substantial than from the needle litter fall. Fine-root data from several Picea abies forest ecosystems, suggest high turnover rates of both live and dead tree fine-roots.
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References
Aerts R, Bakker C, de Caluwe H (1992) Root turnover as determinant of the cycling of C, N and P in a dry heathland ecosystem. Biogeochemistry 15:175–190
Agerer R (ed) (1987–2002) Colour Atlas of Ectomycorrhizae. Einhorn-Verlag, Eduard Dietenberger Gmbh, Germany
Ågren G, Axelsson B, Flower-Ellis JGK, Linder S, Persson H, Staaf H, Troeng E (1980) Annual carbon budget for a young Scots pine. Ecol Bull Stockh 32:307–313
Ares A, Peinemann N (1992) Fine-root distribution of coniferous plantations in relation to site in southern Buenos Aires, Argentina. Can J For Res 22:1575–1582
Bakker M (1998) Effet des amendements calciques sur les racines fines de chêne (Quercus petrea et robur): conséquences des changements dans la rhizosphère. Doctoral thesis I’Université Henri Poincaré, Nancy
Bakker MR (1999) The effect of lime and gypsum application on a sessile oak (Quercus petrea (M.) Liebl.) stand at La Croix-Scaille (French Ardennes) II. Fine root dynamics. Plant Soil 2006:109–121
Bakker MR, Garbaye J, Nys C (2000) Effect of liming on the ectomycorrhizal status of oak. For Ecol Manage 126:121–131
Bakker MR, Augustin L, Achat DL (2006) Fine root distribution of trees and understory in mature stands of maritime pine (Pinus pinaster) on dry and humid sites. Plant Soil 286:37–51
Bloomfield J, Vogt K, Wargo PM (1996) Tree root turnover and senescence. In: Waisel Y, Eshel A, Kafkafi U (eds) Plant Roots – the Hidden Half, 2nd edn. pp 363–384
Børja I, De Wit HA, Steffenrem A, Majdi H (2008) Stand age and fine root biomass, distribution and morphology in a Norway spruce chronosequence in Southeast Norway. Tree Physiol 28:773–784
Borken W, Kossmann G, Matzner E (2007) Biomass, morphology and nutrient contents of fine roots in four Norway spruce stands. Plant Soil 292:79–92
Bowen GD (1984) Tree roots and the use of nutrients. In: Bowen, GD, Nambiar, EKS (eds) Nutrition of plantation forests, pp 147–179
Bowen GD (1991) Soil temperature, root growth, and plant function. In: Waisel Y, Eshel A, Kafkafi U (eds) Plant Roots – the Hidden Half, 1st edn. pp 309–330
Brundrett MC (2002) Coevolution of roots and mycorrhizas of land plants. New Phytol 154:275–304
Čermák J, Matyseek R, Kucera J (1993) Rapid response of large, drought stressed beech trees to irrigation. Tree Physiol 12:281–290
Cheng W, Johnson DW, Fu S (2003) Rhizosphere effects on decomposition: controls of plant species, phenology and fertilization. Soil Sci Soc Am J 67:1418–1427
Claus A, George E (2005) Effect of stand on fine-root biomass and biomass distribution in three European forest chronosequences. Can J For Res 35:1617–1625
Clemensson-Lindell A, Persson H (1992) Effects of freezing on rhizosphere and root nutrient content using two soil sampling methods. Plant Soil 139:39–45
Clemensson-Lindell A, Persson H (1995) Fine-root vitality in 30-year-old Norway spruce stand subjected to varying nutrient supplies. Plant Soil 168–169:167–171
Daldoum MA, Ranger J (1994) The biochemical cycle in a healthy and highly productive Norway spruce (Picea abies) ecosystem in the Vosges, France. Can J For Res 24:839–849
Durall DM, Marshall JD, Jones MD, Crawford R, Trappe JM (1994) Morphological changes and photosynthate allocation in ageing Hebeloma crustuliniforme (Bull.) Quel. and Laccaria bicolor (Maire) Orton mycorrhizas of Pinus ponderosa Dougl. ex. Laws. New Phytol 127:719–724
Eissenstat DM, Yanai RD (2002) Root life span, efficiency, and turnover. In: Waisel Y, Eshel A, Kafkafi U (eds) Plant Roots – the Hidden Half, 3rd edn. pp 221–238
Enstone DE, Peterson CA, Hallgren SW (2001) Anatomy of seedling tap roots of loblolly pine (Pinus taeda L.). Trees 15:98–111
Ericsson A, Persson H (1980) Seasonal changes in starch reserves and growth of fine roots of 20-year old Scots pines. Ecol Bull Stockh 32:239–250
Finér L, Helmisaari HS, Lohmus K, Madji H, Brunner I, Borja I, Eldhuset T, Godbold D, Grebenc T, Konopka B, Kraigher H, Mottonen MR, Ohashi M, Oleksyn J, Ostonen I, Uri V, Vanguelova E (2007) Variation in fine root biomass of three European tree species: beech (Fagus sylvatica L.), Norway spruce (Picea abies L. Karst.) and Scots pine (Pinus sylvestris L.). Plant Biosystems 141:394–405
Fontaine S, Mariotti A, Abbacies L (2003) The priming effect of organic matter: a question of microbial competition? Soil Biology & Biochemistry 35:837–843
Fontaine S, Bardoux G, Abbadie L, Mariotti A (2004) Carbon inputs to soil may decrease soil carbon content. Ecol Lett 7:314–320
Ford ED, Deans JD (1977) Growth of a Sitka Spruce Plantation: spatial distribution and seasonal fluctuations of lengths, weights and carbohydrate concentrations of fine roots. Plant Soil 47:463–485
Gaul D, Hertel D, Borken W, Matzner E, Leuschner C (2008) Effects of experimental drought on the fine root system of mature Norway spruce. For Ecol Manage 256:1151–1159
Gill R, Jackson RB (2000) Global patterns of root turnover for terrestrial ecosystems. New Phytol 147:13–31
Golovatskaya EA, Dyukarev EA (2009) Carbon budget of oligotrophic mire sites in the Southern Taiga of Western Sibiria. Plant Soil 315:19–34
Gross KI, Peters A, Pregitzer KS (1993) Fine root growth and demographic responses to nutrient patches in four old-field plant species. Oecologia 95:61–64
Hägglund B (1973) Om övre höjdens utveckling för gran i södra Sverige. Royal Coll For, Dept For Yield Res, Res Notes 24, 49 pp
Hallgren SW, Taver CG, Lock JE (1991) Fine root carbohydrate dynamics of loblolly pine seedlings grown under contrasting levels of soil moisture. For Sci 37:766–780
Helmisaari H-S, Hallbäcken L (1999) Fine-root biomass and necromass in limed and fertilized Norway spruce (Picea abies (L.) Karst.) stands. For Ecol Manage 119:99–110
Helmisaari H, Helmisaari H-S (1992) Long-term forest fertilization experiments in Finland and Sweden. Swed Environ Prot Agency Rep 4099, 123 pp
Helmisaari H-S, Makkonen K, Kellomäki S, Valtonen E, Mälkönen E (2002) Below- and above-ground biomass, production and nitrogen use in Scots pine stands in eastern Finland. For Ecol Manage 165:317–326
Helmisaari H-S, Derome J, Nöjd P, Kukkola M (2007) Fine root biomass in relation to site and stand characteristics in Norway spruce and Scots pine stands. Tree Physiol 27:1493–1504
Hendricks JJ, Aber JD, Nadelhoffer KJ, Hallett RD (2000) Nitrogen controls on fine root substrate quality in temperate forest ecosystems. Ecosystems 3:57–69
Hooker JE, Blank KE, Perry RL, Atkinson D (1995) Arbuscular mycorrhizal fungi induced alteration to root longevity of poplar. Plant Soil 172:327–329
Janssen IA, Sampson DA, Curiel-Yuste J, Carrara A, Ceulemans R (2002) The carbon cost of fine root turnover in a Scots pine forest. For Ecol Manage 168:231–240
Johansson T (1993) Seasonal changes in contents of root starch and soluble carbohydrates in 4–5-year old Betula pubescens and Populus tremula. Scand J For Res 8:94–106
John B, Pandey HN, Tripathi RS (2001) Vertical distribution and seasonal changes of fine and coarse root mass in Pinus kesiya Royle Ex. Gordon forest of three different ages. Acta Oecol 22:293–300
Kalisz PJ, Zimmermaan RW, Müller RN (1987) Root density, abundance and distribution in the mixed mesophytic forest of eastern Kentucky. Soil Sci Soc Am J 51:220–225
King JS, Albaugh TJ, Allen M, Buford H, Strain BR, Dougherty PM (2002) Below-ground carbon input to soil is controlled by nutrient availability and fine root dynamics in loblolly pine. New Phytol 154:389–398
Kobe RK (1997) Carbohydrate allocation to storage as basis of interspecific variation in sapling survivorship and growth. Oikos 80:236–233
Konôpka B, Yuste JC, Janssens IA, Ceulemans R (2005) Comparison of fine root dynamics in Scots pine and pedunculate oak in sandy soil. Plant Soil 276:33–45
Lambers H, Raven JA, Shaver GR, Smith SE (2008) Plant nutrient-acquisition strategies change with soil age. Trends Ecol Evol 23:95–103
Langley JA, Drake BG, Hungate BA (2002) Extensive belowground carbon storage supports roots and mycorrhizae in regenerating scrub oaks. Oecologia 131:542–548
Leshem B (1965) The annual activity of intermediary roots of the Aleppo pine. For Sci 11:291–298
Linné C von (1772) Deliciae Naturæ. Facsimile copy published in 1954 by Almqvist & Wiksell, Uppsala
Lippu J (1998) Redistribution of 14C-labelled reserve carbon in Pinus sylvestris seedlings during shoot elongation. Silva Fennica 32:3–10
Löfgren A (2005) Estimation of biomass and net primary production in field and ground layer, and biomass in litter layer in different vegetation types in Forsmark and Oskarshamn. Oskarshamn/Forsmark site investigation, SKB TR-05-80, Svensk Kärnbränslehantering AB
López B, Sabate S, Gracia CA (2001) Annual and seasonal changes in fine root biomass of a Quercus ilex L. forest. Plant Soil 230:125–134
Lundin L, Lode E, Stendahl J, Melkerud P-A, Björkvall L, Thorstensson A (2004) Soil and site types in the Forsmark area. SKB R-04-08, Svensk Kärnbränslehantering AB
Majdi H, Persson H (1993) Spatial distribution of fine roots, rhizosphere and bulk-soil chemistry in an acidified Picea abies stand. Scand J For Res 8:147–155
Makkonen K, Helmisaari H-S (1999) Assessing fine-root biomass and production in a Scots pine stand – comparison of soil core and ingrowth core methods. Plant Soil 210:43–50
Marschner H (2002) Mineral nutrition of higher plants. Second edition. Academic Press, 889 pp
Marshall JD, Waring RH (1985) Predicting fine root production and turnover by monitoring root starch and soil temperature. Can J For Res 15:791–800
Matamala R, Conzales-Meler MA, Jastrow JD, Norby RJ, Schlesinger WH (2003) Impacts of fine root turnover on forest NPP and soil C sequestration potential. Science 302:1385–1387
Meier IC, Leuschner C (2008) Genotypic variation and phenotypic plasticity in the drought response of fine roots of European beech. Tree Physiol 28:297–309
Mjöfors K, Johansson M-B, Nilsson Å, Hyvönen R (2007) Input and turnover of forest tree litter in the Forsmark and Oskarshamn areas. SKB R-07-23, Svensk Kärnbränslehantering AB
Moar SEL, Wilson SD (2006) Root responses to nutrient patches in grassland and forest. Plant Ecol 184:157–162
Moir WH, Bachelard EP (1969) Distribution of fine roots in three Pinus radiata plantations near Canberra, Australia. Ecology 50:658–662
Murach D, Schünemann E (1985) Reaktion der Feinwurzeln von Fichten auf Kalkungsmassnahmen. AFZ 45:1151–1154
Murach D, Klaproth F, Wiedemann H (1993) Feinwurzeluntersuchungen auf den Versuchsflächen des Dach-Expieriments im Solling. Forstarchiv 64:188–191
Nadezhdina N, Cermák J, Gašpárek J, Nadezdin V, Prax A (2006) Vertical and horizontal water redistribution in Norway spruce (Picea abies) roots in the Moravian Upland. Tree Physiol 26:1277–1288
Norby RJ, Jackson RB (2000) Root dynamics and global change, seeking an ecosystem perspective. New Phytol 147:3–12
Nordiska Ministerrådet (1978) Vegetationstyper. Representativa naturtyper och hotade biotoper i Norden. Remissupplaga November 1978
Olsthoorn AFM (1991) Fine root density and root biomass of two Douglas-fir stands on sandy soils in the Netherlands. 1. Root biomass in early summer. Netherl J Agric Sci 39:49–60
Oren R, Schulze E-D, Werk KS, Meyer J, Schneider BU, Heilmeier H (1988) Performance of two Picea abies (L.) Karst. Stands at different stages of decline. I. Carbon relations and stand growth. Oecologia (Berlin) 75:25–37
Ostonen I, Lõhmus K, Lasn R (1999) The role of soil conditions in fine root ecomorphology in Norway spruce (Picea abies (L.) Karst.). Plant Soil 2008:283–292
Ostonen I, Lõhmus K, Pajuste K (2005) Fine root biomass, production and its proportion of NPP in a fertile middle-aged Norway spruce forest: Comparison of soil core and ingrowth core methods. For Ecol Manage 212:264–277
Palviainen M, Finér L, Mannerkoski H, Piirainen S, Starr M (2005) Changes in the above- and below-ground biomass and nutrient pools of ground vegetation after clear-cutting of a mixed boreal forest. Plant Soil 275:157–167
Persson H (1978) Root dynamics in a young Scots pine stand in Central Sweden. Oikos 30:508–519
Persson H (1979) Fine-root production, mortality and decomposition in forest ecosystems. Vegetatio 41:101–109
Persson H (1980a) Spatial distribution of fine root growth, mortality and decomposition in a young Scots pine stand in Central Sweden. Oikos 34:77–87
Persson H (1980b) Fine-root dynamics in a Scots pine stand with and without near-optimum nutrient and water regimes. Acta Phytogeogr Suec 68:101–110
Persson H (1983) The distribution and productivity of fine roots in boreal forests. Plant Soil 71:87–101
Persson H (1996) Fine-root dynamics in forest trees. In: Persson H, Baitulin I (eds) Plant root systems and natural vegetation, pp 17–23
Persson H (2000) Adaptive tactics and characteristics of tree fine roots. Dev Plant Soil Sci 33:337–346
Persson H (2002) Root system in arboreal plants. In: Waisel Y, Eshel A, Kafkafi U (eds) Plant Roots – the Hidden Half, 3rd edn. pp 187–204
Persson H, Ahlström K (1999) Effect of nitrogen deposition on tree roots in boreal forests. In: Persson H (ed), Going Underground – Ecological Studies in Forest Soils. Commission of the European Communities. Air Poll Rep 32:221–238
Persson H, Ahlström K (2002) Fine-root response to nitrogen in nitrogen manipulated Norway spruce catchment areas. For Ecol Manage 168:29–41
Persson H, Stadenberg I (2007) Distribution of fine roots in forest areas close to the Swedish Forsmark and Oskarshamn nuclear power plants. SKB TR-07-01, Svensk Kärnbränslehantering AB
Persson, H, Stadenberg I (2008) Growth dynamics of fine roots in a coniferous fern forest site close to Forsmark in the central part of Sweden. SKB TR-07-11, Svensk Kärnbränslehantering AB
Persson H, Stadenberg I (2009) Spatial distribution of fine roots in boreal forest in eastern Sweden. Plant Soil 318:1–14
Persson H, Majdi H, Clemensson-Lindell A (1995a) Effect of acid deposition on tree roots. Ecol Bull Stockh 44:158–167
Persson H, von Fircks Y, Majdi H, Nilsson LO (1995b) Root distribution in a Norway spruce (Picea abies (L.) Karst.) stand subjected to drought and ammonium-sulphate application. Plant Soil 168–169:161–165
Pregitzer KS, Hendrick RL, Fogel R (1993) The demography of fine roots in response to patches of water and nitrogen. New Phytol 125:575–580
Pregitzer KS, King JS, Burton AJ, Brown SE (2000) Responses of tree fine roots to temperature. New Phytol 147:105–115
Pregitzer KS, DeForest JL, Burton AJ, Allen MF, Ruess RW, Hendrick RL (2002) Fine root architecture of nine North American trees. Ecol Monogr 72:293–309
Prescott CE, Blevins LL, Staley C (2004) Litter decomposition in B.C. forests: controlling factors and influences of forestry activities. BC J Ecosyst Managem 5:30–43
Puhe J (1993) Die Wurzelentwicklung der Fichte (Picea abies [L.] Karst.) bei unterschiedlichen chemishen Bodenbedingumgen. Diss. Forstwissenschaftlichen Fachbereichs der Georg-August-Universität Göttingen, 131 pp
Puhe J (2003) Growth and development of the root system of Norway spruce (Picea abies) in forest stands—a review. For Ecol Manage 175:253–273
Puhe J, Persson H, Börjesson I (1986) Wurzelwachtum und Wurzelshäden in Skandinavischen Nadelwäldern. AFZ 20:488–492
Püttsepp Ü, Lõhmus K, Persson HÅ, Ahlström K (2006) Fine-root distribution and morphology in an acidic Norway spruce (Picea abies (L.) Karst.) stand in SW Sweden in relation to granulated wood ash application. For Ecol Manage 221:291–298
Raich JW, Nadelhoffer KJ (1989) Belowground carbon allocation in forest ecosystems: global trends. Ecology 70:1346–1354
Richter AK, Walthert L, Frossard E, Brunner I (2007) Does low soil base saturation affect fine root properties of European beech (Fagus sylvatica L.)? Plant Soil 293:69–79
Roberts J (1976) A study of root distribution and growth in a Pinus sylvestris L. (Scots pine) plantation in Thetford Chase, East Anglia. Plant Soil 44:607–621
Roehrig Hansen HB, Thomsen L (1991) Rodundersøgelser og biomassemålinger på tre danske rødgranlokaler. Rapport Laboratoriet Økologi og Miljølaere, Danmarks Tekniske Højskole, Lyngby, Denmark, 112 pp
Ruess RW, van Cleve K, Yarie J, Viereck LA (1996) Contributions of fine root production and turnover to the carbon and nitrogen cycling in taiga forests on the Alaskan interior. Can J For Res 26:1326–1336
Ruess RW, Burton AJ, Pregitzer KS, Sveinbjornsson B, Allen MF, Maurer E (2003) Coupling fine root dynamics with ecosystem carbon cycling in black spruce forests of interior Alaska. Ecolol Monogr 73:643–662
Safford LO, Bell S (1972) Biomass of fine roots in a white spruce plantation. Can J For Res 2:169–172
Santantonio D (1980) Seasonal dynamics of fine roots in mature stands of Douglas-fir on different water regimes – a preliminary report. In: Riedacker A, Gagnaire-Michard J (eds) Symposium root physiology and symbiosis, Nancy, France. Centre Nationale de Recherches Forestière, Seichamp
Santantonio D, Hermann RK (1985) Standing crop, production, and turnover of fine roots on dry, moderate, and wet sites of mature Douglas-fir in western Oregon. Ann Sci For 42:113–142
Santantonio D, Hermann RK, Overton WS (1977) Root biomass studies in forest ecosystems. Pedobiologia 17:1–31
Scarascia-Mugnozza G, Bauer GA, Persson H, Matteucci G, Masci A (2000) Tree biomass, growth and nutrient pools. In: Schulze ED (ed) Carbon and Nitrogen Cycling in European Forest Ecosystems. Ecol Stud 142:49-62
Scheffer RA, Aerts R (2000) Root decomposition and soil nutrient and carbon cycling in two temperate fen ecosystems. Oikos 91:541–549
Stober C, Eckart GA, Persson H (2000) Root growth and response to nitrogen. In: Carbon and nitrogen cycling in European forest Ecosystems. Schulze E-D (ed). Ecol Stud 142:99–121
Strand AE, Pritchard SG, McCormack ML, Davis MA, Oren R (2008) Irreconcilable differences: fine root life spans and soil carbon persistence. Science 319:456–458
Tateno R, Hishi T, Takeda H (2004) Above- and belowground biomass and net primary production in a cool-temperate deciduous forest in relation to topographical changes in soil nitrogen. For Ecol Manage 193:297–306
Taylor JH, Peterson CA (2000) Morphometric analysis of Pinus banksiana Lamb. Root anatomy during a 3-month field study. Trees 14:239–247
Trumbore SE, Gaudinski JB (2003) Atmospheric science: the secret lives of roots. Science 302:1344–1345
Ulrich B, Pirouzpanah D, Murach D (1984) Bezeihungen zwischen Bodenversauerung und Wurzelentwicklung von Fichten mit unterschiedlich starken Schadsymptomen. Forestarchiv 55:127–134
van Praag HJ, Sougnez-Remy S, Weissen F, Carlett FG (1988) Root turnover in a beech and a spruce stand at the Belgian Ardennes. Plant Soil 105:87–103
Vanguelova EI, Nortcliff S, Moffat AJ, Kennedy F (2005) Morphology, biomass and nutrient status of fine roots of Scots pine (Pinus sylvestris) as influenced by seasonal fluctuations in soil moisture and soil solution chemistry. Plant Soil 270:233–247
Vanninen P, Mäkelä A (1999) Fine root biomass of Scots pine stand differing in age and soil fertility in southern Finland. Tree Physiol 19:823–830
Vogt KA, Persson H (1991) Measuring growth and development of roots. In: Lassoie JP, Hinckley TM (eds) Techniques and Approaches in Forest Tree Ecophysiology. CRS, Press, pp 477–501
Vogt KA, Moore EE, Vogt DJ, Redlin MR, Edmonds RL (1983) Conifer fine roots and mycorrhizal root biomass within the forest floors of Douglas-fir stands of different ages and site productivities. Can J For Res 13:429–437
Wilcox H (1954) Primary organization of active and dormant roots of noble fir, Abies procera. Am J Bot 41:812–821
Xiangroung W, Zhengquan W, Yourzhi H, Jiancun G, Dali G, Li M (2007) Variations of fine root diameter with root order in Manchurian ash and Dahurian larch plantations. Front Forest China 2:34–39
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We are grateful for financial support from the Swedish Nuclear Fuel and Waste Management Co (SKB). We thank Anders Löfgren and several other research workers at the SKB for constructive criticism and help. We are grateful to colleagues within the COST E38 network for submitting relevant data.
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Persson, H.Å., Stadenberg, I. Fine root dynamics in a Norway spruce forest (Picea abies (L.) Karst) in eastern Sweden. Plant Soil 330, 329–344 (2010). https://doi.org/10.1007/s11104-009-0206-8
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DOI: https://doi.org/10.1007/s11104-009-0206-8