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Wpływ biostymulatorów aminokwasowych na zawartość chlorofilu w liściach pszenicy
Języki publikacji
Abstrakty
This paper investigates the effect of foliar fertilisation with protein biostimulators on chlorophyll and carotenoid levels in winter wheat. The results obtained show a significant increase in photosynthetic pigments for samples II and III, which were plants treated with biostimulants containing collagen hydrolysate and sodium salicylate and collagen and keratin hydrolysate in combination with titanium ascorbate (Bio-2 and Bio-3, respectively). The study also confirmed that the extraction efficiency of chlorophyll and carotenoids depends on the type of solvent. The results obtained allow the conclusion to be drawn that the most favourable solvent for the extraction of photosynthetic pigments from wheat leaves is ethanol.
W artykule zbadano wpływ dolistnego nawożenia biostymulatorów białkowych na poziom chlorofilu i karotenoidów w pszenicy ozimej. Otrzymane wyniki wskazują na znaczący wzrost barwników fotosyntetycznych dla próbek II i III, które stanowiły rośliny traktowane biostymulatorami zawierającymi hydrolizat kolagenu i salicylan sodu oraz hydrolizat kolagenu i keratyny w połączeniu z askorbinianem tytanu (odpowiednio Bio-2 i Bio-3). W pracy potwierdzono również, że efektywność ekstrakcji chlorofilu i karotenoidów zależy od rodzaju rozpuszczalnika. Uzyskane wyniki pozwalają sformułować wniosek, iż najkorzystniejszym rozpuszczalnikiem do ekstrakcji barwników fotosyntetycznych z liści pszenicy jest etanol.
Czasopismo
Rocznik
Tom
Strony
187--201
Opis fizyczny
Bibliogr. 29 poz., tab., wykr.
Twórcy
autor
- Łukasiewicz Research Network – Lodz Institute of Technology, 19/27 Skłodowskiej-Curie Str., 90-570 Lodz, Poland
autor
- Łukasiewicz Research Network – Lodz Institute of Technology, 19/27 Skłodowskiej-Curie Str., 90-570 Lodz, Poland
autor
- Łukasiewicz Research Network – Lodz Institute of Technology, 19/27 Skłodowskiej-Curie Str., 90-570 Lodz, Poland
autor
- Leather Research Department, Research and Development National Institute for Textiles and Leather-Division Leather and Footwear Research Institute, 93, Ion Minulescu Street, 031215 Bucharest, Romania
Bibliografia
- [1] Carrão H., Naumann G., Barbosa P.: Mapping global patterns of drought risk: An empirical framework based on sub-national estimates of hazard, exposure and vulnerability. Glob. Environ. Chang., 39, 2016, pp. 108–124.
- [2] Wadas W, Dziugieł T.: Changes in assimilation area and chlorophyll content of very early potato (Solanum tuberosum L.) cultivars as influenced by biostimulants. Agronomy, 10(3), 2020, p. 387.
- [3] Bulgar R., Franzoni G., Ferrante A.: Biostimulants application in horticultural crops under abiotic stress conditions. Agronomy, 9, 2019, pp. 306.
- [4] Popko M, Michalak I, Wilk R, Gramza M, Chojnacka K, Górecki H.: Effect of the new plant growth biostimulants based on amino acids on yield and grain quality of winter wheat, Molecules, 23(2), 2018, pp. 470.
- [5] Popko M., Wilk R., Górecki H.: New amino acid biostimulators based on protein hydrolysate of keratin. Przemysł chemiczny, 93(6), 2014, pp.1015-1012. [in Polish]
- [6] https://modr.pl/technologie-ekologicznej-uprawy-rolniczej/strona/aminokwasowe [online access in 29.10.2023]
- [7] Baker N. R.: Chlorophyll fluorescence: a probe of photosynthesis in viv,. Annual Review of Plant Biology, 59(1), 2008, pp. 89–113.
- [8] Pavlović D., Nikolić B., Đurović S., Waisi H., Anđelković A., Marisavljević D.: Chlorophyll as a measure of plant health: Agroecological aspects. Pestic. Phytomed. (Belgrade), 29(1), 2014, pp. 21–34.
- [9] Croft H., Chen J.M., Luo X., Bartlett P., Chen B., Staebler R.M.: Leaf chlorophyll content as a proxy for leaf photosynthetic capacity, Global Change Biology, 23(9), 2017, pp. 3513–3524.
- [10] Lichtenthaler H. K., Babani, F: Light adaptation and senescence of the photosynthetic apparatus. changes in pigment composition, chlorophyll fluorescence parameters and photosynthetic activity. In: Papageorgiou, G.C., Govindjee (eds) Chlorophyll a Fluorescence. Advances in Photosynthesis and Respiration, vol 19, 2004, Springer, Dordrecht.
- [11] Ebrahimi P., Shokramraji Z., Tavakkoli S., Mihaylova D., Lante A.: Chlorophylls as Natural Bioactive Compounds Existing in Food By-Products: A Critical Review. Plants, 12(7), 2023, pp. 1533.
- [12] Jelić G., Bogdanović M., Nikolić B.: Metode za određivanje fotosintetskih pigmenata. Acta herbologica, 1(2), 1992, pp. 235-242.
- [13] Sitarek M., Dobrzyński J., Orliński P.: Extraction of chlorophylls and carotenoids - a review of methods including accelerated solvent extraction. Zagadnienia aktualnie poruszane przez młodych naukowców. Creativetime. Kraków 2016. [in Polish]
- [14] Lichtenthaler H. K., Buschmann C.: Extraction of Phtosynthetic Tissues:Chlorophylls and Carotenoids Current Protocols in Food Analytical Chemistry, 1, 2001, F4.2.1-F4.2.6
- [15] Porra R. J., Thompson W. A., Kreidemann P. E.: Determination of accurate extinction coefficients and simultaneous equations for assaying chlorophylls a and b extracted with four different solvents: verification of the concentration of chlorophyll standards by atomic absorption spectrometry, Biochim. Biophys. Acta, 975, 1989, 384–394
- [16] Lichtenthaler H. K.: Chlorophylls and carotenoids: pigments of photosynthetic membranes, Method Enzymol., 148, 1987, pp. 350–382.
- [17] Lichtenthaler H. K., Wellburn, A. R.: Determinations of total caroteneoids and chlorophylls a and b of leaf extracts in different solvents, Biochem. Soc. Trans., 11, 1983, pp. 591–592.
- [18] Ali Q., Athar H., Haider M, Z., Shahid S.: Role of aminoacids in improving abiotic stress tolerance to plants, Plant Tolerance to Environmental Stress, 2019, pp. 175-204.
- [19] Borkowski J., Felczyńska A., Dyki B.: Effect of calcium nitrate, Biochicol 020 PC and Tytanit on the healthiness of chinesecabbage, the yield, the content of fenolic coumpounds and calcium, Polish Chitin Soc. Monograph, 12, 2007, pp. 225–229.
- [20] Lyu S., Wei X., Chen J., Wang C., Wang X., Pan D.: Titanium as a Beneficial Element for Crop Production, Frontiers in Plant Science, 8, 2017, pp. 597.
- [21] Staroń P., Banach M., Kowalski Z.: Keratyna – źródła, właściwości, zastosowanie, Chemik 65 (10), 2011, pp. 1019-1026. [in Polish]
- [22] Czerpak R., Bajguz A.: Aktywność fizjologiczna i metaboliczna kwasu salicylowego u roślin, KOSMOS, 1, 1998, pp. 83-93. [in Polish]
- [23] Woznica Z., Idziak R., Sawinska Z., Sobiech Ł.: Effect of salicylicacid on growth and grainyield of winterwheat, Przemysł Chemiczny, 93 (4), 2014, pp. 540-513. [in Polish]
- [24] Ritchie R.J.: Consistent sets of spectrophotometric chlorophyll equations for acetone, methanol and ethanol solvents, Photosynth. Res., 89, 2006, pp. 27-41.
- [25] Sumanta N., Haque Ch.I., Nishika J, Suprakashumanta R.: Spectrophotometric analysis of chlorophylls and carotenoids from commonly fern species by using various extracting solvents,. Res. J. Chem. Sci., Vol. 4, Issue (9), 2014, pp. 63-69.
- [26] Vicaş S., Laslo V., Pantea S., Bandici G., Chlorophyll and carotenoids pigments from Mistletoe (Viscum album) leaves using different solvents, Fasc. Biol., 17, 2010, pp. 213-218.
- [27] Saito K, Suzuki T., Ishikita H.: Absorption-energy calculations of chlorophyll a and b with an explicit solvent model Journal of Photochemistry and Photobiology A, Chemistry, 358, 2018, pp. 422–431
- [28] Arnon D. I.: Copper enzymes in isolated chloroplasts. polyphenoloxidase in beta vulgaris, Plant Physiology, 24(1), 1949, pp. 1-15.
- [29] Ergun E., Demirata B., Gumus G., Apak R. P.: Simultaneous determination of chlorophyll a and chlorophyll b by derivative spectrophotometry, Anal. Bioanal. Chem., 379(5-6), 2004, pp. 803-11.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-95b90619-69b8-4f57-8bc1-a5a16e348ef0