1.Adrian, P.B., Verma, O.P. and Appel, C. 2016. Nitrogen Dynamics of Vermicompost Use in Sustainable Agriculture. J. Soil Sci. Environ. Manag., 7: 173-183.

2.Ahirwar, C.S. and Hussain, A. 2015. Effect of Vermicompost on Growth and Quality of Vegetable Crops. Int. J. Appl. Pure Sci. Agri., 01: 49-56.

3.Bhandari, R.R. and Singh, K. 2015. Vegetable Crops Production Technology. Samiksha Publication, Bagbazar Kathmandu, pp. 308.

4.Chen, D.P. 2010. Genomics of fungal disease resistance in tomato. Genomics, 11: 30-39.

5.Choudhary, S. 2017. Cow Urine: A Boon for Sustainable Agriculture. Int. J. Curr. Microb. Appl. Sci., 6: 1824-1829.

6.Follet, R.H., Murphy, L.S. and Donahue, R.L. 1981. Fertilizers and Soil Amendments. Prentice Hall Publication, New Jersey, pp. 557.

7.Goutam, K.C. 2010. The Effect of Vermicompost and other fertilizer on cultivation of Tomato Plants. J. Hort. Fores., 3: 42-45.

8.Hatwar, S.M. 2003. Effect of micronutrients on growth and yield of chilli. Soils and Crops, pp. 123-125.

9.Khanal, B. 2010. Effect of day and night temperature on pollen characteristics, fruit quality and storagebility of tomato. Masters Thesis. Norwegian University of Life Sciences, Norwe, pp. 46.

10.Kumar, M.L. 2013. Effect of nitrogen, phosphorus and potassium fertilizers on the growth, yield and quality of tomato var.Azad T-6. The Asian J. Hort., 8: 616-619.

11.Marinari, G.M. 2000. Influence of organic and mineral fertilizers on soil biological and physical properties, 7: 9-17.

12.Renuka, B. and Sankar, C.R. 2001. Effect of organic manures on growth and yield of tomato. South Ind. Hort., 49: 256-260.

13.Salam, M.A. 2011. Quality of Tomato as Influenced by Boron and Zinc in presence of different doses of Cowdung. Bangladesh J. Agri. Res., 36: 151-163.

14.Samawat, L.A. 2001. The effect of Vermicompost on growth characteristics of tomato. Int. J. Agri. Scien. Techno., 15: 83-89.

15.Sharma, P.K. 2004. Integrated nutrient management for sustainable cabbage-totamo cropping sequence under midhill conditions of Himanchal Pradesh. Indian J. Horti., 61: 331-334.

16.Theunissen, P.A. 2010. Potential of Vermicompost Produced from Plant Waste on the Growth and Nutrient Status in Vegetable Production. Int. J. Physical Sci., 5: 1964-1973.

17.Tomar, R.B. 1998. Effect of vermicompost on production of brinjal and carrot. Bharitaya Krishi Anushandhan Patrika, 13: 153- 156.

18.Tomati, U.E. and Galli. 1995. Earthworms, Soil fertility and plant productivity. Acta Zoologica Fennica, pp. 11-94.

19.Waiba, K.M. and Sharma, P. 2020. Study of growth parameters and germination of tomato seedlings in soil-less media under protected environment. J. Pharmac. Phytochemistry, 9: 308-311.

20.Waiba, K.M., Sharma, P., Kasi, I.K. and Chauhan, S. 2020b. Studies of genetic variability of tomato (Solanum lycopersicum L.) hybrids under protected environment. Int. J. Horti. Food Sci., 2: 25-31.

21.Waiba, K.M., Sharma, P., Sharma, A., Chadha, S. and Kaur, M. 2020a. Soil-less vegetable cultivation: A review. J. Pharmac. Phytochemistry, 9: 631-636.