Effect of foliar spraying with cadmium chloride (CdCl2), oxalic acid and their interactions on some physiological traits of bean (Vicia faba L.)

S F M AL-Saady; M DY El-Jubouri; F A Hussein; S H Cheyed

doi:10.14719/pst.3727

Authors

Sahar Faeq Mahdi AL-Saady Department of Biology and Plant Physiology, Ministry of Education, Directorate of Education of Al-Rusafa-3, Baghdad, Iraq
El-Jubouri Mohammed DY Department of Scientific Affairs, Al-Karkh University of Science, Baghdad, Iraq
Farhan Ali Hussein Department of Field Crops Sciences College of Agricultural Engineering Sciences, University of Baghdad, Iraq
Saddam Hakeem Cheyed Department of Field Crops Sciences College of Agricultural Engineering Sciences, University of Baghdad, Iraq

DOI:

https://doi.org/10.14719/pst.3727

Keywords:

amino acids, catalase enzyme, heavy elements, proline, Vicia faba L.

Abstract

The essay was regulated through the 2022-2023 developing period according to the Randomized complete block design (RCBD) as a working experiment (3×2) with three replications, each replication included 12 pots to examination the event of foliar splash with cadmium chloride (CdCl2) at two concentrations (200 and 300) mg L-1 and oxalic acid in assembly (50, 100 and 150) mg L-1 on some physiological characteristics of bean plants, If after math show meaningful rising in rising in catalase enzyme activity (44.67 intake unit Ml-1) vitamin C content (87.40 mg 100 gm m-1 wet weight) and proline acid content (61.19 µg gm-1 fresh mass) also Hydrogen peroxide content (3.20 µg gm-1 fresh weight) when plants related at the concentration 300 mg L-1 of CdCl2, while there was a significant decline in the average motion of salicylic acid content under the same treatment, as for treating the plant with oxalic acid led to a substantial increase in vitamin c content (85.88 mg 100 gm-1 wet weight) proline acid content (73.94 µg gm-1 fresh mass) Hydrogen peroxide content (2.70 µg gm-1 fresh weight) and salicylic acid content (13.20 µg gm-1) when plant treated at the concentration 150 Mg L-1, while there was a significant decrease in catalase enzyme activity (33.29 intake unit ml-1) at the same concentration. As for the connect between the two essay factors, it had a significant effect on most of the traits studied.

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References

Mcvicar R, Panchuk D, Brenzil C, Hatiey S, Pearse P, Vandenbery A. Faba bean. Gov. Saskatchewan, Agriculture, Crops. [internet]. 2013 [cited 2024 Sept 18]. Available from:https://www.agiculture.govsk.ca/Default.aspx.

Wafaa N, Elbarbary HA, Ibrahim EMA, Mohamed HA, Jenssen H, Hygi DFC, Envir DS. Effect of enzyme type and hydrolysis time on antibacterial and antioxidant activity of whey protein hydrolysates. Iraqi J Agric Sci. 2022;53(6):1340-57. https://doi.org/10.36103/ijas.v51i6.1650

Ali HK, Shakir KA. Vicine and Convicine levels in dry and fresh beans during the growth stages and the effect of enzymatic treatment and processing conditions on their removal. Iraqi J Agric Sci. 2023;54(5):1252-62. https://doi.org/10.36103/ijasv54i5.1821

FAO. Stat. Food and Agriculture organization of the United Nations[internet]. Rome: FAO; 2014 [cited 2024 Sept 18]. Available from: https://www.fao.org/home/en

Neme K, Bultosa G, Bussa N. Nutrient and Functional properties of composite flours processed from pregelatinis borley, sprouted faba bean and carrot flours. Int J Food Sci Technol. 2015;50:2375-82. https://doi.org/10.1111/ijfs

Mahmoud RS, Al-Zubade A. Effect of Gibberellin Spraying on Yield of Bean and Its Components. Proceedings of the Minar Congress 2023;(9):121-7. https://doi.org/10.47832/MinarCongress9-11

Rizwan M, Ali S, Adress M, Ibrahim M, Tsang DC, Zia-Ur-Rehman M, OK YS. Acritical review on effects, to lerance mechanisms and management of cadmium in vegetables, Chemosphere. 2017;182:90-105. https://doi.org/10.1016/j.chemasphere.2017.05.013

Al-Juboury M, Abdul-Hameed H. Using of activated carbon derived from agriculture waste coating by layered double hydroxide for Copper adsorption. Iraqi J Agric Sci. 2019;50(5):1446-54. https://doi.org/10.36103/ijas.v50i5.813

Zeki SL, M-Ridha MJ. Phytotoxicity of wastewater containing Cadmium (Cd) using oleander. Iraqi J Agric Sci. 2020;51(4):1231-8. https://doi.org/10.36103/ijas.v51i4.1103

Younas S, Rizvi H, Ali S, Abbas F. Irrigation of Zea mays with UASB-treated textile wastewater; effect on early growth and physiology. Enviro Sci Pollu Res. 2020;1-20. https://doi.org/10.1007/s1135-020-07948-5

Akpan EJ, Umoh B. Effect of heat and tetracycline treatments on the food quality and acridity factors in cocoyam (Xanthosoma sagittifolium (L.) Schott) Pakistan. J Nutri. 2004;3(3):240. https://doi.org/10.3923/pjn.2004.240.243

Monazzah M, En Feradi ST, Soleimani MJ, Rabiei Z. An Unspecific phyto toxin oxalic acid and its effect on sun flower proteome. Aust J Bot. 2017;64(3);219-26. https://doi.org/10.1071/BT15143

Mitiko va T, Prentovic T, Markoski M. Phytoremediation of soils contaminated with heavy metals in the vicinity of smellers for lead and zinc in velas. Agric Conspec Sci. 2015;80(1)53-57. https://doi.org/10.1016/j.gexpla2012.04.013

Kadem FA, Abed NY. Application of statistics and analysis of agricultural experiments (practical part). Ministry of Higher Education and Scientific Research, College of Agricultural, University of Baghdad, Iraq; 2018. pp 1-200.

Aebi H. Catalase In: Bergmeyer HU, editor. Methods of enzymatic analysis.New York: Academic press; 1974. p. 673-84. https://doi.org/10.1016/bq78012-091302-2-50032-3

Hussain I, Khan MA, Khan FV, Ayaz S, Khan FU. Uv spectrophotometric analysis profile of ascorbic acid in medical plants of Pakistan. World App Sci J. 2010;9(7):800-3.

Bates LS, Waldes RP, Teare ID. Rapid determination of free proline for water stress studies. Plant Soil. 1973;39:205-7. https://doi.org/10.1007/bfooo18060

Velikiva VS, Yerdan OV, Edereva A. Oxidative stress and some antioxidant system in acid rain –treated been plants. Protective role exogenous polyamines. Plant Sci. 2000; 151:59-66. https://doi.org/10.1016/so168-9452 (99)001'97-1

Warrier RR, Paul M, Vinee MV. Estimation of salicylic acid in Eucalyptus leaves using spectrophotometric method. Plant Physiol. 2013;3(1-2):90-7.

Farooq M, Ullah A, Usman M, Siddique KHM. Application of zinc and biochar help to mitigate cadmium stress in bread wheat raised from seeds with high intrinsic zinc. Chemosphere. 2020;260:127652. https://doi.org/10.1016/jchemosphere.2020.127652

Regleberyer G, Jakopitsch C, plasser L, Schwaiger H, Furtmuller PG, peschek GA, Zamacky M, Cbinger C. Occurrence and biochemistry of hydroperoxidase in oxygenis phototrphic prokaryotes (cyanobacteria). Plant Physiol Biochem. 2002;40:479-90.

Mishra S, Srivastava S, Tripathi PD. phytochelatin synthesis and response of antioxidants during cadmium stress in Baccopa monnieri L. Plant Physiol Biochem. 2006;44:25-37. https://doi.org/10.1016/j.plaphy2006.01.007

Fu XP, Dou CM, Hu SP, Chen XC, Shi JY, Chen YX. Review of progress in roles of organic acid on heavy metal resistance and detoxification in plants. Chin J Plant Ecol. 2010;534:1354-8. https://doi.org/10.1016s1002-0160 (17)60339

He S, Xiaoe Yang X, He Z, Baligar VC. Morphological and physiological responses of plants to cadmium toxicity: A review Pesos Phere. 2017;27:421-38. https://doi.org/10.3773/j.issn./005-264x.2010//.013

Kohanova J, Martinka M, Vaculik M, White PJ, Hauser MT, Lux A. Root hair abundance impacts cadmium accumulation in Arabidopsis Thaliana Shoots. Ann Bot. 2018. 122:903-914. https://doi.org/10.1093/aob/mcx220.

Gupta M, Kumar S, Dwivedi V, Gupta, DG, Ali D, Alarifi S. Selective synergistic effects of oxalic acid and salicylic acid in enhancing amino scid levels and alleviating lead stress in Zea mays L. Plant Signal Behav. 2024:19. https://doi.org/10.1080/15592324.2024.2400451

Amin A, Parvin F, Chakraborty J, Kim YI. Cyanobacteria mediated heavy metal removal a review on mechanism biosynthesis and removal capability. Environ. Technol. Rev. 2021;10(1):1-44. https://doi.org/10.1080/21622515.2020.1869323

Kim KS, Min JY, Dickman MB. Oxalic acid is an elicitor of plant programmed cell death during Sclerotinia Sclerotiorum disease development. Mol Plant Microbe Interact. 2008;21:605-12. https://doi.org/10.1094/mpmi-21-5-0605

El –Rasafi T, Oukarroum A, Haddioui A, Song H, Kwon EE et al. Cadmium stress in plants: A critical review of the effects, Mechanisms and tolerance strategies. Crit Rev Environ Sci Technol. 2022;52:675-726. https://doi.org/10.1080/10643389.2020.1835435

Sadak M Sh, Orabi SA. Improving thermo tolerance of wheat plant by foliar application of citric acid or oxalic acid. Int J Chem Tech Res. 2015;8(1):111-23.

Nector G, Mhamdi A, Foyer CH. The roles of reactive oxygen metabolism in drought: not so cut and dried. Plant Physiol. 2014;146:1636-48. https://doi.org/10.1104/pp.113.233478

Zhang B, Oakes AD, Newhouse AE, Baier KM, Maynard CA, Powell WA. Athreshold level of oxalate oxidase transgene expression erduces Cryphonectria parasitica- induced necrosis in a transgenic American chestnut (Castanea dentate) leaf bioassay. Transgenic Res. 2013;22:973-82. https://doi.org/10.1007/s1124-013-9708-5