Full Length Research Paper
References
|
Achakzai AKK, Rajpar H, Shah BH, Wahid MA (2012). Effect of Nitrogen fertilizer on the growth of Mung bean [Vigna Radiata (L.) Wilczek] grown in Quetta. Pakistan Journal of Botany 44(3):981-987. |
|
|
Ahmadi A (2016). Response of Mung bean (Vigna radiata) to different levels of density and weed management in Florestan province. Global Advanced Research Journal of Agricultural Science 5(10):383-390. |
|
|
Ahmed ZI, Ansar M, Saleem A, Arif Z, Javed HI, Saleem R (2012). Improvement of mash bean production under rainfed conditions by rhizobium inoculation and low rates of starter nitrogen. Pakistan Journal Agriculture Research 25(2):154-160. |
|
|
Ajio F, Talwana H, Kagoda F (2016). Evaluation of Mung bean plant spacing for optimizing yield in smallholder cropping systems. RUFORUM Working Document Series (ISSN 1607-9345) 14(2):403- 406. |
|
|
Ali MA, Abbas G, Mohy-ud-Din Q, Abbas G, Ullah K, Aslam M (2010). Response of Mung bean (Vigna radiata) to Phosphatic fertilizer under arid climate. The Journal of Animal and Plant Sciences 20(2):83-86. |
|
|
Anetor MO, Akinrinde EA (2006). Differences in the liming potential of some fertilizer materials in a Tropical Acid Alfisol. Journals of Applied Science 6:1686-1691. |
|
|
Ayub M, Tanveer A, Adil CM, Amin MMZ, Murtaza G (1999). Growth and yield response of Mung bean (Vigna Radiata L.) cultivars to varying levels of Nitrogen. Pakistan Journal of Biological Sciences 2(4):1378-1380. |
|
|
Chadha ML (2010). Short duration Mung bean: A New Success in South Asia. Asia-Pacific Association of Agricultural Research Institutions. |
|
|
Chattha MU, Hassan MU, Khan I, Chattha MB, Ashraf I, Ishque W, Farooq MU, Usman M, Kharal M (2017). Effect of Different Nitrogen and Phosphorus fertilizer levels in combination with Nitrogen and Phosphorus solubilizing inoculants on the growth and yield of Mung bean. Pakistan Journal of Life and Social Sciences 15(1):31-36. |
|
|
Chauhan YS, Williams R (2018). Physiological and agronomic strategies to increase Mung bean yield climatically variable environments of Northern Australia. Australia Journal of Agronomy 8(83):1-20. |
|
|
Dainavizadeh P, Mehranzadeh M (2013). Effect of seed rate on growth, yield components and yield of Mung bean grown under irrigated conditions in the North of Khuzestan. International Journal of Agriculture and Crop Sciences 5(20):2359-2364. |
|
|
Degefa I (2016). General characteristics and genetic improvement status of Mung bean (Vigna radiata L.) in Ethiopia. International Journal of Agriculture Innovations and Research 5(2):232-237. |
|
|
Hossen MdM, Hussain ASMI, Al-Zabir A, Biswas MdHJ, Islam MdR (2015). Effect of Nitrogenous fertilizer on yield of Mung bean [Vigna radiata (L.) Wilczek] in Patuakhali district of Bangladesh. Asian Journal of Medical and Biological Research 1(3):508-517. |
|
|
Hussain A, Ali A, Khaliq T, Ahmad A, Aslam Z, Asif M (2014). Growth, nodulation and yield components of Mung bean (Vigna Radiate) as affected by Phosphorous in combination with Rhizobium inoculation. African Journal of Agricultural Research 9(30):2319-2323. |
|
|
Ihsanullah T, Fazal H, Akbar H, Basir A, Ullah N ( 2002). Effect of row spacing on agronomic traits and yield of Mung bean (Vigna Radiata L. Wilczek). Asian Journal of Plant Sciences 1(4):328-329. |
|
|
Imran K, Asad A, Inam I, Ahmad F (2016). Yield and yield attributes of Mung bean (Vigna radiata L.) cultivars as affected by Phosphorous levels under different tillage systems. Cogent Food and Agriculture Journal 2(1):1-10. |
|
|
International Maize and Wheat Improvement Centre CIMMYT (1988). From agronomic data to Farmer recommendations an Economics training manual. Completely revised edition. Mexico. D.F. |
|
|
Jan A, Kaleem SA, Taj FH, Khan H (2000). Response of Mung bean cultivars to different seeding densities at dryland conditions. Pakistan Journal of Biological Sciences 3 (12):2030-2032. |
|
|
Khan EA, Aslam M, Ahmad HK, Himayatullah K, Muhammad A, Hussain A (2010). Effect of row spacing and seeding rates on growth, yield and yield component of Chickpea. Sarhad Journal of Agriculture 26 (2):202-211. |
|
|
Khan M (2014). Nitrogen & Phosphorus Management in Mung bean and Sunflower intercropping. PhD Dissertation. Department of Agronomy. The University of Agriculture, Peshawar, Pakistan. |
|
|
Khan MA, Baloch MS, Taj I, Gandapur I (1999). Effect of Phosphorous on the growth and yield of Mung bean. Pakistan Journal of Biological Sciences 2(3):667-669. |
|
|
Khan SMMd, Singh VP, Kumar A (2017). Studies on effect of Phosphorous levels on growth and yield of Kharif Mung bean (Vigna Radiata L. Wilczek). International Journal of Pure Applied Bioscience, 5 (4): 800-808. |
|
|
Kumar N (2007). Role of Balanced Fertilization for Horticultural Crops. Training manual on role of balanced fertilization for horticultural crops. Horticultural College and Research Institute Tamil Nadu Agricultural University. |
|
|
Kumar R, Singh YV, Singh S, Latare AM, Mishra PK, Supriya (2012). Effect of phosphorus and Sulphur nutrition on yield attributes, yield of Mung bean (Vigna radiata L. Wilczek). Journal of Chemical and Pharmaceutical Research 4(5):2571-2573. |
|
|
Laekemariam F, Worku W (2013). Growth, light interception, radiation use efficiency and productivity of Mung bean [Vigna radiata (l.) Wilczek] (Fabaceae) cultivars as influenced by sowing date. Ethiopia Journal of Biological Science 12(2):117-133. |
|
|
Mohammed A, Muhammed S, Said M (2017). Marketing Practices and Challenges of Mung bean in Ethiopia Amhara Regional State North Shewa Zone. African Journal of Marketing Management 9(4):35-45. |
|
|
Mojaddam M, Aramideh S, Derogar N, Marashi SK (2014). The interactive effect of different level of Nitrogen and drought stress on yield and yield components of Mung bean. International Journal of Bioscience 5(8):47-53. |
|
|
Mondal MMA, Puteh AB, Malek MA, Ismai MR (2012). Determination of optimum seed rate for Mung bean based on Morpho-Physiological criteria. Indian Journals of Legume Research 35(2):126 -131. |
|
|
Moore N, Serafin L, Jenkins L (2014). Summer Crop Production Guide. NSW DPI, NSW Department of Primary Industries. |
|
|
Rahman MM, Bhuiyan MMH, Sutrandhar GNC, Rahaman MM, Paul AK (2008). Effect of Phosphorus, Molybdenum and Rhizobium inoculation on yield and yield attributes of Mung bean. International Journal of Sustain Crop Production 3(6):26-33. |
|
|
Razzaque MA, Haque MM, Karim MA, Solaiman ARM, Rahman MM (2015). Effect of Nitrogen on different genotypes of Mung bean as affected by Nitrogen level in low fertile soil. Bangladesh Journal of Agriculture Research 40(4):619-628. |
|
|
Sadeghipour O, Monem R, Tajali AA (2010). Production of Mung bean (Vigna Radiate L.) as affected by Nitrogen and Phosphorus Fertilizer. Asian Journal of Applied Sciences 10(10):843-847. |
|
|
Sekhon HS, Singh G, Star JS, Shanmugasundaram, Bains TS, Kooner BS(2004). Technology package for Mung bean cultivation manual in Punjab (India). |
|
|
Taufiq A, Kristiono A (2016). Effect of Plant population on character expression of five Mung bean genotypes under different Soil fertility. Agrivita Journal of Agricultural Science 38(3): 251-260. |
|
|
Verma G, Singh M, Morya J, Kumawat N (2017). Effect of NP and Bio fertilizers on growth attributes and yields of Mung bean [Vigna radiata (L.) Wilczek] under semi-arid tract of Central India. International Archive of Applied Sciences and Technology 8(2):31-34. |
|
|
Zirak M, Ganjali HR, Mehraban A (2015). Effect of row distance and variety on number of branch per plant, plant height, harvest index and seed yield in Mung bean. Biological Forum - An International Journal 7(2):719-721. |
|
Copyright © 2024 Author(s) retain the copyright of this article.
This article is published under the terms of the Creative Commons Attribution License 4.0
