The effect of biostimulator IWN-11 on sugar beet yield
Języki publikacji
PL
Abstrakty
EN
IWN-11 is a new liquid acetylsalicylic acid formulation that was developed by the Institute of Natural Fibres and Medicinal Plants Poznań and Poznań University of Life Sciences for enhancing resistance of crops to biotic and abiotic stresses. Field trials with sugar beet were conducted between 2008 and 2010 on black soil and pseudopodsolic soil. Post emergence application of IWN-11 significantly increased sugar beet root yield but only on pseudopodsolic soil. The best results were obtained when IWN-11 was applied at 2.0 l/ha and at BBCH 18 of sugar beet growth stage.
Deef H.E. 2007. Influence of salicic acid on stress tolerance during seed germination of Triticum aestivum and Hordeum vulgare. Adv. Biol. Res 1 (1–2): 40–48.
Draycott A.Ph. 2006. Sugar Beet. Ed. Wiley-Blackwel, World Agriculture Series, 474 pp.
Gupta U.S. 2007. Physiology of Stressed Crops. Vol. V. Membrane System. Ed. Science Publishers, Georgia, USA, 403 pp.
Heller K., Rólski S., Byczyńska M. 2006. The application of ASA (acetyl salicylic acid) for increasing fibre flax plants resistance to stress of drought. p. 293–302. In: „Chemistry and Biochemistry in the Agricultural Production, Environment Protection, Human and Animal Health. Chemistry fot Agriculture” Vol. 7 (Z. Dobrzański, H. Górecki, P. Kafarski, eds.). Czech-Pol Trade, Czech Republic, 996 pp.
Kang H.M., Satveit M.E. 2002. Chilling tolerance of maize, cucumber and rice seeding leaves and roots are differentially affected by salicylic acid. Physiol. Plant 115: 571–576.
Janda T., Szala G., Autunovics Z., Hovart E., Paldi E. 2000. Effect of benzoic acid and aspirin on chilling tolerance and photosynthesis in young maize plants. Mydica 45: 29–33.
Korkmaz A., Uzunlu M., Demirkiran A.R. 2007. Treatment with acetyl salicylic acid muskmelon seedling against drought stress. Acta Physiol. Plant. 29: 503–508.
Larqué-Saaverda A. 1978. The antitranspirant effect of acetyl salicylic acid on Phaseolus vulgaris L. Physiol. Plant 43: 126–128.
Nemeth M., Janda T., Hovarth E., Paldi E., Szali G. 2002. Exogenous salicylic acid increases polyamine content but may decrease drought tolerance in maize. Plant Sci. 162: 569–574.
Rybka K., Żurek G. 2010. Oszczędne gospodarowanie wodą koniecznym kryterium w hodowli roślin. Post. Nauk Rol. 4: 19–32.
Sakhabudinova A.R., Fakhudinova D.R., Bezrukova M.V., Shakirova F.M. 2003. Salicylic acid prevents the damaging action of stress tolerance in bean and tomato plants. Plant Growth Regul. 30: 157–161.
Senaratna T., Merrit D., Dixon K., Bunn E., Touchell D., Sivasithamparam K. 2003. Benzoic acid may act as the functional group in salicylic acid and derivatives in the induction of multiple stress tolerance in plants. Plant Growth Regul. 39: 77–81.
Senaratna T., Tuochell D., Bunn T., Dixon K. 2000. Acetyl salicic acid (Aspirin) and salicic acid induce multiple stress tolerance in bean and tomato plants. Plant Growth Regul. 30: 157–161.
Szalai G., Tari I., Janda T., Pestenácz A., Páldi E. 2000. Effect of cold acclimation and salicylic acid on changes in ACC and MACC contents in maize during chilling. Biol. Plant 43: 637–640.
Szepesi Á., Csiszár J., Bajkán Sz., Gémes K., Horváth F., Erdei L., Deér A.K., Simon M.L., Tari I. 2005. Role of salicylic acid pre-treatment on the acclimation of tomato plants to salt- and osmotic stress. Acta Biol. Szeged 49 (1–2): 123–125.
Tari I., Csiszár J., Szalai G., Horváth F., Pécsváradi A., Kiss G., Szepesi Á., Szabó M., Erdei L. 2002. Acclimation of tomato plants to salinity stress after a salicylic acid pre-treatment. Acta Biol. Szeged 46 (3–4): 55–56.
Trybała M. 1996. Gospodarka Wodna w Rolnictwie. PWRiL, Warszawa, 256 ss.
Yalpani N., Enyedi A.J., Raskin I. 1994. Ultraviolet light and ozone stimulate accumulation of salicylic acid and pathogenesis related proteins and virus resistance in tobacco. Planta 193: 373–376.