Investigating the Effect of Cultivate Lines Direction, Bio-Fertilizer Nitroxin and Superabsorbent Materials on Yield and Yield Components of Broad Leaf Vetch (Vicia narbonensis)

Document Type : Research Article

Authors

Lorestan University

Abstract

Introduction
The excessive use of fertilizers has caused severe damages to the bio-cycle in the fields and has destroyed the sustainable agricultural machinery. These destructive effects have led to the recommended use of bio-fertilizers. Biodiversity is one of the key sources of supplying nutrients in sustainable agriculture. The use of biological fertilizers in a sustainable agricultural system leads to sustained yield in plant production. Biological fertilizer of nitroxin has increased biological yield and grain yield in fodder corn. Water shortage as a limiting factor has limited vegetation growth and development in these areas. Considering that Iran is a dry country, the use of super adsorbent is one of the ways to reduce water consumption. Investigators in the study of superabsorbent showed that superabsorbent had a significant and positive effect on the yield of forage plants. Crop directions can affect the amount of the product by increasing the leaf area and absorbing light. Proper orientation of crop lines increases the photosynthetic efficiency and increases the yield and yield components of the plant. Research has shown that yields are much higher in plants planted on the north-south lines compared with plants planted on east-west lines.
Materials and Methods
In order to investigate the effect of nitroxin and superabsorbent fertilizer on yield and yield components of broad leaf vetch in a research field of agricultural faculty, Lorestan University, as a split plot factorial based on a complete block design randomization was performed in three replicates. In this research, for main lines, the main factors were considered in the North-South and East-West directions in the main plots. Sub-factors In this experiment, nitroxin biosynthesis and superabsorbent materials were applied at two levels of consumption and non-consumption in sub plots. Nitroxin fertilizer was used as a seed lot at a rate of 1 liter per hectare and the stockosorb polymer was 100 kg/ha at planting time under cultivating lines under the seed at a distance of 2 cm. In this experiment, the pesticide leaf was grown with 97% volatility and 1000-weight weight of 109.56 grams with plant density of 200 plants per square meter. The raw data obtained from the measurement of each of the traits tested after the normal distribution was analyzed using MSTAT-C software. Comparisons of the meanings were compared using Duncan's multiple range tests at probability levels (1 and 5%).
Results and Discussion
The results showed that using nitroxin fertilizer on stem diameter, number of pods per plant, number of seeds per pod, 1000 seed weight, grain yield, biological yield and harvest index had significant effect. Probably the secretion of plant growth hormones due to the presence of stabilizing bacteria in nitroxin and the gradual release of substances has been shown to stimulate growth and increase yield. Studies have shown that the use of nitroxin biological fertilizer has increased biological yield and seed yield in rapeseed plants due to the availability of food in the critical stages of plant growth. Therefore, increasing the amount of nutrients available to the plant, especially nitrogen, stimulates plant growth and increases dramatically and increases yield. Also, plant height, stem diameter, grain yield, biological yield and harvest index increased in superabsorbent application than control. Super absorbent polymer has reduced the negative effects of drought stress and increased yield. Under stress conditions, the plant faces a severe decrease in cellular inflammation, cell growth and division, which leads to a decrease in vegetative growth while the use of superabsorbent prevents stress and increases vegetative growth. The results of reaserch on corn showed that the use of superabsorbent increased plant yield, which was consistent with the results of this study (Yousefifard et al., 2011). North-South cultivation direction had a positive effect on many traits. Performance in different directions of planting is affected by the efficiency of light consumption and photosynthesis activity. The results of this study indicate that the plants cultivated on the north-south lines have been more favorable in terms of plant height. Research showed that the yield of barley, corn, wheat and pearl millet in different directions was different, and cultivated plants in the north-south direction had a higher yield. Differences in plant height in different planting orientations can result from better water productivity or more sunlight.
Conclusions
The results show that the North-South crop line has better results than the East-West lines. The remarkable point in this study was that the combined application of superabsorbent and bio-fertilizer nitroxin in all treatments affected all studied traits and significantly increased their amounts. The use of nitroxin and superabsorbent fertilizers for plants planted on the northern-southern rows increases the yield and yield components of the pesticide plant.

Keywords


1. Ahmad abadi, Z., Ghajar sepanlo, M., and Bahmanyar, M. A. 2011. Effect of vermico mpost application on amount of micro elements in soil and the content in the medicinal plant of Borage (Borago officinalis). Journal of Agriculture 13 (2): 1-12. (in Persian with English abstract).
2. Austenson, H. M., and Lenren, E. N. 1969. Effect of direction of seeding on yields of Barley and Oats. Journal of Plant Science 49: 417-420.
3. Azimzadeh, S. M., and Azimzadeh, S. J. 2013. Effect of Nitroxin biofertilizer and Nitrogen chemical fertilizer yield and yield components of Rapeseed (Brassica napus L.). Intl Journal Agricultural Crop Science 6 (18): 1284-1291. (in Persian with English abstract).
4. Bisheshwor, P. P., Komal, B. B., Madan, Raj B., Shrawan Kumar, S., Resham, B. T., and Tanka Prasad, K. 2013. Effect of row spacing and direction of sowing on yield and yield attributing characters of wheat cultivated. Journal Agricultural Science 7: 309-316.
5. Carruthers, K., Prithiviraj, B., Cloutier, D., Martin, R. C., and Smith, D. L. 2000. Intercropping corn with soybean, lupin and forages yield component responses. European Journal of Agronomy 12 (2): 103-115.
6. Enneking, D., and Maxted, N. 1995. Narbon bean (Vicia narbonensis L.). Evolution of Crop Plants. Smartt Journal. Simmonds N.W., Longman: London, pp: 316-321.
7. Fazeli -Rostampoor M., Seghatoleslami, M. J., and Mousavi, Gh. R. 2011. Effect of water stress and polymer (superjazeb A200) on yield and water use efficiency of corn (Zea mays L.) in Birjand region. Journal of Agronomy 2 (1): 11-19. (in Persian with English abstract).
8. Kocabas, I., Kaplan, M., Kurkcuoglu, M., and Baser, K. H. C. 2010. Effects of different organic manure applications on the essential oil components of Turkish sage (Salvia fruticosa mill). Asian Journal of chemistry 22 (2): 1599-1605.
9. Koocheki, A., Hoseini, M., and Dezfoli, A. 2008. Constant Agriculture. Mashhad university publications.
10. Kohestani, Sh., Asgari, N., and Maghsori, K. 2009. Assessment effects of super absorbent hydro gels on corn yield (Zea mays L.) under drought stress condition. Journal of water science Iran 3 (5): 71-78. (in Persian).
11. Mahotchi -Hossin -zade A. 2014. Effect of Fertilizer Nitrogen and nitroxin bio- fertilizer on some of adjectives (Zea mays L.). Journal Science Khoshetallaee 46-49. (in Persian).
12. Moazen Ghamsari, B., Akbari, Gh., Zohoran, M., and Nikniaii, A. 2009. Yield and growth index plant (Zea mays L) under effect application on amount of super absorbent under drought stress condition. Iranian Journal Crop Science 40 (3):1-8. (in Persian).
13. Nadi, A., Zamani-Noori, A. R., and Yousefi-Rad, M. 2013. Effects of nitroxine on crop traits under drought stress.2nd National conference on new concepts in Agriculture. Islamic Azad University, Department of Agronomy. Saveh, Iran. (in Persian with English abstract).
14. Nasiri, M., Alizade, Sh., Barari, D., and Nasiri, S. 2008. Study on the effect of planting directions (North-South and East-West) with transplanter machine on yield and yield components of different rice cultivars. Pajouhesh & Sazandegi, 78 pp: 118-124.
15. Oşvat Marius, A. 2014. Influence of Seed direction on yield and water use efficiency at maize crop in the condition of eroded slope from north western part of romanla. Analele Universităţii din Oradea, Fascicula Protecţia Mediului 4 (2): 109-118.
16. Rastegar, M. A. 2005. Agriculture Forage crops. Noorpardazan publications.
17. Salehi, M., Haghnazari, A., Shekari, F., and Baleseni, H. 2007. Evaluation of Relationship between Different Traits in Lentils (Lens culinaris Medik). Journal WSS - Isfahan University of Technology 11 (41): 205-216. (in Persian with English abstract).
18. Salmani biary, E., Taheri, Gh., Ajamnorouzi, H., Safarzad, Y., and Rayej, H. 2010. Effect of Different Ratio of Nitroxin Biofertilizer and Urea on Yield and Yield Components in Wheat Cultivars. The fifth Conference of new ideas in the Islamic Azad University, Isfahan, Iran. (in Persian with English abstract).
19. Somnathjha, V. K., Sehgal, and Subbarao, Y. V. 2012. Effect of Direction of Sowing and Crop Phenotype on Radiation Inter ception, Use Efficiency Growth and Productivity of Mustard (Brassica juncea L.). Journal of Agricultural Physics 12 (1): 37-43.
20. Yazdi samadi, B., Rezaei, A. M., and Valyzadeh, M. 1997. The statistical designs in agricultural research. Tehran university publications.
21. Yousefi fard, Y., Assareh, A., and Kalhor, M. 2011. The effect of superattractive using on practive and the parts of practice on single cross corn grai 704 at lorestan weather condition. Journal of water science and engineering 1 (3):7-16. (in Persian with English abstract).
22. Yousefpoor, Z., and Yadavi, A. R. 2014. Effect of Biological and Chemical Fertilizers of Nitrogen and Phosphorus on Quantitative and Qualitative Yield of Sunflower. Journal of Agronomy science and abiding Productivity. (in Persian).
23. Zahir, A. Z., Arshad, M., and Frankenberger, W. F. 2004. Plant growth promoting rhizobacteria: Applications and perspectives in agriculture. Advances in Agronomy 81: 97-168.
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Volume 15, Issue 3 - Serial Number 47
October 2017
Pages 639-648
  • Receive Date: 16 December 2015
  • Revise Date: 20 July 2016
  • Accept Date: 27 July 2016
  • First Publish Date: 23 September 2017