The Effect of Sulphurous Humic Acid and Plant Density on the Growth and Yield of Red Beans (Phaseolus vulgaris L.) Cultivars

Document Type : Original Article

Authors

1 Plant Production and Genetic Department, Shirvan Faculty of Agriculture, University of Bojnord, Bojnord, Iran

2 Department of Agrotechnology, Faculty of Agriculture, Ferdowsi University of Mashhad, Mashhad, Iran

10.22067/ijpr.2024.85401.1074

Abstract

Introduction
Pulses, including red beans, are a significant source of protein in human nutrition. Increasing yield per unit area is one of the most important factors for increasing crop production. Todays the increase in crop yield occurred by the excessive use of chemical fertilizers, including nitrogen fertilizers, which caused environmental hazards and consequently human health. Humic acid is a natural organic polymer compound that results from the decay of soil organic matter, peat, lignin, etc., which can be used to increase the product and its quality. One of the important benefits of using humic acid is the ability to chelate various nutrients such as potassium and magnesium and other elements to overcome the lack of nutrients. Humic acid also creates more space for water to penetrate through physical modification and improved soil granulation. Plant density is another important agronomic factor that manipulates micro- environment and affects growth, development and yield of plants. Within certain limits, increase of plant population density declines the growth and yield per plant but the reverse occurs for yield per unit area. The optimum plant density to attain highest yield may vary with the genotype and agronomic factor. Therefore, the purpose of this research was to investigate the effect of sulphurous humic acid and plant density on growth and yield of red beans (Phaseolus vulgaris L.) cultivars (Ofogh, Dadfar and Yaghoot).
 
Materials and Methods
The experiment was conducted as a factorial based on a randomized complete blocks design with three replications in the Bojnord city located in north east of Iran during the year 2022. The experimental factors were: plant density at three levels (18, 25, and 40 plants per m2, sulfur-containing humic acid (0 (no application humic acid) 4 and 6 liters per hectare) and red bean (Phaseolus vulgaris L.) cultivars (Ofogh, Dadfar and Yaghoot). Humic acid treatments were applied in the stages of two to four leaves, before flowering and after pod formation, depending on the level of treatment.
 
Results and Discussion
The results showed that Yaghoot cultivar had the highest plant height (71 cm) while, Dadfar had the lowest plant height (40 cm) at all three plant densities. Yaghoot cultivar also had the highest seed number per pod (4.1) and seed yield (4450 kg.ha-1) with application of 6L per hectare humic acid while, Dadfar cultivar had the lowest seed per pot (2) and seed yield (766 kg.hac-1). Results showed the best cultivar was Yaghoot and then Ofogh due to growth traits. The best plant density was 40 plants per m2 and among the humic acid levels, application of 6 lit per hectare had the best results. In the absence of fertilization, the amount of total chlorophyll of cultivars Yaghoot and Ofogh was not affected by the density, However, increasing of humic acid significantly increased the amount of total chlorophyll in all three cultivars and the highest amount of chlorophyll obtained at the highest level of humic acid and plant densities 18 and 25 for Yaghoot and the density of 18 plants for Dadfar.
 
 
Conclusions
In general, it was concluded that humic acid and plant density have been able to have a positive effect on most of the growth traits and photosynthetic pigments of red bean plant. The best cultivar was Yaghoot variety and then Ofogh variety and the best plant density was 40 plants per square meter. Among the humic acid levels, the consumption of 6 liters per hectare had the best result. By observing the appropriate level of density, variety and humic acid, we will be able to harvest the maximum yield of red bean (Phaseolus vulgaris L.) cultivars (Ofogh, Dadfar and Yaghoot) in Bojnord region.

Keywords

©2024 The author(s). This is an open access article distributed under Creative Commons Attribution 4.0 International License (CC BY 4.0).

References

Abdzad Gohari, A., & Sadeghipour, O. (2019). Effect of irrigation and humic acid on yield and water use efficiency in common bean. Journal of Water Research in Agriculture (Soil and Water Science), 33(3), 383-395. (In Persian with English Abstract). https://doi.org/10.22092/jwra.2019.120469
Ahmadi Nouraldinvand, F., Moradi Telavat, M. R., Siadat, S. A., & Moshatati, A. (2019). The reaction of vegetative and reproductive growth of guar (Cyamopsis tetragonoloba L.) to humic acid application with irrigation water in different planting densities. Iranian Journal of Pulses Research, 10(2), 104-118. (In Persian with English Abstract). https://doi.org/10.22067/ijpr.v10i2.69397
Anwar, S., Iqbal, F., Khattak, W. A., Islam, M., Iqbal, B., & Khan, S. (2019). Response of wheat crop to humic acid and nitrogen levels. Journal of Agricultural and Food Sciences, 3(1), 558-565.
Arnon, A. N. (1967). Method of extraction of chlorophyll in the plants. Journal of Agronomy, 23, 112-121.
Astaraei, A. R., & Ivani, R. (2008). Effect of organic sources as foliar spray and root media on nutrition if cowpea plant. American-Eurasian Journal of Agricultural and Environmental Sciences, 3(3), 352-356.
Babaei, P., Golchin, A., Besharati, H., & Afzali, M. (2012). Effect of microbial sulfur fertilizer on nutrient uptake and yield of soybean in a calcareous soil. Iranian Journal Soil Research, 2(2), 145-151. (In Persian with English Abstract). https://doi.org/10.22092/IJSR.2012.126366
Bakry, B. A., Elewa, T. A., El-Karamany, M. F., Zeidan, M. S., & Tawfik, M. M. (2011). Effect of row spacing on yield and its components of some bean varieties under newly reclaimed sand soil condition. World Journal Agricultural Sciences, 7(1), 68-72.
Beeh, D.F. & Leach, G.Y. (2009). Effect of plant density and raw spacing on the yield of chickpea grown on the daily downs. Journal Agricultural, 29(2), 241-246.
Beheshti, S., Tadayyon, A., & Fallah, S. (2017). Effect of humic acid on the yield and yield components of Lima bean (Phaseolus lunatus L.) under drought stress conditions. Iranian Journal of Pulses Research, 7(2), 175-187. (In Persian with English Abstract). https://doi.org/10.22067/IJPR.V7I2.46533
Clarke, J. M., & Simpson, G. M. (1978). Growth analysis of Brassica napus cultivars. Tower. Canadian Journal Plant Sciences, 58, 587-595. https://doi.org/10.4141/cjps78-092
Dadnia, M. (2017). Effect of humic acid on activity of antioxidant enzymes and yield of castor bean (Ricinus commonis) under water deficit condition. Journal of Crop Ecophysiology (Agriculture Science), 11(1), 85-98. (In Persian)
Emami Bistgani, Z., Siadat, S., Bakhshandeh, A., Khalil Alami, S., & Shirsmaoeli, G. (2014). Effect of plant density on yield, agronomic traits in new variety sunflower. Agronomy Journal (Pajouhesh and Sazandegi), 27(103), 69-75. (In Persian). https://doi.org/10.22092/AJ.2014.101207
Farajee, H., Gholizadeh, S., Owliaiee, H., & Azimi Gandomani, M. (2010). Effect of plant density on grain yield of three spotted bean (Phaseolus vulgaris) cultivars in Yasouj condition. Iranian Journal of Pulses Research, 1(1), 43-50. (In Persian with English Abstract). https://doi.org/10.22067/IJPR.V1I1.6338
Ganjali, A., Malekzadeh, S., & Bagheri, A. (2000). Investigating plant density and arrangement on the trend of changes in chickpea growth indicators under Faryab conditions in Neishabur region. Journal of Agricultural Sciences and Industries, 14(2), 33-41. (In Persian with English Abstract)
Ghanbari, A. A., Lak, M. R., & Dari, H. R. (2005). The effect of planting date on the yield and yield components of pinto bean cultivars. The first national legume conference. November 29 and 30. 2005. Research Institute of Plant Sciences, Ferdowsi University of Mashhad, Mashhad, Iran. (In Persian with English Abstract)
Ghorbani, S., Khazaei, H. R., Kafi, M., & Banayan Aval, M. (2010). Effect of humic acid application in irrigation water on yield and yield components of corn (Zea mays L.). Journal of Ecology Agricultural, 2(1), 123-131. https://doi.org/10.22067/JAG.V2I1.7608
Haghparast, M., & Maleki Farahani, S. (2013). Effect of water deficit irrigation and natural products on vegetative characteristics of different chickpea (Cicer arietinum) varieties. Iranian Journal of Pulses Research, 4(2), 77-86. (In Persian with English Abstract). https://doi.org/10.22067/IJPR.V1392I2.41272
Hayat, F., Arif, M., & Kakar, K. M. (2003). Effects of seed rates on mung bean varieties under dry land conditions. International Journal of Agriculture and Biology, 5(1), 160-161.
Ibrahim, H.M. (2012). Response of some sunflower hybrids to different levels of plant density. Journal of Apcbee Procedia, 4, 175-182.
Jadoski, S. O., Carlesso, R., Wolschick, D., Petry, T., & Frizzo, Z. (2000). Plant population and rowspacings for irrigateddry bean. II: Grainyield and yield components. Brazil Journal of Ciencia Rural, l30, 567 -573.
Jahan, M., Sohrabi, R., Doaei, F., & Amiri, M.B. (2012). Effect of soil moisture superabsorbent hydrogel and foliar application of humic acid on some of agro-ecological characteristics of bean (Phaseolus vulgaris) in Mashhad. Journal of Physiology of Crops, 2(3), 71-90. (In Persian with English Abstract)
Kamari Shahmaleki, S., Peyvast, Q., & Olfati, J. (2010). Effects of humic acid on growth characteristics and absorption of nutrient elements of lettuce in thin layer of solution. Journal of Horticultural Sciences, 24(2), 149-153.
Kumar, S., Sindhu, S. S., & Kumar, R., (2022). An ecofriendly technology for nutrient recycling and environmental sustainability. Current Research in Microbial Sciences, 3, 100094.
Lynch, J., Lãuchli, A., & Epstein, E. (2001). Vegetative growth of the common bean in response to phosphorus nutrition. Journal of Crop Science, 31, 380-387.
Majnoun Hosseini, N. (2008). Cultivation and production of legumes. University Jihad Publish, Iran. 290 p. (In Persian)
Majnoun Hosseini, N. (2014). Pulse crop agronomy and production University Jihad Publish, Iran. 283 p. (In Persian)
Majnoun Hosseini, N., Mohammadi, H., Poustini, K., & Zeinaly Khanghah, H. (2003). Effect of plant density on agronomic characteristics, chlorophyll content and stem remobilization percentage in chickpea cultivars (Cicer arietinum L.). Iranian Journal of Agricultural Sciences, 34(4), 1011-1019. (In Persian with English Abstract)
Manal, F. M., Thalooth, A. T., Amal, A. G., Magda, H. M., & Elewa, T. A. (2016). Evaluation of the effect of chemical fertilizer and humic acid on yield and yield components of wheat plants (Triticum aestivum) grown under newly reclaimed sandy soil. International Journal of Chemtech Research, 9(8), 154-161.
Mason, S. C., & Leihner, D. E. (1986). Cassava-cowpea and cassava-peanut intercrop-pin. II. Leaf area index and dry matter accumulation. Journal of Agronomy, 78, 47-53.
Mozafari, S., Khorasaninejad, S., & Gorgini Shabankareh, H. (2016). Effects of irrigation regime based on field capacity percent and humic acid on morphophysiological traits of medicinal plant (Portulaca oleracea L.). Journal of Crop Production, 9(3), 153-175. (In Persian with English Abstract). https://doi.org/0.22069/EJCP.2016.10754.1849
Naderi, S., Pizzeghello, D., Muscolo, A., & Vianello, A. (2002). Physiological effects of humic substances on higher plants. Journal of Soil Biology and Biochemistry, 34, 1527-1536. (In Persian)
Nakhyeinejad, B., & Moosavi, S. G. R. (2015). Effect of irrigation interval, humic acid and sulfur fertilizer on morphological and yield traits of fenugreek (Trigonella foenum-gracum L.). Scientific Journal of Plant Ecophysiology, 9(30), 40-51. (In Persian with English Abstract)
Nakhzari Moghaddam, A., Parsa, N., Sabouri, H., & Bakhtiari, S. (2017). The effect of humic acid, density and supplementary irrigation on quantity and quality of local chickpea (Cicer arietinum L.) of Neishabur. Journal of Environmental Stresses in Crop Sciences, 10(2), 183-192. (In Persian with English Abstract). https://doi.org/10.22077/escs.2017.575
Nazari Deljou, M., & Allahverdizadeh, N. (2014). Improvement of growth characteristics, yield and postharvest quality of marigold (Calendula officinalis Cv. Crysantha) by foliar application of humic acid. Journal of Horticultural Science, 28(2), 260-268. (In Persian). https://doi.org/10.22067/JHORTS4.V0I0.20886
Piri, I., Moussavi Nik, M., Tavassoli, A., & Rastegaripour, F. (2011). Effect of irrigation intervals and sulphur fertilizer on growth analyses and yield of Brassica juncea L. African Journal of Microbiology Research, 5, 22. 3640-3646. https://doi.org/10.5897/AJMR11.249
Saadati, J., & Baghi, M. (2014). Evaluation of the effect of various amounts of humic acid on yield, yield components and protein of chickpea cultivars (Cicer arietinum L.). International Journal of Advanced Biological and Biomedical Research, 2(7), 2306-2313.
Safaee, M., Rahimi, A., Torabi, B., & Khoram, A. (2016). Effect of vermi-compost fertilizer application and foliar spraying of compost tea and acid humic on growth indices of safflower (Carthamus tinctorius L.). Journal of Agroecology, 9(3), 805-820. (In Persian with English Abstract). https://doi.org/10.22067/JAG.V9I3.51879
Salehi, F. (2012). Effect of plant density on seed yield and its components in new red bean lines. Journal of Applied Crop Research, 27(103), 23-28. (In Persian with English Abstract). https://doi.org/10.22092/AJ.2015.101200
Saruhan, V., Kusvuran, A., & Babat, S. (2011). The effect of different humic acid fertilization on yield and yield components performances of common millet (Panicum miliaceum L.). Scientific Research and Essays, 6(3), 663-669. https://doi.org/10.5897/sre10.1153
Siahmargue, A., Rasi Serai, M. R., & Naseri, M. Y. (2014). Effect of biological fertilizers on some forage quantity traits in millet (Pennisetum glaucum L.). Journal of Iranian plant of Ecophysialogy Researches, 9(2), 72–81 (In Persian with English Abstract)
Send comment about this article
CAPTCHA Image
Iranian Journal Pulses Research
Volume 15, Issue 2 - Serial Number 30
December 2024
Pages 233-247

Files

History

  • Receive Date: 16 November 2023
  • Revise Date: 07 March 2024
  • Accept Date: 16 March 2024
  • First Publish Date: 03 November 2024

Share

How to cite

Statistics