Abstract
Storage of carbohydrates in organs protected from disturbance is an important adaptation of plants in disturbed habitats. We carried out a field experiment involving 31 herbaceous plant species in two cultural meadows to find out whether roots or belowground stem-derived organs (stem bases, stem tubers and rhizomes) are the main storage organs, to study how reserves accumulate in individual organs in the long term (growing season) and to ascertain whether meadow abandonment affects the distribution of carbohydrate reserves in plants. We also conducted a 22-day pot experiment with four meadow plant species to determine how removal of roots and aboveground parts affects the use of carbohydrates stored in roots and stem-derived organs in the short term. From the long-term perspective of the field experiment, mowing had a positive effect on the concentration of carbohydrate reserves. From the short-term perspective of the pot experiment, however, the effect on concentration and pools of carbohydrates was negative. In the field experiment, carbohydrate concentrations before winter were generally higher than in mid-season, and more often higher in roots than in stem-derived organs. Roots and stem-derived organs of plants in the pot experiment were depleted similarly after both types of disturbance. Our results indicate a need for including both types of belowground plant organs in future studies of the carbon economy of plants from disturbed habitats.
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References
Anderson B, Matches AG, Nelson CJ (1989) Carbohydrate reserves and tillering of switchgrass following clipping. Agron J 81:13–16
Anderson NJ, Gorley RN, Clarke KR (2008) PERMANOVA + for PRIMER: Guide to software and statistical methods. PRIME-E, Plymouth, UK
Asaeda T, Rajapakse L, Manatunge J, Sahara N (2006a) The effect of summer harvesting of Phragmites australis on growth characteristics and rhizome resource storage. Hydrobiologia 553:327–335
Asaeda T, Manatunge J, Roberts J, Hai DN (2006b) Seasonal dynamics of resource translocation between the aboveground organs and age-specific rhizome segments of Phragmites australis. Environ Exp Bot 57:9–18
Asaeda T, Sharma P, Rajapakse L (2008) Seasonal patterns of carbohydrate translocation and synthesis of structural carbon components in Typha angustifolia. Hydrobiologia 607:87–101
Baptist F, Fromell HS, Cretat FV, Aranjuelo I, Clement JC, Crème A, Desclos M, Laine P, Nogues S, Lavorel S (2013) Carbohydrate and nitrogen stores in Festuca paniculata under mowing explain dominance in subalpine grasslands. Plant Biol 15:395–404
Bartoš M, Janeček Š, Klimešová J (2011) Effect of mowing and fertilization on biomass and carbohydrate reserves of Molinia caerulea at two organizational levels. Acta Oecol 37:299–306
Bertrand AM, Pavis N, Boucaud J, Prud′home MP (1999) Partitioning of reserve and newly assimilated carbon in roots and leaf tissues of Lolium perenne during regrowth after defoliation: assessment by 13C steady-state labelling and carbohydrate analysis. Plant Cell Environ 22:1097–1108
Cabaco S, Santos R (2007) Effect of burial and erosion on the seagrass Zostera noltii. J Exp Mar Biol Ecol 340:204–212
Chapin FS, Schulze ED, Mooney HA (1990) The ecology and economics of storage in plants. Annu Rev Ecol Syst 21:423–447
Chesson P (1994) Multispecies competition in variable environments. Theor Popul Biol 45:227–276
Chesson P (2000) Mechanisms of maintenance of species diversity. Annu Rev Ecol Syst 31:343–366
Christiansen S, Svejcar T (1987) Grazing effects on the total non-structural carbohydrate pools in Caucasian bluestem. Agron J 79:761–764
Čížková H, Lukavská J, Přibáň K, Kopecký J, Brabcová H (1996) Carbohydrate levels in rhizomes of Phragmites australis an oligotrophic and a eutrophic site: a preliminary study. Folia Geobot 31:111–118
Cooper CS, Watson CA (1968) Total available carbohydrates in roots of sainfoin (Onobrychis vicaefolia Scop.) and Alfalfa (Medicago sativa L.) when grown under several management regimes. Crop Sci 8:83–85
Coyne PI, Cook W (1970) Carbohydrate reserve cycles in eight desert range species. J Range Manag 23:438–444
de Bello F, Janeček Š, Lepš J, Doležal J, Macková J, Lanta V, Klimešová J (2012) Different plant trait scaling in dry versus wet Central European meadows. J Veg Sci 23:709–720
Ferreira CS, Piedade MTF, Tiné MAS, Rossatto DR, Parolin P, Buckeridge MS (2009) The role of carbohydrates in seed germination and seedling establishment of Himatanthus sucuuba, an Amazonian tree with populations adapted to flooded and non-flooded conditions. Ann Bot 104:1111–1119
Gabrielsen BC, Smith DH, Townsend CE (1985) Cicer milkvetch and alfalfa as influenced by two cutting schedules. Agron J 77:416–422
Gallagher JA, Volenec JJ, Turner LB, Pollock CJ (1997) Starch hydrolytic enzyme activities following defoliation of white clover. Crop Sci 37:1812–1818
Greub LJ, Wedin WF (1971) Leaf area, dry-matter production, and carbohydrate reserve levels of birdsfoot trefoil as influenced by cutting height. Crop Sci 11:734–738
Gunn TC, Walton DWH (1985) Storage carbohydrate production and overwintering strategy in a winter-green tussock grass on South Georgia (Sub Antarctic). Polar Biol 4:237–242
Janeček Š, Lepš J (2005) Effect of litter, leaf cover and cover of basal internodes of the dominant species Molinia caerulea on seedling recruitment and established vegetation. Acta Oecol 28:141–147
Janeček Š, Lanta V, Klimešová J, Doležal J (2011) Effect of abandonment and plant classification on carbohydrate reserves of meadow plants. Plant Biol 13:243–251
Johansson G (1993) Carbon distribution in grass (Festuca pratensis L.) during regrowth after cutting-utilization of stored and newly assimilated carbon. Plant Soil 151:11–20
Karunaratne S, Asaeda T, Yutani K (2004) Shoot regrowth and age-specific rhizome dynamics of Phragmites australis subjected to summer harvesting. Ecol Eng 22:99–111
Klimeš L (1995) Small-scale distribution of species richness in a grassland (Bílé Karpaty Mts, Czech Republic). Folia Geobot 30:499–510
Klimeš L (1999) Small-scale plant mobility in a species-rich grassland. J Veg Sci 10:209–218
Klimeš L, Klimešová J (2002) The effects of mowing and fertilization on carbohydrate reserves and regrowth of grasses: do they promote plant coexistence in species-rich meadows? Evol Ecol 15:363–382
Klimeš L, Klimešová J, Osbornová J (1993) Regeneration capacity and carbohydrate reserves in a clonal plant Rumex alpinus: effect of burial. Vegetatio 109:153–160
Klimeš L, Jongepier JW, Jongepierová I (1995) Variability in species richness and guild structure in 2 species rich grasslands. Folia Geobot 30:243–253
Klimeš L, Klimešová J, Čížková H (1999) Carbohydrate storage in rhizomes of Phragmites australis: the effects of altitude and rhizome age. Aquat Bot 64:105–110
Klimešová J, de Bello F (2009) CLO-PLA: the database of clonal and bud bank traits of Central European flora. J Veg Sci 20:511–516
Klimešová J, Klimeš L (1996) Effects of rhizome age and nutrient availability on carbohydrate reserves in Rumex alpinus rhizomes. Biologia 51:457–462
Klimešová J, Klimeš L (2006) CLO-PLA3: a database of clonal growth architecture of Central-European plants. URL: [http://clopla.butbn.cas.cz]
Klimešová J, Klimeš L (2007) Bud banks and their role in vegetative regeneration—a literature review and proposal for simple classification and assessment. Perspect Plant Ecol Evol Syst 8:115–129
Kobe RK (1997) Carbohydrate allocation to storage as a basis of interspecific variation in sampling survivorship and growth. Oikos 80:226–233
Körner C (2003) Carbon limitation in trees. J Ecol 91:4–17
Kutschera L, Lichtenegger E (1982) Wurzelatlas Mitteleuropäischer Grünlandpflanzen. Band 1. Monocotyledoneae. Gustav Fischer, Stuttgart
Kutschera L, Lichtenegger E (1992) Wurzelatlas Mitteleuropäischer Grünlandpflanzen. Band 2. Pteridophyta und Dicotyledoneae (Magnoliopsida). Gustav Fischer, Stuttgart
Kuzyakov Y, Biryukova OV, Kuznetzova TV, Mölter K, Kandeler E, Stahr K (2002) Carbon partitioning in plant and soil, carbon dioxide fluxes and enzyme activities as affected by cutting ryegrass. Biol Fert Soils 35:348–358
Lacey JR, Rutz KMO, Haferkamp MR, Kennett GA (1994) Effects of defoliation and competition on total non-structural carbohydrates of spotted knapweed. J Range Manag 47:481–484
Lanta V, Klimešová J, Martincová K, Janeček Š, Doležal J, Rosenthal J, Lepš J, Klimeš L (2011) A test of the explanatory power of plant functional traits on the individual and population levels. Perspect Plant Ecol Evol Syst 13:189–199
Lepš J (1999) Nutrient status, disturbance and competition: an experimental test of relationships in a wet meadow. J Veg Sci 10:219–230
Marshall C, Sagar GR (1965) The influence of defoliation on the distribution of assimilates in Lolium multiflorum Lam. Ann Bot 29:365–371
Menke JW, Trlica MJ (1981) Carbohydrate reserve, phenology, and growth cycles of nine Colorado range species. J Range Manag 34:269–277
Millard P, Sommerkorn M, Grelet GA (2007) Environmental change and carbon limitation in trees: a biochemical, ecophysiological and ecosystem appraisal. New Phytol 175:11–28
Miyanishi K, Kellman M (1986) The role of root nutrient reserves in regrowth of savannah shrubs. Can J Bot 64:1244–1248
Moran CH, Sprague VG, Sullivan JT (1953) Changes in the carbohydrate reserves of ladino white over following defoliation. Plant Physiol 28:467–474
Orthen B (2001) Sprouting of the fructan- and starch-storing geophyte Lachenalia minima: effects on carbohydrate and water content within the bulbs. Physiol Plant 113:308–314
Palacio S, Maestro M, Montserrat-Marti G (2007) Relationship between shoot-rooting and root-sprouting abilities and the carbohydrate and nitrogen reserves of mediterranean dwarf shrubs. Ann Bot 100:865–874
Richards JH, Caldwell MM (1985) Soluble carbohydrates, concurrent photosynthesis and efficiency in regrowth following defoliation: a field study with Agropyron species. J Appl Ecol 22:907–920
Risser PG, Cottam G (1968) Carbohydrate cycles in the bulbs of some spring ephemerals. Bull Torrey Bot Club 95:359–369
Roseff SJ, Bernard JM (1979) Seasonal changes in carbohydrate levels in tissues of Carex lacustris. Can J Bot 57:2140–2144
Sakai A, Sakai S (1998) A test for the resource remobilization hypothesis: tree sprouting using carbohydrates from above-ground parts. Ann Bot 82:213–216
Sakai A, Sakai S, Akiyama F (1997) Do sprouting tree species on erosion-prone sites carry large reserves of resources? Ann Bot 79:625–630
Schmitt A, Pausch J, Kuzyakov Y (2013) Effect of clipping and shading on C allocation and fluxes in soil under ryegrass and alfalfa estimated by 14C labelling. Appl Soil Ecol 64:228–236
Schubert S, Feuerle R (1997) Fructan storage in tubers of Jerusalem artichoke: characterization of sink strength. New Phytol 136:115–122
Shiomi N, Onodera S, Sakai H (1997) Fructo-oligosaccharide content and fructosyltransferase activity during growth of onion bulbs. New Phytol 136:105–113
Šťastná P, Klimeš L, Klimešová J (2010) Biological flora of Central Europe: rumex alpinus L. Perspect Plant Ecol Evol Syst 12:67–79
Suzuki JI, Hutchings MJ (1997) Interactions between shoots in clonal plants and the effects of stored resources on the structure of shoot populations. In: de Kroon H, von Groenendael J (eds) The ecology and evolution of clonal plants. Backhuys, Leiden, pp 311–329
Trlica MJ, Cook CW (1971) Defoliation effects on carbohydrate reserves of desert species. J Range Manag 24:418–425
White LM (1973) Carbohydrate reserves of grasses: a review. J Range Manag 26:13–18
Wilson RG, Kachman SD, Martin AR (2001) Seasonal changes in glucose, fructose, sucrose, and fructans in the roots of dandelion. Weed Sci 49:150–155
Wyka T (2000) Effect of nutrients on growth rate and carbohydrate storage in Oxytropis sericea: a test of the carbon accumulation hypothesis. Int J Plant Sci 161:381–386
Acknowledgments
We thank J. Altman, M. Bartoš, J. Doležal, F. de Bello, A. Kociánová, K. Kunertová, V. Lanta, V. Latzel, L. Leštinová, E. Patáčová, E. Padyšáková, H. Strusková and A. Zajčková for their assistance in the field and laboratory. We are indebted to Fred Rooks for linguistic help. This project was supported by the Grant Agency of the Czech Republic (GA 526/09/0963) and the long-term research development project RVO 67985939.
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Communicated by Hermann Heilmeier.
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Janeček, Š., Klimešová, J. Carbohydrate storage in meadow plants and its depletion after disturbance: do roots and stem-derived organs differ in their roles?. Oecologia 175, 51–61 (2014). https://doi.org/10.1007/s00442-014-2900-3
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DOI: https://doi.org/10.1007/s00442-014-2900-3