281. Legume effect for enhancing productivity and nutrient use-efficiency in major cropping systems - an Indian perspective: a review.

• Authors:
  • Bandyopadhyay, K. K.
  • Wanjari, R. H.
  • Manna, M. C.
  • Misra, A. K.
  • Mohanty, M.
  • Rao, A. S.
  • Ghosh, P. K.
• Source: Journal of Sustainable Agriculture
• Volume: 30
• Issue: 1
• Year: 2007
• Summary: This article deals with the beneficial effect of important legumes on increasing productivity and nutrient use efficiency in various systems. Sorghum, pearl millet, maize, and castor are mainstay in dry lands and marginal and sub-marginal lands. Sorghum yield increased when sown after cowpea, green gram, and groundnut. Grain legumes like groundnut or cowpea provide an equivalent to 60 kg N ha on the subsequent crop of pearl millet. Various studies have shown that among legume/cereal intercropping system, the combination of maize/pigeon pea is considered to be highly suitable with a minimum competition for nutrients, while legume/legume intercropping system, pigeon pea/groundnut system is the most efficient one in terms of resource use-efficiency. In alley cropping system, Leucaena leucocephala (Subabul) prunings provide N to the extent of 75 kg, which benefits the intercrop castor and sorghum. Nitrogen economy through intercropped legume is still a researchable issue because the key point for leguminous crop grown in intercropping system is the problem of nodulation. Incorporation of whole plant of summer green gram/black gram into soil (after picking pods) before transplanting rice resulted in the economizing (40-60 kg N ha -1, 30 kg P 2O 5, and 15 kg K 2O per ha) of rice in rice-wheat system. Similarly, 6-8 weeks old green manure crop of sunhemp or dhaincha accumulates approximately 3-4 t ha -1 dry matter and 100-120 kg N ha -1 which, when incorporated in situ, supplements up to 50% of the total N requirement of rice. Legumes with indeterminate growth are more efficient in N 2 fixation than determinate types. Fodder legumes in general are more potent in increasing the productivity of succeeding cereals. The carryover of N for succeeding crops may be 60-120 kg in berseem, 75 kg in Indian clover, 75 kg in cluster bean, 35-60 kg in fodder cowpea, 68 kg in chickpea, 55 kg in black gram, 54-58 kg in groundnut, 50-51 kg in soyabean, 50 kg in Lathyrus, and 36-42 kg per ha in pigeon pea. Direct and residual effect of partially acidulated material and mixture of rock phosphate + single superphosphate were observed to be better when these were applied to green gram in winter season than to rice in rainy season simply because of legume effect.

282. On-farm crop performances and water use efficiency of zero till wheat in low land rice ecosystem.

• Authors:
  • Goswami, S. B.
  • Saha, S.
  • Dutta, S.
• Source: National Seminar on Ecorestoration of Soil and Water Resources Towards Efficient Crop Production
• Year: 2007
• Summary: On-farm field experiments were undertaken in Chakdah Block, West Bengal, India, to study the impact of surface sowing, sowing by zero till seed drill (ZT) and conventional sowing with normal tillage (CT) in lowland rice fields on the growth and yield performances of wheat cv. 'UP 262', sown in the 1st, 3rd and 4th weeks of November during 2005-06 and 2006-07. For sowing under zero till, the seed rate was high (150 kg/ha). The depth of irrigation for ZT was 4 cm (3 h/bigha) compared to CT of 6 cm (4.5 h/bigha). Three irrigations were applied at crown root initiation, maximum tillering and flowering stages. The wheat plant height, tillering, panicle length, grains per spike and test weight were significantly affected by ZT and surface sowing compared to CT. Effective tiller production was higher under ZT with 3 irrigations than ZT with 2 irrigations or surface sowing. ZT with 3 irrigations (226 mm total water use) recorded the highest grain yield of 24.6 q/ha, which was a 21.8% yield increase over CT with 3 irrigations (243 mm total water use). ZT with 2 irrigations (189 mm total water use) decreased the grain yield by 111.8% over ZT with 3 irrigations. The water use efficiency was higher (8.5-8.71 kg ha -1 mma -1) under ZT with 3 irrigations over ZT with 2 irrigations or CT with 3 irrigations.

283. Suitability of reclaimed land for soybean based cropping system.

• Authors:
  • Verma, S.
  • Ranade, D.
• Source: Soybean Research
• Volume: 5
• Year: 2007
• Summary: Studies conducted between 2003 and 2005 on black soils of Malwa region brought out that deep tillage plays a vital role in increasing the productivity of the crops through reduced infestation of weeds and increased water retention capacity of soil consequent upon improvement in its physical environment as indicated by lower values in bulk density of soil. This not only led to increasing productivity of soybean but also made the planting of rabi crops feasible without pre-sowing irrigation. The studies further revealed that the waste land reclaimed by spreading excavated soil from tank can immediately be brought under cultivation for soybean based cropping system. Successful raising of rainfed soybean ( kharif) followed by gram ( rabi) has been demonstrated on such reclaimed land.

284. Influence of resource quality of organic inputs on rice-barley dryland agro-ecosystem: variations in biological productivity, grain yield and efficiency of nitrogen use.

• Authors:
  • Singh, K.
  • Nandita, G.
  • Sonu, S.
• Source: Experimental Agriculture
• Volume: 43
• Issue: 2
• Year: 2007
• Summary: A two-year study was undertaken in a tropical dryland agro-ecosystem to evaluate the effect of the application of soil amendments with contrasting chemical natures on crop productivity, grain yield, N-uptake and N-use efficiencies. The treatments involved the addition of equivalent amounts of N (80 kg N ha -1) through chemical fertilizer and three organic inputs at the beginning of the annual cycle: Sesbania aculeata shoots (high quality, C/N 16), wheat straw (low quality, C/N 82) and Sesbania+wheat straw (high and low quality combined, C/N 47), together with a control treatment. Test crops consisted of an annual sequence of rice and barley, sown in the rainy and winter seasons, respectively. Fertilizer and Sesbania inputs resulted in higher total net productivity (TNP) for the rice crop (47% and 32% increases over the control, respectively) than the combined (+28%) and wheat straw treatments (+10%). During the succeeding barley crop, maximum TNP was recorded in the Sesbania+wheat straw treatment (+52%), followed by wheat straw (+43%), fertilizer (+19%) and Sesbania (+17%). The TNP and grain yields of both crops added together were higher in Sesbania+wheat straw and fertilizer treatments compared to a single applications of either Sesbania or wheat straw. The Sesbania+wheat straw and fertilizer treatments resulted in more efficient utilization of N compared to the other treatments. Crop roots played a pivotal role in N-recovery from the soil and their N concentrations differed significantly ( p

285. Synchronizing nitrogen availability through application of organic inputs of varying resource quality in a tropical dryland agroecosystem.

• Authors:
  • Singh, K.
  • Nandita, G.
  • Sonu, S.
• Source: Applied Soil Ecology
• Volume: 36
• Issue: 2/3
• Year: 2007
• Summary: A 2-year field experiment was conducted to evaluate the impact of management practices involving manipulation of quantity and quality of exogenous inputs on soil N-mineralization rate, N availability and microbial biomass in a rice-barley rotation in a tropical dryland agroecosystem. At the beginning of each annual cycle an equivalent amount of N was added through chemical fertilizer and three organic inputs: Sesbania shoot (high quality resource, C/N 16, lignin/N 3.2, polyphenol+lignin/N 4.2), wheat straw (low quality resource, C/N 82, lignin/N 34.8, polyphenol+lignin/N 36.8) and Sesbania+wheat straw (high and low quality resources mixed). The N-mineralization rate was dominated by ammonification in this dryland agroecosystem. N-mineralization exhibited a distinct seasonal pattern, decreasing from the rice period through the summer fallow period, except in Sesbania+wheat straw and wheat straw treatments which showed a slight increase during the early stages of barley period. The rate of N-mineralization showed a significant relationship with soil moisture and microbial biomass N. During the rice period, N-mineralization rate and available-N was highest in the fertilizer treatment followed by Sesbania > Sesbania+wheat straw > wheat straw. During the barley period, highest N-mineralization rate and available-N was observed in Sesbania+wheat straw followed by wheat straw > Sesbania > fertilizer. Adding Sesbania+wheat straw resulted in consistently higher levels of microbial biomass N, N-mineralization rate and available-N through the annual cycle compared to single application of Sesbania and wheat straw, indicating synergy between the two inputs, favoring more efficient utilization of N. It is suggested that mixed application of high and low quality resources can modulate N release, resulting in relatively higher synchronization which can help in minimizing N loss from agroecosystem.

286. Variations in soil microbial biomass and crop roots due to differing resource quality inputs in a tropical dryland agroecosystem.

• Authors:
  • Singh, K.
  • Nandita, G.
  • Sonu, S.
• Source: Soil Biology & Biochemistry
• Volume: 39
• Issue: 1
• Year: 2007
• Summary: The influence of exogenous organic inputs on soil microbial biomass dynamics and crop root biomass was studied through two annual cycles in rice-barley rotation in a tropical dryland agroecosystem. The treatments involved addition of equivalent amount of N (80 kg N ha -1) through chemical fertilizer and three organic inputs at the beginning of each annual cycle: Sesbania shoot (high-quality resource, C:N 16, lignin:N 3.2, polyphenol+lignin:N 4.2), wheat straw (low-quality resource, C:N 82, lignin:N 34.8, polyphenol+lignin:N 36.8) and Sesbania+wheat straw (high-and low-quality resources combined), besides control. The decomposition rates of various inputs and crop roots were determined in field conditions by mass loss method. Sesbania (decay constant, k=0.028) decomposed much faster than wheat straw ( k=0.0025); decomposition rate of Sesbania+wheat straw was twice as fast compared to wheat straw. On average, soil microbial biomass levels were: rice period, Sesbania ≥ Sesbania+wheat straw > wheat straw ≥ fertilizer; barley period, Sesbania+wheat straw > Sesbania ≥ wheat straw ≥ fertilizer; summer fallow, Sesbania+wheat straw > Sesbania > wheat straw ≥ fertilizer. Soil microbial biomass increased through rice and barley crop periods to summer fallow; however, in Sesbania shoot application a strong peak was obtained during rice crop period. In both crops soil microbial biomass C and N decreased distinctly from seedling to grain-forming stages, and then increased to the maximum at crop maturity. Crop roots, however, showed reverse trend through the cropping period, suggesting strong competition between microbial biomass and crop roots for available nutrients. It is concluded that both resource quality and crop roots had distinct effect on soil microbial biomass and combined application of Sesbania shoot and wheat straw was most effective in sustained build up of microbial biomass through the annual cycle.

287. C and N mineralization as influenced by irrigated and rainfed cropping systems.

• Authors:
  • Thakare, R.
  • Gupta, V. R.
• Source: Indian Journal of Agricultural Research
• Volume: 41
• Issue: 4
• Year: 2007
• Summary: Effect of irrigated and rainfed cropping systems on carbon and nitrogen mineralization was studied. Maximum C and N mineralization observed under irrigated cropping systems than rainfed. Sorghum-chickpea-groundnut showed highest mineralization under irrigated condition. While monocropping and intercropping with legumes enhances the rate of mineralization under rainfed situation. Mineralization was found to be highest during grand growth period of crops. Application of integrated nutrient supply increased C and N mineralization as compared to their individual application. The FYM+wheat straw+green manuring application augmented the mineralization under soybean-wheat crop sequence.

288. Evaluation of some cotton and soybean cropping systems in shallow soils of Nagpur District, Maharashtra.

• Authors:
  • Tiwary ,P.
  • Manual, D. K.
  • Prasad, J.
  • Hajare, T. N.
  • Challa, O.
• Source: Agropedology
• Volume: 17
• Issue: 1
• Year: 2007
• Summary: An experiment was conducted to compare the production potential and economic feasibility of various crop combinations, i.e. cotton (cv. Anjali 561) intercropped with cowpea, urd bean and dhaincha, and soyabean (cv. JS 335) intercropped with maize, sorghum and pigeon pea, under rainfed farming conditions in Nagpur, Maharashtra, India, during 2002-04. The soils of the area are 22-24 cm deep (underlain by murrum/saprolite up to 40-45 cm), well-drained (Lithic Ustorthents) and occur on 1-3 and 3-5% slope. Cotton intercropping comprised row to row at 90 cm and plant to plant at 45 cm, while soyabean intercropping comprised 2 rows of main and 2 rows of intercrop at 45 cm. Irrespective of the slope, the highest yield of cotton was recorded under cotton + cowpea cropping system; however, the highest net return was observed under cotton + cowpea cropping system. For soyabeans, the highest yield was recorded under sole soyabean crop in both soil slopes. Among the intercropping systems, soyabean + pigeon pea had the highest yield followed by sorghum under both slopes during 2002-03. In 2003-04, soyabean + sorghum gave the highest soyabean equivalent yield in both soils followed by soyabean + pigeon pea. Comparative data on gross return, net return, average net profit and land equivalent ratio for both cotton and soyabean cropping systems are also presented.

289. Agricultural insect pests and their control.

• Authors:
  • Awasthi, V. B.
• Source: Agricultural insect pests and their control
• Year: 2007
• Summary: This book, which contains 24 chapters, covers the morphology (integument, head, thorax and abdomen), physiology (digestive system, circulatory system, excretory system, respiratory system, nervous system, photoreceptors, endocrine system, and reproductive system), development and metamorphosis, and control (through physical, mechanical, biological, chemical and integrated management strategies, and through quarantine and the use of pheromones) of agricultural insect pests. An overview of the life history and control of pests of cotton and fibre crops, sugarcane, oilseed crops, pulse crops, sorghum, cereals, fruits and fruit trees, vegetables, plantation crops, soyabean, ornamental plants, and stored grains is provided. This book is intended for students of agricultural entomology in India, but will also be useful for those who are preparing for examinations for admission in government agencies.

290. Effect of integrated nutrient management in maize ( Zea mays) on succeeding winter crops under rainfed conditions.

• Authors:
  • Jamwal, J. S.
• Source: Indian Journal of Agronomy
• Volume: 51
• Issue: 1
• Year: 2006
• Summary: A field experiment was conducted during rainy ( kharif) and winter ( rabi) seasons of 1998-99 and 1999-2000 at Dryland Research Substation, Rakh Dhiansar, Bari-Brahmana, Jammu and Kashmir, India, to evaluate the residual effect of integrated nutrient management in maize ( Zea mays cv. GS 2) on succeeding Gobhi sarson ( Brassica napus [ B. campestris var. sarson] cv. GSL 2) and chickpea ( Cicer arietinum cv. PBG 1). Application of recommended dose of NPK (60:40:20 kg/ha)+20 kg ZnSO 4/ha during kharif significantly increased the grain yield of maize as well as the succeeding crops of Gobhi sarson and chickpea. Application of farmyard manure (FYM) significantly increased the available N, P and K status of the soil after maize harvest. Available P status of the soil after the harvest of Gobhi sarson and chickpea also increased significantly due to the residual effect of FYM and fertility levels.