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2008 | 30 | 1 |

Tytuł artykułu

Effect of NaCl concentrations in irrigation water on growth and plyamine metabolism in two citrus rootstocks with different levels of salinity tolerance

Autorzy

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Six-months-old, uniform sized seedlings of two citrus rootstocks; Cleopatra mandarin (Citrus reshni Hort. ex Tan) and Troyer citrange (Poncirus trifoliata · Citrus sinensis) were irrigated with half-strength Hoagland nutrient solution containing 0, 40 or 80 mM NaCl for 12 weeks. Shoot height, leaf number and fresh weights of the seedlings, and relative chlorophyll contents, chlorophyll fluorescence yields (Fv/Fm), net photosynthetic and respiration rates in the leaves decreased with the incre ase in salinity level in the irrigation water. The decrease wasgreater in Troyer citrange as compared to Cleopatra mandarin. The concentrations of sugars i.e. fructose, glucose and sucrose in the leaves of Cleopatra mandarin and both leaves and roots of Troyer citrange decreased with the increase in salinity level. However, the concentrations in the roots of Cleopatra mandarin increased with the increase in salinity level. Free proline content in the leaves of Troyer citrange and root tissue of Cleopatra mandarin also increased with the increased salinity level. Among the polyamines, spermine titer increased in the leaves of both rootstocks as a response to salinity treatments. Na+ concentrations were higher in leaf and root tissue of Cleopatra mandarin, while that of Cl were higher in Troyer citrange

Słowa kluczowe

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-

Rocznik

Tom

30

Numer

1

Opis fizyczny

p.43-52,fig.,ref.

Twórcy

autor
  • Department of Horticulture, University College of Agriculture, Bahauddin Zakariya University, 60800 Multan, Pakistan

Bibliografia

  • Aljuburi H (1996) Effect of saline water on growth parameters of five citrus rootstocks. Ann Arid Zone 35:43–48
  • Altman A (1989) Polyamines and plant hormones. In: Bachrach U, Heimer YM (eds) The physiology of polyamines. Vol 2. CRS Press, Boca Raton, pp 121–145
  • Al-Yassin A (2005) Review: adverse effects of salinity on citrus. Int J Agric Biol 7:668–680
  • Alvarez I, Tomaro ML, Benavidees MP (2003) Changes in polyamines, proline and ethylene in sunflower calluses treated with NaCl. Plant Cell, Tissue Organ Cult 74:51–59
  • Anjum MA, Abid M, Naveed F (2000) Effect of soil salinity on the performance of some citrus rootstocks at seedling stage. Pak J Biol Sci 3:1998–2000
  • Anjum MA, Abid M, Naveed F (2001) Evaluation of citrus rootstocks for salinity tolerance at seedling stage. Int J Agric Biol 3:1–4
  • Apelbaum A (1990) Interrelationship between polyamines and ethylene and its implication for plant growth and fruit ripening. In: Flores HE, Arteca RN, Shannon JC (eds) Polyamines and ethylene: biochemistry, physiology and interactions. Amer Soc Plant Physiol, Rockville, pp 278–294
  • Aspinall D, Paleg LG (1981) Proline accumulation: physiological aspects. In: Paleg LG, Aspinall D (eds) The physiology and biochemistry of drought resistance in plants. Academic, Sydney, pp 205–241
  • Aziz A, Martin-Tanguy J, Larher F (1998) Stress-induced changes in polyamine and tyramine levels can regulate proline accumulation in tomato leaf discs treated with sodium chloride. Physiol Plant 104:195–202
  • Banuls J, Primo-Millo E (1992) Effects of chloride and sodium on gas exchange parameters and water relations of Citrus plants. Physiol Plant 86:115–123
  • Banuls J, Serna MD, Legaz F, Talon M, Primo-Millo E (1997) Growth and gas exchange parameters of Citrus plants stressed with different salts. J Plant Physiol 150:194–199
  • Bar Y, Apelbaum A, Kafkafi U, Goren R (1996) Polyamines in chloride-stressed Citrus plants: alleviation of stress by nitrate supplementation via irrigation water. J Am Soc Hort Sci 121:507–513
  • Basu R, Ghosh B (1991) Polyamines in various rice (Oryza sativa) genotypes with respect to sodium chloride salinity. Physiol Plant 82:575–581
  • Basu R, Maitra N, Ghosh B (1988) Salinity results in polyamine accumulation in early rice (Oryza sativa L.) seedlings. Aust J Plant Physiol 17:777–786
  • Behboudian MH, Torokfalvy E, Walker RR (1986) Effects of salinity on ionic content, water relations and gas exchange parameters in some citrus scion-rootstock combinations. Sci Hort 28:105–116
  • Bouchereau A, Aziz A, Larher F, Martin-Tanguy J (1999) Review—Polyamines and environmental challenges: recent development. Plant Sci 140:103–125
  • Burtin D, Martin-Taguy J, Paynot M, Rossin N (1989) Effects of the suicide inhibitors of arginine and ornithine decarboxylase activities on organogenesis, growth, free polyamines and hydroxycinnamoyl putrescine levels in leaf explants of Nicotiana Xanthi n.c. cultivated in vitro in a medium producing callus formation. Plant Physiol 89:104–110
  • Erdei L, Szegletes Z, Barabas K, Pestenacz A (1996) Response in polyamine titer under osmotic and salt stress in sorghum and maize seedlings. J Plant Physiol 147:599–603
  • Garcia MR, Bernet GP, Puchades J, Gomez I, Carbonell EA, Asins MJ (2002) Reliable and easy screening technique for salt tolerance of citrus rootstocks under controlled environments. Aust J Agric Res 53:653–662
  • Garcia-Sanchez F, Carvajal M, Sanchez-Pina MA, Martinez V (2000) Salinity resistance of Citrus seedlings in relation to hydraulic conductance, plasma membrane ATPase and anatomy of the roots. J Plant Physiol 156:724–730
  • Grieve AM, Walker RR (1983) Uptake and distribution of chloride, sodium and potassium ions in salt treated citrus plants. Aust J Agric Res 34:133–143
  • Hoagland DR, Arnon DJ (1950) The water culture method for growing plants without soil. Circ No 347. Calif Agric Exp Sta, Berkeley
  • Jackson ML (1973) Soil chemical analysis. Prentice-Hall of India, New Delhi
  • Krishnamurthy R, Bhagwat KA (1989) Polyamines as modulators of salt tolerance in rice cultivars. Plant Physiol 91:500–504
  • Lloyd J, Kriedemann PE, Aspinall D (1989) Comparative sensitivity of ‘‘Prior Lisbon’’ lemon and ‘‘Valencia’’ orange trees to foliar sodium and chloride concentrations. Plant Cell Environ 12:529–540
  • Lloyd J, Kriedemann PE, Aspinall D (1990) Contrasts between Citrus species in response to salinization: an analysis of photosynthesis and water relations for different rootstock-scion combinations. Physiol Plant 78:236–246
  • Mass EV (1990) Crop salt tolerance. In: Tanji KK (ed) Agricultural salinity assessment and management. Manuals and reports on engineering No 71. Amer Soc Civil Engg, New York, pp 202–304
  • Mass EV (1993) Salinity and citriculture. Tree Physiol 12:195–216
  • Mass EV (1996) Plant response to soil salinity. In: 4th national conference and workshop on the productive use and rehabilitation of saline lands. Promaco Conventions Ltd, Albany, p 385
  • Motlu F, Bozcuk S (2005) Effect of salinity on the contents of polyamines and some other compounds in sunflower plants differing in salinity tolerance. Russian J Plant Physiol 52:29–34
  • Nieves M, Cerda A, Botella M (1991) Salt tolerance of two lemonscions measured by leaf chloride and sodium accumulation. J Plant Nutr 14:623–636
  • Nieves M, Martinez V, Cerda A, Guillen MG (1990) Yield and mineral composition of ‘‘Verna’’ lemon trees as affected by salinity and rootstock combination. J Hort Sci 65:359–366
  • Prakash G, Prathapsenan G (1988) Effect of NaCl salinity and putrescine on shoot growth, tissue ion concentration and yield of rice (Oryza sativa L.). J Agron Crop Sci 160:325–334
  • Renard M, Guerrier G (1997) Is proline a compatible solute in calli from NaCl-sensitive Lycopersicon esculentum and NaCl-tolerant L. pennellii? J Plant Physiol 150:331–337
  • Santa-Cruz A, Acosta M, Perez-Alfocea F, Bolarin MC (1997) Changes in free polyamine levels induced by salt stress in leaves of cultivated and wild tomato species. Physiol Plant 101:341–346
  • Santa-Cruz A, Perez-Alfocea F, Caro M, Acosta M (1998) Polyamines as short-term salt tolerance traits in tomato. Plant Sci 138:9–16
  • Shalhevet J, Levy Y (1990) Citrus trees. In: Stewart AR, Nielsen DR (eds) Irrigation of agricultural crops Agron Monogr 30. Amer Soc Agron, Crop Sci Soc Amer and Soil Sci Soc Amer, Madison, pp 951–986
  • Shannon MC, Grieve CM (1999) Tolerance of vegetable crops to salinity. Sci Hort 78:5–38
  • Smith TA (1990) Plant polyamines: metabolism and function. In: Flores HE, Arteca RN, Shannon JC (eds) Polyamines and ethylene: biochemistry, physiology and interactions. Amer Soc Plant Physiol, Rockville, pp 1–23
  • Storey R (1995) Salt tolerance, ion relations and the effects of root medium on the response of citrus to salinity. Aust J Plant Physiol 22:101–114
  • Storey R, Walker RR (1999) Citrus and salinity. Sci Hort 78:39–81
  • Suleiman S, Wilson C, Grieve CM (2002) Effect of salinity and exogenously applied polyamines on growth and ion relations in spinach. J Plant Nutr 25:2705–2717
  • Sykes SR (1985a) Effect of seedling age and size on chloride accumulation by juvenile citrus seedlings treated with sodium chloride under glasshouse conditions. Aust J Exp Agric 25:943–953
  • Sykes SR (1985b) A glasshouse screening procedure for identifying citrus hybrids which restrict chloride accumulation in shoot tissue. Aust J Agric Res 36:779–789
  • Syvertsen JP, Smith ML, Boman BJ (1993) Tree growth, mineral nutrition and nutrient leaching losses from soil of salinized citrus. Agric Ecosyst Environ 45:319–334
  • Syvertsen JP, Yelenosky G (1988) Salinity can enhance freeze tolerance of citrus rootstock seedlings by modifying growth, water relations and mineral nutrition. J Am Soc Hort Sci 113:889–893
  • Tozlu I (1997) Salinity stress responses and mapping QTL involved in growth, dry weight and ion uptake in salinized and non-salinized Citrus and Poncirus. PhD thesis, University of Florida, Gainesville
  • Tozlu I, Moore GA, Guy CL (2000) Effects of increasing NaCl concentrations on stem elongation, dry mass production, and macro- and micr-nutrient accumulation in Poncirus trifoliate. Aust J Plant Physiol 27:35–42
  • Troll W, Lindsley J (1955) A photometric method for the determination of proline. J Biol Chem 215:655–660
  • Verslues PE, Agarwal M, Agarwal SK, Zhu J, Zhu JK (2006) Methods and concepts in quantifying resistance to drought, salt and freezing, abiotic stresses that affect plant water status. Plant J 45:523–539
  • Walker RR (1986) Sodium exclusion and sodium-potassium selectivity in salt-treated trifoliate orange (Poncirus trifoliate) plants. Aust J Plant Physiol 23:293–303
  • Walker RR, Blackmore DH, Sun Q (1993) Carbon dioxide assimilation and foliar ion concentrations in leaves of lemon (Citrus limon L.) trees irrigated with NaCl or Na2SO4. Aust J Plant Physiol 20:173–185
  • Zekri M (1993a) Salinity and calcium effects on emergence, growth and mineral composition of seedlings of eight citrus rootstocks. J Hort Sci 68:53–62
  • Zekri M (1993b) Seedling emergence, growth and mineral concentration of three citrus rootstocks under salt stress. J Plant Nutr 16:1555–1568
  • Zekri M, Parsons LR (1992) Salinity tolerance of citrus rootstocks: effects of salt on root and leaf mineral concentrations. Plant Soil 147:171–181

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