A.A. SHAHANE1*, U.K. BEHERA2
1Department of Agronomy, College of Agriculture, Central Agricultural University, Imphal, Kyrdemkulai, 793105, Meghalaya, India
2Dean, College of Agriculture, Central Agricultural University, Imphal, Kyrdemkulai, 793105, Meghalaya, India
* Corresponding Author : amitiari89@gmail.com
Received : 01-09-2022 Accepted : 17-10-2022 Published : 30-10-2022
Volume : 14 Issue : 10 Pages : 11732 - 11734
Int J Agr Sci 14.10 (2022):11732-11734
Keywords : Liming, Rice, IURON-514, DRR-46, Arize Tej Gold
Academic Editor : Dharmendra Singh Bhati, V N Shiyal, Barua Meghali
Conflict of Interest : None declared
Acknowledgements/Funding : Authors are thankful to Department of Agronomy, College of Agriculture, Central Agricultural University, Imphal, Kyrdemkulai, 793105, Meghalaya, India for providing the funding and necessary support for conducting research
Author Contribution : All authors equally contributed
A pot experiment was executed at Instructional Farm of College of Agriculture (CAU-I), Kyrdemkulai, Meghalaya with objective to study the response of different rice varieties to inorganic fertilization in acidic soil with high rainfall. Five rice varieties viz., IURON-514, Bhalum-5, Arize Tej Gold, Bhalum-1 and DRR-46 were grown each with two liming treatment (no lime and lime application @ 2.5 t/ha). Result showed that, IURON-514 and Arise Tej Gold recoding highest values for all growth and yield attributes studied. The growth of rice remained sub-optimal with inorganic fertilization owing to nutrient stress during reproductive growth stage. Liming (@ 2.5 t/ha) showed significant and positive effect on studied parameters of all rice varieties. Our study reported highest growth of Arize Tej Gold and IURON-514 with application of 2.5 t/ha lime as well as need to study the effect of chemical fertilizer in combination of organic source of crop nutrition in acidic soil with high rainfall
1. Anup Das, Patel D.P., Ramkrushna G.I., Munda G.C., Ngachan S.V., Choudhury B.U., Mohapatra K.P., Rajkhowa D.J., Rajesh Kumar, Panwar A.S. (2012) Improved Rice Production Technology - for
a. resource conservation and climate resilience (Farmers’ Guide). Extension Bulletin No 78. ICAR Research Complex for NEH Region, Umiam, 793 103, Meghalaya.
2. Choudhary B.U., Mohapatra K.P., Das A., Das P.T., Nongkhlaw L., Fiyaz R.A., Ngachan S.V., Hazarika S., Rajkhowa D.J., Munda G.C. (2013) Current Science, 104(5), 604-614.
3. Prokop P., Poreba G.J. (2012) Land Degradation and Development, 23(4), 310-321.
4. Saha R., Chaudhary R.S., Somasundaram J. (2012) Applied Environment Soil Science, 696174.
5. Anonymous (2020) Observed Rainfall Variability and Changes over Meghalaya State. Met Monograph No.: ESSO/IMD/HS/Rainfall Variability/17(2020)/41.
6. Kumar M., Hazarika S., Choudhury B.U., Ramesh T., Verma B.C., Bordoloi L.J. (2012) Indian Journal of Hill Farming,25(1), 35-37.
7. Kumar R., Chatterjee D., Kumawat N., Pandey A., Roy A., Kumar M. (2014) The Crop Journal, 2(5), 338-344.
8. Liao P., Huang S., Zeng Y., Shao H., Zhang J., Groenigen K.J.V. (2021) Plant and Soil,465, 157-169.
9. Bauw P.D., Shimamura E., Rakotoson T., Andriamananjara A., Verbeeck M., Merckx R., Smolders E. (2021) Journal of Agronomy and Crop Science, 207(1), 148-162.
10. Islam M.R., Talukder M.M.H., Hoque M.A., Uddin S., Hoque T.S., Rea R.S., Alorabi M., Gaber A., Kasim S. (2021) Agriculture, 2021, 11, 1070. https://doi.org/10.3390/agriculture11111070.
11. Gomez K.A., Gomez A.A. (1984) Statistical procedures for agricultural research (2nd ed., p. 680). New York: Wiley.
12. Devi V.S., Swadija O.K., Geetha K., Mathew R. (2017) Journal of Crop and Weed,13(3), 78-81.
13. Curtin D., Syers J.K. (2001) Soil Science Society of America Journal, 65(1), 147-152.
14. Liao P., Huang S., Gestel N.C.V., Zeng Y., Wu Z., Groenigen K.J.V. (2018) Field Crop Research, 216, 217-224.
15. Shahane A.A., Shivay Y.S., Prasanna R. and Kumar D. (2019) Communications in Soil Science and Plant Analysis, 50(12), 1487-1499.