- Anil Kumar
- Janardan Singh
- D. R. Chaudhary
- Sanjay K. Sharma
- Jahnvi Shekhar
- Sachin Upmanyu
- S. S. Rana
- B. S. Mankotia
- D. R. Thakur
- Pooja
- Suresh Kumar
- Neelam Sharma
- Nikhil Dogra
- N. K. Sankhyan
- Sukhchain Singh
- Tamanna Bhalla
- Nasratullah
- Rameshwar Kumar
- Raj Paul Sharma
- G. D. Sharma
- Subhash Verma
- Parita
- Abha Sharma
- M.C. Rana
- S.S. Rana
- S.K. Upadhyay
- N.D. Negi
- N.K. Sankhyan
- Parita .
- Tigangam P. Gangmei
- Navneet Kaur
- Alisha Thakur
- Sidharth Baghla
- Kishor Kumar Sahu
- Shilpa .
- Pardeep Kumar
- Pooja .
- Naveen Kumar
- Usha Rana
- Pawan Kumar Sharma
- Avnee .
- Sanjeev Kumar Sandal
- Deepika Suri
- R.P. Sharma
- Shagun Shukla
- Shabnam Thakur
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z All
Manuja, Sandeep
- Intensification of Cropping through Introduction of Second Crop after Peas in Lahaul Valley of Himachal Pradesh
Authors
1 Highland Agricultural Research and Extension Centre, Chaudhary Sarwan Kumar Himachal Pradesh Krishi Vishwavidyalaya, Kukumseri (Lahaul and Spiti), Himachal Pradesh-175142, IN
2 Krishi Vigyan Kendra Kukumseri (L&S), Chaudhary Sarwan Kumar Himachal Pradesh Krishi Vishwavidyalaya, Kukumseri (Lahaul and Spiti), Himachal Pradesh-175142, IN
Source
Himachal Journal of Agricultural Research, Vol 41, No 2 (2015), Pagination: 122-125Abstract
A field experiment consisted of seven pea based cropping sequences viz. Pea-mustard 'NDRE 4', Pea-mustard 'JD 6', Pea-toria 'Bhawani', Pea-local sarson 'Yungar', Pea-French bean 'Contender', Pea-buckwheat 'Local' and Pea-buckwheat 'USDA' was conducted at Kukumseri (Lahaul and Spiti) during 2010 and 2011 to find out the most remunerative second crop after main pea crop for dry temperate conditions of western Himalayas. The local sarson 'Yunger' took the least days (58 days) for maturity closely followed by French bean. Buckwheat USDA took highest number of days (92) to mature. Among new introduced mustard varieties 'NDRE 4' took 81 days. The highest pea equivalent yield (6377 kg/ha) with net return of INR 86714/ha and B: C ratio of 1.82 was obtained from pea-Frenchbean 'Contender' sequence followed by pea-mustard 'NDRE 4' (5561 kg/ha) with net return of INR 81478/ha and B: C ratio of 1.86. The increase in yield and net return with the best sequence (pea-Frenchbean 'Contender) over the most prevalent pea- local sarson 'Yunger' sequence was 24.9 and 23.8%, respectively.Keywords
Pea, Cropping Sequence, Economics.- Performance of Rice (Oryza sativa L.) Varieties under Aerobic Cultivation in Mid Hills of Himachal Pradesh
Authors
1 Rice and Wheat Research Centre, CSK Himachal Pradesh Krishi Vishvavidyalaya, Malan, Nagrota Bagwan – 176047, HP, IN
Source
Himachal Journal of Agricultural Research, Vol 41, No 2 (2015), Pagination: 160-162Abstract
Aerobic rice is a method of rice cultivation in which the crop is raised under un-puddle non-saturated aerobic condition with high external inputs with the objective of achieving higher productivity and water use efficiency. A field experiment was conducted during kharif 2012 at Malan to standardize seeding time for six promising rice varieties (four high yielding varieties and two locally recommended hybrids) under aerobic conditions. Each variety was sown at three different dates (10, 20 and 30 June). On an average, significantly higher grain yield was recorded when the sowing was done on 20 June though it was at par with 10 June sowing. Among the varieties, on an average hybrid PAC 807 gave significantly highest yield followed by Arize 6129. However, while comparing different combinations of seeding and variety altogether, Arize 6129 gave significantly highest yield when sown on 10 June. Among the HYVs tested, highest yield was recorded from HPR 1068 while HPR 2143 gave lowest yield. The economic indices calculated also showed similar trend with hybrids showing higher values for gross and net return but had lower B:C ratio owing to the higher cost of seed.Keywords
Aerobic Rice, Date of Sowing, Variety.- Evaluation of Some New Fungicides for the Management of Neck Blast in Rice (Oryza sativa L.)
Authors
1 CSK Himachal Pradesh Krishi Vishvavidyalaya, Rice and Wheat Research Centre, Malan-176 047, IN
Source
Himachal Journal of Agricultural Research, Vol 42, No 2 (2016), Pagination: 181-183Abstract
A field experiment to know the efficacy of some new fungicides against neck blast was conducted at Rice and Wheat Research Centre, Malan (HP) during Kharif 2014. New combination product of tricyclazole 18% + mancozeb 62% (MERGER) was found quite effective resulting in 72.6 per cent reduction in disease incidence over control, while application of tricycalzole 75 WP alone reduced neck blast incidence by 69.2 per cent. Another combi-fungicide, ICF-110 (tricyclazole 45% + hexaconazole 10% WG) also resulted in significant reduction (67.8%) in neck blast incidence over control. Also, the new molecules i.e. MERGER and ICF-110 significantly enhanced the grain yield as compared to rest of the fungicides with 192.5 and 176.1 per cent increase in grain yield over control.Keywords
Neck Blast, Incidence, Evaluation, Fungicides, Rice.References
- Laha GS, Sailaja B, Srinivas Prasad M, Ladhalakshmi D, Krishnaveni D, Ram Singh, Prakasam V, Yugander A, Kannan C, Valarmathi P and Ravindra Babu V. 2016. Changes in rice disease scenario in India: An analysis from Production Oriented Survey. Technical bulletin No. 91. ICAR-Indian Institute of Rice Research, Rajendranagar, Hyderabad. pp 95.
- Muralidharan K. 2006. Variability, the weapon in the combat between plant and pathogen as illustrated with rice and blast. In: Plant Protection in New Millennium, Vol. 1 (eds. Ashok V Gadekar and BP Singh), Satish Serial Publishing House, New Delhi, pp 69-108.
- POS 2001-2015. Production Oriented Survey, 2001-2014. All India Coordinated Rice Improvement Project (AICRIP), Indian Institute of Rice Research, Hyderabad.
- Singh Ram, Sunder S and Dodan DS. 2004. Evaluation of scented rice genotypes to blast and its management with fungicides. Journal of Mycology and Plant Pathology 34: 280281.
- Singh Ram, Sunder S, Dodan DS, Ram L and Singh R. 2010. Evaluation of scented rice genotypes and fungicides against blast and compatibility of pesticides used against neck blast, stem borer and leaf folder. Indian Phytopathology 63: 212-215.
- Srinivas Prasad M, Sheshu Madhav M, Laha GS, Ladha Lalshmi D, Krishnaveni D, Mangrauthia SK, Balachandran SM, Sundaram RM, Arunakranthi B, Madhan Mohan K, Ratna Madhavi K, Kumar V and Viraktamath BC. 2011. Rice blast disease and its management. Technical Bulletin No. 57. Directorate of Rice Research (ICAR), Rajendranagar, Hyderabad. pp 52.
- Upmanyu S and Rana SK. 2012. Effect of fungicides on neck blast incidence and grain yield of rice in mid hills of Himachal Pradesh. Plant Disease Research 27 (1): 92-93.
- Yamaguchi I. 2004. Overview on the chemical control of rice blast disease. In: Rice blast: Interaction with rice and control (Ed. Shinji Kawasaki) Springer Netherlands. pp 1-13.
- Influence of Seed Rate on the Productivity of Garden Pea under Dry Temperate Conditions of Himachal Pradesh
Authors
1 Mountain Agricultural Research and Extension Centre, Salooni, Chamba, HP, IN
2 Department of Agronomy, CSK Himachal Pradesh Krishi Vishvavidyalaya, Palampur, IN
Source
Himachal Journal of Agricultural Research, Vol 43, No 1 (2017), Pagination: 29-32Abstract
Farmers of Lahaul were using upto four times higher seed rates of peas which was not only their concern but of the scientists and the policy makers. Therefore, seed rates (100,150, 200, 250, 300 and 350 1^/ha) with recommended (20:60:30 :: kg N:P205,:K20/ha) and 150% NPK were evaluated at Highland Research and Extension Centre, Kukumseri during 2010 and 2011 to find out optimum seeding rate of peas under dry temperate region of Northwestern Himalayas. It was observed that emergence count and final plant stand of peas increased with increase in the seed rate upto 300 1^/ha during 2010 and upto 350 kg/ha during 2011. Pods/plant was also significantly affected during 2010. But there was consistent decrease in pods/plant beyond the seed rate of 150 kg/ha. Seeds/pod and seed weight/pod were not significantly affected during both the years. Peas green pod yield was significantly increased upto a seed rate of 250 kg/ha during 2010 and at 200 kg/ha during 2011. Yield attributes and yield of peas were not significantly influenced due to fertility levels.Keywords
Seed Rate, Productivity, Garden Pea, Temperate Conditions.References
- Anlarsal AE, Yucel C and Ozveren D.2001. A research on determination of yield and adaptation of some pea (Pisum sativum sp sativum L.Ve Pisum sativum ssp. avense L.) lines at conditions of Cucurova. Journal of Agriculture Faculty Cucuroval6(3): 11-20.
- Bilgili U, Uzum A, Sincik M, Yavuz M, Aydinoglu B, Cakmakei S, Geren H, Averoglu R, Nizam I, Tekeli AS, Gul I, Anlarsal E, Yucel C Aver M, Acae Z, Ayan I, Ustun A and Acilgoz. 2010. Forage yield and lodging traints in pea {Pisum sativum L.) with different leaf types. Turkish Journal of Field Crops 15 (1); 50-53.
- Cokkizgm A and Colkesen M. 2007. The determination of relationship between 5deld and jdeld components by using correlation and path coefficients analysis methods for pea (Pisumsaivum L.)Turkish VII.Field Crops Congress, 25-27 July 2007, pp 649-652 Erzurum.
- CSKHPKV. 2007. Package of Practices for Kharif Crops. Directorate of Extension Education, CSK HPKV,Palampur.
- Gan YT, Miller PR, McConkey BG, Zentner RP, Liu PH and McDonald CL. 2003. Optimum plant population density for chickpea and dry pea in a semiarid environment. Canadian Journal of Plant Science 83:1-9
- Kumar P, Rana SS and Sharma SK. 2006. Influence of fertility levels and rhizobium on the productivity of pea under Lahaul valley conditions of Himachal Pradesh. Himachal Journal ofAgricultural Research 32 (2): 36-39.
- Rana SS, Sood P and Rana MC. 2004. Integrated weed management in buckwheat. Fagopyrum 21:108-113.
- Togay N, Togay Y, Yildirim B and Dogan Y. 2008. Relationships between yield some yield components in pea (Pisum sativum ssp arvense L.) genotypes by using correlation and path analysis. African Journal of Biotechnology 7(23): 4285-4287.
- Yucel DO 2013. Impact of plant density on yield and yield components of pea (Pisum sativum ssp sativum L.) cultivars. APRN Journal of Agricultural and Biological Science 8 (2): 169- 174.
- Efficacy of New Post Emergence Herbicide 'Rinskor’ In Wet Seeded Rice (Oryza sativa L.)
Authors
1 CSK Himachal Pradesh Krishi Vishvavidyalaya, Rice and Wheat Research Centre, Malan-176 047, IN
Source
Himachal Journal of Agricultural Research, Vol 43, No 2 (2017), Pagination: 143-146Abstract
A field experiment was conducted at CSK HP Krishi Vishvavidyalaya, Rice and Wheat Research Centre, Malan during kharif 2016 to find out the bio-efficacy of new herbicide rinskor 2.5% EC in wet seeded rice (sowing of sprouted rice seeds in puddled fields). Four herbicide treatments comprising single herbicide rinskor at two doses (31.25 and 37.5 g a.i./ha 4-7 leaf stage of weeds), bispyribac sodium 30 g a.i./ha 3-4 leaf stage of weeds, and sequential application of pyrazosulfuron ethyl (25 g 3-5 days after sowing; DAS) followed by (fb) metsulfuron methyl + chlorimuron ethyl (4 g 25-30 DAS) were evaluated along with weed free (three hand weedings; 20 40 & 60 DAS), two hand weedings and weedy check. The crop was heavily infested with weeds (288.7/m2) viz., Monochoria vaginalis, Commelina benghalensis, Digitaria sanguinalis, Paspalum paspalodes, Echinochloa colona, E. crusgalli, Eleusine indica, Phyllanthus niruri and Setaria glauca, thus recording significantly more dry matter of both grass and broadleaf weeds compared to different weed control treatments. The weed index (increase in yield over weedy check) of different weed control treatments recorded values of 23.1 to 43.6 per cent; highest being with rinskor 37.5 g/ha. Rinskor at both the doses, bispyribac and sequential application of pyrazosulfuron ethy Jb metsulfuron ethyl + chlorimuron behaved alike in reducing weed density and were at par with two hand weedings. Rinskor and bispyribac were statistically equally effective in reducing dry matter of broad leaf weeds and were at par with weed free treatment. The significant effect of weed control treatments was reflected in growth and yield attributes of the crop. Rinskor 37.5 g/ha recorded tillering (336/m2) and panicles (320/m2) and grain (4.35 Mg/ha) at par with its lower dose (31.25 g/ha) and weed free treatment (weeding at 20,40 & 60 DAS). Thus, the new herbicide, rinskor 37.5 g/ha may be applied at 4-7 leaf stage of weeds (25 DAS) for efficient control of mixed weed flora in wet seeded rice.Keywords
Rinskor, Pyrazosulfviron Ethyl, Bispyribac Sodium, Herbicide, Weed, Wet Seeded Rice.References
- Anonymous. 2016. Progress Report, All India Coordinated Rice Improvement Project 3:4.211-4.227.
- Sharma R, Rana MC, Rana SS and Sharma GD. 2016. Effect of herbicide combination on nutrients depletion by weeds in wheat. Himachal Journal of Agricultural Research 42(1);78-81.
- Shekhar J and Mankotia BS. 2005. Efficacy of some new herbicides in wet seeded rice (Oryza sativaL.). Indian Journal of Weed Science 37 (l&2):58-60.
- Shekhar J, Mankotia BS and Bindra AD. 2004. Bioeflficacy of some new herbicides against weeds in transplanted rice {Oryza sativa L.) Indian Journal of Weed Science 36:50- 53.
- Sharma RP, Pathak SK and Singh RC. 2013. Effect of nitrogen and weed management in direct-seeded rice (Oryza sativa) under upland conditions. Indian Journal of Agronomy 52 (2): 114-119.
- Bio-Efficacy of GOD H007 Formulation in Semi-temperate Undulating Pasture Lands of Himachal Pradesh
Authors
1 Department of Agronomy, College of Agriculture, CSK Himachal Pradesh Krishi Vishvavidyalaya, Palampur-176062, IN
Source
Himachal Journal of Agricultural Research, Vol 46, No 2 (2020), Pagination: 205-209Abstract
A field experiment was conducted during kharif 2019 at the Research Farm of Department of Agronomy, College of Agriculture CSK Himachal Pradesh Krishi Vishvavidyalaya, Palampur, to study the bio efficacy of new herbicide for managing weeds in undulating pasture land pockets. The experiment was laid out in Randomised Block Design with three replications, and consisted of seven weed control treatments including GOD H007 at 860, 882 and 903 g/ha, pyrithiobac sodium 62.5 g/ha, glyphosate 820 g/ha, hand weeding and a weedy check. Application of this new herbicide combination product GOD H007 903 g/ha though remaining statistically alike with glyphosate 820 g/ha, resulted in significantly lowest total weed density and total weed dry matter at all the stages of observation except that at 30 days after spray (DAS) at which hand weeding proved to be a superior treatment. These three treatments interventions also recorded higher weed control efficiency. However, significantly highest fresh and dry herbage yield at 60 DAS was recorded with the application of pyrithiobac sodium 62.5 g/ha. Application of this new herbicide GOD H007 903 g/ha showed promise to be effective for managing weeds in pasture land.Keywords
GOD H007, Weed Control, Pasture Land.References
- Angiras NN. 2014. Management of perennial weeds under noncrop land hill ecosystems. Indian Journal of Weed Science 46(1):52-60.
- Corbett J, Askew S, Thomas W and Wilcut J. (2004). Weed efficacy evaluations for bromoxynil, glufosinate, glyphosate, pyrithiobac and sulfosate.Weed Technology, 18(2):443-453.
- Mishra A and Tosh GC. 1979. Chemical weed control studies of dwarf wheat. Journal of Research (Orissa University of Agricultural Science and Technology) 10: 1-6.
- Rana SS, Badiyala D, Sharma N and Kumar R. 2015. Major weeds in the non-cropped lands of Himachal Pradesh. Department of Agronomy, CSK Himachal Pradesh Krishi Vishvavidyalya, Palampur.
- Growth Analysis of Rice (Oryza sativa L.) Hybrids as Influenced by Fertility Levels Under Mid Hills of Himachal Pradesh
Authors
1 Department of Agronomy, CSK Himachal Pradesh Krishi Vishvavidyalaya, Palampur-176 062, IN
2 Department of Soil Science, CSK Himachal Pradesh Krishi Vishvavidyalaya, Palampur-176 062, IN
Source
Himachal Journal of Agricultural Research, Vol 46, No 2 (2020), Pagination: 221-226Abstract
A field experiment was conducted at the Experimental Farm of Department of Agronomy of CSK Himachal Pradesh Krishi Vishvavidyalaya, Palampur (H.P.) during kharif 2019 to study the growth and performance of rice hybrids under varying fertility levels. The treatments consisted of four rice varieties (three hybrids viz., Arize 6129, Arize Swift, AZ 6508 and inbred HPR 2143) which were tested under five fertility levels viz., 50% recommended dose of fertilizer (RDF), 100% RDF (90:40:40), 150% RDF, 150% RDF + ZnSO4 @ 25 kg ha-1 and natural farming treatment. The trial was laid out in split plot design with fertility levels in main plot and rice varieties in sub plot and was replicated thrice. Plant height and dry matter accumulation were significantly influenced by fertility levels with highest values recorded with the application of highest dose of fertilizers along with zinc while significantly lower values recorded in natural farming treatment. Significantly higher values of crop growth rate (CGR) and relative growth rate (RGR) at both the stages (between 30-60 days and 60–90 days after transplanting, DAT) were recorded with the application of 150% RDF + ZnSO 4though this treatment was at par with the application of 150% RDF alone. Significantly lowest values of both these parameters at both the stages were recorded with the natural farming treatment. Varieties also differed significantly with HPR 2143 producing significantly taller plants while Arize Swift producing shorter plants. Hybrids accumulated more dry matter as compared to inbred HPR 2143 with AZ 6508 recording significantly higher value of this parameter. Among the varieties tested AZ 6508 recorded significantly higher values of CGR, RGR and NAR at both the stages of observation indicating higher potential of this hybrid.Keywords
Growth, CGR, RGR, NAR, Fertility Levels, Hybrids.References
- Anonymous. 2017. Statistical Year Book of Himachal Pradesh 2016-17. Directorate of Economics and Statistics, Himachal Pradesh. pp 68-70.
- Gardner F, Pearce R and Mitchell RL. 1985. Physiology of crop plants. Iowa State University Press. Ames. USA.
- Gomez KA and Gomez AA. 1984. Statistical Procedures for Agricultural Research. 2nd Ed. Wiley Inter Science, New York, USA.
- Kumar N. 2019. Yield maximization of rice (Oryza sativa L.) varieties at varying fertility level in mid-hills of Himachal Pradesh. M.Sc. thesis, CSK Himachal Pradesh Krishi Vishvavidyalaya, Palampur.
- Palekar S. 2011. The techniques of spiritual farming (Volume IV) (Paddy, Sugarcane, Wheat, Banana, Plant Protection). Zero Budget Natural Farming Research, Development and Extension Movement, Amravati pp. 76-84.
- Rawat D, Bhatt SC, Srivastava PC and Pachauri SP. 2019. Effect of zinc application on dry matter yield of plant parts in rice varieties of varying zinc sensitivity. Journal of Pharmacognosy and Phytochemistry 8 (3): 3486-3489.
- Ronanki S, Rani PL, Madhavi A, Sreenivas G and Raji Reddy D. 2017. Dry matter accumulation, partitioning and nitrogen uptake of transplanted rice under varied plant densities and nitrogen levels. Chemical Science Review and Letters 23 (6): 1975-1979.
- Rychter AM and Rao IM. 2005. Role of phosphorus in photosynthetic carbon assimilation and partitioning. In: Handbook of Photosynthesis Ed Pessarakli M. Taylor and Francis LLC. pp 625-647.
- Timothy W and Joe E. 2003. Rice Fertilization. Mississippi Agricultural and Forestry Experiment Station 13(48): 1-4.
- Efficacy of GOD H007 Formulation on Weeds in Grasslands of Himachal Pradesh
Authors
1 Department of Agronomy, College of Agriculture CSK Himachal Pradesh Krishi Vishvavidyalaya, Palampur-176 062, IN
Source
Himachal Journal of Agricultural Research, Vol 47, No 1 (2021), Pagination: 95-99Abstract
A field experiment was conducted during kharif 2019 at the Research Farm of Department of Agronomy, CSK Himachal Pradesh Krishi Vishvavidyalaya, Palampur, to study the efficacy of new herbicide combination product GOD H007 (containing glyphosate 40% and pyrithiobac sodium 3%) for managing weeds in grasslands. The experiment was laid out in Randomised Block Design with three replications, and consisted of seven weed control treatments viz., GOD H007 at 860, 882 and 903 g/ha, pyrithiobac sodium 62.5 g/ha, glyphosate 820 g/ha, hand weeding and a weedy check. Application of this new herbicide combination product GOD H007 903 g/ha though remaining statistically alike with glyphosate 820 g/ha, resulted in significantly lowest total weed density and total weed dry matter at all the stages of observation except that at 30 days after spray (DAS) at which hand weeding proved to be a superior treatment. These three treatments also recorded higher weed control efficiency. However, significantly highest fresh and dry herbage yield at 60 DAS was recorded with the application of pyrithiobac sodium 62.5 g/ha. Application of this new herbicide GOD H007 903 g/ha showed promise to be effective for managing weeds in grassland.Keywords
GOD H007,, Weed Control, Grass Land, Glyphosate, Pyrithiobac Sodium.References
- Angiras NN. 2014. Management of perennial weeds under noncrop land hill ecosystems. Indian Journal of Weed Science 46 (1):52-60.
- Corbett J, Askew S, Thomas W and Wilcut J. (2004). Weed efficacy evaluations for bromoxynil, glufosinate, glyphosate, pyrithiobac and sulfosate. Weed Technology 18 (2):443-453.
- Gomez K A and Gomez A A. 1984. Statistical procedure for Agricultural Research 2nd edn Wiley Inter Science, New York, USA P 680.
- Mishra A and Tosh GC. 1979. Chemical weed control studies of dwarf wheat. Journal of Research (Orissa University of Agricultural Science and Technology) 10: 1-6.
- Evaluation of Different Components of Natural Farming in Black Gram (Vigna mungo L.) Under Mid Hill Conditionsof Himachal Pradesh
Authors
1 Department of Organic Agriculture and Natural Farming, CSK Himachal Pradesh Krishi Vishvavidyalaya, Palampur-176 062, IN
2 Department of Veterinary Microbiology, DGCN COVAS, CSK HPKV, Palampur, IN
Source
Himachal Journal of Agricultural Research, Vol 47, No 2 (2021), Pagination: 175-179Abstract
Field experiments were conducted during kharif 2019 and 2020 at Holta Zero Budget Natural Farm (ZBNF), Department of Organic Agriculture and Natural Farming, CSK Himachal Pradesh Krishi Vishvavidyalaya, Palampur to evaluate the comparative efficacy of different components of natural farming on crop production and economics of black gram. The results revealed that yield attributes and yield (seed and straw) of black gram increased significantly with application of natural farming components in totality. Application of ghanjeevamrit + jeevamrit + mulching (T7) significantly increased the seed yield of black gram over T8 (absolute control) by 61.4 and 233.1 per cent during 2019 and 2020, respectively and application of ghanjeevamrit + jeevamrit (T4) recorded significantly higher net returns of Rs. 49265 ha-1 statistically at par with ghanjeevamrit + jeevamrit + mulching (T4) in 2019. However, in 2020, application of ghanjeevamrit + jeevamrit + mulching (T7) recorded higher net returns of Rs. 64206 ha over other treatments.Keywords
Black Gram, Jeevamrit, Ghanjeevamrit, Mulching and Natural Farming.References
- Anonymous. 2018. Agricultural Statistics at a Glance. Directorate of Economics and Statistics, Department of Agriculture and Cooperation, New Delhi.
- Gomez GA and Gomez AA. 1984. Statistical Procedure for Agricultural Research (2nd Ed.). John Wiley and sons, New York. p 680.
- Kasbe SS, Joshi M and Bhaskar S. 2009. Characterization of farmer’s jeevamrit formulations with respect to aerobic rice. Mysore Journal of Agricultural Sciences 43 (3): 570-573.
- Palekar S. 2006. Shoonya Bandovalada Naisargika Krushi. Swamy Anand, Agri Prakashana, Bengaluru, India.
- Siddappa. 2015. Use of jeevamrit and farm yard manure on growth and yield of field bean (Lablab purpureus var. lignosus). M Sc Thesis, University of Agricultural Sciences, Bengaluru, India.
- Sutar R, Sujith GM and Devakumar N. 2018. Growth and yield of Cowpea (Vigna unguiculata (L.) Walp) as influenced by jeevamrit and panchagavya application. Legume Research 3932: 1-5.
- Bio-Efficacy and Phytotoxicity of Glyphosate 41% SL on Weed Flora of Tea and its Effect on Soil Microbial Activities
Authors
1 Department of Agronomy, College of Agriculture, CSK Himachal Pradesh Krishi Vishvavidyalaya, Palampur-176 062, IN
Source
Himachal Journal of Agricultural Research, Vol 47, No 2 (2021), Pagination: 235-238Abstract
A field experiment was conducted at the farmers’ field in Panchrukhi block of Kangra District (H.P.) during kharif 2019 to evaluate the bio-efficacy and phytotoxicity of glyphosate 41% SL in tea (Camellia sinensis). The experiment was laid out in a Randomized Block Design with ten treatments and was replicated thrice. The treatments comprised of six doses of a new formulation of glyphosate 41 % SL (All Clear, Anu Products Ltd.) 1.0, 2.0, 3.0, 4.0, 5.0 and 8.0 litre / ha, glyphosate 41 % SL (Roundup, Monsanto), glyphosate 71 % SG 3.0 kg / ha and weedy and weed free checks. Major weeds that were found to infest the experimental tea orchard included Erigeron canadensis, Ageratum conyzoides, Cynodon dactylon, Imperata cylindrica, Paspalum conjugatum and Polygonum alatum. The results revealed that in tea crop weeds can be effectively controlled with the application of glyphosate 41% SL (All Clear) 3.0 litre/ha and 4.0 litre/ha. No phytotoxicity symptoms on tea were observed at any of dose of herbicide.Keywords
Bio-Efficacy, Glyphosate, Tea, All Clear, Weeds.References
- Bose A, Kumar R and Roy SB 2007. Integrated weed management to control Heridium spp and Polygonum chinensis in young tea plantations of India. In: Proc. 21st Asian Pacific Weed Science Society Conference, pp 565-567, Colombo, Sri Lanka.
- Devi NM., Kundu CK., Bera PS., Panda S and Das S. 2019. Evaluation of glyphosate 41% SL to control weeds in tea at Terai region of West Bengal. Journal of Crop and Weed 15: 213-219.
- Ilango RVJ, Durairaj J and Mohan KP 2010. Evaluation of Excel-mera 71 for control of Commelina species. Newsletter-UPASI Tea Research Foundation 20:20-25.
- Kumar A and Ghosh RK 2015.Bio efficacy of glyphosate for management of weeds in tea. In: 25th Asian Pacific Weed Science Society Conference on Weed Science for Sustainable Agriculture, Environment and Biodiversity, pp377, Hyderabad , India
- Mani VS, Malla ML, Gautam KC and Bhagwndas. 1973. Weed killing chemicals inpotato cultivation. Indian Farming 22:17-18.
- Opeke KL. 2005.Tropical commodity tree crops. 2nd Ed., Spectrum House, Ibadan, Nigeria, pp 436-440.
- Wollum AG 1983. Cultural methods for soil microorganisms. In: Methods of Soil Analysis (Part 2 Chemical and microbiological properties), ed Page AL. American Society of Agronomy, Inc. and Soil Science Society of America, Inc. pp 781-802 (DOI:10.2134/agronmonogr 9.2.2ed).
- Effect of Orchard Floor Management Practices on Weed Population and Fruit Quality and Yield of Peach [Prunus persica (L.) Batsch]
Authors
1 Department of Agronomy, College of Agriculture CSK Himachal Pradesh Krishi Vishvavidyalaya, Palampur-176 062, IN
Source
Himachal Journal of Agricultural Research, Vol 48, No 01 (2022), Pagination: 31-36Abstract
An experiment with nine orchard floor management practices viz., legume intercropping (soybean-peas), turmeric intercropping, fodder intercropping (pearl millet-oats), sod culture (setaria grass), glyphosate, paraquat, weed mulch, manual weeding and weedy check was carried out at Palampur during kharif 2018 to rabi 2019-20 to study their effect on fruit quality and yield of peach. Highest weed population was recorded in weedy check in all the months and lowest weed count was observed in legume intercropping during both the years. Legume intercropping resulted in highest peach yield and quality over rest of the treatments and lowest fruit yield per tree was recorded under weedy check during both the years of study. Uninterrupted growth of weeds reduced the fruit yield by 41.13 per cent during 2019 and by 50.84 per cent during 2020. No phytotoxicity of any herbicide tested (pendimethalin, quizalofop and chlorimuron ethyl to intercrops and directed application of glyphosate and paraquat) was recorded on peach indicating that all the herbicides used were safe for managing weeds in peach orchard.Keywords
Weed management, peach orchard, fruit quality, fruit yieldReferences
- Anonymous. 2015. Sirmaur diary: The orchard valley of Rajgarh. https://bnomadic.com/2015/10/22/sirmaurhimachalpeach-rajgarh-travel/
- Altland JE, Wehtje G and Gilliam CH. 2003. Weed control in field nurseries. Hort Technology 13(1): 9-14.
- Chaurasiya PC and Mishra RK. 2017. Varietal performance of Peach [Prunus persica (L.) Batsch] under northern hill zone of Chhattisgarh. International Journal of Chemical Studies 5 (5): 37-40.
- Din A, Asghar M, Parveen S and Ali MA. 2012. Evaluation of Kinnow mandarin as influenced by preharvest management practices. Journal of Agricultural Research 50 (3): 381-391.
- Ghosh SN. 2001. Intercropping in guava orchard in watershed area. The Horticulture Journal 14 (3): 36-40.
- Gill MS, Savreet K and Gupta N. 2018. Impact of intercropping on yield, fruit quality and economics of young Kinnow mandarin plants. Journal of Applied and Natural Science 10 (3): 954-957.
- Gomez GA and Gomez AA. 1984. Statistical Procedure for Agricultural Research (2nd ed.). John Wiley and sons, New York. P-680.
- Killian JC and Meyer JR. 1984. Effect of weed management on catfacing damage to peaches in North Carolina. Journal of Economic Entomology 77 (6):1596-1600.
- Leskey TC and Hogmire HW. 2005. Monitoring stink bugs (Hemiptera: Pentatomidae) in mid-Atlantic apple and peach orchards. Journal of Economic Entomology 98(1): 143-153.
- Lisek J. 2014. Possibilities and limitations of weed management in fruit crops of temperate climate zone. Journal of Plant Protection Research 54 (4): 318-326.
- MacRae AW, Mitchem WE, Monks DW, Parker ML and Galloway RK. 2007. Tree growth, fruit size, and yield response of mature peach to weed-free intervals. Weed Technology 21(1):102-105.
- Majek BA, Neary PE and Polk DF. 1993. Smooth pigweed interference in newly planted peach trees. Journal of Production Agriculture 6 (2): 244-246.
- Meitei SB, Patel RK, Deka BC, Deshmukh NA and Singh A. 2013. Effect of chemical thinning on yield and quality of peach cv. Flordasun. African Journal of Agricultural Research 8(27): 3558-3565.
- Melander B, Rasmussen IA and Bàrberi P. 2005. Integrating physical and cultural methods of weed control: Examples from European Research. Weed Science 53 (3): 369-381.
- Mia MJ, Massetani F, Murri G and Neri D. 2020: Sustainable alternatives to chemicals for weed control in the orchard- a Review. Horticultural science (Prague) 47 (1): 1-12.
- Rath S and Swain SC. 2006. Performance of intercrops in bearing mango orchards in Eastern Ghat High land zones of Orissa. Indian Journal of Dryland Agricultural Research Development 21(1): 12-15.
- Rifai MN, Astatkie T, Lacko-Bartosova M and Gadus J. 2002. Effect of two different thermal units and three types of mulch on weeds in apple orchards. Journal of Environmental Engineering and Science 1 (5): 331-338.
- Sahoo UK. 2016. Effect of intercropping on soil health and yield potential of mango in Paradise valley, East Kawlchaw, Saiha district of Mizoram, NE India. International Journal of Ecology and Environmental Sciences 42 (3): 227-237.
- Steenwerth K and Guerra B. 2012. Influence of floor management technique on grapevine growth, disease pressure, and juice and wine composition: A Review. American Journal of Enology and Viticulture 63 (2):149-164.
- Varshney JG. 2009. Why weed control. Crop Care 35 (1): 13-28.
- Effect of Ethalfluralin 36 %EC on Weeds, Yield Attributes and their Correlation with Yield of Soybean
Authors
1 Department of Agronomy, College of Agriculture CSK Himachal Pradesh Krishi Vishvavidyalaya, Palampur-176 062, IN
Source
Himachal Journal of Agricultural Research, Vol 48, No 01 (2022), Pagination: 44-47Abstract
The field experiment was conducted at the Experimental Farm of Department of Agronomy, CSK HPKV, Palampur during kharif 2019 and 2020 to find out the effect of ethalfluralin 36 % EC on weeds, yield attributes and their correlation with yield of soybean. Nine weed control treatments viz. ethalfluralin 540 g/ha, 630 g/ha, 720 g/ha, 810 g/ha, 1440 g/ha, imazethapyr 100 g/ha, pendimethalin 1000 g/ha, weed free treatment and weedy check were tested in Randomized Block Design with four replications. Soybean variety ‘Harit soya’ was sown manually in furrows 45 cm apart using a seed rate of 100 kg/ha. Results revealed that ethalfluralin 810 g/ha proved statistically superior to all other treatments in reducing the weed population and weed dry weight at harvest during both the years. Plant height, branches per plant, 1000 seed weight and seed yield of soybean was significantly higher with the application of ethalfluralin 720 g/ha behaving statistically alike with 810 g/ha followed by imazethapyar 100 g/ha and pendimethalin 1000 g/ha during both the years of study. Correlation studies carried out between different parameters revealed that plant height, branches per plant, 1000 seed weight and straw yield were positively and significantly correlated with the seed yield of soybean.
Keywords
Herbicide, soybean, weed management, yieldReferences
- Gomez KA and Gomez AA. 1984. Statistical Procedures for Agricultural Research (2 ed.). John wiley and sons, NewYork, 680p
- Bandi BTK, KidindaL K, Kasendue GN, Longanza LB, Emery KL and Lubobo AK.2019. Correlations between growth and yield parameters of soybean (Glycine max (L.) Merr.) under the influence of Bradyrhizobium japonicum in Kipushi (The Democratic Republic of Congo). American Journal of Agricultural and Biological Sciences 14:86-94.
- Prachand S, Kalhapure A and Kubde KJ. 2015. Weed management in soybean with pre- and post-emergence herbicides. Indian Journal of Weed Science 47(2): 163–165
- Rajput RL and Kushwah SS. 2004. Integrated weed management in soybean on farmers field. Indian Journal of Weed Science 36: 210–212.
- Yadav R, Bhullar MS, Kaur S, Kaur T and Jhala AJ. 2017. Weed control in conventional soybean with penimethalin followed by imazethapyr + imazamox/ quizalofop-p-ethyl. Canadian Journal of Plant Science 97(4): 654-664
- Studies on Irrigation Scheduling and Nutrient Management on Wheat Growth and Productivity
Authors
1 Department of Agronomy, College of Agriculture CSK Himachal Pradesh Krishi Vishvavidyalya, Palampur-176 062, IN
Source
Himachal Journal of Agricultural Research, Vol 48, No 01 (2022), Pagination: 48-55Abstract
This two-year research was aimed to identify the relationships between irrigation and nutrient management practices on crop growth and yield. Treatments consisted of three irrigation levels viz. recommended critical stages regimes (I1), irrigation at 0.6 CPE (I2) and irrigation at 1.0 CPE (2) in main plots and four nutrient management practices viz. inorganic nutrient management (F1), organic nutrient management (F2), natural farming management (F3), integrated nutrient management (F4) in subplots, laid out in split-plot design with three replications. It was revealed that irrigation at 1.0 CPE (I3) produced significantly taller plants and higher dry matter accumulation but did not influence the days taken for 50 % flowering and physiological maturity. Nutrient management practices also had a significant influence on these parameters in which integrated nutrient management (F4) was found to be superior for dry matter accumulation, plant height, days taken for 50 % flowering, physiological maturity and yield.Keywords
Irrigation, Nutrient management, Organic, Natural farming, Integrated, Inorganic, wheatReferences
- Bikrmaditya, Verma R, Ram S. and Sharma B. 2011. Effect of soil moisture regimes and fertility levels on growth, yield and water use efficiency of wheat (Triticum aestivum L.). Progressive Agriculture 11(1): 73-78.
- Fazily T, Thakral SK and Dhaka AK. 2021. Effect of integrated nutrient management on growth, yield attributes and yield of wheat. International Journal of Advances in Agricultural Science and Technology 8 (1): 106-118.
- Gopinath KA, Supradip S, Mina BL, Pande H, Kundu S and Gupta HS. 2008. Influence of organic amendments on growth, yield and quality of wheat and on soil properties during transition to organic production. Nutrient Cycling in Agroecosystems 82:51-60.
- HP Economics and Statistics Department, 2021. https://himachalservices.nic.in/economics/ecosurvey/en/ agriculture_and_horticulture.html
- Krishna A, Biradarpatil NK, Manjappa K and Channappagoudar BB. 2008. Evaluation of System of Rice Intensification (SRI) Cultivation, Seedling Age and Spacing on Seed Yield and Quality in Samba Mashuri (BPT-5204) Rice. Karnataka Journal of Agricultural Sciences 21(1): 20-25.
- Kumar P, Yadav RK, Gollen B, Kumar S, Verma RK and Yadav S. 2011. Nutritional contents and medical properties of wheat. A review. Life Sciences and Medicinal Research 47 (2):145- 149.
- Kumar A, Nand V, Kumar R. 2016. Effect of different levels of irrigation under integrated nutrient management (INM) on wheat (Triticum aestivum L.) for central plain agro climatic zone of Uttar Pradesh, India. Plant Archives 16 (1):395-398 Kumar G, Nanad V, Kumar A, Singh AK and Himanshu. 2021. International Journal of Chemical Studies 9 (1): 2781-2785.
- Mishra G and Kushwaha H S. 2016. Winter wheat yield and soil physical properties responses to different tillage and irrigation. European Journal of Biological Research 56:530-537.
- Mohan B, Kumar P and Yadav RA. 2018. Effect of integrated nutrient management on yield attributes and yield of wheat (Triticum aestivum L.). Journal of Pharmacognosy and Phytochemistry 7(1):1545-1547.
- Maurya RN, Singh UP, Kumar S, Yadav AC and Yadav RA. 2019. Effect of integrated nutrient management on growth and yield of wheat (Triticum aestivum L.). International Journal of Chemical Studies 7 (1): 770-773.
- Nand V, Singh G, Kumar R, Raj S and Yadav B. 2014. Effect of irrigation levels and nutrient sources on growth and yield of wheat (Triticum aestivum L.). Annals of Agriculture Research 35 Nayak MK, Patel HR, Prakash V and Kumar A. 2015.
- Influence of irrigation scheduling on crop growth, yield and quality of wheat. Journal of Agriculture Research 2 (1): 65-68.
- Neelam, Nanwal RK and Kumar P. 2014. Effect of organic and inorganic sources of nutrients on productivity and profitability of mungbean-wheat cropping system. Legume Research 38 (4): 509-512.
- Sain MK and Chaplot PC. 2014. Effect of nitrogen levels, organic manure and bio-fertilizers on nutrient uptake and quality of late sown wheat (Triticum aestivum L.) and soil nutrient status. Environment and Ecology 32 (2A): 739741.
- Sheoran S, Raj D, Antil RS, Mor VS and Dahiya DS. 2017. Productivity, seed quality, and nutrient use efficiency of wheat (Triticum aestivum L.) under organic, inorganic, and INM practices after 20 years of fertilization. Cereal Research Communications 45 (2):315-325.
- Singh V, Singh SP, Singh S and Shivay YS. 2013. Growth, yield and nutrient uptake by wheat (Triticum aestivum) as affected by biofertilizers, FYM and nitrogen. Indian Journal of Agricultural Sciences 83 (3): 331-334.
- Verma HP, Sharma OP, Kumar R, Yadav SS, Shivran AC and Balwan. 2017. Chemical Science Review and Letters 6 (23): 1664-1669.
- Vishuddha N, Singh GR, Kumar R, Raj S and Yadav B. 2014. Effect of irrigation levels and nutrient sources on growth and yield of wheat (Triticum aestivum L.). Annals of Agricultural Research 35 (1): 14-20.
- Influence of tillage practices and nutrients sources on growth parameters and their correlation with yield of mustard
Authors
1 Department of Agronomy, IN
2 Department of Soil Science, College of Agriculture CSK Himachal Pradesh Krishi Vishvavidyalaya, Palampur -176 062,, IN
Source
Himachal Journal of Agricultural Research, Vol 48, No 2 (2022), Pagination: 175-180Abstract
An experiment was conducted to study the effect of tillage practices and different nutrient sources on growth, growth indices and yield of mustard. The experiment was directed in split plot design comprising of three main plots [(Zero tillage, Reduced tillage and conventional tillage) and four sub plots (75% RDN, 100% RDN, 75% RDF and 100% RDF) treatments]. Results revealed that plant height (137.92 cm), dry matter accumulation 2 2 (393.03 g/m ), absolute growth rate (0.20 g/day), crop growth rate (0.83 g/m /day), dry matter efficiency (0.149 %), 2 unit area efficiency (0.00062 kg/ m /day), seed yield (1045.0 kg/ha) and straw yield (3242.3 kg/ha) of mustard were highest under reduced tillage. Among different nutrient sources, 100 per cent recommended 2 dose of fertilizer recorded highest plant height (139.72 cm), dry matter accumulation (407.81 g/m ), dry matter 2 efficiency (0.151 %), unit area efficiency (0.00065 kg/ m /day), seed yield (1098.4 kg/ha) and straw yield (3112.6 2 kg/ha) whereas absolute growth rate (0.17 g/day) and crop growth rate (0.77 g/m /day) were highest with 75 per cent recommended dose of fertilizer. Correlation studies showed that plant height, dry matter accumulation, absolute growth rate, dry matter efficiency and unit area efficiency had positive significant association with mustard yield, indicating the importance of these traits in selection for yield. It was concluded that among tillage practices, reduced tillage proved best for growth and productivity of mustard whereas in case of different nutrient sources, 100 per cent recommended dose of fertilizerwas found better.Keywords
Conventional tillage, Farm yard manure, Growth, Mustard, Reduced tillage, Yield, Zero tillage.References
- Anonymous 2019. Ministry of Agriculture and Farmers Welfare, Govt. of India. (ON2476) https:// www.indiastatagri.com/table/agriculture/selectedstate-wise-area-production-productivity-r/1409205 dated 20 th December, 2021.
- Bambal AS, Verma RM, Panchbhai DM, Mahorkar VK and Khankhane RN.1998. Effect of biofertilizers and nitrogen levels on growth and yield of cauliflower (Brassica oleracea var . Botrytis). Orissa Journal of Horticulture 26 (2):14-17.
- Chondie YG 2015. Effect of integrated nutrient management on wheat. Journal of biology, Agriculture and health care 5 (13): 68-76.
- Corbeels M, Graff, Jan de, Ndah TH, Penot E, Baudron F, Naudin K, Andrieu N, Chirat G, Schuler J, Nyagumbu I, Rusinamhodzi L, Traore K, Mzoba HD and Adolwa. 2014. Understanding the impact and adoption of conservation agriculture in Africa: A multi-scale analysis. Agriculture, Ecosystems and Environment 187: 155-170.
- Das TK, Bhattacharyya R, Sudhishri S, Sharma AR, Saharawat YS, Bandyopadhyay KK, Sepat, Seema, Bana RS, Aggarwal, Pramila, Sharma RK, Bhatia A, Singh G, Datta SP, Kar A, Singh B, Singh P,Pathak H, Vyas AK and Jat ML.2014. Conservation agriculture in an irrigated cotton-wheat system of the western Indogangetic plains: Crop and water productivity and economic profitability. Field Crops Research 158: 24- 33.
- Derpsch R and Friedrich T. 2010. Sustainable crop production Intensification: the adoption of conservation agriculture worldwide. 16th international soil conservation organization congress, 8-12, November 2010, Santiago, Chile, 21 p.
- Faiz MA, Bana RS, Choudhary AK, Laing AM, Bansal R, Bhatia A, Bana RC, Singh YV, Kumar V, Bamboriya SD, Padaria RN, Khaswan SL and Dabas JPS.2022. Zero Tillage, Residue Retention and System-Intensification with Legumes for Enhanced Pearl Millet Productivity and Mineral Biofortification. Sustainability 14 (543) : 1- 19.
- Farooq M and Siddique KHM.2015. Conservation agriculture: Concepts, brief history and impacts on agricultural systems. In Conservation Agriculture pp 3- 1. Siddique KHM (Eds.) Springer.
- Gangwar KS, Singh KK and Sharma SK.2004. Effects of tillage on growth, yield and nutrient uptake in wheat after rice in Indo-Gangetic Plains of India. Journal of Agricultural Sciences 14 (2): 453-459.
- Gomez KA and Gomez AA. 1984. Statistical Procedure for Agricultural Research.2nd edn. Wiley Inter Science, New York, USA. p 680.
- Kasu- Bandi BT, KidindaLK, Kasendue GN, Longanza LB, Emery KL and Lubobo AK.2019. Correlations between Growth and Yield Parameters of Soybean (Glycine max (L.) Merr.) under the Influence of Bradyrhizobium japonicum in Kipushi (The Democratic Republic of Congo). American Journal of Agricultural and Biological Sciences 14: 86-94.
- Katiyar SC. 2001. Water use and yield of rainfed mustard as influenced by moisture conservation practices. Indian Journal of Soil Conservation 29 (2):182-183.
- Morales OKD, Zapata MC, Alejandro GZ and Santos MC.2019. Effect of Tillage Systems on Physical Properties of a Clay Loam Soil under Oats. Agronomy 9 (62) : 1-14 .
- Saroch K, Sandal SK and Sharma PK.2012.Effect of tillage and nitrogen management on water use and productivity of late sown wheat under mid hill conditions of Himachal Pradesh. Himachal Journal of Agricultural Research 38 (1): 31-35.
- Sekhawat K, Rathore SS, Premi OP, Kandpal BK and Chauhan JS. 2012. Advances in Agronomic Management of Indian Mustard (Brassica juncea (L.) Czernj. Cosson): An Overview. International Journal of Agronomy : 1-14.
- Singh AK.2006. Effect of tillage, water and nutrient management on soil quality parameters under riceth wheat and maize-wheat cropping zone. 18 world congress of soil Science, Pannsylvania. USA, 1-2p.
- Singh R, Singh AK and Kumar P. 2014. Performance of Indian mustard (Brassica juncea L.) in Response to Integrated Nutrient Management. Journal of Agricultural Research 1 (1) : 9-12.
- Singh MK, Singh YK, Meena RA, Kumar P, Rajput BS and Nath T.2014. Effect of tillage and mulch in mustard crop under rainfed conditions. International Journal of Tropical Agriculture 32 (1-2): 251-254
- Effect of different sources of nutrients on growth and productivity of maize-wheat cropping system under rainfed conditions
Authors
1 Department of Agronomy, College of Agriculture CSK Himachal Pradesh Krishi Vishvavidyalaya, Palampur–176 062,, IN
Source
Himachal Journal of Agricultural Research, Vol 48, No 2 (2022), Pagination: 181-188Abstract
A field experiment was conducted for four consecutive seasons from kharif 2019 to rabi 2020-21 at CSK, Himachal Pradesh, Krishi Vishvavidyalaya, Palampur, Himachal Pradesh (India) to evaluate the effect of different sources of nutrients on growth and productivity of maize-wheat cropping system. The experiment -1 was laid down in Randomized Block Design with three replications having seven treatments viz., T1 - 10t ha -1 FYM + 5% Jeevamrit as basal and at 4 weeks interval, T - 10t ha FYM + 10% Jeevamrit as basal and at 4 weeks 2 -1 -1 interval, T3 - 50% RDN+ 10 t ha FYM+ 5% Jeevamrit as basal and at 4 weeks interval, T4 - 50% RDN+ 10 t ha FYM+ 10% Jeevamrit as basal and at 4 weeks interval T - seed treatment with Beejamrit followed by 5% 5 Jeevamrit as basal and at 4 weeks interval, T - seed treatment with Beejamrit followed by 10% Jeevamrit as 6 basal and at 4 weeks interval, T - recommended NPK through inorganic sources. Application of 50% RDN + 10 7 -1 -1 t ha FYM + 10% Jeevamrit remaining at parwith application of 50% RDN + 10 t ha FYM + 5% Jeevamrit and application of recommended NPK resulted in higher leaf area index and crop growth rate of maize and wheat. -1 Application of 50% RDN + 10 t ha FYM + 10% Jeevamrit proved best to obtain higher relative growth rate of maize, whereas relative growth rate of wheat at 60-90 DAS, 90-120 DAS and 120-150 DAS was significantly higher with Beejamrit + 5% Jeevamrit application. Significantly higher grain yield of maize and wheat, total - yield of system and system productivity of maize-wheat cropping system was obtained with 50% RDN + 10 t ha 1 FYM + 10% Jeevamrit.Keywords
Leaf area index, Jeevamrit, yield, maize, wheat.References
- Anonymous. 2021a. Agricultural Statistics. Directorate of Economics and Statistics, Department of Agriculture, Cooperation and Farmers Welfare, Ministry of Agriculture, Government of India, New Delhi p 44-48
- Anonymous. 2021b. Economic Survey, Economic and Statistics Department, Government of Himachal Pradesh p: 74-80.
- Bajpai RK, Chitale S, Upadhyay SK and Urkurkar JS. 2006. Long term studies on soil physico-chemical properties and productivity of rice-wheat system as influenced by integrated nutrient management in Inceptisols of Chhattisgarh. Journal of the Indian Society of Soil Science 54 (1): 24-29.
- Bandopadhyay KK, Mishra AK, Ghosh PK, Hati KM and Mandal KO. 2003. Effect of integrated use of farmyard manure and inorganic fertilizers on soil water dynamics, root growth, crop yield and water expense efficiency of rainfed soybean in a vertisol. Journal of Agricultural Physics 3 (1-2): 95-100.
- Basak BB, Biswas DR and Pal S .2013. Soil biochemical properties and grain quality as affected by organic manures and mineral fertilizers in soil under maize-wheat rotation. Agrochimica 7 (1): 49-66.
- Bharti B and Sharma RP. 2017. Long term effect of integrated nutrient management on soil properties and availability of nutrients in a Typic Hapludalfs under maize-wheat cropping. International Journal of Environmental & Agriculture Research 3 (6): 43-48.
- Blackman VH. 1919. The compound interest law and plant growth. Annals of Botany 33(3): 353-360.
- Chandra R, Kumar K and Singh J. 2004. Impact of anaerobically treated and untreated (raw) distillery effluent irrigation on soil microflora, growth, total chlorophyll and protein contents of Phaseolus aureus L. Journal of Environmental Biology 25 (3): 381-385.
- Choudhary VK and Kumar S. 2013. Maize production, economics and soil productivity under different organic source of nutrients in Eastern Himalayan region, India. International Journal of Plant Production 7 (1): 167-186.
- Dhiman S and Dubey YP. 2017. Studies on impact of nutrient management and tillage practices on yield attributes and yield on gram-maize cropping sequence. Indian Journal of Agricultural Research 51 (2): 305-312.
- Diacono M and Montemurro F. 2010. Long-term effects of organic amendments on soil fertility. A review. Agronomy for Sustainable Development, Springer Verlag/EDPSciences/INRA30 (2): 401-422.
- Dugje TY and Odo PE. 2006. Variety and inter row spacing influence on direct estimation of leaf area index of pearl millet. Journal of Sustainable Tropical Agricultural Research 18 (1): 27-34.
- Durani A, Safiullah K and Durani H. 2017. Effect of longterm application of organic and inorganic fertilizers on maize-wheat cropping system at different forms of nitrogen and soil properties. International Journal of Applied Research 3 (9): 525-532.
- Evans JR. 2013. Improving photosynthesis. Plant Physiology 162 (4): 1780-1793 Faujdar RS and Sharma M. 2013. Effect of FYM, biofertilizers and zinc on dynamics of available nitrogen, phosphorus and potassium in soil under maize-wheat cropping system. Asian Jounral of Soil Science 8 (1): 121-26.
- Gomez GA and Gomez AA. 1984. Statistical Procedure for nd Agricultural Research (2 ed.). John Wiley and Sons, New York. pp. 680.
- Gungula DT, Togun AO and King JG. 2005. The influence of N rates on maize leaf number and senescence in Nigeria. World Journal of Agricultural Science 1 (1): 1-5.
- Jarecki MK and Lal R. 2003. Crop management for soil carbon sequestration. Critical Reviews in Plant Science 22 (3): 471–502.
- Joshi E, Nepalia V, Verma A and Singh D. 2013. Effect of integrated nutrient management on growth, productivity and economics of maize (Zea mays). Indian Journal of Agronomy 58 (3): 434-436.
- Khalofah A, Khan MI, Arif M, Hussain A, Ullah R, Irfan M, Mahpara S, Shah RU, Ansari MJ, Kintl A, Brtnicky M, Danish S, Datta R and Farooq S. 2021. Deep placement of nitrogen fertilizer improves yield, nitrogen use efficiency and economic returns of transplanted fine rice. PLoS One 16: e0247529.
- Kumar V, Singh AK and Ray LIP. 2021. Effect of planting pattern and organic nutrient sources on performance of maize in maize-cowpea intercropping system. Journal of Agricultural Search 8 (1): 1-5.
- Lotter DW, Seidel R and Liebhardt W. 2003. The performance of organic and conventional cropping systems in an extreme climate year. American Journal of Alternative Agriculture 18 (3): 146-154.
- Maqsood M, Babar MH and Tayyad M. 2005. Effect of nursery transplanting techniques and nitrogen levels on growth and yield of fine rice (basmati rice). Pakistan Journal of Agricultural Research 42 (3-4): 21-24.
- Murthy KVR, Reddy DS and Reddy GP. 2012. Response of rice (Oryza sativa L.) varieties to graded levels of nitrogen under aerobic culture. Indian Journal of Agronomy 57 (4): 367-372.
- Ponmozhi CI, Kumar R, Baba YAand Rao GM. 2019. Effect of integrated nutrient management on growth and yield of maize (Zea mays L.). International Journal Current Microbiology and Applied Science 8 (11): 2675-2681. Radford PJ. 1967. Growth analysis formulae: their use and abuse. Crop Science 7 (3): 71-175.
- Sharma V, Singh MJ and Khokhar AK. 2020. Productivity, nutrient uptake and soil properties as influenced by integrated nutrient management in maize-wheat cropping system under rainfed conditions of submontane. Punjab Agriculture Research Journal 57 (6): 839-847.
- Singh V, Rana NS, Dhyani BP, Kumar R, Vivek, Naresh RK and Kumar A. 2018. Influences of organic and inorganic fertilizers on productivity and soil fertility of wheat (Triticum aestivum L.) in Typic Utochrept soil of Uttar Pradesh. Journal of Pharmacognosy and Phytochemistry 7 (2): 260-265.
- Singh Y, Singh B, Ladha JK, Khind CS, Gupta RK, Meelu OPand Pasuquine E. 2004. Long term effects of organic input on yield and soil fertility in rice-wheat rotation. Soil Science Society of America Journal 68 (4): 845-853.
- Song Q, Zhang G and Zhu XG. 2013. Optimal crop canopy architecture to maximise canopy photosynthetic CO2 uptake under elevated CO : a theoretical study using a 2 mechanistic model of canopy photosynthesis. Functional Plant Biology 40 (1): 108-124.
- Verma NK, Pandey BK, Singh UP and Lodhi MD. 2012. Effect of sowing dates in relation to integrated nitrogen management on growth, yield and quality of rabi maize (Zea mays L.). Journal of Animal & Plant Sciences 22(2): 324-329.
- Yadav RL, Dwivedi BS and Pandey PS. 2000. Rice-wheat cropping system: assessment of sustainability under green manuring and chemical fertilizers inputs. Field Crop Research 65 (1): 15-30
- Effect of tillage practices, seed priming and nutrient management on growth and yield of maize under rainfed conditions
Authors
1 Department of Agronomy, College of Agriculture CSK Himachal Pradesh Krishi Vishvavidyalaya, Palampur-176 062,, IN
Source
Himachal Journal of Agricultural Research, Vol 48, No 2 (2022), Pagination: 196-204Abstract
Afield experiment was carried out for two years from 2020-2022 on maize to evaluate the effect of seed priming, tillage practices and nutrient management on growth parameters and yield of the crop in rainfed conditions. The experiment was laid in a factorial randomized block design, consisting of three factors. Factor A (Tillage practices) consisted of Conventional tillage (CT), Conventional tillage+ mulch (CT+M) and Zero tillage+ mulch (ZT+M); Factor B (Seed priming) consisted of Hydropriming and micronutrient priming; Factor C (Nutrient management practices) consisted of the recommended dose of fertilizers (RDF) and Integrated nutrient management. An additional treatment of control was also kept as an independent module for a general comparison of results. Significant differences in growth parameters and yield were observed as affected by tillage practices and nutrient management. All growth parameters and yield were found to be significantly better under conventional tillage+mulch (CT+M) as compared to other tillage practices. Moreover, integrated nutrient management proved to be comparatively superior to recommended dose of fertilizers in terms of growth studies as well as the yield of maize.Keywords
Seed priming, zero tillage, maize, integrated nutrient management, growth studies, mulch.References
- Bhatt R, Khera KL and Arora S. 2004. Effect of tillage and mulching on yield of corn in thesubmontaneous rainfed region of Ppunjab, Iindia. International Journal of Agriculture and Biology 6 (1): 126-128.
- Brar BS, Singh J, Singh G and Kaur G. 2015. Effects of long term application of inorganic and organic fertilizers on soil organic carbon and physical properties in maize–wheat rotation. Agronomy 5: 220-238.
- Gangmei TP, Kaur N, Thakur A, Bhagla S, Sahu KK, Kumar A and Manuja S. 2022. Studies on irrigation scheduling and nutrient management on wheat growth and productivity. Himachal Journal of Agricultural Research 48 (1): 48-55.
- Jaswal R, Sandal SK, Sahu KK and Sharma A. 2022. Effect of tillage on growth and productivity of rainfed maize grown with zero budget natural farming system in Himachal Pradesh. Himachal Journal of Agricultural Research 48 (1): 37-43.
- Khurshid K, Iqbal M, Arif MS and Nawaz A. 2006. Effect of tillage and mulch on soil physical properties and growth of maize. International Journal of Agriculture and Biology 8 (5): 593-598.
- Kumar S and Rana SS. 2021. Conservation agriculture and weed management effects on growth indices and yield attributes of maize-wheat cropping system. Himachal Journal of Agricultural Research 47 (2): 187-197.
- Kumar, V. 2015. State industrial profile of Himachal Pradesh, 17–26. Chambaghat, Solan: Micro, Small and Medium Enterprises. Electronics Complex.
- Ma CJ, Bian CY, Liu XH, Yan ZX, Gao C, Ren YJ, Liu QR, Li QQ and Han HF. 2017. Effects of straw mulching on dry matter distribution and grain yield of summer maize. The Journal of Animal & Plant Sciences 27 (2): 457-467.
- Mahesh LC, Kalayanamurthy KN, Ramesha YM, Yogeeshappa H, Shivakumar KM and Prakash H. 2010. Effect of integrated nutrient management on growth and yield of maize (Zea mays L.) International Journal of Agricultural Sciences 6(1): 275-277.
- Moriaque AT, Felix KA, Anastase AH, Pascal H, Moncef B, Naivo R and Lione M. 2019. Effect of tillage and mulching on agronomics performances of maize and soil chemical properties in Linsinlin Watershed of Centre of Benin. African Journal of Agricultural Research 14 (31): 1421-1431.
- Omar AEA. 2014. Effect of FYM and phosphorus fertilization on yield and its components of maize. Asian Journal of Crop Science 6: 15-26.
- Ponmozhi CNI, Kumar R, Baba YA and Rao GM. 2019. Effect of integrated nutrient management on growth and yield of maize (Zea mays L.). International Journal of Current Microbiology and Applied Sciences 8 (11): 2675-2681.
- Sahoo G, Wani AM, Roul PK and Dash AC. 2021. Effect of integrated nutrient management on dry matter accumulation and nutrient uptake by maize (Variety MS 2) under poplar agroforestry system. International Journal of Plant and Soil Science 33 (16): 254-260.
- Subedi KD and Ma BL. 2005. Seed priming does not improve corn yield in a humid temperate environment. Agronomy Journal 97: 211-218.
- Zamir MSI, Javeed HMR, Ahmed W, Ahmed AUH, Sarwar N, Shehzad M, Sarwar MA and Iqbal S. 2013. Effect of tillage and organic mulches on growth, yield and quality of autumn planted maize (Zea mays L.) and soil physical properties. Cercetãri Agronomice în Moldova 46 (2): 17- 26
- Effect of irrigation levels on growth and yield of different Brassica species under natural and conventional farming
Authors
1 Department of Agronomy, College of Agriculture CSK Himachal Pradesh Krishi Vishavidyalaya, Palampur-176 062,, IN
Source
Himachal Journal of Agricultural Research, Vol 48, No 2 (2022), Pagination: 280-284Abstract
A field trial was conducted during rabi season of 2020-2021 at Water Management Farm, CSKHPKV, Palampur to find out the effect of irrigation levels and management practices on growth and yield of different Brassica species. The experiment was laid out in split plot design with two irrigation regimes viz. irrigation at 30 days after sowing (DAS) and at flowering (two irrigations) and irrigation at pre-sowing, 30 DAS and at flowering (three irrigations) in main plots, and combinations of three brassica species viz. Brassica oleracea ‘KBS 3’, Brassica juncea ‘RCC 4’and Brassica napus ‘GSC 7’and two management practices viz. conventional and natural farming in sub plots. The results revealed that application of three irrigations significantly increased the plant height, dry matter accumulation, seed and stover yield of Brassica species as compared to two irrigations. Brassica oleracea ‘KBS 3’ outperformed all other Brassica species where as conventional management proved superior over natural farming on mean basis. However, application of two irrigations in Brassica oleracea ‘KBS 3’ under conventional management, being at statistically at par with three irrigations was found best in terms of seed yield besides saving precious irrigation water.Keywords
Brassica species, Conventional farming, Irrigation, Natural farming, Yield.References
- Adhikari RC. 2009. Effect of NPK on vegetative growth and yield of Desiree and Kufri Sinduri potato. Nepal Agriculture Research Journal 9: l67-75.
- AICRP: Progress Report. 2019- 2020. AICRPon Rapeseed Mustard, ICAR: Directorate of Rapeseed- Mustard Research.
- Chen Z, Gao H, Hou F, Khan Aand Luo H. 2019. Pre-sowing irrigation with surface fertilization improves morphophysiological traits and sustaining water-nitrogen productivity of cotton. Agronomy 9 (11):772.
- Gomez KA and Gomez AA. 1984. Statistical Procedure for Agricultural Research. John Wiley and Sons, New York.
- Hocking PJ, Kirkegard JK, Angus AHG and Koetz EA.1997. Comparison of canola, Indian mustard and linola in two contrasting environments. III. Effects of nitrogenfertilizer on nitrogen uptake by plants and on soil nitrogen extraction. Field Crops Research 79:153- 172.
- Piri I, Moussavi NM,Tavassoli AR and Babaeian M. 2011.Effect of irrigation frequency and application levels of sulphur fertilizer on water use efficiency and yield of Indian mustard (Brassica juncea). African Journal of Biotechnology 10: 11459-11467.
- Prasad R and Kumari V. 2015. Impact of rainfall on area and production of rabi oilseed crops in Himachal Pradesh. Himachal Journal of Agricultural Research 41(1): 6-12.
- Sahu B, Savu RM and Sah D. 2011.Growth parameters, dry matter accumulation and yield of Indian mustard (Brassica juncea) as affected by phosphorus and sulphur levels.Environment and Ecology 29 (1): 53-56.
- Shine and Guruprasad 2012. Impact of pre-sowing magnetic field exposure of seeds to stationary magnetic field on growth, reactive oxygen species and photosynthesis of maize under field conditions. Acta physiologiae Plantarum4 (1):255-265.
- Thakur KS, Mankotia BS, Manchanda A and Kumar D. 2012. Performance of mustard (Brassica juncea L.) hybrids at varying crop geometries in low hills of Himachal Pradesh. Himachal Journal of Agricultural Research 38 (1): 77-79.
- Thanki JD, Patel AM and Patel MP. 2004. Effect of nitrogen, phosphorus and farm yard manure on growth, yield, quality and nutrient uptake of Indian mustard, Brassica juncea (L.) Czern and Coss. Journal of Oilseeds Research 21(2): 296-298.
- Verma H, Singh MM, Singh MK and Kumar S. 2014. Response of Indian mustard (Brassica juncea L.) varieties to irrigation for better growth, yield and quality parameters of mustard crop. International Journal of Agricultural Sciences 10(1): 426-429.
- Wasson AP, Richards RA, Chatrath R, Misra SC, Prasad SV, Rebetzke GJ, Kirkegaard JA, Christopher J and Watt M. 2012. Traits and selection strategies to improve root systems and water uptake in water-limited wheat crops. Journal of Experimental Botany 63: 3485–3498.
- Yang ZP. 2012. Study on Root-Soil System of Loess Motherland Land Crops. Beijing: China Agricultural Science and Technology Press.
- Zhang XY, Chen SY, Sun HY, Wang YM and Shao LW. 2009. Root size, distribution and soil water depletion as affected by cultivars and environmental factors. Field Crops Research 114:75–83.
- Effect of five decades of application of inorganic fertilizers, farm yard manure and lime on maize and wheat productivity in an acid Alfisol
Authors
1 Department of Soil Science, College of Agriculture, CSK Himachal Pradesh Krishi Vishvavidyalaya, Palampur-176 062,, IN
Source
Himachal Journal of Agricultural Research, Vol 48, No 2 (2022), Pagination: 285-290Abstract
The effect of continuous application of fertilizers and amendments on maize and wheat yield in an acid Alfisol>/i> during 2019-20 was evaluated in a field experiment at the research farm of the Department of Soil Science, CSKHPKV Palampur (HP). The field experiment was conducted on a pre-established long-term fertilizer experiment (1972-73) which comprised of ten treatments up to 1980-81. The eleventh treatment, consisting of 100 per cent NPK (-S) was introduced in kharif, 1981. Thereafter, another treatment, consisting of Beejamrita, Jeevamrita and Ghanajeevamrita (Natural Farming) was introduced in kharif, 2019. The soil of the experimental area was silty clay loam and classified taxonomically as “Typic Hapludalf”. Continuous application of fertilizers and amendments for forty-seven years significantly influenced the yield of maize and wheat. The highest productivity of maize as well as wheat was recorded in the treatment comprising 100 per cent NPK + FYM and was statistically comparable with 100 per cent NPK + lime. Continuous application of N alone over the decades resulted in no yield. However, potassium and sulphur omission from the fertilization schedule for more than four decades resulted in drastic reduction in the yield. The grain and stover/straw yield recorded in natural farming plots was significantly lower as compared to other treatments except controlKeywords
maize, wheat, yield, fertilizers, manures, AlfisolReferences
- Anjali. 2022. Long term effect of fertilizers and amendments on nutrient dynamics and assessment of soil organic carbon in maize-wheat sequence. Ph D Thesis. Department of Soil Science, CSKHPKV, Palampur, India. p 89
- Anonymous. 2021b. Economic Survey, Economic and Statistics Department, Government of Himachal Pradesh P: 74-80.
- Babita. 2010. Nitrogen dynamics in soil-plant system as influenced by long-term use of chemical fertilizers and amendments in an acid Alfisol. M Sc Thesis.Department of Soil Science, CSKHPKV, Palampur, India. p 120
- Bharti A, Sharma RP, Sankhyan NK and Kumar R. 2021.Poductivity and NPK uptake by maize as influenced by conjunctive use of FYM, lime and fertilizers in an acid Alfisol. Journal of Soil and Water Conservation 20 (1): 100-106.
- Chauhan N, Sankhyan NK, Sharma RP and Singh J. 2018. Effect of long-term application of fertilizers and amendments on wheat productivity and DTPA extractable micronutrients in an acid Alfisol. Himachal Journal of Agricultural Research 44 (1&2): 36-42.
- Chauhan N, Sankhyan NK, Sharma RP, Singh J and Gourav. 2020. Effect of long-term application of inorganic fertilizers, farm yard manure and lime on wheat (Triticum aestivum L.) productivity, quality and nutrient content in an acid Alfisol. Journal of Plant Nutrition, 43 (17): 2569-2578.
- Choudhary M, Pandey SC, Meena VS, Singh S, Yadav RP, Mahanta D, Mondal T, Mishra MK, Bisht JK and Pattanayak A. 2018. Long-term effects of organic manure and inorganic fertilization on sustainability and chemical soil quality indicators of soybean wheat cropping system in the Indian mid-Himalayas. Agriculture, Ecosystems and Environment 257: 38-46.
- Das T, Ram S and Sirari P. 2012. Effect of long-term application of inorganic fertilizers and manure on yields, nutrients uptake and grain quality of wheat under ricewheat cropping system on a Mollisol. Pantnagar Journal of Research 10:174–80.
- Kaushal V. 2006.Dynamics of organic pools of the nutrients as influenced by long-term use of chemical fertilizers and amendments in an acid Alfisol. Ph D Thesis. Department of Soil Science, CSKHPKV, Palampur, India. p 172.
- Kundu DK, Mazumdar SP, Ghosh D, Saha AR, Majumdar B, Ghorai AK and Behera MS. 2016. Long-term effects of fertilizer and manure application on soil quality and sustainability of jute-rice-wheat production system in IndoGangetic plain. Journal of Applied and Natural Science 8: 1793-1800.
- Kumari G, Thakur SK, Kumar N, and Mishra B. 2013.Long-term effect of fertilizer, manure, and lime on yield sustainability and soil organic carbon status under maize (Zea mays)–wheat (Triticum aestivum) cropping system in Alfisols. Indian Journal of Agronomy 58 (2):152–58.
- Kumar et al. 2020.Effect of organic, inorganic manure and lime application on soil physiochemical properties and yield of maize in acidic soil of mid hill of Arunachal Pradesh. International Journal of chemical studies 8 (2): 2187-2190.
- Majhi P, Rout KK, Nanda G and Singh M. 2019.Soil quality for rice productivity and yield sustainability under longterm fertilizer and manure application. Communications in Soil Science and Plant Analysis 50 (11):1330–43.
- Majhi P, Rout KK, Nanda G & Singh M. 2021. Long term effects of fertilizer and manure application on productivity, sustainability and soil properties in a ricerice system on Inceptisols of Eastern India, Communications in Soil Science and Plant Analysis 52 (14):1631-1644.
- Mishra B, Sharma A, Singh SK, Prasad J, and Singh BP. 2008. Influence of continuous application of amendments to maize-wheat cropping system on dynamics of soil microbial biomass in Alfisols of Jharkhand. Journal of the Indian Society of Soil Science 56 (1):71–75.
- Nanda G, Meena RK, Sravan US, and Singh SP. 2016a. Effect of NPK levels and bio-organics on yield and nutrient removal by Basmati rice cv. HUBR 10-9. The Bioscan 11 (1):555–58.
- Nanda G, Sravan US, Singh A, and Singh SP. 2016b. Effect of NPK levels and bio-organics on growth, yield and economics of Basmati Rice (Oryza sativa L.) cv. HUBR 10-9. Environment and Ecology 34 (3C):1530–34.
- Patial D, Sankhyan NK, Sharma RP, Dev P& Anjali. 2022. Assessing Soil Physical and Chemical Properties Under Long Term Fertilization After Forty-Eight Years in North-Western Himalayas, Communications in Soil Science and Plant Analysis, 53(17): 2257-2270.
- Shambhavi S, Kumar R, Sharma SP, Verma G, Sharma RP and Sharma SK. 2017.Long-term effect of inorganic fertilizers and amendments on productivity and root dynamics under maize wheat intensive cropping in an acid Alfisol. Journal of Applied and Natural Science 9: 2004-2012.
- Singh DK, Pandey PC, Nanda G, and Gupta S. 2019. Longterm effects of inorganic fertilizer and farmyard manure application on productivity, sustainability and profitability of rice-wheat system in Mollisols. Archives of Agronomy and Soil Science 65 (2):139–51.
- Singh M, Wanjari RH, Kumar U and Chaudhari SK. 2019b. AICRP on Long-Term Fertilizer Experiments: Salient Achievements and Future Directions. Indian Journal of Fertilisers 15 (4): 356-372.
- Efficacy of herbicidal weed management practices on weed dynamics in direct seeded upland rice of Himachal Pradesh
Authors
1 Department of Agronomy, College of Agriculture CSK Himachal Pradesh Krishi Vishvavidyalaya, Palampur-176 062,, IN
Source
Himachal Journal of Agricultural Research, Vol 48, No 2 (2022), Pagination: 291-295Abstract
A field experiment was conducted during kharif 2021 at the Research Farm of Department of Agronomy, College of Agriculture, CSK Himachal Pradesh Krishi Vishvavidyalaya, Palampur, to study the effectiveness of a new post-emergence broad-spectrum herbicide GOD H008 (Bispyribac sodium 5% SC+ Pyrithiobac sodium 12.5% SG) to control mixed weed flora in direct-seeded upland rice (Oryza sativa L). The experiment was laid out in Randomized Block Design with three replications and seven weed control treatments. The treatments consisted of three doses of GOD H008 (Bispyribac sodium 5% SC+ Pyrithiobac sodium 12.5% SG) viz. 375ml/ha, 500ml/ha and 625ml/ha, bispyribac sodium 250ml/ha, pyrithiobac sodium 625ml/ha, hand weeding (weed free) and untreated check respectively. The predominant weed flora present in the experimental field was Ageratum conyzoides, Cyperus rotundus, Commelina benghalensis, Echinochloa colona, Digitaria sanguinalis and Synedrella nodiflora. Application of new herbicide combination product GOD H008 (Bispyribac sodium 5% SC+ Pyrithiobac sodium 12.5% SG) 500ml/ha being statistically at par with GOD H008 (Bispyribac sodium 5% SC+ Pyrithiobac sodium 12.5% SG) 625ml/ha and bispyribac sodium 250ml/ha resulted in significantly lower total weed count, total weed dry weight and highest weed control efficiency as compared to other weed control treatments. Significantly highest grain and straw yield were recorded with the application of GOD H008 (Bispyribac sodium 5% SC+ Pyrithiobac sodium 12.5% SG) 500ml/ha at harvest and this treatment was closely followed by GOD H008 (Bispyribac sodium 5% SC+ Pyrithiobac sodium 12.5% SG), 625 ml/ha.Keywords
GOD H008 (Bispyribac sodium 5% SC+ Pyrithiobac sodium 12.5% SG), weed control, direct seeded rice.References
- Chauhan BS. 2012. Weed ecology and weed management strategies for dry-seeded rice in Asia. Weed Technology 26:1-13.
- Gaire R, Dahal KR and Amgain LP. 2013. Effect of different mulching materials on weed dynamics and yield of direct-seeded rice in Chitwan, Nepal. Agronomy Journal of Nepal 3:73-81.
- Hussain S, Ramzan M, Akhter M and Aslam M. 2008. Weed management in direct-seeded rice. Journal of Animal and Plant Sciences 18 (2&3):86-88.
- Khaliq A, Matloob A, Ahmad N Rasuland F and Awan IU. 2012. Post-emergence control in direct seeded fine rice. The Journal of Animal & Plant Sciences 22 (4):1101- 1106.
- Kumar J, Singh D, Singh B, Singh R, Panwar S and Gupta AK. 2013. Sowing time and weed management practices to enhance yield of direct-seeded rice. Indian Journal of Weed Science 44 (4):207-209.
- Kumar S, Rana SS and Angiras NN. 2011. Influence of seeding and weed control methods on the productivity of puddle seeded rice. Himachal Journal of Agricultural Research 37 (2):149-156.
- Mishra A and Tosh GC. 1979. Chemical weed control studies on dwarf wheat. Journal of Research (Orissa University of Agricultural Science and Technology) 10:1-6.
- VeeraputhiranR and Balasubramanian R.2013. Evaluation of bispyribac-sodium in transplanted rice. Indian Journal of Weed Science 45 (1):12-15
- Bio-efficacy of flumioxazin against mixed weed flora in grassland of Himachal Pradesh
Authors
1 Department of Agronomy, College of Agriculture CSK Himachal Pradesh KrishiVishvavidyalaya, Palampur-176062,, IN
Source
Himachal Journal of Agricultural Research, Vol 48, No 2 (2022), Pagination: 296-299Abstract
A field experiment was conducted during kharif 2021 at the Research Farm of Department of Agronomy, College of Agriculture CSK Himachal Pradesh Krishi Vishvavidyalaya, Palampur, to study the bio-efficacy of flumioxazin against mixed weed flora in grassland. The experiment was laid out in Randomized Block Design with three replications. The experiment consisted of nine weed control treatments viz., flumioxazin 150 g/ha, 200 g/ha, 250 g/ha, 300 g/ha, 500 g/ha, oxyfluorfen 1000 g/ha, weed free, glyphosate 4000 g/ha and untreated control. The major weeds in the experiment area were Ageratum conyzoides, Erigeron canadensis, Bidens pilosa, Cynodon dactylon, Cyperus sp., Digitaria sanguinalis and Plantago lanceolata. The results revealed that post-emergence application of flumioxazin 500 g/ha, which was statistically at par with flumioxazin 300 g/ha, flumioxazin 250 g/ha, flumioxazin 200 g/ha and glyphosate 4000 g/ha were quite effective in controlling weeds with higher weed control efficiency. Application of flumioxazin 300 g/ha resulted in significantly higher fresh and dry herbage yield of grasses which was at parwith flumioxazin 500 g/ha, 250 g/ha and 200 g/ha.Keywords
Flumioxazin, weed control, grassland.References
- Angiras NN. 2014. Management of perennial weeds under non-cropped hill ecosystems. Indian Journal of Weed Science 46 (1):52-60.
- Corbett J, Askew S, Thomas Wand Wilcut J. 2004. Weed efficacy evaluations for bromoxynil, glufosinate, glyphosate, pyrithiobac, and sulfosate. Weed Technology 18 (2):443-453.
- Kumar S, Sharma N, Manuja S and Bhalla T. 2021. Bioefficacy and phytotoxicity of glyphosate 41% SL on weed flora and its effect on soil microbial activities in non-cropped area. Journal of Natural Resource Conservation and Management 2 (1):81-83.
- Mishra A and Tosh GC. 1979. Chemical weed control studies on dwarf wheat. Journal of Research (Orissa University of Agricultural Sciences and Technology) 10:1-6.
- Pooja, Kumar S, Sharma N, Rana SS and Manuja S. 2021. Bio-Efficacy of GOD H007 formulation, in semitemperate undulating pasture lands of Himachal Pradesh. Himachal Journal of Agricultural Research 46 (2):205- 209.
- Rana SS, Badiyala D, Sharma N and Kumar R. 2015. Major weeds in the non cropped lands of Himachal Pradesh. Department of Agronomy, CSK Himachal Pradesh Krishi Vishvavidyalaya, Palampur.
- Rana SS, Kumar S, Sharma N and Angiras NN. 2017. Herbicide management of Parthenium hysterophorus L. in grassland ecosystem of Himachal Pradesh. Contemporary Research in India ISSNN 2231-2137.
- Sridhara S, Nandini R, Gopakkali P and Somavanshi AV. 2019. Weed control efficiency and weed index in soybean as influenced by flumioxazin and its effect on succeeding green gram. International Journal of Chemical Studies 7 (6):872-875