Abstract
Submergence during the growing season often occurs in river areas throughout the world. In order not to succumb, plants have developed mechanisms to overcome periods of flooding that may differ greatly in duration, depth and frequency. To study these mechanisms, a group of related species, mainly from the genus Rumex, has been investigated as a model. Rumex occurs in regularly flooded to non-flooded sites in river areas. Adaptive behaviour ranges from changes in life-history strategies to responses at the level of hormones. Submergence may occur at several stages of the life cycle and these should all be included in studies concerning flooding resistance. In this life-history approach, adaptive responses at stages from seed bank to reproduction are described and experimentally proved. Rumex species from frequently flooded areas have persistent seed banks and are characterised by germination flushes after flooding in the spring. Species from higher elevations have transient seed banks and the seeds germinate in the autumn. A trade-off between survival of submergence and early reproduction was found in species occurring in the most frequently flooded sites. Submergence of the wetland species causes leaf re-orientation. This change, from prostrate to vertical, is accompanied by a stimulation of the extension growth of both petioles and internodes. Petiole elongation is due to increased cell expansion and is functionally related to the restoration of contact between shoots and air. This re-establishes oxygen-dependent metabolic processes. Both petiole and stem elongation are correlated with increased internal concentrations of ethylene. Measurements with a laser-driven photoacoustic detection technique reveal variations in endogenous ethylene levels among the various Rumex species. The differences in elongation reactions between the species are the result of differences in the internal concentration of ethylene and, predominantly, in sensitivity to this hormone. In wetland species, protrusion of a substantial part of the shoot above the water results in the formation of new aerenchymatous roots. Their high porosities enhance internal aeration, resulting in restored aerobic respiratory activities. Underwater photosynthesis is another adaptive response leading to the maintenance of basic physiological and biochemical processes during submergence. In some tolerant species the older plants survive the adverse underwater conditions through the slow consumption of carbohydrates stored in their tap roots. Thus, a broad spectrum of adaptive responses at the level of avoidance or tolerance strategies is involved in the survival of resistant riverside plants during and after total submergence.
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References
Armstrong W (1979) Aeration in higher plants. Advances in Botanical Research 7: 225–332
Armstrong W, Justin SHFW, Beckett PM, Lythe S (1991) Root adaptation to soil waterlogging. Aquatic Botany 39: 57–73
Blom CWPM (1990) Responses to flooding in weeds from river areas. In: Kawano S (ed) Biological approaches and evolutionary trends in plants. Academic Press, London, pp 81–94
Blom CWPM, Bogemann GM, Laan P, Sman AJM Van der, Steeg HM Van de, Voesenek LACJ (1990) Adaptations to flooding in plants from river areas. Aquatic Botany 38: 29–47
Bowes G (1987) Aquatic plant photosynthesis: Strategies that enhance carbon gain. In: Crawford RMM (ed) Plant life in aquatic and amphibious habitats. British Ecological Society, Special Symposium 5. Blackwell Scientific, Oxford, UK, pp 79–98
Brandle RA (1990) Flooding resistance of rhizomatous amphibious plants. In: Jackson MB, Davies DD, Lambers H (eds) Plant life under oxygen deprivation. SPB Academic, The Hague, The Netherlands, pp 35–46
Crawford RMM (1978) Metabolic adaptation to anoxia. In: Hook DD, Crawford RMM (eds) Plant life in anaerobic environments. Ann Arbor Scientific, Ann Arbor, Michigan, USA, pp 119–136
Crawford RMM (1982) Physiological responses to flooding. In: Lange O, Nobel PS, Osmond CB, Ziegler H (eds) Encyclopedia of plant physiology, New Series, Volume 12B, Physiological plant ecology. II. Water relations and carbon assimilation. Springer-Verlag, Berlin, Germany, pp 453–477
Engelaar WMHG, Bodelier PLE, Laanbroek HJ, Blom CWPM (1991) Nitrification in the rhizosphere of a flooding-resistant and a flooding-non-resistant/tamejc species under drained and waterlogged conditions. FEMS Microbiology Ecology 86: 33–42
Ernst WHO (1990) Ecophysiology of plants in waterlogged and flooded environments. Aquatic Botany 38: 73–90
Gambrell RP, DeLaune RD, Patrick WH (1991) Redox processes in soils following oxygen depletion. In: Jackson MB, Davies DD, Lambers H (eds) Plant life under oxygen deprivation. SPB Academic, The Hague, The Netherlands, pp 101–117
Gaynard TJ, Armstrong W (1987) Some aspects of internal aeration in amphibious species. In: Crawford RMM (ed) Plant life in aquatic and amphibious habitats. British Ecological Society, Special Symposium 5. Blackwell Scientific, Oxford, UK, pp 303–320
Harren FJM, Bijnen FGC, Reuss J, Voesenek LACJ, Blom CWPM (1990) Sensitive intracavity photoacoustic measurements with a CO2 waveguide laser. Applied Physics B 50: 137–144
Jackson MB (1985) Ethylene and the response of plants to excess water in their environment — a review. In: Roberts JA, Tucker GA (eds) Ethylene and plant development. Butterworths, London, UK, pp 241–265
Jackson MB (1990) Hormones and developmental change in plants subjected to submergence or soil waterlogging. Aquatic Botany 38: 49–72
Jackson MB, Drew MC (1984) Effect of flooding on herbaceous plants. In: Kozlowski TT (ed) Flooding and plant growth. Academic Press, London, UK, pp 47–128
Jackson MB, Davies DD, Lambers H (eds) (1990) Plant life under oxygen deprivation. SPB Academic, The Hague, The Netherlands
Jackson MB, Fenning TM, Drew MC, Saker LR (1985) Stimulation of ethylene production and gas space (aerenchyma) formation in adventitious roots of Zea mays L. by small partial pressures of oxygen. Planta 165: 486–492
Jackson MB, Pearce DME (1991) Hormones and morphological adaptation to aeration stress in rice. In: Jackson MB, Davies DD, Lambers H (eds) Plant life under oxygen deprivation. SPB Academic, The Hague, The Netherlands, pp 47–67
Karssen CM, Van Loon LC, Vreugdenhil D (eds) (1992) Progress in plant growth regulation. Current plant science and biotechnology in agriculture. Kluwer Academic Publishers, Dordrecht, Boston, London
Konings H (1982) Ethylene-promoted formation of aerenchyma in seedling roots of Zea mays L. under aerated and non-aerated conditions. Physiologia Plantarum 54: 119–124
Konings H, Jackson MB (1979) A relationship between rates of ethylene production by roots and the promoting or inhibiting effects of exogenous ethylene and water on root elongation. Zeitschrift für Pflanzenphysiologie 92: 385–397
Kozlowski TT (ed) (1984) Flooding and plant growth. Academic Press, London
Kuiper PJC, Bos M (eds) (1991) Plantago: A multidisciplinary study. Ecological Studies 89. Springer-Verlag, Berlin, Heidelberg, New York
Laan P (1990) Mechanisms of flood-tolerance in Rumex species. PhD Thesis, Katholieke Universiteit Nijmegen, The Netherlands
Laan P, Berrevoets MJ, Lythe S, Armstrong W, Blom CWPM (1989b) Root morphology and aerenchyma formation as indicators for the flood-tolerance of Rumex species. Journal of Ecology 77: 693–703
Laan P, Blom CWPM (1990) Growth and survival responses of Rumex species to flooded and submerged conditions: the importance of shoot elongation, underwater photosynthesis and reserve carbohydrates. Journal of Experimental Botany 41: 775–783
Laan P, Clement JMAM, Blom CWPM (1991) Growth and development of Rumex roots as affected by hypoxic and anoxic conditions. Plant and Soil 136: 145–151
Laan P, Smolders A, Blom CWPM, Armstrong W (1989a) The relative roles of internal aeration, radial oxygen losses, iron exclusion and nutrient balance in flood-tolerance of Rumex species. Acta Botanica Neerlandica 38: 131–145
Laan P, Tosserams M, Blom CWPM, Veen B (1990) Internal oxygen transport in Rumex species and its significance for respiration under hypoxic conditions. Plant and Soil 122: 39–46
Laanbroek HJ (1990) Bacterial cycling of minerals that affect plant growth in waterlogged soils: a review. Aquatic Botany 38: 109–125
Lotz LAP (1989) Variation in life-history characteristics between and within populations of Plantago major L. PhD Thesis, Katholieke Universiteit Nijmegen, The Netherlands
Lotz LAP, Blom CWPM (1986) Plasticity in life-history traits of Plantago major L. ssp. pleiosperma Pilger. Oecologia 69: 25–30
Musgrave A, Jackson MB, Ling E (1972) Callitriche stem elongation is controlled by ethylene and gibberellin. Nature New Biology 238: 93–96
Raskin I, Kende H (1984) Role of gibberellin in the growth response of submerged deep water rice. Plant Physiology 76: 947–950
Smirnoff N, Crawford RMM (1983) Variation in the structure and response to flooding of root aerenchyma in some wetland plants. Annals of Botany 51: 237–249
Smith KA, Restall SWF (1971) The occurrence of ethylene in anaerobic soil. Journal of Soil Science 22: 430–443
Smith KA, Robertson PD (1971) Effect of ethylene on root extension of cereals. Nature (London) 234: 148–149
Smulders MJM, Horton RF (1991) Ethylene promotes elongation growth and auxin promotes radial growth in Ranunculus sceleratus petioles. Plant Physiology 96: 806–811
Van der Sman AJM (1992) Flooding resistance and life histories of short-lived floodplain herbs. PhD Thesis, Katholieke Universiteit Nijmegen, The Netherlands
Van der Sman AJM, Blom CWPM, Steeg HM Van de (1992) Phenology and seed production in Chenopodium rubrum, Rumex maritimus and Rumex palustris as related to photoperiod in river forelands. Canadian Journal of Botany 70: 392–400
Van der Sman AJM, Joosten NN, Blom CWPM (1993) Flooding regimes and life-history characteristics of short-lived species in river forelands. Journal of Ecology (in press)
Van der Sman AJM, Tongeren OFR Van, Blom CWPM (1988) Growth and reproduction of Rumex maritimus and Chenopodium rubrum under different waterlogging regimes. Acta Botanica Neerlandica 37, 439–450
Van der Sman AJM, Voesenek LACJ, Blom CWPM, Harren FJM, Reuss J (1991) The role of ethylene in shoot elongation with respect to survival and seed output of flooded Rumex maritimus L. plants. Functional Ecology 5: 304–313
Van de Steeg HM (1984) Effects of summer inundation on flora and vegetation of river foreland in the Rhine area. Acta Botanica Neerlandica 33: 365–366
Voesenek LACJ (1990) Adaptations of Rumex in flooding gradients. PhD Thesis, Katholieke Universiteit Nijmegen, The Netherlands
Voesenek LACJ, Blom CWPM (1989) Growth responses of Rumex species in relation to submergence and ethylene. Plant, Cell and Environment 12: 433–439
Voesenek LACJ, Blom CWPM, Pouwels RHW (1989) Root and shoot development of Rumex species under waterlogged conditions. Canadian Journal of Botany 67: 1865–1869
Voesenek LACJ, Harren FJM, Bögemann GM, Blom CWPM, Reuss J (1990a) Ethylene production and petiole growth in Rumex plants induced by soil waterlogging. Plant Physiology 94: 1071–1077
Voesenek LACJ, Perik PJM, Blom CWPM, Sassen MMA (1990b) Petiole elongation in Rumex species during submergence and ethylene exposure: The relative contributions of cell division and cell expansion. Plant Growth Regulation 9: 13–17
Voesenek LACJ, Sman AJM Van der, Harren FJM, Blom CWPM (1992) An amalgamation between hormone physiology and plant ecology: a review on flooding resistence and ethylene. Plant Growth Regulation 11: 171–188
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© 1993 Springer-Verlag Berlin Heidelberg
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Blom, C.W.P.M., Voesenek, L.A.C.J., van der Sman, A.J.M. (1993). Responses to Total Submergence in Tolerant and Intolerant Riverside Species. In: Jackson, M.B., Black, C.R. (eds) Interacting Stresses on Plants in a Changing Climate. NATO ASI Series, vol 16. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-78533-7_15
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DOI: https://doi.org/10.1007/978-3-642-78533-7_15
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