91. Crop production and nutrient use efficiency of conservation agriculture for soybean-wheat rotation in the Indo-Gangetic Plains of Northwestern India.

• Authors:
  • Dercon, G.
  • Kumar S.
  • Garg, A. K.
  • Manchanda, J. S.
  • Aulakh, M. S.
  • Nguyen, M. L.
• Source: Soil & Tillage Research
• Volume: 120
• Year: 2012
• Summary: Continuing cereal-based crop rotations such as rice-wheat, intensive cultivation and complete removal of postharvest crop residue (CR) for animal consumption and fuel, or its burning have reduced the organic matter content and productivity of irrigated semi-arid subtropical soils of South Asia. Identification of effective strategies for the management of tillage and CR could foster sustainable and environmentally sound agricultural systems. To this effect, a 4-year field experiment was established with annual soybean-wheat rotation under subtropical climate conditions in the Indo-Gangetic Plains of Northwestern India to evaluate the integrated effects of tillage, CR retainment, mineral fertilizers and farmyard manure (FYM) on crop production, nutrients uptake, soil moisture storage and temperature dynamics. The experimental soil was loamy sand, poor in organic C and low in available P. Sixteen treatment combinations involved recommended and 25% higher NP rates without or with 10 t FYM ha -1 and CR incorporated in conventional tillage (CT) and retained on the soil surface in conservation agriculture (CA) system. The results clearly revealed that (a) soybean yield was 2-6% higher in CA than CT in different treatments with and without CR, (b) significantly higher uptake of N and P by soybean from CR-amended treatments of both CT and CA, which reflected its effect in improving the soybean yield, (c) the current fertilizer NP recommendation of 20 kg N and 26 kg P ha -1 for soybean is not adequate and either application of 25% higher NP rate (25 kg N and 33 kg P ha -1) or additional 10 t FYM ha -1 is required for optimum crop production of ~2500 kg ha -1, (d) CA conserved more water in soil profile than CT, however, the differences in soil moisture storage in CT vis-a-vis CA were not reflected in soybean yield presumably due to frequent wetting of soil by heavy monsoonal rains, (e) the wheat yield was highest in both CT and CA systems when grown with the application of 150 kg N and 33 kg P ha -1 without CR and was 7% higher in CA (4140 kg ha -1) than CT (4048 kg ha -1), and (f) retention of CR on soil surface in winter-grown wheat under CA reduced wheat yield by 8-24% and N uptake by 3-5% as a consequence of mulching effects creating cooler environment in surface soil layer during initial 3 weeks after seeding, which led to the delayed germination and relatively poor crop growth during initial period.

92. Weed management in late-sown zero-till wheat ( Triticum aestivum) with varying seed rate.

• Authors:
  • Singh, M. R.
  • Singh, M. K.
• Source: Indian Journal of Agronomy
• Volume: 56
• Issue: 2
• Year: 2011
• Summary: Excessive tillage and soil degradation are important factors limiting wheat [ Triticum aestivum (L) emend. Fiori & Paol.] productivity, particularly in rice ( Oryza sativa L.) - wheat cropping system. Therefore present field experiment was conducted during winter of 2007-08 and 2008-09 at Varanasi to study the effect of seed rate and weed management on weed growth and yield in late sown zero till wheat. Treatments comprised of three seed rates viz., 100, 120 and 140 kg/ha in the main plots and five weed management treatments viz., weedy, 2,4-D Na salt 625 g/ha (POE), metsulfuron methyl 4 g/ha (POE), sulfosulfuron 30 g/ha+metsulfuron methyl 2 g/ha (POE) and 2-hand weedings in sub-plots with three replications. Broad leaved weed population was found more in the experimental crop as compared to narrow leaved weeds. All the herbicidal treatments were effective in reducing weed density and dry weight in comparison to weedy check. Seed rate of 120 kg/ha recorded significantly higher grain yield in comparison to seed rate of 100 and 140 kg/ha. Amongst weed management treatments all the herbicidal weed control had significantly higher grain yield in comparison to weedy check. Sulfosulfuron 30 g/ha+metsulfuron methyl 2 g/ha had higher grain yield than alone application of 2, 4-D @ 625 g/ha and metsulfuron methyl 4 g/ha.

93. A study on wheat cultivation under zero tillage and conventional tillage practices.

• Authors:
  • Sarker, S. C.
  • Patra, P. S.
  • Mula, G.
  • Paramanik, B.
• Source: Journal of Crop and Weed
• Volume: 7
• Issue: 1
• Year: 2011
• Summary: Zero tillage saves tillage and irrigation costs, results in yield gains through a possible improvement in sowing time and enhanced fertilizer and water use efficiencies. The present study was conducted to explore the possibilities of saving critical inputs and to enhance the profit margin of the rural farmers of Uttar Dinajpur, Dakshin Dinajpur, Malda and Murshidabad districts of West Bengal through National Agricultural Innovation Project. Mean grain yield of 10 villages showed that zero tillage practices produced 8.004% more grain yield than conventional tillage method. On an average zero tillage method save total cost of Rs. 4449.67 ha -1 and increase profit margin of Rs. 7056.25 ha -1. Zero till field also recorded higher B:C ratio of 0.923 as compared to conventional tillage method (0.432).

94. Agronomic and economic evaluation of mulching in rainfed maize-wheat cropping system in the Western Himalayan region of India.

• Authors:
  • Singh, R.
  • Sharma, A. R.
  • Dhyani, S. K.
  • Dube, R. K.
• Source: Journal of Crop Improvement
• Volume: 25
• Issue: 4
• Year: 2011
• Summary: Mulching is highly beneficial for resource conservation under rainfed conditions, but non-availability of organic biomass and easy availability of fertilizers and herbicides has led to a gradual discontinuation of this practice. Various vegetative materials, including some troublesome weedy perennials, are available locally, which can be recycled for enhanced soil moisture and nutrient conservation. A field experiment was conducted at Dehradun, India, from 2001-2004 to study the effect of mulching with kudzu ( Peuraria hirsuta), wild sage ( Lantana camara), and subabul ( Leucaena leucocephala) applied at 30 and 60 days of growth of maize ( Zea mays), maize harvest, and sowing of wheat ( Triticum aestivum). Application of 10 t/ha (fresh biomass) added 1.6-2.3 t dry matter through Peuraria, 2.5-3-2 t through Lantana, and 2.9-3-9 t/ha through Leuceana, which contributed 47.7-60.9 kg N, 58.4-70.9 kg N, and 118.4-148.4 kg N/ha, respectively. All mulching materials were beneficial and improved productivity of maize significantly by 16.6-20.6% over no mulching. Wheat yield also increased because of mulching in previous maize (+11.2%), and the beneficial effect was relatively greater (12.4-25.1%) when mulching was done at maize harvest or wheat sowing. Mulching showed improvement in organic C and total N status, and a decrease in bulk density associated with an increase in infiltration rate across three cropping cycles. Wheat gave three to five times more net profit than maize, and the net benefit-cost ratio of the system was the highest (1.34-1.35) when mulching was done at 60 days of maize growth with Peuraria and Leucaena. It was concluded that mulching with available vegetative materials in standing crop of maize or after harvest was beneficial for improving moisture conservation, productivity, and profitability of a maize-wheat cropping system under Doon valley conditions.

95. Modification and performance evaluation of tractor drawn improved till plant machine under vertisol.

• Authors:
  • Shrivastava, A. K.
  • Satyendra, J
• Source: Agricultural Engineering International
• Volume: 13
• Issue: 2
• Year: 2011
• Summary: A tractor drawn (TD) till plant machine was designed and developed with the help of computer aided design package for adoption of minimum till technology by the farmers, in black cotton soil conditions. This machine was evaluated and compared with the performance of a zero till drill and conventional practices at Jawaharlal Nehru Agricultural University farms as well as at a farmer's fields. It was found that the total time and cost required for tillage and sowing operations by till plant machine was 5.09 h/ha and Rs. 410.37/ha, which is 72.23 per cent less time required than conventional practices of wheat cultivation but is 28.83 per cent more time required than zero till drill practices. The average yield by tractor till plant machine was 26.96 q/ha, whereas, by conventional practices and tractor drawn zero till drill was 25.91 and 22.72 q/ha. respectively. The soil conditions were also found better in the case of the T.D. till plant machine.

96. Improving wheat productivity in rice ( Oryza sativa)-wheat ( Triticum aestivum) cropping system through crop establishment methods.

• Authors:
  • Mahapatra, B. S.
  • Saini, S. K.
  • Shweta
  • Singh, R. K.
• Source: Indian Journal of Agricultural Sciences
• Volume: 81
• Issue: 2
• Year: 2011
• Summary: To ameliorate the ill effects of traditional rice-wheat cropping system efforts have been made to develop several resource conservation technologies. Conventional method of wheat sowing requires intensive pre-planting cultivation, which are labour, time and energy intensive. The field experiment was conducted at Govind Ballabh Pant University of Agriculture and Technology, Pantnagar during rainy season of 2005-06 to winter season of 2006-07. Maximum mean grain (4 237 kg/ha) and straw (6 235 kg/ha) yields of wheat were obtained from direct-seeded rice plots. Nutrient uptake (NPK) by the wheat crop was highest under direct-seeded rice due to rice establishment methods. Maximum mean grain (4 535 kg/ha) and straw (6 423 kg/ha) yields were obtained under zero till. The mean wheat grains/spike under zero till drill wheat was 0.79, 6.93 and 4.09% more than that of strip till drill, bed planted and conventional wheat, respectively. Zero till drill wheat exhibited significantly higher nutrient uptake than that of conventional, bed planted and strip till drill wheat.

97. Optimization of ground cover by green manure cover crops before no-till direct seeded and mechanically transplanted rice in rice-wheat cropping system.

• Authors:
  • Gurjeet, G.
  • Malik, R.
  • Ashok, Y.
  • Kamboj, B.
  • Yadav, D.
• Source: Environment and Ecology
• Volume: 29
• Issue: 4
• Year: 2011
• Summary: Two field experiments were conducted during kharif of 2009, to optimize ground cover by green manure cover crops before taking no-till direct seeded basmati rice and mechanical transplanted coarse grain rice. The treatments included three cover crops ( Sesbania, mungbean and cowpea) with two seed rates (X and 2X) along with check (without cover crop) under no-till after wheat harvest. The X seed rates for Sesbania, mungbean and cowpea were 30, 20 and 50 kg/ha, respectively. Farmers' field trails on the issue in question were also conducted at three locations. Weed infestation until cover crops were knocked down, was significantly reduced due to growing of cover crops as compared to plots where no cover crop was included. Minimum density and dry weight of weeds was recorded with Sesbania at 60 kg/ha seed rate which was superior to all other treatments. This could be due to ample ground cover and heavy biomass production by Sesbania. In general biomass production among green manure cover crops was followed the sequence of Sesbania > cowpea > mungbean. Due to lower cost of seed, Sesbania at 60 kg/ha was realized more economical than other cover crops. Infestation of Echinochloa sp. in rice was lowest in the plots where Sesbania was taken as preceding cover crop and it was superior to other two cover crops. There was no infestation of sedges in rice in the plots where cover crops were grown but there was infestation of sedges in check plots. There was no significant impact of different cover crops on the yield and yield attributed of rice; however, to attain higher returns, inclusion of green manure cover crops on long-term basis could be more meaningful.

98. Effect of growing degree days on biological growth indices of wheat and mustard.

• Authors:
  • Bandyopadhyay, P.
  • Nath, R.
  • Jena, S.
  • Dutta, S. K.
  • Dutta, A.
  • Chakraborty, P. K.
• Source: Journal of Crop and Weed
• Volume: 7
• Issue: 1
• Year: 2011
• Summary: Temperature is an important weather parameter affecting the growth and development of the crop. The growing degree days (GDD) indicate the thermal index required for the onset of phenophases in crop. A two-year (2008-09 and 2009-10) field experiment was conducted at the B.C.K.V Instructional Farm to investigate the effect of GDD on leaf growth rate (LGR), crop growth rate (CGR) and leaf area indices (LAI) of wheat and mustard grown under sole (T 1 and T 2) and intercrop situations, [2 wheat:6 mustard (T 3), 4 wheat:4 mustard (T 4) and 6 wheat:2 mustard (T 5)]. The experiment was laid out in a RBD design with 6 replications having a plot size of 50 m 2. The experimental soil has pH of 6.92, organic carbon 0.63%, total N 0.06%, available P 2O 5 18.47 kg/ha and available K 2O 127.22 kg/ha. The experimental site is under tropical humid climate. From the results, leaf growth rate, crop growth rate and leaf area index were found to be polynomial function of GDD. The results also suggested that the effect of GDD on different growth indices of wheat and mustard were strongly expressed in 4 wheat:4 mustard row ratios which might be adopted in the Gangetic Plains of New Alluvial zone of West Bengal.

99. Sustaining rainfed Bt cotton ( Gossypium hirsutum L.) productivity through moisture conservation and integrated nutrient management techniques.

• Authors:
  • Sawargaonkar, G. L.
  • Gadade, G. D.
  • Shinde, V. S.
  • Gokhale, D. N.
  • Zade, K. K.
• Source: Journal of Cotton Research and Development
• Volume: 25
• Issue: 2
• Year: 2011
• Summary: Field studies were carried out at Department of Agronomy, Marathwada Agricultural University, Parbhani during, 2007 to 2010 to explore the suitability of different soil moisture conservation and integrated nutrient management (INM) techniques in relation to yield and economics of Bt cotton under rainfed conditions. The results revealed that opening of furrow in alternate row recorded significantly highest seed cotton yield (2758, 2214 and 1452 kg/ha) as compared to cotton+straw mulching (2421, 2003 and 1233 kg/ha) and intercropping of cotton with soybean (2036, 1626 and 1106 kg/ha) treatments during the three year of experimentation respectively. However, intercropping of cotton+soybean recorded significantly highest seed cotton equivalent yield and thereby net returns and B:C ratio over wheat straw mulch and opening of furrow in alternate row. As regards to integrated nutrient management (INM) 100 per cent calculated RDF (100:50:30 N, P 2O 5 and K 2O kg/ha)+micronutrients (zinc, iron and boron) based on soil test recorded significantly highest seed cotton yield as compared to all other INM treatments. However, application of RDF with soil testing (75 per cent N, P 2O 5 and K 2O kg/ha through inorganic+25 per cent N, P 2O 5 and K 2O kg/ha through vermicompost) was next best treatment which recorded significantly highest seed cotton yield over rest of the treatments.

100. Food security of small holding farmers: comparing organic and conventional systems in India.

• Authors:
  • Hermansen, J.
  • Panneerselvam, P.
  • Halberg, N.
• Source: Journal of Sustainable Agriculture
• Volume: 35
• Issue: 1
• Year: 2011
• Summary: This study compared farm production, crop yield, input cost, and income in organic and conventional farming systems in three states of India: Uttarakhand, Madhya Pradesh, and Tamil Nadu. The results showed that organic farming reduced the input cost without affecting the net margin in all three states. Total food production was found to be comparable for the two systems in two of three states. While yield of rice and wheat generally was lower under the organic systems, yield from intercropping food crops was generally higher. The number of agro-ecological methods and percentage of farms practicing different agro-ecological methods were higher under organic systems than conventional systems. These results suggest that organic farming has the potential to improve food security of small farmers by reducing indebtedness due to the lower cost of production without affecting total farm production and farm income.