Effect of waste water and fly ash application on physiological determinants,yield, and heavy metal contents of yellow mustard (B. campestris cv. P. Gold)

A pot experiment was conducted to study the comparative effect of waste water (WW) and ground water (GW) alone and along with different nitrogen (N), phosphorus (P), and potassium (K) combinations (N₀P₀K₀, N₄₀P₁₅K₁₅, N₆₀P₃₀K₃₀, N₈₀P₄₅K₄₅) together with different levels of fly ash (FA) (FA₀, FA₁₀, FA₂₀), to obtain a suitable combination of fertilizers, FA and water based on the growth, physiology, yield, and heavy metal contents of Brassica campestris cv. Pusa Gold. Results revealed that WW irrigation proved beneficial over GW. All the parameters increased in both levels of FA₁₀ and FA₂₀ along with three doses of NPK but FA at 20 t ha^?1 proved better. The effect was more efficacious with both wastes together which makes NPK optimum at N₆₀P₃₀K₃₀ instead of N₈₀P₄₅K₄₅ treatment combinations and thereby lowered input of fertilizers. Therefore, utilization of these wastes may be recommended for the purpose of irrigation, soil amendment, and as a source of nutrients in augmenting the mustard yield.     

Computer Simulation of Tractor Single-point Drawbar Performance

A computer algorithm has been developed to predict single-point drawbar performance of a tractor taking into account all the necessary variables during field operation. The performance of tractor–implement system with a single-point hitch involves the effect of a number of variables on the whole tractor–implement–soil system. Considering all these, the developed computer algorithm is able to predict the performance of whole operation. This model is capable of determining the maximum pull available in the given field condition and matches the performance of trailed implements, such as a disc harrow and two-axle trailer. The model was able to predict maximum load and slope climbing ability of tractor with single- and two-axle trailers under different conditions. It was predicted by the model that the maximum pull developed by a tractor is limited by gross traction in the soft soil whereas it was limited by the power available from the tractor in hard soil. The longitudinal stability of the tractor taken for analysis varied with hitch point position. Appropriate determination of disc harrow performance was possible using the developed model.     

Association mapping,trait variation,interaction and population structure analysis in cucumber (Cucumis sativus L.)

Genetic Resources and Crop Evolution - In several regions of the world, low productivity in this crop is attributed to several factors including poor understanding of the genomic complexity of...     

Nitrogen utilization efficiency variability in genotypes of Indian mustard (Brassica juncea) under contrasting N supply

Abstract

Identifying genotypes of high nitrogen utilization efficiency (NUtE) under contrasting N supply is a way of improving N economy of Indian mustard (Brassica juncea Czern &; Coss) under different soil fertility. A field experiment was conducted with 22 Indian mustard genotypes grown under normal and limited N supply conditions to investigate the genotypic variations of NUtE. The genotypes ranking to NUtE was different under normal and limited N supply, however, seven genotypes (RH 1222-28, RH 1301, RH 1117, RH 601, RH 1053, NRCDR 2, RH 1441) were identified as N-responder under normal N supply, and N-efficient under limited N supply. The lowest seed yield reduction (<20%) under limited N supply was recorded in RH 601 (15%), RH 1301 (17%), RH 1215 (17%), and DRMRIJ 31 (18%) compared to normal N supply. Among these genotypes, DRMRIJ 31 and RH 1215 were the highest seed yielder (>3.0 t/ha) under normal N supply and RH 601 (>2 t/ha) under limited N supply. The linear regression analysis showed significant and positive relationship between N uptake and seed yield. Whereas, N uptake and utilization efficiency showed negative trend and decreased with increase in N uptake beyond 120?kg N/ha under normal N supply, and 60?kg N/ha under limited N supply. NUtE was positively correlated with seed yield under both normal as well as limited N supply. These results may be used to identify the key associated traits, and to isolate target genes for developing varieties/hybrids to harness better N economy.     

Recent approaches in nitrogen management for sustainable agricultural production and eco-safety

Among plant nutrients, nitrogen (N) is the most important. Its importance as a growth- and yield-determining nutrient has led to large and rapid increases in N application rates, but often with poor use efficiency. Nitrogen management requires special attention in its use so that the large losses can be minimized and the efficiency maximized. Site-specific nutrient management (SSNM) has been found especially useful to achieve the goals of improved productivity and higher N use efficiency (NUE). Leaf color charts and chlorophyll meters assist in the prediction of crop N needs for rice and wheat, leading to greater N-fertilizer efficiency at various yield levels. Crop simulation models can be used in combination with field information and actual weather data to make recommendations to achieve higher NUE. Remote sensing tools are also used to predict crop N demands precisely. At the same time, traditional techniques like balanced fertilization, integrated N management (INM), use of nitrification inhibitors and slow-release nitrogenous fertilizers (SRNF), split application and nutrient budgeting, among others, are also used to supplement recent N management techniques to attain higher productivity and NUE, and reduce environmental pollution through the leakage of fertilizer N.     

Diversification of rice (Oryza sativa L.)-based cropping systems for higher productivity,resource-use efficiency and economic returns in south Gujarat,India

The continuous growing of rice has led to a deterioration in soil quality, resulting in a serious threat to agricultural sustainability in the high rainfall zone of south Gujarat, India. Therefore, crop diversification with a wider choice in the production of crop varieties is being promoted to restore the soil quality. A field experiment was conducted in Navsari, India during 2003–2007 on a Vertisol to evaluate the productivity, sustainability, resource-use efficiency and economics of 10 rice-based cropping systems. The results showed that system productivity for rice–fenugreek (Trigonella foenum-graecum)–okra (Abelmoschus esculentus) was highest (25.73 t ha^?1), followed by rice–onion (Allium cepa)–cowpea (Vigna sinensis L.) (24.15 t ha^?1); and the lowest system productivity was observed with the rice–wheat (Triticum aestivum)–fallow system (7.85 t ha^?1). The sustainable yield index (0.97), production efficiency (102.94 kg ha^?1 day^?1) and field water use efficiency (15.98 kg ha^?1 mm^?1) were maximum with the rice–fenugreek–okra system. Similarly, net return (96,286 Rs ha^?1), net return per rupee invested (2.83 Rs), monetary production efficiency (385.14 Rs ha^?1 day^?1) and water use efficiency (59.80 Rs ha^?1 mm^?1) were maximum with the rice–fenugreek–okra cropping sequence. There were significant effects of various cropping sequences on available nitrogen, phosphorus, potassium and organic carbon content in the soil. Overall, the rice–fenugreek–okra system was found to be the most productive, sustainable, resource-use efficient and remunerative cropping system, followed by the rice–onion–cowpea system.     

Evaluation of alternative tillage and crop establishment methods in a rice–wheat rotation in North Western IGP

The rice–wheat rotation covering 13.5 million ha in the Indo-Gangetic Plains is vital for food security. Its sustainability is at risk as the current production practices are inadequate resulting in high cost of cultivation and inefficient use of inputs (i.e. water, labor and energy). In a field study, we evaluated resource conserving and cost-saving alternative tillage and crop establishment options with an aim to improve system productivity and efficiency. Treatments included transplanting and direct-seeding of rice after reduced and no-tillage, followed by wheat after no-tillage. Conventional-tilled (puddled) transplanted rice followed by conventional-tilled wheat was included as a current practice. Rice yields of transplanted rice were similar irrespective of tillage/puddling. However, both dry and wet direct-seeded rice yielded 0.45–0.61 Mg ha⁻¹ lower than puddled transplanted rice. Wheat yield after no-tillage was either higher or equivalent to conventional practice. Wheat provided more economic return (US $35 ha⁻¹) than rice. No-till wheat was 6% more profitable than the conventional practice (T1). Rice transplanting with or without puddling had similar water application but dry direct-seeded rice had 10–12% lower and wet direct-seeded rice 20–24% higher. Machine labor without tillage was lower by maximum of 51 and 43% in rice and wheat, respectively. Similarly, human labor was also 9–16% lower in no-till rice compared to other practices. Two years results consistently showed $35 more net income when rice was transplanted without puddling than that of conventional practice. Direct-seeded/un-tilled rice had variable response in 2 years; US $16 more in year 1 and similar in year 2 to the puddled transplanted rice. Direct-seeded or transplanted rice after no-tillage can be more efficient and profitable alternatives to current practice (puddled transplanted rice), however, require further refinement in areas of cultivar development for no-till direct-seeding condition, nutrient, water and weed management to harness maximal potential.     

Conservation agriculture based sustainable intensification of basmati rice-wheat system in North-West India

Continuous mono-cropping of rice-wheat (RW) system with conventional tillage (CT) based management practices have led to decline in soil health, groundwater table and farmers profit in north-west India. A medium-term (4 years) farmer’s participatory strategic research trial of basmati RW system was conducted to evaluate the effects of conservation agriculture (CA) based management practices on crop yields, water productivity, profitability and soil quality. Six treatments were compared varied in the cropping system, tillage, crop establishment and residue management. CA-based management under zero-till direct seeded rice-wheat-mungbean recorded 36% higher system yield than conventional till rice-wheat system (14.91 Mg ha^?1). CA-based rice-wheat system and rice-wheat-mungbean system saved ~35% irrigation water compared to conventional RW system (2168 mm ha^?1). Total water productivity (WP_I+R) was improved by 67% with CA-based rice-wheat-mungbean system (0.90 kg grain m^?3) over the conventional system. On system basis, 42% higher net return was recorded with CA-based rice-wheat-mungbean system compared to conventional system (USD 2570 ha^?1). Mungbean integration in basmati RW system contributed 29% share in system net returns across the treatments. Soil chemical and biological properties were improved by ~40% and 150%, respectively, with CA-based management system.     

Identification and performance of stress‐tolerant phosphate‐solubilizing bacterial isolates on Tagetes minuta grown in sodic soil

Tagetes minuta is moderately adapted to a wide range of climate and due to its tolerance to larger salt, pH and exchangeable sodium percentage (ESP) in soil it is considered to be a potential crop for salt‐affected soil. Its tolerance to adverse condition and association with halophilic microbes can combine to play a greater role in crop production and improvement in soil health. After screening, the potential phosphate‐solubilizing bacteria (PSB) RS‐1, RS‐2 and RS‐3 were isolated from sodic soils and tested in pot experiment using a naturally occurring sodic soil of pH 9.3 and an ESP of about 45. Under optimum conditions in the laboratory, these bacteria showed phosphorus solubilization potential in liquid medium containing tricalcium phosphate (TCP). Inoculation of PSB significantly increased plant growth in terms of height, number of branches, dry matter accumulation and nutrient uptake. Significant changes were also found in content and quality of essential oil. It was observed that PSB also improved the physical, chemical and biological properties of soil. The bacterial strains tested in this study have the potential for use as a biofertilizer in sustaining the growth of Tagetes minuta in salt stress soil and mitigating soil stress problems.     

Integrated multi-enterprise agricultural system for sustaining livelihood,energy use and resource recycling: a case study from semi-arid tropics of central India

Agroforestry Systems - Integrated farming system (IFS) has been the way of life of agrarian people in semi-arid tropics (SAT) of India and other developing countries. However, there has been losing...