Surplus fertilization effect on photosynthetic response of pea to Cd stress at different growth stages

• Autorzy: Januskaitiene I. , Diksaityte A.
• Języki publikacji: EN

Abstrakty

EN

Besides being involved in growth and development of plants, the essential macronutrients also affect stress tolerance. The aim of this study was to assess the surplus fertilization effect on photosynthetic parameters and the growth of Cd-treated pea (Pisum sativum L.) plants at different growth stages. Surplus fertilizer norm reduced the negative effect of cadmium on the photosynthetic system of pea at leaf development stage, while at lateral shoots stage their influence was rather different. Fertilization had the largest statistically significant effect on all the investigated parameters while the growth stage of plants was also a strong factor, changing cadmium and plant nutrient interactions.

• Wydawca: -
• Czasopismo: Polish Journal of Environmental Studies
• Rocznik: 2014
• Tom: 23
• Numer: 5
• Opis fizyczny: p.1599-1607,fig.,ref.

Twórcy

autor

Januskaitiene I.

• Vytautas Magnus University, K. Donelaicio 58, Kaunas LT-44248, Lithuania

autor

Diksaityte A.

• Vytautas Magnus University, K. Donelaičio 58, Kaunas LT-44248, Lithuania

Bibliografia

• 1. MITCHELL L.G., GRANT C.A., RACZ G.J. Effects of nitrogen application on concentration of cadmium and nutri­ent ions in soil solution and in durum wheat, Can. J. Soil Sci. 80, 107, 2000.
• 2. DUCHOVSKIS P., BRAZAITYTÉ A., JUKNYS R., JANUSKAITIENÉ I., SLIESARAVICIUS A., RAMASKEVICIENÉ A., BURBULIS N., SIKSNIANIENÉ J.B., BARANAUSKIS K., DUCHOVSKIENÉ L., STANYS V., BOBINAS C. Changes of physiological and genetic indices of Lycopersicon Esculentum Mill. by cadmium under different acidicity and nutrition. Pol. J. Environ. Stud., 15, (2), 235, 2006.
• 3. OSMAN A.M.H. Influence of nitrogen and potassium fertil­ization on yield and quality of two sugar beet varieties. Egyptian J. Agricul. Res. 83, (3), 132, 2005.
• 4. SOUSA N.R., RAMOS M.A., MARQUES A.P.G.C., CAS­TRO P.M.L. A genotype dependent-response to cadmium contamination in soil is displayed by Pinus pinaster in sym­biosis with different mycorrhizal fungi. Appl. Soil Ecol. 76, 7, 2014.
• 5. ANTANAITIS A., ANTANAITIS S., LUBYTÉ J., STAU- GAITIS G. The impact of anthropogenic factors on the con­centration of heavy metals in cereal grain (summary). Zemdirbysté=Agriculture., 94, (2), 49, 2007 [In Lithuanian].
• 6. JANUSKAITIENÉ I., JUKNYS R., BRAZAITYTÉ A., DUCHOVSKIS P. The fertilization impact on tomato resis­tance to substrate acidity and heavy metal cadmium. Environmental research engineering and management. 3, (29), 44, 2004.
• 7. SMIRI M., CHAOUI A., ROUHIER N., GELHAYE E., JACQUOT J.P., EL FERJANI E. Effect of cadmium on resumption of respiration in cotyledons of germinating pea seeds. Ecotox. Environ. Safe. 73, 1246, 2010.
• 8. SHAMSI I.H., JIANG L., WEI K., JILANI G., HUA S., ZHANG G.P. Alleviation of cadmium toxicity in soybean by potassium supplementation. J. Plant Nutr. 33, 1926, 2010.
• 9. JANUSKAITIENE I. The effect of cadmium on several photosynthetic parameters of pea (Pisum sativum L.) at two growth stages. Zemdirbyste =Agriculture, 99, (1), 71, 2012.
• 10. RASCIO N., VECCHIA F. D., LA ROCCA N., BARBATO R., PAGLIANO C., RAVIOLO M., GONNELLI C., GAB- BRIELLI R. Metal accumulation and damage in rice (cv. Vialone nano) seedlings exposed to cadmium. Environ. Exp. Bot. 62, (3), 267, 2008.
• 11. SIEDLECKA A., KRUPA Z. Cd/Fe interaction in higher plants - its consequences for the photosynthetic apparatus. Photosynthetica. 36, 321, 1999.
• 12. KRANTEV A., YORDANOVA R., JANDA T., SZALAI G., POPOVA L. Treatment with salicilyc acid decreases the effect of cadmium on photosynthesis in maize plants. Journal of Plant Physiology. 165, 920, 2008.
• 13. BALESTRASSE K.B., NORIEGA G.O., BATLLE A., TOMARO M. L. Heme oxygenase activity and oxidative stress signaling in soybean leaves. Plant Science. 170, 339, 2006.
• 14. GILL S.S., TUTEJA N. Cadmium stress tolerance in crop plants. Probing the role of sulphur. Plant Signalling and Behavior. 6, 1, 2011.
• 15. GALLEGO S.M., PENA L.B., BARCIA R.A., AZPILICUETA C.E., IANNONE M.F., ROSALES E.P., ZAWOZNIK M.S., GROPPA M.D., BENAVIDES M.P. Unravelling cadmium toxicity and tolerance in plants: Insight into regulatory mechanisms. Environ. Exp. Bot. 83, 33, 2012.
• 16. MATUSIK J., BAJADA T., MANECKI M. Immobolization of aqueous cadmium by addition of phosphates. J. Hazard. Mater. 152, 1332, 2008.
• 17. ZHAO F.J., JIANG R.F., DUNHAM S.J., MCGRATH S.P. Cadmium uptake, translocation and tolerance in the hyper- accumulator Arabidopsis Halleri. New Phytol. 172, 646, 2006.
• 18. HALL J.L. Cellular mechanisms for heavy metal detoxifica­tion and tolerance. J. Exp. Bot. 53, 1, 2002.
• 19. MOREL J.L., MENCH M., GUCKER A. Measurement of Pb2+, Cu2+ and Cd2+ binding with mucilage exudates from maize (Zea Mays L.) roots. Biol. Fert. Soils. 2, 29, 1986.
• 20. WANGSTRAND H., ERIKSSON J., OBORN I. Cadmium 34. concentration in winter wheat as affected by nitrogen fertil­ization. Eur. J Agron. 26, 209, 2007.
• 21. ZHAO Z.Q., ZHU Y.G., SMITH S.E. Cadmium uptake by 35. winter wheat seedlings in response to interactions between phosphorus and zinc supply in soils. J. Plant Nutr. 28, 1569, 2005.
• 22. JIAO W., CHEN W., CHANG A.C., PAGE A.I. Environmental risks of trace elements associated with long- 36. term phosphate fertilizers applications: A review. Environ. Pollut. 168, 44, 2012.
• 23. ERNST W.H.O., KRAUSS G.J., VERKLEIJ J.A.C., WESENBERG D. Interaction of heavy metals with the sul­phur metabolism in angiosperms forma n ecological point of 37. view. Plant Cell Environ. 31, 123, 2008.
• 24. RAUSCH T., WACHTER A. Sulfur metabolism: a versatile platform for launching defense operations. Trends Plant Sci. 10, 503, 2005.
• 25. KASHEM M.D.A., KAWAI S. Alleviation of cadmium phy- totoxicity by magnesium in Japanese mustard spinach. Soil Sci. Plant Nutr. 53, 346, 2007.
• 26. HERMANS C., CHEN J., COPPENS F., INZE D., VER- BRUGGEN N. Low magnesioum status in plants enhances 39. tolerance to cadmium exposure. New Phytol. 192, 428, 2011.
• 27. HASSAN M.J., ZHANG G., WU F., WEI K., CHEN Z. Zinc alleviates growth inhibition and oxidative stress caused 40. by cadmium in rice. J. Plant Nutr. Soil Sc. 168, 255, 2005.
• 28. ADILOGLU A.I., ADILOGU S., GONULSUZ E., ONER N. Effect of zinc application on cadmium uptake of maize grown in zink deficient soil. Pakistan Journal of Biological 41. Sciences. 8, 10, 2005.
• 29. KOLELI N., EKER S., CAKMAK I. Effect of zinc fertil­ization on cadmium toxicity in durum and bread wheat grown in zinc-deficient soil. Environ. Pollut. 131, 453, 42. 2004.
• 30. SHI G., CAI Q., LIU C., WU L. Silicon alleviates cadmium toxicity in peanut plants in relation to cadmium distribution and stimulation of antioxidative enzymes. Plant Growth 43. Regul. 61, 45, 2010.
• 31. PEDRERO Z., MADRID Y., HARTIKAINEN H., CAMA­RA C. Protective effect of selenium in broccoli (Brassica 44. oleracea) plants subjected to cadmium exposure. J. Agr. Food Chem. 56, 266, 2007.
• 32. Growth stages of mono-and dicotyledonous plants: BBCH monograph, U. Meier (Ed.), Federal Biological Research Centre for Agriculture and Forestry, Braunschweig: 45. Germany, pp. 10, 2001.
• 33. JANUSKAITIENE I., JUKNYS R., PIPIRAITE A. Spring barely photosynthehetics rate and changes in stress phases 46. under different cadmium impact, Zemdirbyste=Agriculture. 95, (1), 73, 2008 [In Lithuanian].
• 34. WETTSTEIN D. Chlorophyll Letale und der sub­mikroskopische Formweschsel der Plastiden. Exp. Cell Res. 12, 427, 1957 [In German].
• 35. PAGLIANO C., RAVIOLO M., DALLA VECCHIA F., GABBRIELLI R., GONNELLI C., RASCIO N., BARBA- TO R., LA ROCCA N. Evidence for PSII donor-side type photoinhibition induced by cadmium treatment of rice (Oryza sativa). J. Photoch. Photobio. B. 84, 70, 2006.
• 36. THANGAVEL P., LONG S., MINOCHA R. Changes in phytochelatins and their biosynthetic intermediates a red spruce (Picea rubens Sarg.) cell suspention culture under cadmium and zinc stress. Plant Cell Tiss. Org. 88, 201, 2007.
• 37. ANJUM N.A., UMAR S., AHMAD A., IQBAL M., KHAN N.A. Sulphur protects mustard (Brassica campestirs L.) from cadmium toxicity by improving leaf ascorbate and glu­tathione. Plant Growth Regul. 54, 271, 2008.
• 38. SOUZA V.L., DE ALMEIDA A.A., LIMA S.G., DE M CASCARDO J.C., DA C SILVA D., MANGABEIRA P.A., GOMES F.P. Morphophysiological responses and pro­grammed cell death indiced by cadmium in Genipa Americana L. (Rubiaceae). Biometals. 24, 59, 2011.
• 39. QIAN H.LI., PAN X., JIANG H., SUN L., FU Z. Photoperiod and temperature influence cadmium's effects on photosynthesis-related gene transcription in Chorella vul­garis. Ecotox. Environ. Safe. 73, 1202, 2010.
• 40. PERFUS-BARBEOCH L., LEONHARDT N., VAVASSEUR A., FORESTIER C. Heavy metal toxicity: cadmium permeates through calcium channels and disturbs the plant water status. Plant J. 32, 539, 2002.
• 41. IANNONE M.F., ROSALES E.P., GROPPA M.D., BENA- VIDES M.P. Reactive oxygen species formation and cell death in catalase-deficient tobacco leaf disks exposed to cad­mium. Protoplasma. 245, 15, 2010.
• 42. PENA L.B., PASQUINI L.A., TOMARO M.L., GALLEGO S.M. 20S proteasome and accumulation of oxidized and ubiquitinated proteins in maize leaves subjected to cadmium stress. Phytochemistry. 68, 1139, 2007.
• 43. JONES C., OLSON-RUTZ K., DINKINS C.P. Nutrient Uptake Timing by Crops. EB0191. Revision. MSU Extension. 2011.
• 44. MCCAULEY A.M., JONES C.A., MILLER P.R., BURGESS M.H., ZABINSKI C.A. Nitrogen fixation by pea and lentil green manures in a semi-arid agroecoregion: effect of planting and termination timing, Nutr. Cycl. Agroecosys. 92, 305, 2012. DOI: 10.1007/s10705-012-9491-3.
• 45. WANG B., LAI T., HUANG Q.W., YANG X.M., SHEN Q.R. Effect of N fertilizers on root growth and endogenous hormones in strawberry. Pedosphere. 19, (1), 86, 2009.
• 46. TRAN T.A, POPOVA L.P. Functions and toxicity of cadmi­um in plants: recent advances and future prospects. Turkish Journal of Botany. 37, 1, 2013.