The application of folic acid and biochar on drought stress in sport turfgrass

Firouzi, Fatemeh; Solgi, Mousa; Khaleghi, Alireza; Bagheri, Hossein

doi:10.22055/ppd.2023.41511.2053

Document Type : Research Paper - Horticulture

Authors

¹ M.Sc. Graduate of Horticultural Science, Department of Horticultural Sciences and Engineering, Faculty of Agriculture and Environment, Arak University, Arak, Iran.

² Associate Professor, Horticultural Sciences and Engineering, Faculty of Agriculture and Environment, Arak University, Arak, Iran.

³ Associate Instructor, Horticultural Sciences and Engineering, Faculty of Agriculture and Environment, Arak University, Arak, Iran.

https://doi.org/10.22055/ppd.2023.41511.2053

Abstract

Introduction
Use of biochare and folic acid in a lawns bed can be used as a method for reducing water consumption and also reducing the cost of maintaining green space. The aim of this study was to investigate the effect of folic acid and biochare composition on sport lawns under drought stress conditions. The aim of this study was to investigate the effect of folic acid and biochare composition on sport lawns under drought stress conditions.

Materials and Methods
For this purpose, two substances of folic acid (0, 250 and 500 mg L^-1) and biochar (0, 20 and 40 g kg^-1) after water stress were used at two levels of 100 (full irrigation) and 50 (drought) field capacity percentages. The traits of perspective quality (density, color, texture and coverage), chlorophyll, prolin and N, P, Ca and P elements were measured after the drought stress application. This research was carried out as factorial in a completely randomized design at department of Horticultural Science and Engineering of Arak University in 2018.

Results and Discussion
The application of biochar at 20 g kg^-1 concentrations increased the cover surface in sport turfgrass. It was also determined that drought stress reduced the qualitative characteristics of color, density, texture and coverage, but increased nitrogen levels in the sports turfgrass. In this research, the reduced amount of potassium of leaf tissues by biochar application under drought stress was observed. Although, the increasing of potassium content was observed by using of folic acid treatment under drought stress. Biochar alone at a concentration of 20 g kg^-1 increased the amount of grass cover compared to the control. However, the use of biochar in drought stress conditions did not have a positive effect on the studied traits and it even caused a 50% decrease in the amount of potassium under drought stress. In this test, drought stress reduced the characteristics of sports turfgrass, including color, density, texture, and coverage. The use of folic acid under drought stress conditions caused an increase in nitrogen and potassium levels in the studied turfgrass species. However, without the application of folic acid in combination with a concentration of 40 g kg^-1 of biochar caused an increase in the amount of calcium compared to the control. When biochar and folic acid were used simultaneously under drought stress conditions, the amount of phosphorus increased compared to the control.

Although biochar had a positive effect on the quality of the sports grass coverage, it did not have much effect on increasing the absorption of elements under drought stress. Therefore, the amount of 20 grams of biochar per kilogram of soil is recommended. However, folic acid had positive effect on the quality of the sports grass coverage and increasing the absorption of nutrients under drought stress. Therefore, the concentration of 250 mgL^-1 of folic acid is the optimal and effective concentration that is suggested in this research. In general, folic acid is a natural tampon and a suitable chelator with high ion exchange capacity, which increases the absorption of mineral elements in plants and also increases the quality and quantity.

Keywords

Main Subjects

H: Ornamental Plants

References

Abbasi, M.K., & Anwar, A.A. 2015. Ameliorating effects of biochar derived from poultry manure and white clover residues on soil nutrient status and plant growth promotion-greenhouse experiments. PLOS ONE, 10(6), e0131592.

Abdel Rahman, A.A., Shalaby, A.F., & EL Monayeri, M.O. 1971. Effect of moisture stress on metabolic products and ions accumulation. Plant and Soil, 34, 65-90.

Alikhani, A., Taghizadeh, M., & Solgi, M. 2018. Investigating the effect of humic acid on sports turfgrass under drought and cadmium stress. MSc Thesis, Arak University. [In Persian]

Arnon, D.I. 1949. Copper enzymes in isolated chloroplasts. Polyphenoloxidase in beta vulgaris. Plant Physiology, 24, 1-15.

Aslani, M., & Suri, M.K. 2013. Investigating the effects of using several amino acid-based chemical fertilizers on the early growth of spinach plants. 8^th Iranian Horticultural Science Congress, 26-29 August, Hamedan. [In Persian]

Atkinson, C.J., Fitzgerald, J.D., & Hipps, N.A. 2010. Potential mechanisms for achieving agricultural benefits from biochar application to temperate soils: A review. Plant and Soil, 337, 1-18.

Bagheri, H., Solgi, M., Taghizadeh, M., & Mirzakhani, A. 2019. The effect of superabsorbents nanocamposites on drought resistance in sport turfgrass. Applied Biology, 32(3), 54-68. [In Persian]

Bagheri, V., Shamshiri, M.H., Alaei, H., & Salehi, H. 2009. Effect of three species of arbuscular mycorrhizal fungi on growth and nutrients uptake in Zinnia plant under drought stress conditions. Journal of Plant Productions (Scientific Journal of Agriculture), 41(4), 83-96. [In Persian]

Bates, L.S., Waldren, R.P., & Teare, I.D. 1973. Rapid determination of free proline for water-stress studies. Plant Soil, 39, 205-207.

Beyraghdar, S., Solgi, M., Taghizadeh, M., & Khadivi, A. 2016. The investigation of folic acid on seed germination growth stages and resistance to stresses in Zinnia elegans. MSc Thesis, Arak University. [In Persian]

Biang, S., & Jiang, Y. 2009. Reactive oxygen species, antioxidant enzymeactivities and gene expression patterns in leaves and roots of Kentuckybluegrass in response to drought stress and recovery. Scientia Horticultrae, 120, 264-270.

Biglouie, M.H., Assimi, M.H., & Akbarzadeh, A. 2010. Effect of water stress at different stages on quantity and quality traits of virginia (flue cured) tobacco type. Plant Soil Environment, 2, 67-75.

Bremner, J.M., & Mulvaney, C.S. 1965. Nitrogen-total. In: Methods of soil analysis: part 2, chemical and microbiological properties. Page, A.L. (ED). 1982. Second edition. American Society of Agronomy Inc. Madison, Wisconsin USA. Agronomy Series, 9(2), 596-622.

Burguieres, E., McCu, P., Kwon, Y.I., & Shetty, K. 2007. Effect of vitamin C and folic acid on seed vigor respondent phenolic-linked antioxidant activity. Bioresource Technology, 98, 1393-1404.

Chen, Y., & Aviad, T. 1990. Effects of humic substances on plant growth, in: MacCarthy, P. et al. (Eds), humic substances in soil and crop sciences, selected readings. Amer. Soc. Of Agron. Madison WI, 161-186.

Cheng, C.H., Lehmann, J., Thies, J.E., Burton, S.D., & Engelhard, M.H. 2006. Oxidation of black carbon by biotic and abiotic processes. Organic geochemistry, 37(11), 1477-1488.

Domiri Ganji, H., Babaei, S., Mataji, A.A., & Rashidi, F. 2010. Change detection of green space in tehran city (zone 2) using aerial photographs and satellite data. Journal of Sciences and Techniques in Natural Resources, 5(20), 13-24. [In Persian]

Eyheraguibel, B., Silvestre, J., & Morard, P. 2008. Effects of humic substances derived from organic waste enhancement on the growth and mineral nutrition of maize. Bioresource Technology, 99(10), 4206-4212.

Gaskin, J.W., Speir, R.A., Harris, K., Das, K., Lee, R.D., Morris, L.A., & Fisher, D.S. 2010. Effect of peanut hull and pine chip biochar on soil nutrients, corn nutrient status, and yield. Agronomy Journal, 102, 623-633.

Goldani, M., & Kamali, M. 2016. Evaluation of culture media including vermicompost, compost and manure under drought stress in Iranian petunia (Petunia hybrida). Journal of Plant Productions, 39(3), 91-100.

Gonzales, P.R., & Salas, M.L. 1995. Improvement of the growth, grain yield, and nitrogen, phosphorus, and potassium nutrition of grain corn through weed control. Journal of Plant Nutrition, 18(11), 2313-2324.

Goodfellow, S., & Barkham, J.P. 1974. Spectral transmission curves for a beech (Fagus sylvatica L.) canopy. Acta Botany Neerl, 23, 225-230.

Habibi, H., Motesharezadeh, B., & Alikhani, H. 2017. Effect of biochar and biological treatments on nutrient elements content (P, K, Ca, Mg, Fe and Mn) of Amaranthus in oil polluted soil. Iranian Journal of Soil and Water research, 48(2): 369-384. [In Persian]

Heidari, M., & Rezapor, A. 2011. Effects of water stress on yield and sulfur, chlorophyll and nutrient concentrations in Nigella sativa. Journal of Crop Production Products, 1(1), 81-90. [In Persian]

Jiang, Y., & Huang, B. 2001. Drought and heat stress injury to two cool-season turfgrasses in relation to antioxidant metabolism and lipid peroxidation. Crop Science, 41(2), 436-442.

Kafi, M., & Kaviani, S. 2002. Managing the construction and maintenance of the lawn. Shaghayegh Roosta Press, P. 232. [In Persian]

Kaya, C., Levant, J., & David, H. 2006. Effect of silicon and plant growth and mineral nutrition of maize grown under water stress conditions. Journal of Plant Nutrition, 29, 1469-1480.

Keshavarz fard, S., Solgi, M., Bagherim, H., & Shahrjerdi, I. 2020. The application of Biochar with Humic acid for increasing of resistance to drought stress in Zinnia. Applied Biology, 33(1), 148-173. [In Persian]

Lehmann, J., & Joseph, S. 2009. Biochar for environmental management- an introduction. In: Lehmann, J., & Joseph, S. (Eds). Biochar for environmental management: Science and Technology, Earthscan, London, pp. 1–11.

Lehmann, J., Hanley, K., Enders, A., Hyland, C., & Riha, S. 2013. Nitrogen dynamics following field application of biochar in a temperate North American maize-based production system. Plant and Soil, 365, 239–254.

Michael, K. 2001. Oxidized lignites and extracts from oxidizwd lignites in agriculture. Soil Sciences, 1-23.

Mirjalili, S.A. 2005. Plants in stressful environments. Nourbakhs Publication, 240 pp. [In Persian]

Rajkovich, S., Enders, A., & Hanley, K. 2012. Corn growth and nitrogen nutrition after additions of biochars with varying properties to a temperate soil. Biology and Fertility of Soils, 48, 271-284.

Sadeghi, A., Etemadi, N., Shams, M., & Nyazmand, F. 2014. Effect of drought stress on morphological and physiological characteristics of wheatgrass and tall fescue. Journal of Horticultural Sciences, 28(4), 54-553. [In Persian]

Salehi, M., Koocheki, A., & Nassiri, M. 2003. Leaf nitrogen and SPAD reading as indicator for drought stress in wheat. Iranian Journal of Field Crops Research, 1(2), 199-204. [In Persian]

Sebahattin, A., & Necdet, C. 2005. Effects of different levels and application times of humic acid on root and leaf yield and yield components of forage turnip (Brassica rapa L.). Journal of Agronomy, 4, 130-133.

Setayesh-Mehr, Z., & Ganjeali, A. 2013. Effects of Drought Stress on Growth and Physiological Characteristics of Dill (Anethum graveolens L.). Journal of Horticultural science, 27(1), 27-35. [In Persian]

Singh, T.N., Paleg, L.G., & Aspinall, D. 1973. Stress metabolism, 1. Nitrogen metabolism and growth in barley plant during water stress. Australian Journal of Biological Sciences, 26(1), 45-56

Song, W.Y., Zhang, Z.B., Shao, H.B., Guo, X.L., Cao, H.X., Zhao, H.B., Fu, Z.X., Spiak, Z., & Gediga, K. 2012. Przydatność wybranych gatunków roślin do zasiedlania terenów zdegradowanych przez przemysł miedziowy. Przemysł Chemiczny, 91(5), 996-999.

Sposito, N.C., 2013. Soil nutrient availability properties of biochar. A Thesis presented to the Faculty of Cal Poly State University, San Luis Obispo.

Standard methods for the examination of water and wastewater (2005). https://www.standardmethods.org/Buy (accessed January 2023).

Van Zwieten, L., Kaimber, S., Morris, S., Chan, Y.K., Downie, A., Rust, J., Josepp, S., & Cowie, A. 2010. Effects of biochar from slow pyrolysis of paper mill waste on agronomic performance and soil fertility. Plant and Soil, 37, 235-246.

Verheijen, F., Jeffery, S., Bastos, A.C., Van Der Velde, M., & Diafas, I. 2010. Biochar application to soils: a critical scientific review of effects on soil properties processes and functions. Joint Research Centre Scientific and Technical Reports, Pp. 162.

The application of folic acid and biochar on drought stress in sport turfgrass

References

References

Volume 46, Issue 1June 2023Pages 39-50

Volume 46, Issue 1
June 2023
Pages 39-50