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Vol. 9 No. 2 (2010)

Articles

STIMULATORY EFFECT OF ASAHI SL ON SELECTED PLANT SPECIES

Submitted: January 20, 2021
Published: 2010-06-30

Abstract

Asahi SL stimulates plant’s vital processes like growth and development, affects physiology and biochemistry, what often leads to increased biomass accumulation
and yield. However, common is opinion that application of this preparation could be beneficial only, when treated plants are grown under unfavorable conditions. Therefore the aim of this work was the assessment of the stimulatory effect of Asahi SL on Arabidopsis thaliana L. and ornamental amaranth plants grown under optimal conditions. Plants treated with Asahi SL were higher and more advanced in development, particularly generative. Biomass accumulation was greater after biostimulator application mainly due to better photosynthetic apparatus efficiency, which was manifested by (i) greater leaf area, (ii) higher total chlorophyll content and (iii) increased intensity of photosynthesis. Effect of Asahi SL on chlorophyll a fluorescence was marginal. Despite of higher transpiration and lowered stomatal resistance the RWC was almost unchanged in biostimulator treated plants what was attributed to increased water uptake. Obtained results clearly
showed that Asahi SL applied on plants can also be effective and beneficial when they are grown under optimal conditions.

References

Bąbelewski P., Dębicz R., 2006. Wpływ preparatu Asahi SL na wzrost i jakość rozsady torenii ogrodowej (Torenia fournieri Linden) i fuksji mieszańcowej (Fuchsia hybrida). Zesz. Nauk. UP we Wrocławiu 546, 37–41.
Borowski E., Blamowski Z., 2008. Effect of periodical chilling on basil plants (Ocimum basilicum L.) treated by triacontanol and Asahi SL. Book of abstracts of Conference: ”Biostimulators in modern agriculture” 7–8 February 2008, Warsaw, Poland, 170.
Budzyński W., Dubis B., Jankowski A., 2008. Response of Winter oilseed rape to the biostimulator Asahi SL applied in spring. Monographs series: Biostimulators in modern agriculture, Field Crop. Wieś Jutra, 47–55.
Csizinszky A.A., 2001. Yield response of Bell Pepper Cultivars to foliar-applied ‘Atonik’ biostimulant. Horticultural Sciences Department, Florida Cooperative Extension Service, Institute of Food and Agricultural Sciences, University of Florida, HS819.
Czeczko R., Mikos-Bielak M., 2004. Efekty stosowania biostymulatora Asahi w uprawie różnych gatunków warzyw. Annales UMCS, Sec E, Agricultura 59 (3), 1073–1079.
Djanaguiraman M., Devi D.D., Sheeba J.A., Bangarusamy U., Babu R.Ch., 2004. Effect of oxidative stress on abscission of tomato fruits and its regulation by nitrophenols. Tropical Agric. Res. 16, 25–36.
Djanaguiraman M., Sheeba J.A., Devi D.D., Bangarusamy U., 2005a. Effect of Atonik seed treatment on seedling physiology of cotton and tomato. J. Biol. Sci. 5 (2), 163–169.
Djanaguiraman M., Sheeba J.A., Devi D.D., Bangarusamy U., 2005b. Response of cotton to Atonik and TIBA for growth, enzymes and yield. J. Biol. Sci. 5 (2), 158–162.
Djanaguiraman M., Sheeba J.A., Devi D.D., Bangarusamy U., 2009. Cotton leaf senescence can be delayed by nitrophenolate spray through enhanced antioxidant defence system. J. Agron. Crop. Sci. 195, 213–224.
Gruszczyk M., Berbeć S., 2004. Porównanie wpływu wybranych preparatów stosowanych dolistnie na plony i jakość surowca złocienia maruny (Chrysanthemum parthenium L.). Annales UMCS, Sec. E, Agricultura 59 (2), 755–759.
Grzyś E., Demczuk A., Sacała E., 2008. Effect of Asahi SL on the activity of nitrate reductase, chlorophyll content in the leaves and yield of maize under nitrogen deficiency in the soil. Book of Abstracts of the Conference: “Biostimulators in modern agriculture” 7–8 February 2008, Warsaw, Poland, 54.
Harasimowicz-Hermann G., 2008. Modelling of field structure elements of winter rape by introducing Asahi SL into cultivation technology. Book of abstracts of Conference: ”Biostimulators in modern agriculture” 7–8 February 2008, Warsaw, Poland, 90.
Harasimowicz-Herman G., Borowska M., 2006. Efekty działania biostymulatora Asahi SL w uprawie rzepaku ozimego w zależności od warunków pluwiotermicznych. Rośliny Oleiste 1, 95–106.
Kalaji H.M., Guo P., 2008. Chlorophyll fluorescence: a useful tool in barley plant breeding programs. Chapter 12 in: Photochemistry Research Progress; Editors: Sanchez A., Gutierrez S.J. Nova Science Publishers, Inc, 439–463.
Kołodziej B. 2004. Wpływ Atoniku oraz nawożenia dolistnego na plonowanie i jakość surowca żeń-szenia amerykańskiego (Panax quinquefolium L.). Annales UMCS, Sec E, Agricultura 59(1), 157–162,
Kozak M., Malarz W., Serafin-Andrzejewska M., Kotecki A., 2008. The effect of sowing rate and Asahi SL biostimulator on soybean sowing and yield. Monographs series: Biostimulators in modern agriculture, Field Crops. Wieś Jutra, 77–84.
Krajewska J., Latkowska M.J., 2008. Effects of biostimulants Asahi SL and Siapton 10L on the growth of Bergenia cordifolia ((Haw.) Sternb.) ‘Rotblum’ and Hosta sp. (Tratt.) ‘Sum and Substance’ and ‘Minuteman’. Monographs series: Biostimulators in modern agriculture, Ornament and Special Plants. Wieś Jutra, 33–39.
Krawiec P., 2008. Effects of biostimulators on growth, cropping and fruit quality of chokeberry. Monographs series: Biostimulators in modern agriculture, Fruit Crops. Wieś Jutra, 42–48.
Libbenga K.R., Mennes A.M., 1987. Hormone binding and its role in hormone action. W Plant Hormones and Their Role in Plant Growth and Development; Editor Davies P.J. Martinus Nijhoff Publishers: 194–221.
Malarz W., Kozak M., Kotecki A., 2008. The use of Asahi SL biostimulator in spring rape growing. Monographs series: Biostimulators in modern agriculture, Field Crops. Wieś Jutra, 25–32.
Michalski T., Bartos-Sychała M., Maciejewski T., Jarosz A., 2008. Effect of biostimulator Asahi SL on cropping of maize grown for grain. Monographs series: Biostimulators in modern agriculture, Field Crops. Wieś Jutra, 66–76.
Słowiński A., Jarosz A., 2008. Including Asahi SL biostimulant into the technology of winter oilseed rape growth. Book of Abstracts from the Conference: “Biostimulators in modern agriculture” 7–8 February 2008, Warsaw, Poland, 98.
Stutte C.A., Clark T.H., 1990. Radiolabeled studies of Atonik in cotton using HPLC. Altheimer Laboratory, University of Arkansas, Fayetteville, AR 72703, USA, Arysta LifeScience Report.
Vavrina C.S., 1998a. Atonik plant growth stimulator: Effect on bell pepper under drip irrigation in SW Florida. Vegetable Horticulture, 23 Mar. 98. www.imok.ufl.edu/veghort/pubs/sta_rpts/atonikpepper97.
Vavrina C.S., 1998b. Atonik plant growth stimulator: Effect on cucumber under seepage irrigation in SW Florida. Vegetable Horticulture, 30 Mar. 98. www.imok.ufl.edu/veghort/pubs/sta_rpts/ atoncuke97.
Vavrina C.S., 1998c. Atonik plant growth stimulator: Effect on tomato under seepage irrigation in SW Florida. Vegetable Horticulture. 06 Apr. 98. www.imok.ufl.edu/veghort/pubs/sta_rpts/atoniktom97.
Wróbel J., Woźniak A., 2008. The effect of Atonik plant growth stimulator, applied by different methods, on the physiological activity and yield of common osier (Salix viminalis L.). Book of Abstracts from the Conference: “Biostimulators in modern agriculture” 7–8 February 2008, Warsaw, Poland, 86.
Wrochna M., Łata B., Borkowska B., Gawrońska H., 2008. The effect Asahi SL of biostimulators on ornament amaranth (Amaranthus sp.) plants exposed to salinity in growing medium. Monographs series: Biostimulators in modern agriculture, Ornament and Special Plants. Wieś Jutra, 15–32.

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