Assessment Effect of Vermicompost on Quantitative and Qualitative Characteristics of Mung Bean (Vigna radiata L.) Under Different Irrigation Regime
الموضوعات :Mostafa Chaharlang 1 , Alireza Shokuhfar 2
1 - Msc. Graduated, Department of Agronomy, Ahvaz Branch, Islamic Azad University, Ahvaz, Iran.
2 - Assistant Professor, Department of Agronomy, Ahvaz Branch, Islamic Azad University, Ahvaz, Iran.
الکلمات المفتاحية: Yield, Protein, Water stress, Biofertilizer, Seed weight,
ملخص المقالة :
BACKGROUND: Vermicompost in sustainable agriculture is very useful for improving soil porosity and thereby providing more nutrients to crop. OBJECTIVES: Current research was conducted to evaluate effect of biofertilizer (vermicompost) under different level of irrigation on crop production and protein yield. METHODS: This study was carried out via split plot experiment based on randomized complete blocks design with four replications along 2018 year. The main factor included different interval of irrigation (I1= 70mm, I2= 90mm, I3= 110mm and I4= 130mm evaporation of Pan) and four level of vermicompost (V1= control, V2= 4 t.ha-1 and V3= 8 t.ha-1). RESULT: According result of analysis of variance effect of different interval of irrigation and vermicompost on all measured traits was significant, also interaction effect of treatments on seed yield, number of pod per m2 and 100-seed weight was significant. Result of mean comparison of different interval of irrigation revealed maximum amount of number of seed per pod (7.87) and protein yield (44.1 gr.m-2) was for 70 (mm) evaporation of pan treatment but highest amount of protein percentage (24.43%) belonged to 130 (mm) evaporation of pan. Also the maximum amount of mentioned traits was for use 8 t.ha-1 vermocompost and minimum of those were for control. Mean comparison result of interaction effect of treatments revealed the highest amount of seed yield (250.14 gr.m-2), number of pod per m2 (304) and 100-seed weight (11.01 gr) were obtain for 70 (mm) evaporation of pan with use 8 t.ha-1 vermocompost and lowest ones were for 130 (mm) evaporation of pan with nonuse of vermocompost. CONCLUSION: The present study revealed that the use of vermicompost is useful for improve growth of mung bean under water stress situation. In order to achieve maxi-mum quantitative and qualitative yield the treatment of irrigation intervals with 90 (mm) evaporation of pan (it doesn’t had significant difference with 70mm evaporation of pan) with application 8 t.ha-1 vermicompost under water stress condition can be advised to the producers.
Abolhasani, K. and G. Saeidi. 2004. Relationships between agronomic characteristic of safflower under water stress and control. Iranian J. Field Crop Res. 1: 127-138. (Abstract in English)
Abdoul Karim, T. D., A. Sanoussi, I. N. Marouhi, H. Falalou. and B. S. Yacoubou. 2018. Effect of water deficit at different stages of development on the yield components of cowpea (Vigna unguiculata L. Walp) genotypes. African J. Biotech. 17(9): 279-287.
Afzal, M. A., A. N. M. M. M. Murshad, M. A. Bakar, A. Hamid. and A. B. M. Salahuddin. 2008. Mung bean cultivation in Bangladesh. Pulse Res. Station. Bangladesh Agri. Res. Institute. Gazipur. Bangladesh.
Ahmad, A., M. Muhammad Selim, A. A. Alderfasi. and M. Afzal. 2015. Effect of drought stress on Mung bean (Vigna radiata L.) under arid climatic conditions of Saudi Arabia. Ecosys. Sust. Develop. 192: 185-193.
Arsalan, M., S.H. Ahmed, J. Nawaz Chauhdary. and M. Sarwar. 2016. Effect of vermicompost and phosphorus on crop growth and nutrient uptake in mung bean. J. Appl. Agri. Biotech. 1(2): 38-46.
Baydar, H. and S. Erbas. 2005. Influence of seed development and seed position on oil, fatty acids and total tocophorol contents in sunflower (Helianthus annuus L.). Turkish J. Agric. 29: 179-186.
Biswash, Md. R., Md. W. Rahman, Md. M. Haque, M. Sharmin. and R. Barua. 2014. Effect of potassium and vermicompost on the growth, yield and nutrient contents of Mung bean (BARI Mung 5). Open Sci. J. Biosci. Bioengin. 1(3): 33-39.
Bremner, J. M. and G. A. Breitenbeck. 1983. A simple method for determination of ammonium in semi micro Kjeldahl analysis of soils and plant materials using a block digester. Soil Sci. Plant Anal. 14: 905-913.
Chen, Y., M. De-Nobili. and M. Aviad. 2004. Stimulatory effects of humic substances on plant growth. Soil Organic Matter in Sustainable Agriculture. CRC Press. Boca Raton. Florida. pp: 103-129.
Chimenti, C. A., J. Pearson. and A. J. Hall. 2002. Osmotic adjustment and yield maintenance under drought in sunflower. Field Crop Res. 75: 235-246.
Claudio, P. J., B. Raphael, F. Alves, L. R. Kamiila, S. N. Brunade. and M. Priscila. 2009. Zn (II) adsorption from syntheyic solution and kaolin wastewater on vermicompost. Sci. Total Environ. 162: 804-811.
Daniel, C. and E. Triboi. 2008. Changes in wheat protein aggregation during grain development: effects of temperature and water stress. Europe J. Agron. 16: 1-12.
De-Mejia, E. G., V. Martinez-Resendiz, E. Castano-Tostado. and G. Loarca-Pina. 2003. Effect of drought on polyamine metabolism, yield, protein content and in vitro protein digestibility in tepary (Phaseolus acutifolius) and common (Phaseolus vulgaris) bean seeds. J. Sci. Food Agri. 83: 1022-1030.
Dhakal, Y., R. S. Meena, N. De, S. K. Verma. and A. Singh. 2015. Growth, yield and nutrient content of mung bean in response to inmin eastern uttar pradesh, india. Bangladesh J. Bot. 44(3): 479-482.
Edwards, C. A. and I. Burrows. 1988. The potential of earthworm composts as plant growth media. pp: 211-220. In: Earthworms in environmental and waste management. C. A. Edwards and Neuhauser. (Eds.). SPB Academic Publ. Netherlands.
Gholinejad, E., A. Aeeneh band, A. Hasanzade ghortappe, I. Barnoosi. and H. Rezaei. 2009. Evaluation of effective drought stress on yield, yield components and harvest index of sunflower hybrid Iroflor and different levels of nitrogen and plant population in Uromieh climate conditions. J. Plant Prod. 16 (3): 29-34. (Abstract in English)
Hassani, A., A. A. Tajali, S. M. H. Mazinani. and M. Hassani. 2015. Studying the conventional chemical fertilizers and nano-fertilizer of iron, zinc and potassium on quantitative yield of the medicinal plant of peppermint (M. piperita L.) in Khuzestan. Intl. J. Agri. Innovations Res. 3(4): 1078-1082.
Hosseinzadeh, S. R., H. Amiri. and A. Ismaili. 2017. Effect of vermicompost levels on morphological characteristics and concentration of elements in chickpea at water conditions. Environ. Stress Crop Sci. 10 (4): 531-545.
Jahangiri Nia, E., S. A. Siyadat, A. Koochakzadeh, M. R. Moradi Telavat. and M. Sayyah Far. 2016. Effect of the usage of vermicompost and mycorrhizal fertilizer on quantity and quality yield of soybean in water deficit stress condition. J. Crops Improv. 18(2): 319-331.
Jat, R. S. and I. P. S. Ahlawat. 2006. Direct and residual effect of vermicompost, biofertilizers and phosphorus on soil nutrient dynamics and productivity of chickpea-fodder maize sequence. J. Sust. Agri. 28(1): 41-54.
Jat, R. S. and I. P. S. Ahlawat. 2008. Direct and residual effect of vermicompost, biofertilizers and phosphorus on soil nutrient dynamics and productivity of chickpea-fodder maize sequence. J. Sust. Agri. 28(1): 41-54.
Keshavarz Afshar, R., M. R. Chaichi, M. H. Asareh, M. Hashemi. and A. Liaghat. 2014. Interactive effect of deficit irrigation and soil organic amendments on seed yield and flavonolignan production of milk thistle (S. marianum L.). J. Industrial Crops Prod. 58: 166-172.
Linn, J. G. and N. P. Martin. 1999. Forage quality tests and interpretation. Food and Environmental Sciences. Univ. Minnesota Press. USA.
Mahmoudi, S. V. R., M. Nasri. and P. Azizi. 2016. The effect of different type of vermicompost organic fertilizer litter on quantitative, qualitative and biochemical characteristics of green mung bean (V. radiata L.) in drought stress conditions in Varamin. Intl. J. Adv. Biotech. Res. 7(4): 205-215.
Makeen, K., G. Abrahim, A. Jan. and A. K. Singh. 2007. Genetic Variability and Correlations studies on yield and its components in Mung bean. Agron. J. 6(1): 216-218.
Martineau, E., J .C. Domec, A. Bosc, P. Denoroy, V. A. Fandino, J. Lavres. and L. Jordan-Meille. 2017. The effects of potassium nutrition on water use in field-grown maize (Zea mays L.). J. Environ. Exp. Bot. 134: 62-71.
Mojaddam, M., S. Aramideh. and N. Derogar. 2014. The interactive effect of different levels of nitrogen and drought stress on yield and yield components of mungbean. Intl. J. Biosci. 5(8): 47-53.
Moser, S. B., B. Feil, S. Jampatong. and P. Stamp. 2006. Effect of flowering drought nitrogen fertilizer rate and variety on seed yield, yield components and harvest index of sorghum. J. Agric. Water Manage. 81: 41-58.
Najarian, D., F. Fanoodi, J. Masoud Sinaki. and G. Laei. 2016. The effect of irrigation cut tension and applying compost fertilizer on yield and yield components of Cowpea. Crop Physiol. J. 8(29): 59-72. (Abstract in English)
Rahbarian, P., G. Afsharmaneshb. and M. H. Shirzadic. 2010. Effects of drought stress and manure on relative water content and cell membrane stability in dragonhead. Plant Ecophysiol. 2: 13-19.
Rahimi, M. M. and A. R. Hashemi. 2016. Yield and yield components of vetch (Vigna radiata) as affected by the use of vermicompost and phosphate bio-fertilizer. J. Crop Ecophysiol. 10(2): 529-540. (Abstract in English)
Saadatnia, H. and H. Riahi. 2009. Cyanobacteria from paddy fields in Iran as a biofertilizer in rice plants. Plant Soil Environ. 55: 207-212.
Sadeghipour, O. 2009. The influence of water stress on biomass and harvest index in mung bean cultivars. Asian J. Plant Sci. 8(3): 245-249.
Sadeghipour, O. and P. Aghaei. 2014. Investigation the effect of drought stress and magnetized water on yield of mung bean. J. Crop Prod. Res. 6(1): 79-87. (Abstract in English)
Shadab Niazi, P., R. Monaem. and A. Azadi. 2017. Effect of vermicompost on yield and forage quality in intercropping of maize and mung. J. Agri. Sci. 9(5): 233-240.
Sharma, A. K. 2003. Biofertilizers for sustainable agriculture. Agrobios. India.
Singh, S. 2000. Effect of Fe, Zn on canola. Environ. Sci. 34(1-2): 57-63.
Suhane, R. K., R. K. Sinha. and P. K. Singh. 2008. Vermicompost, cattle-dung compost and chemical fertilizers: Impacts on yield of wheat. Commun. Rajendra Agri. Univ. Pusa. Bihar. India.
Zabet, M., A. Hossein-zadeh, A. Ahmadi. and F. Khyalparast. 2004. Determining most important traits affecting yield under two conditions of irrigation using multivariate statistical methods in mung bean genotypes. Iranian J. Agri. Sci. 35 (4): 849-8349.
