Influence of rice (Oryza sativa) habit groups and moisture conservation practices on soil physical and microbial properties in rice + lathyrus relay cropping system under rice fallows in Eastern Plateau of India

R N SINGH; C S PRAHARAJ; RAHUL KUMAR; S S SINGH; N KUMAR; UMMED SINGH

doi:10.56093/ijas.v87i12.76494

Authors

R N SINGH
C S PRAHARAJ
RAHUL KUMAR
S S SINGH
N KUMAR
UMMED SINGH

https://doi.org/10.56093/ijas.v87i12.76494

Keywords:

Microbial dynamics, Residue retention, Rice fallow, Rice lathyrus relay system, Soil physical properties

Abstract

The study involving bio-physical aspects of popular rice (Oryza sativa L.) + lathyrus relay system for conserving natural resources and deriving the best benefits out of them was carried out in a vertisols at Indira Gandhi Krishi Vishwa Vidyalaya, Raipur (India) during 2011-14. The study location comes under tropical sub humid climate that receives an annual precipitation of 1582 mm. Two rice habit groups (a tall local rice Masuri maturing at 140 days visÃ -vis a dwarf HYV of rice Swarna with 110 days duration) were combined with two moisture conservation practices (retaining rice stubble height up to 15 cm versus 30 cm) for growing two contrasting varieties of lathyrus (early high biomass accumulating Ratan vis-Ã -vis medium high biomass Prateek). The study showed that soil moisture depletion pattern was relatively lower in case of residue retention at a higher cutting height, i.e. 30 cm in comparison to 15 cm with better and higher crop cover in the former. At later stages of lathyrus, faster moisture depletion was observed in case of lathyrus Ratan over that in Prateek. Yet, maximum soil moisture depletion was recorded under Prateek
especially under long rice habit group since it stayed for long as compared to â€˜Ratanâ€™. Similarly, bulk density (BD) was increased slightly with both time and soil compaction as a result of tillage or soil traffic. Soil strength indicated higher order variation (0.13 to 0.19) which could explain relatively higher sensitivity of soil strength to relay cropping situation in comparison to BD. However, marginal changes did occur in respect of soil porosity (47- 50%), pH (6.6 to 7.2) and EC (0.12 to 0.14 dS/m) at 15 cm profile depth. Moreover, as a result of slow depletion of soil moisture storage (SMS) following stubble retained at 30 cm height, soil organic carbon (SOC) status was greatly enhanced under it. Similar small increments in respect of soil fertility attributes such as soil available N (193.4 to 210.4 kg/ha), soil-P (10.3 to 12.2 kg/ha), soil-K (465.4 to 475.4 kg/ha), Cu (2.2 to 2.5 mg/kg), Fe (6.9-7.6 mg/kg), Zn (0.69-0.84 mg/kg) and Mn (6.2-6.9 mg/kg) after the harvest of rice were observed with diverse treatment combinations. Similarly, soil microbiological properties such as Rhizobium, dehydrogenase activity, crop growth and nodulation
did affect following treatment imposition. Besides these, weed dynamics and the resultant yield attributes and grain yield were favoured especially in those treatments where soil moisture is conserved (higher SMS) and availability of it was extended over a period of time. Therefore, the study carried out in a lentil relayed with diverse rice habits showed that efficient management of soil and land resources was crucial for realizing higher output through adequate soil cover with better soil health.

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Author Biographies

R N SINGH

Professor (Soil Science), Indira Gandhi Krishi Vishwa Vidyalaya, Raipur, Chhattisgarh 492 012
C S PRAHARAJ

Principal Scientist (Agronomy) and Head, Indira Gandhi Krishi Vishwa Vidyalaya, Raipur, Chhattisgarh 492 012
RAHUL KUMAR

Senior Research Fellow, Department of Soil Science and Agricultural Chemistry, IGKVV, Raipur (Chhattisgarh).
S S SINGH

Director, ATARI, Zone II, Kolkata (WB).Indira Gandhi Krishi Vishwa Vidyalaya, Raipur, Chhattisgarh 492 012
N KUMAR

Principal Scientist,Â Indira Gandhi Krishi Vishwa Vidyalaya, Raipur, Chhattisgarh 492 012
UMMED SINGH

Senior Scientist, Division of Crop Production, ICARIndian
Institute of Pulses Research, Kanpur (UP).

References

Ali Masood, Ghosh P K and Hazra K K. 2014. Resource conservation technologies in rice fallow. (In) Resource Conservation Technology in Pulses, pp 83-89. Ghosh et al. (Eds). Scientific Publishers, Jodhpur.

Ali M and Kumar S. 2009. Major technological advances in pulses- Indian scenario. (In) Milestones in Food Legumes Research, pp 1-20. Masood Ali and Shiv Kumar (Eds). Indian Institute of Pulses Research, Kanpur.

Anonymous. 2016. Annual Report on Promotion of pulses in NEH region, 2015-16. ICAR-Indian Institute of Pulses Research, Kanpur, Uttar Pradesh, 56 p.

Bandyopadhyaya P K, Singh K C, Mondal K, Nath R, Ghosh P K, Kumar N, Basu P S and Singh S S. 2016. Effect of stubble length of rice in mitigating soil moisture stress and on yield of lentil (Lens culinaris Medik) in rice-lentil relay crop. Agriculture Water Management 173: 91–102. DOI: https://doi.org/10.1016/j.agwat.2016.05.009

Black C A. 1965. Methods of Soil Analysis, Part 2. Chemical and Microbiological Properties. American Society of Agronomy, Madison, Wisconsin, USA.

Gangwar K S, Singh K K, Sharma S K, and Tomar O K. 2006. Alternative tillage and crop residue management in wheat after rice in sandy loam soils of Indo- Gangatic plains. Soil Tillage Research 88: 242–52. DOI: https://doi.org/10.1016/j.still.2005.06.015

Jackson M L. 1973. Soil Chemical Analysis. Printice Hall of India Pvt Ltd, New Delhi.

Kar G, Singh R and Verma H N. 2004. Productive and profitable management of rainfed lowland rice through intensive cropping and efficient water use. WTCER Bhubaneswar Research Bulletin s 56.

Kovac K, Macak M and Svancarkova M. 2005. The effect of soil conservation tillage on soil moisture dynamics under single cropping and crop rotation. Plant and Soil Environment 51: 124–30. DOI: https://doi.org/10.17221/3564-PSE

McLean E O. 1982. Soil pH and lime requirement. (In) Methods of Soil Analysis: Part 2 – Chemical and Microbiological Parameters, 3rd ed, pp 199–224. Page A L, Miller R H, Keeney D R (Eds.). American Society of Agronomy, Madison, WI. DOI: https://doi.org/10.2134/agronmonogr9.2.2ed.c12

Mishra J P, Praharaj C S, Singh K K and Kumar N. 2012. Impact of conservation practices on crop water use and productivity in chickpea under middle Indo-Gangetic plains. Journal of Food Legumes 25: 41–4.

Mondal Koustav, Singh Kh Chandrakumar and Bandyopadhyaya P K. 2012. Soil moisture and root distribution patterns of lentil as affected by rice habit group in rice-lentil relay cropping system. National Seminar on Development in Soil Science, December 3-6, 2012, PAU, Ludhiana.

NAAS. 2013. Improving productivity of rice fallows. Policy Paper No. 64, National Academy of Agricultural Sciences, New Delhi. 16 p.

Patil Shirish S, Kelkar Tushar S and Bhalerao Satish A. 2013. Mulching: A soil and water conservation practice. Research Journal on Agricultural Forestry Sciences 1: 26–9.

Piper C S. 1966. Soil and Plant Analysis, Hans Publishers, Bombay.

Praharaj C S. 2013. Managing precious water through need based micro-irrigation in a long duration pigeonpea under Indian Plains. In International Conference on Policies for Water and Food Security, Cairo, Egypt, 24-26 June, 2013, p 4.

Praharaj C S, Ummed Singh and Kalikrishna Hazra. 2014. Technological interventions for strategic management of water for conserving natural resources. (In) Proceeding of 6th World Congress on Conservation Agriculture –Soil Health and Wallet Wealth, Winnipeg, Manitoba, Canada, 22-26 June, 2014, p 4-6.

Praharaj C S, Ummed Singh, Singh S S and Kumar N. 2017. Micro-irrigation in rainfed pigeonpea-Upscaling productivity under Eastern Gangetic Plains with suitable land configuration, population management and supplementary fertigation at critical stages. Current Science 112: 95-107. DOI: https://doi.org/10.18520/cs/v112/i01/95-107

Praharaj and Chandra Sekhar. 2014. Water management strategies for pulse based cropping systems. (In) Resource Conservation Technology in Pulses, pp.199-212. Ghosh et al. (Eds). Scientific Publishers, Jodhpur.

Pratibha G, Pillai K G, Satyanarayan V and Hussain M M. 1996. Tillage systems for production of black gram (Vigna mungo) succeeding rice crops. Legume Research 19: 23–8.

Singh N P, Praharaj C S and Sandhu J S. 2016. Utilizing untapped potential of rice fallow of East and North-east India through pulse production. Indian Journal of Genetics 76(4): 388–98. DOI: https://doi.org/10.5958/0975-6906.2016.00058.4

Venkatesh M S, Hazra K K, Ghosh P K, Praharaj C S and Kumar N. 2013. Long-term effect of pulses and nutrient management on soil carbon sequestration in Indo-Gangetic plains of India. Canadian Journal of Soil Science 93: 127–36. DOI: https://doi.org/10.4141/cjss2012-072

Walkely A and Black I R. 1934. An examination of Degtjareff method for determining soil organic matter and a proposed modification of the chromic acid titration method. Soil Science 37: 29–37. DOI: https://doi.org/10.1097/00010694-193401000-00003