|تعداد مشاهده مقاله||7,632,818|
|تعداد دریافت فایل اصل مقاله||5,853,939|
Effect of foliar application of humic acid levels and nano-fertilizer application on some quantitative and qualitative traits of pumpkin (Cucurbita pepo L.) in climatic conditions of Khorramabad area, Iran
|Caspian Journal of Environmental Sciences|
|دوره 20، شماره 3، مهر 2022، صفحه 467-476 اصل مقاله (1.08 M)|
|نوع مقاله: Research Paper|
|شناسه دیجیتال (DOI): 10.22124/cjes.2022.5638|
|Tanaz Kamali Omidi؛ Ali Khorgami* ؛ Kazem Taleshi|
|Department of Agronomy, Khorramabad branch Islamic Azad University, Khorramabad, Iran|
|The present study was carried out to evaluate the effect of spraying different levels of humic acid and nano-fertilizer in Khorramabad region in a temperate climate during 2017-2018 cropping year. It was carried out in a factorial arrangement based on completely randomized block design with three replications. The examined factors included humic acid in three levels (control, seed coating with humic acid and humic acid foliar application as H1, H2 and H3 respectively) and foliar application of nano-fertilizer in four levels (control, one, two, and three times nano-fertilizer spraying as N1, N2, N3 and N4 respectively). The results of mean comparison showed that non-application of humic acid and nano-fertilizer treatments had the lowest fruit yield (28400 kg ha-1). Also, by increasing the number of nano-fertilizer application, the fruit yield of pumpkin was elevated. The results showed that there was no significant difference between treatments of one, two and three times the application of nano fertilizer, however, the highest amount of protein and oil yield were 182.7 and 384.9 kg ha-1 in three treatments which obtained in nano-fertilizer application and the least amount of oil and protein was obtained in control treatment (distilled water). Overall, the results showed that three-time application of nano-fertilizer with humic acid foliar application as well as seed coating with humic acid could significantly improve the quality and quantity of pumpkin seeds. Therefore, using these fertilizer in the climatic conditions of Khorramabad is recommended.|
|Growth promoting؛ Nutrition؛ Fertilizer؛ Biological fertilizer؛ Nano|
Ahmadian, A, Ghanbari, A, Siahsar, B, Heydari, M, Ramrudi, M & Nikbakht Mousavi, M 2009, Effect of chemical fertilizer residues, manure and compost on yield, yield components, some physiological characteristics and essential oil content of chamomile under drought stress conditions. Iranian Journal of Agricultural Research 8: 668-676, [In Persian].
Arzmjoo, A, Heidari, M and A Ghanbari 2010 Effect of drought stress and fertilizer on quality and yield of German chamomile. Journal of Agricultural Sciences of Iran, 12: 100-111, [In Persian].
Atiyeh, R M, Edwards, CA, Subler, S & J Metzger, J 2000, Earthworm-processed organic waste as components of horticultural potting media for growing marigold and vegetable seedlings. Compost Science and Utilization, 8: 215-253.
Ayas, H & Gulser, F 2005, The effect of sulfur and humic acid on yield component and macronutrient contents of spinach (Spinach oleracea var. spinoza). Journal of Biological Sciences, 5: 801-804.
Burman, U, Saini, M & Kumar, P 2013, Effect of zinc oxide nanoparticles on growth and antioxidant system of chickpea seedlings. Toxicological and Environmental Chemistry, 95: 605-612.
Chen, Y, & Aviad, T 1990, Effects of humic substances on plant growth In humic substances in soil and crop sciences: selected readings Ed. P, MacCarthy, CE, Clapp, RL, Malcolm, and Pr, Bloom, Soil Science Society of America Inc., Madison, Wisconsin, USA, pp. 161-186.
Daneshvar Hakimi Meybodi, N, Kaafi, M, Nikbakht, A & Rejali, F 2012, The effect of humic acid on some qualitative and quantitative characteristics of grass speedway green. Iranian Journal of Horticulture, 4: 403-412, [In Persian].
Defline, S, R Tognetti, E Desiderio and A Alvino 2005 Effect of foliar application of N and humic acids on growth and yield of durum wheat. Agronomy Sustainable Development, 25: 183-191.
Derosa MR, Monreal C, Schnitzer M, Walsh, R & Sultan, Y 2010, Nanotechnology in fertilizers. Nature Nanotechnology, 5: 91.
Fathi, AR and M Zahedi 2014 Effect of foliar application of iron oxide nanoparticles on the growth and ionic content in two maize genotypes differing in soil salinity Journal of Agricultural Research, 12 (1): 110 - 17
Fruhwirth, GO & Hermetter, A 2008 Production technology and characteristics of Syrian pumpkin seed oil European Journal of Lipid Science Technology, 110: 637-644.
Gleiter, H 1989, Progress in materials science, Nano Technology, 33: 223- 315.
Hooker, KV, Coxon, CE, Hackett, R, Kirwan, LE, O’Keeffe, E & Richards, KG 2008, Evaluation of cover crop and reduced cultivation for reducing nitrate leaching in Ireland. Journal of Environmental Quality, 37: 138-145.
Hosseini, SH, Yousefzadeh S, Pritsayan, S and KH Hemati 2016, Growth analysis and quality traits of pumpkin seeds under the influence of application of organic and chemical fertilizers. Journal of Plant Production Research 23: 155-131, [In Persian].
ISIRI 7593 2003, Oilseeds, determination of oil content (Reference method). Institute of Standards and Industrial Research of Iran, 19 p.
Jahan, M, Behzad Amiri, M, Afkhavani Shajari, M & MK Tahami 2013, Investigation on the quantity and quality of paper skin leather production under the influence of planting of Iranian winter clover and clover plants, inoculation with plant growth stimulating rhizobacteria and application of organic fertilizers. Iranian Journal of Agricultural Research, 11: 356-337, [In Persian].
Jahan, M, Koocheki, A, Nassiri, M, and Dehghanipoor, F 2007The effects of different manure levels and two branch management methods on organic production of Cucurbita pepo L. Iranian Journal of Field Crops Research, 5: 281-289, [In Persian].
Jellin, JM, Gregory, P, Batz, F, Hitchhens, K, Burson, S, Shaver, K and Palacioz, K, 2000, Natural Medicines Comprehensive Database Pharmacists Letter, 1530 p.
Khan, A, Guramni, AR, Khan, MZ, Hussain, F, Akhtar, ME, Khan, S 2012, Effect of humic acid on growth, yield, nutrient composition, photosynthetic pigment and total sugar contents of peas (Pisum sativum L.). Journal of Chemical Society of Pakistan, 6: 56-63.
Mitra, J 2001 Genetics and genetic improvement of drought resistance in crop plant. Current Science, 80: 758-763.
Movahedpour, F, Dabagh Mohammadi Nasab, AS Najafi, N and R Amini 2014 Effect of humic acid and EDTA effects on growth characteristics, yield and yield components of rapeseed under copper toxicity stress. Journal of Sustainable Agricultural Science (Special Issue): 103-121, [In Persian].
Nardi, S, Pizzeghello, D, Muscolo, A & Vianello, A 2002, Physiological effects of humic substances on higher plants. Soil Biology & Biochemistry, 34: 1527-1536.
Omidbeygi, R 2012, Production and processing of medicinal plants. Astan Gods Razavi Press, Meshed, Iran, 438 p, [In Persian].
Padem, H, A Ocal and R Alan 1999 Effect of humic acid added foliar fertilizer on quality and nutrient content of eggplant and pepper seedlings Acta Horticulture 4: 491- 502.
Peyvandi, M, Parandeh, H and M Mirza 2011 Comparison of the effect of iron nanochelatw with iron chelate on growth parameters and antioxidant enzymes activity of Ocimum basilicum, New Cellular-Molecular Biotechnology Journal, 4: 1-10, [In Persian].
Prasad, TNVKV, Sudhakar, P, Sreenivasulu, Y, Latha, P, Munaswamy, V, Raja Reddy, K, Sreeprasad, TS, Sajanlal, PR & Pradeep, T 2012, Effects of nanoscale zinc oxide particles on the germination, growth and yield of peanut. Journal of Plant Nutrition, 35: 905-927.
Rahmati, M, Azizi, M, Hasanzadeh Khayat, M & Nemati, H 2008, Investigating the effects of different levels of plant density and nitrogen on morphological traits, yield, essential oil content and percentage of kamazolen in broth chamomile. Journal of Horticulture, 23: 35-27, [In Persian].
Razaghi Fard, SA, Gholipuri, AG, Toba, A & Mousavi Meshkini, SR 2016, Yield and yield components of pumpkin affected by mycorrhiza, vermicompost, and nano-fertilizer. Journal of Agricultural Knowledge and Sustainable Production, 76: 128-113, [In Persian].
Salehi M, & Tamaskani F 2008 Pretreatment effect of nano-silver on germination and seedling growth of wheat under salt stress. Proceeding of 1st Iranian Congress in Seed Sciences and Technology, Gorgan, Iran, 358 p, [In Persian].
Sharif M, Khattak R A, and Sarir M S 2002 Effect of different levels of lignitic coal derived humic acid on growth of maize plants. Plant Analysis, 33: 3567-3580
Singh RK, Singh, RP & Singh, RS 2003, Effect of iron on herbage and oil yield of lemon grass (Cymbopogon flexuosus). Crop Research, 26: 185 - 187
Shahsavan, M & Chamani, A 2014, Effect of different compositions of mushroom substrate compost residue on growth and flowering indices of the night of purple vermicompost of Hanza cultivar. Special Issue for Sustainable Agriculture Science, 24: 139-123, [In Persian].
Samavat, S & Malakoti, M 2005, Necessity of produce and utilization of organic acids for increase of quality and quantity of agricultural products. Sana Publisher, Tehran, In Persian with English Summary.
Sabzevari, S And H Khazaee 2009 Effect of spraying various levels of humic acid on growth characteristics, yield and yield components of wheat (Triticum aestivum L.). Pishtaz Cultivar Agricultural Ecology, 1: 63-53, [In Persian].
Shah Hosseini, Z, Gholami, A & Asghari, HR 2012, Effect of mycorrhizal symbiosis and application of humic acid on water use efficiency and physiological parameters of corn growth in irrigated conditions. Two Quarterly Journal of Dry Ecosystems, 2: 57-39, [In Persian].
Tan, KH 2003, Humic matter in soil and the environment. Marcel Dekker, New York.
Turkmen, O, Dursun, A, Turan, M & Erdinc, C 2004, Calcium and humic acid affect seed germination, growth, and nutrient content of tomato. Soil and Plant Science, 54: 168-174.
Zhang, F, Wang R, Xiao Q, Wang Y, and Zhang J 2006, Effects of slow/ controlled-release fertilizer cemented and coated by nano- materials on biology. Nanoscience, 11: 18-26.
Zhang L, Hong, F, Lu, S & Liu, C 2005, Effects of nano-TiO2 on strength of naturally aged seeds and growth of spinach. Biological Trace Element Research, 105: 83- 91.
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