Assessment of Morphological, Physiological, and Biochemical Characteristics of Thymus kotschyanus Bioss. and Hohen under Different Bio and Chemical Fertilizers

Document Type : Original Research

Authors
B. Asghari 1
S. Mafakheri 1
F. Rejali 2
1 Department of Horticultural Sciences Engineering, Faculty of Agriculture and Plant Resources, Imam Khomeini International University, Qazvin, Islamic Republic of Iran.
2 Soil and Water Research Institute, Agricultural Research, Education and Extension Organization (AREEO), Karaj, Islamic Republic of Iran.
Abstract
Biofertilizer has been recognized as an alternative to chemical fertilizer to improve soil fertility and crop production in sustainable agriculture. The objective of this field study was to evaluate the effects of bio and chemical fertilizer on qualitative and quantitative characteristics of Thymus kotschyanus Bioss. & Hohen. The experiment was conducted during 2019 at Imam Khomeini International University, Qazvin, Iran, and treatments included control (no fertilizer), chemical fertilizer (NPK), and four types of microorganisms including Funneliformis mosseae (AMF), Azotobacter chroococcum strain 5, Pseudomonas stutzeri strain P-16, and Pseudomonas putida strain 41. The results showed that AMF and NPK positively affected plant height, number of branches per plant, and photosynthesis pigments contents compared to other treatments. However, maximum plants’ fresh and dry weight, proline, total phenolic and flavonoid contents, DPPH inhibition, essential oil percentage, and carvacrol quantity were obtained from plants that were inoculated with AMF. Also, the activities of Catalase (CAT) and Superoxide Dismutase (SOD) were increased by the application of AMF. According to the obtained results, there were no significant differences in P concentration between plants treated with P. stutzeri, Pseudomonas putida, AMF, and NPK. Maximum N amount in T. kotschyanus leaf was obtained in plants treated with AMF, NPK and Azotobacter chroccucum. Plants inoculated with AMF had higher Ca uptake compared to the other treatments, and the maximum total K accumulation in T. kotschyanus were obtained in plants inoculated with AMF and NPK. Hence, the use of organic and biological inputs instead of chemical fertilizer for improving crop efficiency and quality with the aim of alleviating pollution and accomplishing sustainable agriculture is highly encouraging.

Keywords

Subjects

Abbasi Khalaki M, Ghorbani A, Moameri M (2016) Effects of silica and silver nanoparticles on seed germination traits of Thymus kotschyanus in laboratory conditions. Journal of Rangeland Science 3: 221- 231
Abd Allah EF, Hashem A, Alqarawi AA, Bahkali AH, Alwhibi MS (2015) Enhancing growth performance and systemic acquired resistance of medicinal plant Sesbania sesban (L.) Merr using arbuscular mycorrhizal fungi under salt stress. Saudi Journal Biology Science 22: 274–283
Abdel Latef AAH, Chaoxing H (2011) Effect of arbuscular mycorrhizal fungi on growth, mineral nutrition, antioxidant enzymes activity and fruit yield of tomato grown under salinity stress. Scientia Horticulturae 127: 228–233
Abdollahi Arpanahi A, Feizian M (2019) Arbuscular mycorrhizae alleviate mild to moderate water stress and improve essential oil yield in thyme. Journal of Rhizosphere 10 (3): 160–162
Aggani Latha, S (2013) Development of biofertilizers and its Future Perspective. Journal of Pharmacy (4): 327‐332
Adam, P (2007) Identification of essential oil components by gas chromatography/mass spectrometry. Allured Publishing Corporation, Illinois, USA
Asghari B, Khademian R, Sedaghati B (2020) Plant growth promoting rhizobacteria (PGPR) confer drought resistance and stimulate biosynthesis of secondary metabolites in pennyroyal (Mentha pulegium L.) under water shortage condition. Scientia Horticulturae (263): 109132
Asghari B, Mafakheri S, Zarrabi MM, Erdem SA, Orhan IE, Bahadori MB (2018) Therapeutic target enzymes inhibitory potential, antioxidant activity, and rosmarinic acid content of Echium amoenum. South African Journal of Botany 120:191-197
Azimi R, Heshmati GA, Farzam M, Goldani M (2019) Effects of Mycorrhiza, Zeolite and Superabsorbent on Growth and Primary Establishment of Agropyron desertorum in Mining Field (Case Study: Mashhad′s Shargh Cement Factory, Iran). Journal of Rangeland Science 9(2): 172-183
Bahadori F, Sharifi Ashorabadi E, Mirza M, Matinizade M, Abdosi V (2013) Improved Growth, Essential Oil Yield and Quality in Thymus daenensis Celak on Mycorrhizal and Plant Growth Promoting Rhizobacteria Inoculation. Intl. J. Agronomy. Plant Production 4 (12): 3384-3391
Bahadori MB, Valizadeh H, Asghari B, Dinparast L, Bahadori S, Moridi Farimani M (2016) Biological activities of Salvia santolinifolia Boiss. A multifunctional medicinal plant. Current Bioactive Compound 12: 297-305
Bahadori MB, Valizadeh H, Asghari B, Dinparast L, Farimani MM, Bahadori S (2015) Chemical composition and antimicrobial, cytotoxicity, antioxidant and enzyme inhibitory activities of Salvia spinosa L. Journal of Functional Foods 18: 727-736
Baslam M, Esteban R, García-Plazaola J, Goicoechea N (2013) Effectiveness of arbuscular mycorrhizal fungi (AMF) for inducing the accumulation of major carotenoids, chlorophylls and tocopherol in green and red leaf lettuces. Applied Microbiology and Biotechnology 97:3119–3128
Bates L, Waldren R, Teare I (1973) Rapid determination of free proline for water-stress studies. Plant and soil 39: 205-207
Borcar SG (2015) Microbes as bio-fertilizers and their production technology. WPI, Delhi
Boroomand N, Sadat-Hosseini M, Moghbeli M, Farajpour M (2018) Phytochemical components, total phenol and mineral contents and antioxidant activity of six major medicinal plants from Rayen, Iran. Journal of Natural Product Research 32 (5): 215-226
Borde M, Dudhane M, Jite P (2011) Growth photosynthetic activity and antioxidant responses of mycorrhizal and non-mycorrhizal bajra (Pennisetum glaucum) crop under salinity stress condition. Crop Protection 30: 265–271
Chang W, Sui X, Fan X, Jia T, Song F (2018) Arbuscular Mycorrhizal Symbiosis Modulates Antioxidant Response and Ion Distribution in Salt-Stressed Elaeagnus angustifolia Seedlings. Microbiology 9:652
Estrada B, Aroca R, Barea JM, Ruiz-Lozano JM (2013) Native arbuscular mycorrhizal fungi isolated from a saline habitat improved maize antioxidant systems and plant tolerance to salinity. Plant Science 201: 42–51.
Gao S, Ouyang C, Wang S, Xu Y, Tang L, Chen F (2008) Effects of salt stress on growth, antioxidant enzyme and phenylalanine ammonia lyase activities in Jatropha curcas L. seedlings. Plant Soil Environ 54:374–381
Haneef I, Faizan S, Perveen R and Kausar S (2013) Role of Arbuscular Mycorrhizal Fungi on Growth and Photosynthetic Pigments in (Coriandrum sativum L.) Grown under Cadmium Stress. World Journal of Agricultural Sciences 9(3)1734
Hazzoumi Z, Moustakime Y, Elharchli EH, Amrani Joutei K (2105) Effect of arbuscular mycorrhizal fungi (AMF) and water stress on growth, phenolic compounds, glandular hairs, and yield of essential oil in basil (Ocimum gratissimum L). Chemical and Biological Technologies in Agriculture 2:10-22
Heimler D, Romani A, Ieri F (2017) plant polyphenol content, soil fertilization and agricultural management: a review. Europe food research technology 243:1107-1115.
Khademian R, Asghari B, Sedaghati B, Yaghoubian Y (2019) Plant beneficial rhizospheric microorganisms (PBRMs) mitigate deleterious effects of salinity in sesame (Sesamum indicum L.): Physio-biochemical properties, fatty acids composition and secondary metabolites content. Industrial crops and products 136: 129-139
Li X, He Z, Wang X, Shen M, Yan X, Fan Sh, Wang L, Wang X, Xu X, Sui H, She G (2019) Traditional Uses, Chemical Constituents and Biological Activities of Plants from the Genus Thymus. Chemistry and Biodiversity 16 (9): 27
Middleton L, Richardson S, Koziol L, Palmer CE, Yermakov Z, Henning ZH, Schultz PA, Bever JD (2015) Locally adapted arbuscular mycorrhizal fungi improve vigor and resistance to herbivory of native prairie plant species. Ecosphere 6:1–16
Mozaffarian VA (1996) Dictionnary of Iranian plant Names. Farhang Moaser, Tehran. Iran
Mozaffarian VA (2013) Identification of medicinal and aromatic plants of Iran. Farhang Moaser, Tehran. Iran.
Nadeem SM, Ahmadm M, Zahir ZA, Javaid A, Ashraf M (2014) The role of mycorrhizae and plant growth promoting rhizobacteria (PGPR) in improving crop productivity under stressful environments. Biotechnology Advances 32:429–448
Nakmee PS, Techapinyawat S, Ngamprasit S (2016) Comparative potentials of native arbuscular mycorrhizal fungi to improve nutrient uptake and biomass of Sorghum bicolor Linn. Agriculture and Natural Resources 50:173–78
Nell M, Vötsch M, Vierheilig H, Steinkellner S, Zitterl-Eglseer K, Franz C (2009) Effect of phosphorus uptake on growth and secondary metabolites of garden sage (Salvia officinalis L.). Journal of the Science of Food and Agriculture 89:1090–6
Noorieh B, Arzanesh MH, Mahlegha G, Maryam S (2013) The effect of plant growth promoting rhizobacteria on growth parameters, antioxidant enzymes and microelements of canola under salt stress. Journal of Applied Environmental and Biological Sciences 3:17–27
Oliveira RS, Castro PM, Dodd L, Vosátka M (2006) Different native arbuscular mycorrhizal fungi influence the coexistence of two plant species in a highly alkaline anthropogenic sediment. Plant and Soil 287: 209–221
Oliveira RS, Ma Y, Rocha I, Carvalhod M, Vosátkae M, Freitasa H (2016) Arbuscular mycorrhizal fungi are an alternative to the application of chemical fertilizer in the production of the medicinal and aromatic plant Coriandrum sativum L. Journal of toxicology and environmental health, Part A 79(7): 10
Rydlová J, Jelínková M, Dušek K, Dušková E, Vosátka M, Püschel D (2016) Arbuscular mycorrhiza differentially affects synthesis of essential oils in coriander and dill. Mycorrhiza 26 (2): 123-131
Salehi B, Mishra AP, Shukla I, Sharifi-Rad M, Contreras MDM, Segura-Carretero A, Fathi H, Nasrabadi NN, Kobarfard F, Sharifi-Rad J (2018) Thymol, thyme, and other plant sources: Health and potential uses. Phytotherapy Research 32(9): 1688-1706
Smith S E, Read DJ (2008) Mycorrhizal symbiosis, 3rd ed. Academy Press. London.
Tarraf W, Claudia R, De Cillis F, Tagarelli A, Tedone L, De Mastro G (2015) Effects of mycorrhiza on growth and essential oil production in selected aromatic plants. Italian Journal of Agronomy 10: 633.
Tarraf W, Ruta C, Tagarelli A, De Cillis F, De Mastro G (2017) Influence of arbuscular mycorrhizae on plant growth, essential oil production and phosphorus uptake of Salvia officinalis L. Industrial Crops and Products 102: 144-153
Tohidi B, Rahim malek M, Arzani A (2018) Essential oil composition, total phenolic, flavonoid contents, and antioxidant activity of Thymus species collected from different regions of Iran. Food chemistry 220: 153-161
Ulrichs C, Fischer G, Büttner C, Mewis I (2008) Comparison of lycopene, bcarotene and phenolic contents of tomato using conventional and ecological horticultural practices, and arbuscular mycorrhizal fungi (AMF). Agronomia Colombiana 26(1): 40-46
Verma S, Angadi SG, Patil VS, Mokashi AN, Mathad JC, Mummigatti UV ( 2011) growth, yield and quality of chrysanthemum (Chrysanthemum morifolium ramat.) Cv. Raja as influenced by integrated nutrient management. Karnataka Journal of Agricultural Sciences 24(5): 681-683
Von Wettstein D (1957) Chlorophyll-letale under sub mikroskopisoche formechse der plastiden. Exp. Cell Research 12: 427-507
Willis A, Rodrigues BF, Harris PJC (2013) The ecology of arbuscular mycorrhizal fungi. Crit. Rev. Plant Science 32: 1–20.
Zai X M, Zhu S N, Qin P, Wang XY, Che L, Luo F X (2012) Effect of Glomus mosseae on chlorophyll content, chlorophyll fluorescence parameters, and chloroplast ultrastructure of beach plum (Prunus maritima) under NaCl stress. Photosynthetica 50: 323–328
Zargari A (1990) Medicinal Plants. Tehran University Press, Tehran, pp 28-42
Zayova E, Stancheva I, Geneva M, Hristozkova M, Dimitrova L, Petrova M, Sichanova M, Salamon I, Mudroncekova S (2018) Arbuscular mycorrhizal fungi enhance antioxidant capacity of in vitro propagated garden thyme (Thymus vulgaris L.). Symbiosis 74:177–187
Zubek S, Stojakowska A, Anielska T, Turnau K (2010) Arbuscular mycorrhizal fungi alter thymol derivative contents of Inula ensifolia L. Mycorrhiza 20: 497–504
Journal of Agricultural Science and Technology
Volume 23, Issue 6
November and December 2021
Pages 1309-1325