Your search keyword '"KUMAR, PANKAJ"' showing total 10 results

1. Management of Bihar hairy caterpillar [Spilarctia (Spilosoma) obliqua Walker] in Mungbean [Vigna radiata (L.).

Author

Patel, Pradip Kumar, Kumar, Pankaj, and Kumar, Arvind

Subjects

MUNG bean, LEGUMES, PIGEON pea, CATERPILLARS, PHYSIOLOGICAL effects of insecticides

Abstract

The article presents a study on the management of Bihar hairy caterpillar in mungbean (Virgna radiata), the third most important pulse crop of India after chickpea and pigeonpea. Topics discussed include effect of various insecticidal treatments on Bihar caterpillar population in mungbean, yield of green gram under different treatments, and economics and cost benefit ratio treatments.

Published

2024

2. Cellular Automata-Based Artificial Neural Network Model for Assessing Past, Present, and Future Land Use/Land Cover Dynamics.

Author

Sajan, Bhartendu, Mishra, Varun Narayan, Kanga, Shruti, Meraj, Gowhar, Singh, Suraj Kumar, and Kumar, Pankaj

Subjects

LAND cover, LAND use, EFFECT of human beings on climate change, LAND management, NATURAL disasters, ARTIFICIAL neural networks, WETLANDS, NATURAL landscaping

Abstract

Land use and land cover change (LULCC) is among the most apparent natural landscape processes impacted by anthropogenic activities, particularly in fast-growing regions. In India, at present, due to the impacts of anthropogenic climate change, supplemented by the fast pace of developmental activities, the areas providing the highest agricultural yields are facing the threat of either extinction or change in land use. This study assesses the LULCC in the fastest-changing landscape region of the Indian state of Bihar, District Muzaffarpur. This district is known for its litchi cultivation, which, over the last few years, has been observed to be increasing in acreage at the behest of a decrease in natural vegetation. In this study, we aim to assess the past, present and future changes in LULC of the Muzaffarpur district using support vector classification and CA-ANN (cellular automata-artificial neural network) algorithms. For assessing the present and past LULC of the study area, we used Landsat Satellite data for 1990, 2000, 2010, and 2020. It was observed that between 1990 and 2020, the area under vegetation, wetlands, water body, and fallow land decreased by 44.28%, 34.82%, 25.56%, and 5.63%, respectively. At the same time, the area under built-up, litchi plantation, and cropland increased by 1451.30%, 181.91%, and 5.66%, respectively. Extensive ground truthing was carried out to assess the accuracy of the LULC for 2020, whereas historical google earth images were used for 1990, 2000, and 2010, through the use of overall accuracy and kappa coefficient indices. The kappa coefficients for the final LULC for the years 1990, 2000, 2010, and 2020 were 0.79, 0.75, 0.87, and 0.85, respectively. For forecasting the future LULC, first, the LULC of 1990 and 2010 were used to predict the landscape for 2020 using the CA-ANN model. After calibrating and validating the CA-ANN outputs, LULC for 2030 and 2050 were generated. The generated future LULC scenarios were validated using kappa index statistics by comparing the forecast outcomes with the original LULC data for 2020. It was observed that in both 2030 and 2050, built-up and vegetation would be the major transitioning LULC. In 2030 and 2050, built-up will increase by 13.15% and 108.69%, respectively, compared to its area in 2020; whereas vegetation is expected to decrease by 14.30% in 2030 and 32.84% in 2050 compared to its area in 2020. Overall, this study depicted a decline in the natural landscape and a sudden increase in the built-up and cash-crop area. If such trends continue, the future scenario of LULC will also demonstrate the same pattern. This study will help formulate better land use management policy in the study area, and the overall state of Bihar, which is considered to be the poorest state of India and the most vulnerable to natural calamities. It also demonstrates the ability of the CA-ANN model to forecast future events and comprehend spatiotemporal LULC dynamics. [ABSTRACT FROM AUTHOR]

Published

2022

3. Weed germinable seedbanks of rice–wheat systems in the Eastern Indo‐Gangetic Plains: Do tillage and edaphic factors explain community variation?

Author

Lowry, Carolyn J., Brainard, Daniel C., Kumar, Virender, Smith, Richard G., Singh, Madhulika, Kumar, Pankaj, Kumar, Ajay, Kumar, Vipin, Joon, Rajiv K., Jat, Raj K., Poonia, Shishpal, Malik, Ram K., and McDonald, Andrew

Subjects

WEEDS, CHENOPODIUM album, NO-tillage, SOLANUM nigrum, TILLAGE, SPECIFIC gravity, RICE

Abstract

Zero tillage (ZT) is widely promoted throughout India's Eastern Indo‐Gangetic Plains (IGP) because of its potential to increase wheat productivity and resilience to abiotic stresses. Weeds remain a major barrier to ZT adoption, yet it remains unclear how ZT will influence weed communities in the Eastern‐IGP. The primary objective of this study was to characterise the composition of the germinable weed seedbank sampled just prior to the wheat phase of rice–wheat farms in Bihar and Eastern Uttar Pradesh, and examine whether adoption of ZT wheat has shifted weed community composition compared to conventional tillage (CT). Additionally, we examined whether edaphic properties and topography (upland vs. lowland) explain variation in germinable weed seedbank communities. In December 2014, we evaluated the germinable seedbank from 72 fields differing in their historic (>=3 year) tillage practices (ZT vs. CT) in three regions: Samastipur–Vaishali–Muzaffarpur (SVM), Ara–Buxar and Maharajgunj–Kushinagar. Weed community composition and species richness varied by region and topography. ZT adoption was associated with lower relative density of Chenopodium album in the germinable seedbank and lower emergence of Phalaris minor seedlings within farmers' fields. In upland topographies of the SVM region, ZT adoption was also associated with greater relative abundance of Solanum nigrum in the weed seedbank. However, differences between tillage systems in individual species were not large enough to result in detection of differences at the whole‐community level. Variation in edaphic properties, most notably soil texture and pH, explained 51% of the variation in the weed seedbank community. Our work suggests several frequent but poorly understood species (e.g. Mazus pumilus and Grangea maderaspatana) in Eastern IGP for which future research should quantify their effects on crop yields. Finally, future work surveying weed species abundance at harvest could further determine the dominant problematic species in these regions. [ABSTRACT FROM AUTHOR]

Published

2021

4. Understanding decision processes in becoming a fee-for-hire service provider: A case study on direct seeded rice in Bihar, India.

Author

Brown, Brendan, Samaddar, Arindam, Singh, Kamaljeet, Leipzig, Ava, Kumar, Anurag, Kumar, Pankaj, Singh, Deepak Kumar, Malik, Ram, Craufurd, Peter, Kumar, Virender, and McDonald, Andrew

Subjects

RICE, CHANGE theory, ECONOMIC indicators, COLLECTIVISM (Social psychology), WHEAT, PACKAGING recycling, NO-tillage

Abstract

While Direct Seeded Rice (DSR) has numerous potential benefits to smallholder farmers in the Eastern Gangetic Plains of South Asia, it's out-scaling has been limited by both a lack of demand by farmers and limited supply of DSR services by machinery owners. This contrasts with the comparatively more rapid scaling of zero tillage wheat in the region. This trend is yet to be fully explored, particularly when focus has been placed almost exclusively on understanding DSR adoption though the lens of farm-level agronomic, economic and environmental performance. Given that limited DSR service provision is likely to be governed outside of these considerations, this study explores with zero tillage drill owners the decision processes they apply in deciding how to use their zero tillage drills. Respondents highlight a complex web of interrelated considerations that highlight the additional complexities of DSR as compared to existing practices. Using a novel 'Decision-making Dartboard' qualitative framework, these complexities are unpacked and a set of potential changes to the assumed theory of change for DSR scaling are identified, including considerations for selection of potential DSR service providers and responsibilities for promotion and extension of DSR to overcome the prevalent negative perceptions of DSR held broadly across the communities explored. The proposed framework and analysis process are also potentially useful for exploration of other farmer decision making processes more broadly. [Display omitted] • Limited service provision is a key constraint to scaling Direct Seeded Rice. • No work explores why Zero Tillage Drill owners don't use it for Rice. • Issues exist with both technology and generically providing services. • Collectivism or service packaging may resolve some of these issues. • Novel framework provides unique qualitative analysis on decision making. [ABSTRACT FROM AUTHOR]

Published

2021

5. Effect of integrated nutrient management on growth and yield of pigeon pea (Cajanus cajan) in changing climatic condition of Bihar.

Author

Kumar, Sanjay, Singh, R. N., Kumar, Shailesh, and Kumar, Pankaj

Subjects

CLIMATE change, PIGEON pea, FARM manure, REVENUE management, GRAIN yields, FERTILIZERS

Abstract

A field experimental was conducted at Krishi Vigyan Kendra, Khodawandpur as well as Gadhpura and Barauni blocks of Begusarai district to study the effect of integrated nutrient management for sustaining the productivity of pigeon pea [Cajanus cajan (L.) mill sp.] under rainfed conditions. Growth and yield attributing characters viz., plant height, yield induced such as days to 50% flowering, branches/plant, leaf area, pods/plant, pod length, number of grains/pod, 100 seed weight, grain and stalk yield and benefit-cost ratio were significantly higher at recommended dose of fertilizer (RDF) than organic manure and bio fertilizer. Application of RDF with vermi compost @ 2 tones/ha, Farm Yard Manure (FYM) @ 5.0 tones/ha and bio-fertilizer singly and combined enhanced the yield attributes grain yield parameters. Seed inoculation with Rhizobium + phosphate solubilizing bacteria (PSB) alone or combined inoculation were found effective and significantly enhanced the yield attributing and grain and stalk yield of pigeon pea. [ABSTRACT FROM AUTHOR]

Published

2020

6. Clinico-biochemical and Therapeutic Management of Degnala Disease and associated Locomotor Disorders in Buffaloes.

Author

Shekhar, Pallav, Kumar, Pankaj, Sharma, M. C., and Dimri, U.

Subjects

*GAIT disorders, *WATER buffalo, *TRIIODOTHYRONINE, *FLUOROQUINOLONES, *LAMENESS in cattle, *MINERAL supplements, *GLOBULINS, *DISEASES

Abstract

An outbreak of Degnala disease was reported amongst buffaloes from Patna and Jehanabad districts of Bihar, India during the period December'2011 to March'2012.Among affected buffaloes 55.19% showed locomotors disorders with lameness (33.87%), limb swelling (18.57%) and hoof sloughing (3.27%). Therapeutic management was achieved with diethylamine acetarsol derivative, Enrofloxacin,Tolfenamic acid and mineral supplementation. The Albumin/Globulin ratio increased significantly after one month of treatment. The Triiodothyronine(T³) and thyroxine (T4) levels of Degnala affected buffaloes were below normal. The mean Calcium, Phosphorus, Zinc, Iron and Selenium level in diseased and cured buffaloes did not vary significantly. Significant low level of Magnesium, Copper and Cobalt were also observed in affected buffaloes which resumed to normal after treatment. [ABSTRACT FROM AUTHOR]

Published

2012

7. Liposomal Amphotericin B for Visceral Leishmaniasis in Human Immunodeficiency Virus-Coinfected Patients: 2-Year Treatment Outcomes in Bihar, India.

Author

Sinha, Prabhat K., Griensven, Johan van, Pandey, Krishna, Kumar, Nawin, Verma, Neena, Mahajan, Raman, Kumar, Pankaj, Kumar, Ranjeet, Das, Pradeeb, Mitra, Gaurab, Flevaud, Laurence, Ferreyra, Cecilia, Remartinez, Daniel, Pece, Manuel, and Palma, Pedro Pablo

Subjects

AMPHOTERICIN B, HIV-positive persons, VISCERAL leishmaniasis, TREATMENT effectiveness, DIAGNOSIS

Abstract

Background. Reports on treatment outcomes of visceral leishmaniasis (VL)-human immunodeficiency virus (HIV) coinfection in India are lacking. To our knowledge, none have studied the efficacy of liposomal amphotericin B in VL-HIV coinfection. We report the 2-year treatment outcomes of VL-HIV-coinfected patients treated with liposomal amphotericin B followed by combination antiretroviral treatment (cART) in Bihar, India. Methods. The study included all patients with newly diagnosed VL-HIV coinfection and initiating treatment with liposomal amphotericin B (20-25 mg/kg in 4-15 days) between July 2007 and September 2010. Kaplan-Meier estimates of the cumulative incidence of death/treatment failure were calculated. Results. Fifty-five patients were included (83.6% male; median age, 35 years; 62% migrant laborers; median follow-up, 1 year). The median CD4 cell count at VL diagnosis was 66 cells/μL (interquartile range, 38-112). Twentyseven patients (49.1%) presented with VL relapse of VL. The overall tolerance of liposomal amphotericin B was excellent, with no interrupted treatment. Survival by 1 and 2 years after VL treatment was estimated at 85.5%. Nopatients had initial treatment failure. The probabilities of VL relapse were 0%, 8.1%, and 26.5% at 0.5, 1, and 2 years after VL treatment, respectively; relapse rates were similar for primary VL and VL relapse. CD4 counts<200 cells/μL at 6 months after cART initiation were predictive of subsequent relapse. The mean CD4 cell counts at 6 and 24 months after cART initiation were 187 and 261 cells/μL, respectively. The rate for retention in HIV care was 83.6%. Conclusions. Good long-term survival and retention rates were obtained for VL-HIV-coinfected patients treated with liposomal amphotericin B and cART. Although the initial VL treatment response was excellent, VL relapse within 2 years remained frequent. [ABSTRACT FROM AUTHOR]

Published

2011

8. Tracing the factors responsible for arsenic enrichment in groundwater of the middle Gangetic Plain, India: a source identification perspective.

Author

Kumar, Pankaj, Kumar, Manish, Ramanathan, A. L., and Tsujimura, Maki

Subjects

ARSENIC content in groundwater, GROUNDWATER quality, NITRATES & the environment, MULTIVARIATE analysis

Abstract

Arsenic contamination in groundwater is of increasing concern because of its high toxicity and widespread occurrence. This study is an effort to trace the factors responsible for arsenic enrichment in groundwater of the middle Gangetic Plain of India through major ion chemistry, arsenic speciation, sediment grain-size analyses, and multivariate statistical techniques. The study focuses on the distinction between the contributions of natural weathering and anthropogenic inputs of arsenic with its spatial distribution and seasonal variations in the plain of the state Bihar of India. Thirty-six groundwater and one sediment core samples were collected in the pre-monsoon and post-monsoon seasons. Various graphical plots and statistical analysis were carried out using chemical data to enable hydrochemical evaluation of the aquifer system based on the ionic constituents, water types, hydrochemical facies, and factors controlling groundwater quality. Results suggest that the groundwater is characterized by slightly alkaline pH with moderate to strong reducing nature. The general trend of various ions was found to be Ca2+ > Na+ > Mg2+ > K+ > NH4 +; and HCO3 − > Cl− > SO4 2− > NO3 − > PO4 3− > F− in both seasons. Spatial and temporal variations showed a slightly higher arsenic concentration in the pre-monsoon period (118 μg/L) than in the post-monsoon period (114 μg/L). Results of correlation analyses indicate that arsenic contamination is strongly associated with high concentrations of Fe, PO4 3−, and NH4 + but relatively low Mn concentrations. Further, the enrichment of arsenic is more prevalent in the proximity of the Ganges River, indicating that fluvial input is the main source of arsenic. Grain size analyses of sediment core samples revealed clay (fine-grained) strata between 4.5 and 7.5 m deep that govern the vertical distribution of arsenic. The weathering of carbonate and silicate minerals along with surface-groundwater interactions, ion exchange, and anthropogenic activities seem to be the processes governing groundwater contamination, including with arsenic. Although the percentage of wells exceeding the permissible limit (50 μg/L) was less (47%) than that reported in Bangladesh and West Bengal, the percentage contribution of toxic As(III) to total arsenic concentration is quite high (66%). This study is vital considering that groundwater is the exclusive source of drinking water in the region and not only makes situation alarming but also calls for immediate attention. [ABSTRACT FROM AUTHOR]

Published

2010

9. Intercomparison of crop establishment methods for improving yield and profitability in the rice-wheat system of Eastern India.

Author

Singh, Madhulika, Kumar, Pankaj, Kumar, Virender, Solanki, I.S., McDonald, Andrew J., Kumar, Ajay, Poonia, S.P., Kumar, Vipin, Ajay, Anurag, Kumar, Anurag, Singh, Deepak K., Balwinder-Singh, Singh, Sudhanshu, and Malik, Ram K.

Subjects

*RICE yields, *GROSS margins, *CROP yields, *WHEAT, *CROPS, *PROFITABILITY, *INDUSTRIAL costs, *HYBRID rice

Abstract

• DSR or MTR followed by ZT wheat gave higher system yield and gross margin. • Production cost reduced by US$ 149 and 77 ha−1 in DSR and MTR, respectively and increased by US$ 84 ha−1 in SRI than in PTR. • In wheat, ZT had higher yield and lower production cost (US$ 69 ha−1) but SRI increased cost by US$ 139 ha−1 than CT. Conventionally managed rice-wheat systems of the eastern Indo-Gangetic Plains (E-IGP) that rely on soil puddling for rice and intensive tillage for wheat are low-yielding and resource-inefficient, leading to low profitability. While a host of alternative tillage and crop establishment (TCE) methods have been advocated as solutions for sustainably enhancing productivity and profitability, few systematic comparisons of these methods are reported. To address this gap, a three-year field study was conducted in Bihar, India with the goal of identifying TCE methods for rice-wheat systems that are high yielding, less resource-intensive, and more profitable. The following systems were evaluated: 1) puddled transplanted rice (PTR) followed by (fb) conventional tillage wheat (CTW) or zero-tillage wheat (ZTW); 2) machine transplanted rice in non-puddled soil (MTR) fb ZTW; 3) the system of rice intensification (SRI) fb system of wheat intensification (SWI); and 4) dry-seeded rice (DSR) fb ZTW. Rice cultivar duration (short versus medium-duration) was incorporated as a subplot treatment in all systems. Rice yields were similar with all methods, except DSR yield was 11 % lower and MTR yield was 7% higher than PTR in the third year. Cost of production was US$ 149 and 77 ha−1 lower in DSR and MTR, respectively, and US$ 84 ha-1 higher in SRI than PTR. The gross margin and benefit-cost (B:C) ratio was highest in MTR followed by DSR and lowest in SRI. In wheat, ZT resulted in a higher yield than CTW, especially when ZTW was cultivated after non-puddled rice (e.g., DSR or MTR). ZTW reduced production costs by US$ 69 ha-1, whereas SWI increased it by US$ 139 ha-1 relative to CTW. The higher yield and lower cost of production resulted in a higher gross margin (US$ 82−355 ha−1 and US$ 129−409 ha−1 higher than CTW and SWI, respectively) and a higher B:C ratio in ZTW treatments than CTW and SWI. At the system level, MTR or DSR followed by ZTW had both superior crop yields and consistently higher gross margins (US $133 to 382 ha-1) than other practices. On the other hand, the SRI fb SWI system had no yield advantage and poorer economic performance than conventional practices. In all systems, the inclusion of a medium-duration rice hybrid resulted in higher rice and system yields. These results suggest that significant gains in profitability are possible with emerging TCE practices in rice-wheat systems, but alternatives such as the SRI and SWI will likely erode farmer incomes. [ABSTRACT FROM AUTHOR]

Published

2020

10. Land gradient and configuration effects on yield, irrigation amount and irrigation water productivity in rice-wheat and maize-wheat cropping systems in Eastern India.

Author

Devkota, Krishna Prasad, Yadav, Sudhir, Humphreys, E., Kumar, Akhilesh, Kumar, Pankaj, Kumar, Virender, Malik, R.K., and Srivastava, Amit K.

Subjects

*IRRIGATION water, *IRRIGATION, *WHEAT, *GROSS margins, *CROPPING systems, *CORN, DEVELOPED countries

Abstract

Laser land levelling is expanding rapidly in the rice-wheat (RW) and maize-wheat (MW) systems of the Indo-Gangetic Plains of India and Pakistan. Current practice is to level to zero (0%) gradient, whereas a small gradient (e.g. 0.1%) is typically used in developed countries. Therefore, experiments were conducted in farmers' plots (~15 m x 40 m) in the Eastern Gangetic Plains to evaluate laser levelling with a 0.1% gradient in comparison with 0% and farmer levelling practice (FL). The study was conducted over two years in RW and MW systems. In the MW system, raised beds in plots lasered with 0% and 0.1% gradients were also evaluated. Laser levelling with 0% gradient significantly reduced irrigation amount and/or increased irrigation water productivity (WPi) in all crops/systems grown on the flat compared to FL except for wheat in the MW system. While there was a consistent trend for higher yield with a 0% gradient compared with FL, the differences were not significant in any crop/system. For the RW system, the results suggest no to marginal benefits in irrigation amount and WPi from levelling with a 0.1% gradient in comparison with 0% gradient. In that system, by far the bigger gains were from changing from FL to laser levelling with 0% gradient. This resulted in substantial reductions in irrigation amount, which greatly increased WPi in both crops (by ~40%), while yield was not affected. Rice grown with FL was not profitable, but lasering with 0% gradient significantly increased gross margin for rice, wheat and the total RW system. As for the RW system, levelling to 0% with a flat configuration significantly increased WPi of both crops in the MW system compared to FL, but by a lesser proportion. Raised beds significantly increased yield of maize by 8% (0.5 t ha−1), reduced irrigation amount by 20% (40 mm) and increased WPi by 34% (1.0 kg m−3) in comparison with the laser levelled flat plots. Gross margin of the MW system on beds was 17–20% higher than FL, and gross margin with beds on a 0.1% gradient was significantly higher than either gradient on the flat. The results suggest that the gains from levelling with a 0.1% gradient compared to 0% are marginal; however, this may change if the goal of consolidation of small farmer plots into larger fields becomes a reality provided there is a proportionate increase in irrigation flow rates, and ability to drain. • Land gradient (0, 0.1%) and configuration (flats, beds) were tested in non-puddled rice-wheat (RW) and maize-wheat (MW) systems. • 0% gradient with flat configuration did not increase yield but increased gross margin of RW system than farmer practice. • 0.1% gradient with flats increased yield, WPi and gross margin of all crops compared with farmer levelling. • In MW, beds increased WPi of maize over flats with the same gradient, and had the highest gross margin regardless of gradient. • Gross margin of the MW system was 2–4 times that of the RW system. [ABSTRACT FROM AUTHOR]

Published

2021