Abstract
Declining soil, water and human resources in rice-wheat and other irrigated cropping systems need the resource-conserving technologies (RCTs) for agricultural sustainability. After the era of green revolution, the use of soil and water resources is overexploited. The income from irrigated agroecosystem especially from rice-wheat system is declining in many areas as cultivation costs are rising faster than crop prices. The various RCTs can save soil, water and other natural resources. Zero tillage with or without mulch/happy seeder sowing technology not only saves the money spent on inputs but also gives similar or higher grain yields in various crops by conserving soil moisture but also reducing the weed density and environmental pollution. Furrow-irrigated bed planting/permanent raised-bed technologies can be practices for sustainability of major cropping systems. Hydrogel (water-adsorbing material) can effectively be used under rainfed/dryland or limited water conditions for increasing the water use efficiency. Direct seeding of rice with seed-cum-fertilizer drill under well-levelled conditions holds the promise of saving water and human resources. Human resources are decreasing due to industrialization, so direct seeding or mechanical transplanting of rice is the best solution. Laser land levelling can save huge amount of the irrigation water for getting similar productivity as in conventionally levelled fields. As the machinery required for adoption of these RCTs are heavy and costly, these machines should be used on co-operative basis.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Abdullaev I, Hassan MIU, Jumaboev K (2007) Water saving and economic impacts of land leveling: the case study of cotton production in Tajikistan. Irrig Drainage Syst 21:251–263
Aggarwal N, Singh A (2015) Crop performance, nutrient uptake vis-a-vis weed suppressive ability of mechanically transplanted rice (Oryza sativa) as influenced by age of seedling and planting density. Indian J Agron 60(2):255–260
Aggarwal N, Singh A, Kang JS, Singh SP (2015a) Energy utilization in production of mechanically transplanted rice as affected by age of seed lings and planting densities in the Indo-Gangetic plains. Prog Res 10:5–8
Aggarwal N, Singh A, Singh SP (2015b) Heat utilization vis-à-vis crop performance of mechanically transplanted rice (Oryza sativa L.) as affected by tillage systems and nitrogen levels. J Agromet 17:84–89
Allahbadi I, Moazzen GB, Akbari GA, Zohorianfar M J (2005) Investigating the different rates superabsorbent polymer (Superab A200) and irrigation on the growth and yield of Zea mays, 3rd specialized training course and seminar on the application of Super absorbent hydrogels in Agriculture IPPI, Iran, pp 52–56
Al-Rahim HAA, Hegazy EA, El-Mohdy HLA (2007) Radiation synthesis of hyhrogels to enhance sandy soils water retention and increase plant performance. J Appl Polym Sci 93:1360–1371
Anonymous (2005) GOI (Government of India), “The Mahatma Gandhi National Rural Employment Guarantee Act 2005,” Government of India, Ministry of Rural Development, 2011. http://nrega.nic.in/netnrega/home.aspx
Aryal JP, Mehrotra MB, Jat ML, Sidhu HS (2015) Impacts of laser land leveling in rice–wheat systems of the north–western Indo-Gangetic plains of India. Food Sec 7:725–738
Bachmann T L and Freidrick T (2002) Conservation agriculture in Mangolia. In Proceedings of the international symposium on conservation agriculture for sustainable wheat production in rotation with cotton in limited water resource area, October 14–18. Institute of Irrigation and Agricultural Mechanization Engineers, Tashkent, Uzbekistan, pp 91–96
Balwinder-Singh, Humphreys E, Eberbach PL, Katupitiya A, Yadvinder-Singh, Kukkal SS (2011) Growth yield and water productivity of zero till wheat as affected by rice straw mulch and irrigation schedule. Field Crops Res 121:209–225
Balwinder-Singh, Humphreys E, Gaydond DS, Eberbach PL (2016) Evaluation of the effects of mulch on optimum sowing date and irrigation management of zero till wheat in central Punjab, India using APSIM. Field Crops Res 197:83–96
Bhardwaj AK, Shainberg I, Goldstein D, Warrington DN, Levy GJ (2007) Water retention and hydraulic conductivity of cross linked poly acrylamides in sandy soils. J America Soil Sci Soc 71:406–412
Bhatt R and Sharma M (2009) Laser leveller for precision land levelling for judicious use of water in Punjab. Krishi Vigyan Kendra, Kapurthala, Punjab Agricultural University, Ludhiana, Extension Bulletin
Bhatt R, Kukal SS (2014) Moisture retention trends during the intervening period of differently established rice-wheat cropping pattern in sandy loam soil. Int J Farm Sci 4(2):7–14
Bhullar MS, Kumar S, Kaur S, Kaur T, Singh J, Yadav R, Chauhan BS, Gill G (2016) Management of complex weed flora in dry-seeded rice. Crop Protect 83:20–26
Bijay-Singh, Gupta RK, Yadvinder-Singh, Gupta SK, Jagmohan-Singh, Bains JS, Vashishta M (2006) Need-based nitrogen management using leaf color chart in wet direct-seeded rice in northwestern India. J New Seeds 8:35–47
Brar SS, Kler DS, Singh A, Virk HK (2004) Zero Tillage – A resource conservation technology: Research results and adoption in Punjab. Proc National Symp on Resource Conservation and Agricultural Productivity, November 22–25. Punjab Agricultural University Ludhiana, India, pp 492–493
Bräutigam V, Tebrügge F (1997) Influence of long-termed no-tillage on soil borne pathogens and weeds. In: Tebrügge F, Böhrnsen A (eds) Experience with the applicability of no-tillage crop production in the West-European countries: proceedings of the EC-Workshoop – III -Évora, pp 17–29
Chahal GBS, Sood A, Jalota SK, Choudhury BU, Sharma PK (2007) Yield, evapotranspiration and water productivity of rice (Oryza sativa L.)-wheat (Triticum aestivum L.) system in Punjab (India) as influenced by transplanting date of rice and weather parameters. Agric Water Manag 88:14–22
Chakraborty D, Garg RN, Tomar RK, Singh R, Sharma SK, Singh RK, Trivedi SM, Mittal RB, Sharma PK, Kamble KH (2010) Synthetic and organic mulching and nitrogen effect on winter wheat (Triticum aestivum) in a semi-arid environment. Agric Water Manag 97:738–748
Choudhary VK (2015) Tillage and mulch effects on productivity and water use of pea and soil carbon stocks. Arch Agron Soil Sci 61:1013–1027
Choudhary MI, Shalaby AA, Al-Ornran AM (1995) Water holding capacity and evaporation of calcareous soils as affected by four synthetic polymers. Comm Soil Sci Plant Anal 26:2205–2215
Dar SB, Ram H (2015) Growth analysis, micro-climatic parameters and productivity of wheat (Triticum aestivum L.) in relation to hydrogel under different irrigation regimes and nutrient levels. J Wheat Res 8:59–62
Dar SB, Ram H (2016) Grain yield, nutrient uptake and water-use efficiency of wheat (Triticum aestivum) under different moisture regimes, nutrient and hydrogel levels. Indian J Agron 61:58–61
De Vita P, Di Paolo E, Fecondo G, Di Fonzo N, Pisante M (2007) No-tillage and conventional tillage effects on durum wheat yield, grain quality, and soil moisture content in southern Italy. Soil Tillage Res 92:69–78
Dhindwal AS, Hooda IS, Malik RK, Kumar S (2006) Water productivity of furrow-irrigated rainy season pulses planted on raised beds. Indian J Agron 51:49–53
Ekta J, Dinesh K, Lal B, Nepalia V, Priyanka G, Vyas AK (2013) Management of direct seeded rice for enhanced resource - use efficiency. Plant Knowl J 2(3):119–134
Gangwar KS, Gill MS, Tomar OK, Pandey DK (2008) Effect of crop establishment methods on growth, productivity and soil fertility of rice (Oryza sativa)-based cropping systems. Indian J Agron 52:102–106
Govaerts B, Sayre KD, Jozef D (2005) Stable high yields with zero tillage and permanent bed planting. Field Crops Res 94:33–42
Hangen E, Buezko U, Bens O, Brunotte J, Huttl RF (2002) Infiltration patterns into two soils under conventional and conservation tillage. Influence of the spatial distribution of plant root structures and soil animal activity. Soil Tillage Res 62:181–186
Hatfield J, Sauer T, Prueger J (2001) Managing soils to achieve greater water use efficiency: a review. Agron J 93:271–280
Hira GS (2009) Water management in northern states and the food security of India. J Crop Improv 23:136–157
Kamboj BR, Yadav DB, Yadav A, Goel NK, Gill G, Malik RK, Chauhan BS (2013) Mechanized transplanting of rice (Oryza sativa L.) in non puddled and no-till conditions in the rice-wheat cropping system in Haryana, India. American. J Plant Sci 4:2409–2413
Kumar V, Ladha JK (2011) Direct seeded rice: recent development & future research needs. Adv Agron 111:297–413
Kumar V, Singh S, Yadav A, Malik RK, Hobbs PR (2002) Studies on the effect of zero tillage in wheat on physico-chemical properties of soil in comparison to conventional tillage. In: Proceedings of the internaltional symposium on herbicide resistance management and zero tillage in rice-wheat cropping system, March 4–6. CCS Haryana Agricultural University, Hisar, India, pp 110–112
Kumar S, Singh SS, Sundaram PK, Shivani S, Bhatt BP (2012) Agronomic management and production technology of unpuddled mechanical transplanted rice. Technical bulletin no. R-37/PAT-24, ICAR Research Complex for Eastern Region, Patna (India)
Kumar A, Kumar S, Dahiya K, Kumar S, Kumar M (2015) Productivity and economics of direct seeded rice (Oryza sativa L.) J Appl Nat Sci 7:410–416
Landers JN, Saturnino HM, de Freitas PL (2001) Organizational and policy consideration in zero tillage. In: Saturnino HM, Landers JN (eds) The environment and zero tillage. Brazil, pp 13–24
Limon OA, Sayre KD, Drijber RA, Francis CA (2001) Soil attributes in a furrow-irrigated bed planting system in northwest Mexico. Soil Tillage Res 63:123–132
Mahajan G, Timsina J (2011) Effect of nitrogen rates and weed control methods on weeds abundance and yield of direct-seeded rice. Arch Agron Soil Sci 57:239–250
Mahajan G, Chauhan BS, Timsina J, Singh PP, Singh K (2012) Crop performance and water- and nitrogen-use efficiencies in dry-seeded rice in response to irrigation and fertilizer amounts in northwest India. Field Crops Res 134:59–70
Majeed A, Muhmood A, Niaz A, Javid S, Ahmad ZA, Shah SSH, Shah AH (2015) Bed planting of wheat (Triticum aestivum L.) improves nitrogen use efficiency and grain yield compared to flat planting. The Crops J 3:118–124
Malik RK, Yadav A (2008) Direct seeded rice in the indo-Gangetic Plains: progress, problems and opportunities. ACIAR Proc Ser 127:133–143
Malik RK, Yadav A, Singh S (2004) Resource conservation technologies for maintaining health of natural resources in rice-wheat cropping system. Proc Workshop on Sustaining Agriculture: Problems and Prospects, November 9–11. Punjab Agricultural University Ludhiana, India
Mehla RS, Verma JK, Gupta RK, Hobbs PR (2000) Stagnation in the productivity of wheat in the Indo-Gangetic plains: zero tillage seed-cum-fertilizer drill as an integrated solution: Rice-wheat consortium series. Rice-wheat consortium for Indogangetic plains, New Delhi, India, p 12
Mirsky SB, Gallandt ER, Mortensen DA, Curran WS, Shumway DL (2010) Reducing the germinable weed seedbank with soil disturbance and cover crops. Weed Res 50(4):341–352
Moghadam T, Shirani-Rad HR, Mohammadi AHN, Habibi G, Modarres-S MSAM, Dolatabadian MA (2013) Response of six oilseed rape genotypes to water stress and hydrogel application. Pesquisa Agro Tropical 39:243–250
Morris NL, Miller PCH, Orson JH, Froud-Williams RJ (2010) The adoption of non-inversion tillage systems in the United Kingdom and the agronomic impact on soil, crops and the environment-a review. Soil Till Res:10(1–2): 1–15
Naresh RK, Singh SP, Misra AK, Tomar SS, Kumar P, Kumar K, Kumar S (2014) Evaluation of the laser leveled land leveling technology on crop yield and water use productivity in Western Uttar Pradesh. African J Agric Res 9:473–478
Narjary B, Aggarwal P, Singh A, Chakraborty D, Singh R (2012) Water availability in different soils in relation to hydrogel application. Geoderma 187:94–101
Pandey S, Velasco L (2005) Trends in crop establishment methods in Asia and research issues. In: Heong KL, Hardy B, Toriyama, K (eds) Rice is life: scientific perspectives for the 21st century. International Rice Research Institute, Los Baños, Philippines and Japan Inter-national Research Center for Agricultural Sciences, Tsu-kuba, pp 178–181
Ram H, Yadvinder-Singh, Saini KS, Kler DS, Timsina J, Humphreys EJ (2012) Agronomic and economic evaluation of permanent raised beds, no tillage and straw mulching for an irrigated maize-wheat system in northwest India. Expl Agric 48:21–38
Ram H, Yadvinder-Singh, Saini KS, Kler DS, Timsina J (2013) Tillage and planting methods effects on yield, water use efficiency and profitability of soybean–wheat system on a loamy sand soil. Expl Agric 49:524–542
Ram H, Singh G, Aggarwal N (2016) Pigeonpea (Cajanas cajan l.) performance in relation to sowing methods, fertilizer application methods and rates. Prog Res 11:66–68
Sayre KD (2004) Raised-bed cultivation In: Lal R (ed) Encyclopedia of soil science. Marcel Dekker Inc. (eBook Site Online publication 04/03/2004)
Sharma J (2004) Establishment of perennials in hydrophilic polymer- amended soil. SNA Res Conf 42:530–532
Sharma SN, Bohra JS, Singh PK, Srivastava RK (2002) Effect of tillage and mechanization on production potential of rice (Oryza sativa)-wheat (Triticum aestivum) cropping system. Indian J Agron 47:305–310
Sharma AR, Singh R, Dhyani SK, Dube RK (2010) Moisture conservation and nitrogen recycling through legume mulching in rainfed maize (Zea mays)–wheat (Triticum aestivum) cropping system. Nutr Cycling Agroecosys 87:187–197
Sidhu HS, Manpreet-Singh, Humphreys E, Yadvinder-Singh, Balwinder-Singh, Dhillon SS, Blackwell J, Bector V, Malkeet-Singh, Sarbjeet-Singh (2007) The Happy Seeder enables direct drilling of wheat into rice stubble. Aust J Exp Agric 47:844–854
Sidhu AS, Kooner R, Verma A (2014) On-farm assessment of direct-seeded rice production system under central Punjab conditions. J Crop Weed 10:56–60
Sidhu HS, Singh M, Yadvinder-Singh, Blackwell J, Lohan SK, Humphreys E, Jat ML, Vicky-Singh, Sarbjeet-Singh (2015) Development and evaluation of the Turbo Happy Seeder for sowingwheat into heavy rice residues in NW India. Field Crops Res 184:201–212
Singh A, Kumar R, Kang JS (2014a) Crop residues and nitrogen improve the productivity of direct seeded rice and transplanted rice. Curr Agric Res J 2:14–29
Singh B, Kular JS, Ram H, Mahal MS (2014b) Relative abundance and damage of some insect pests of wheat under different tillage practices in rice-wheat cropping system. Crop Protec 61:16–22
Singh AP, Bhullar MS, Yadav R, Chowdhury T (2015) Weed management in zero-till wheat. Indian J Weed Sci 41:161–166
Srivastava RK, Sah D, Singh R (2002) Studies on varying mode of tillage operations, seeding rates and fertility levels on yield of wheat var. HUW-234 under puddle rice-wheat sequence. Res Crops 3:332–334
Tang O, Wu X, Li C, Wu C, Ma X, Huang G (2013) Long-term effect of year-round tillage patterns on yield and grain quality of wheat. Plant Prod Sci 16:365–373
Upadhyay IP, Jha SK, Karki TB, Yadav J, Bhandar B (2016) Tillage methods and mulch on water saving and yield of spring maize in Chitwan. J Maize Res Dev 2:74–82
Yangyuoru M, Boateng E, Adiku SK, Acquah D, Adjadeh TA, Mawunya F (2006) Effects of natural and synthetic soil conditioners on soil moisture retention and maize yield. J App Eco 9:1–8
Yezdani F, Allahdadi I, Akbari GAB (2007) Impact of the super absorbent polymer on growth of soybean under drought stress condition. Pak J Bio Sci 10:4190–4196
Yi L, Yufang S, Shenjiao Y, Shiqing L, Fang C (2011) Effect of mulch and irrigation practices on soil water, soil temperature and the grain yield of maize (Zea mays L) in Loess Plateau, China. Afr J Agric Res 6:2175–2182
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2018 Springer Nature Singapore Pte Ltd.
About this chapter
Cite this chapter
Ram, H., Kumar, B., Aggarwal, N., Kaur, J. (2018). Resource-Conserving Technologies for Enhancing Resource Use Efficiency and Crop Productivity. In: Sengar, R., Singh, A. (eds) Eco-friendly Agro-biological Techniques for Enhancing Crop Productivity. Springer, Singapore. https://doi.org/10.1007/978-981-10-6934-5_7
Download citation
DOI: https://doi.org/10.1007/978-981-10-6934-5_7
Published:
Publisher Name: Springer, Singapore
Print ISBN: 978-981-10-6933-8
Online ISBN: 978-981-10-6934-5
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)