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Chandrakar, Kunal
- Status of Available Micronutrients on the Basis of Correlation between Physico-chemical Properties of Ph, Oc and Available Fe, Mn, Zn and Cu in Black Soil of Navagarh Block under Janjgir District in Chhattisgarh
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Authors
Affiliations
1 Department of Soil Science and Agricultural Chemistry, Indira Gandhi Krishi Vishwavidyalaya, Raipur (C.G.), IN
2 Department of Soil Science and Agricultural Chemistry, Indira Gandhi Krishi Vishwavidyalaya, Raipur (C.G.)
1 Department of Soil Science and Agricultural Chemistry, Indira Gandhi Krishi Vishwavidyalaya, Raipur (C.G.), IN
2 Department of Soil Science and Agricultural Chemistry, Indira Gandhi Krishi Vishwavidyalaya, Raipur (C.G.)
Source
An Asian Journal of Soil Science, Vol 8, No 2 (2013), Pagination: 401-403Abstract
No AbstractKeywords
Correlation, Ph, Oc, Fe, Mn, Zn, CuReferences
- Black, C.A. (1965). Method of soil analysis. American Agronamy Inc., Madison, Wisconsin, USA. pp.131-137.
- Dahnke, W.C. and Olsen, R.A. (1990). Soil test correlation, calibration and recomandation. In : Soil testing and plant analysis, 3rd ed. Soil Science Society of America pp. 45-75.
- Kumar, R., Sarkar, A.S., Singh, K.P., Agarwal, B.K. and Karmakar, S. (2009). Appraisal of available nutrients status in Santhal Paraganas region of Jharkhand. J. Indian Soc. Soil Sci., 57(3): 366-369.
- Lindsay, W.L. and Norvell, W.A. (1978). Development of DTPA soil test for zinc, iron, manganese and copper. Soil Sci. Soc of Amer. J., 42 : 421-428.
- Meena, H.B., Sharma, R.P. and Rawat, U.S. (2006). Status of macro and micronutrients in some soils of Tonk District of Rajasthan. J. Indian Soc. Soil Sci., 54(4): 508 -512.
- Mongia, A.D. and Bandyopadhyay, A.K. (1994). Soil nutrients under natural and planted forest in Island ecosystem. J. Indian Soc. Soil Sci., 42(1): 43-46.
- Muhr, G.R., Datta, N.P., Sankarasubramoney, H., Leley, V.K. and Donahue, R.L. (1965). Soil testing in India. 2nd Ed. USAID Mission to India, New Delhi.
- Piper, C.S. (1967). Soil and plant analysis. Asian publishing House, Bombay, New Delhi. pp. 85-102.
- Rajeswar, M., Rao, C.S., Balaguravaiah, D. and Khan, M.A.A. (2009). Distribution of available macro and micronutrients in soils Garikapadu of Krishna District of Andhra Pradesh. J. Indian Soc. Soil Sci., 57(2) : 210-213.
- Talukdar, M.C., Basumatary, A. and Datta, S.K. (2009). Status of DTPA extractable cationic Micronutrients in soils under rice and sugarcane ecosystems of Golaghat district in Assam. J. Indian Soc. Soil Sci., 57(3): 313-316.
- Tisdal, S.L., Nelson, W.L., Beaton, J.D. (1993). Soil fertility and fertilizers, 5th ed Macmillan publishing Co. Inc. NewYark and Colloir Macmillan publishers London.
- Walkley, A. and Black, C.A. (1934). Estimation of organic carbon by the chromic acid titration method. Soil Sci., 47 : 29-38.
- Yadav, R.L. and Meena, M.C. (2009). Available micronutrients status and their relationship with soil properties of Degana soil series of Rajasthan. J. Indian Soc. Soil Sci., 57(1) : 90-92.
- Estimation of Available Micronutrients on the Basis of Correlation between Physico-chemical Properties of Ph, Ec, Oc and Available Fe, Mn, Cu and Zn in inceptisol of Akaltara Block of Janjgir District of Chhattisgarh
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Authors
Affiliations
1 Krishi Vigyan Kendra, Mahasamund, Indira Gandhi Krishi Vishwavidyalaya, Raipur (C.G.), IN
2 Deparment of Soil Science and Agricultural Chemistry, Indira Gandhi Krishi Vishwavidyalaya, Raipur (C.G.), IN
1 Krishi Vigyan Kendra, Mahasamund, Indira Gandhi Krishi Vishwavidyalaya, Raipur (C.G.), IN
2 Deparment of Soil Science and Agricultural Chemistry, Indira Gandhi Krishi Vishwavidyalaya, Raipur (C.G.), IN
Source
An Asian Journal of Soil Science, Vol 8, No 2 (2013), Pagination: 416-418Abstract
No AbstractKeywords
inceptisol, Micronutrients, Physico-chemical PropertiesReferences
- Black, C.A. (1965). Method of soil analysis American agronamy Inc., Madison, Wisconsin, USA. pp.131-137.
- Jackson, M.L. (1967). Soil chemical analysis. Prentice hall of India Pvt. Ltd. New Delhi pp: 205.
- Kumar, R., Sarkar, A.S., Singh, K.P., Agarwal, B.K. and Karmakar, S. (2009). Appraisal of available nutrients status in Santhal Paraganas region of Jharkhand. J. Indian Soc. Soil Sci., 57(3) : 366-369.
- Lindsay, W.L. and Norvell, W.A. (1978). Development of DTPA soil test for Zn, Fe, Mn and Cu. Soil Sci. Soc. America J. 42: 421– 428.
- Meena, H.B., Sharma, R.P. and Rawat, U.S. (2006). Status of macro and micronutrients in some soils of Tonk district of Rajasthan. J. Indian Soc. Soil Sci., 54(4) : 508-512.
- Minakshi, N.S., Tur, V.K., Nayyar, P.K. Sharma and Sood, A.K. (2005). Spatial distribution of micronutrient insoils of Patiala district – A GIS Approach. J. Indian Soc. Soil Sci., 53(3) : 324-329.
- Sharma, V.K., Dwivedi, S.K., Tripathi, D. and Ahmed, Z. (2006). Status of available major and micronutrients in the soils of different blocks of Leh district of Cold Arid region of Ladakh in relation to soil characteristics. J. Indian Soc. Soil Sci., 54(2) : 248-250.
- Thakur, N.R. and Bhandari, A.R. (1986). Available nutrient status of soils of a temperate vegetable seed producing valley of Himachal Pradesh. J. Indian Soc. Soil Sci., 34 : 428-430.
- Yadav, R.L. and Meena, M.C. (2009). Available micronutrients status and their relationship with soil properties of Degana soil series of Rajasthan. J. Indian Soc. Soil Sci., 57(1) : 90-92.
- Impact of Front Line Demonstration on Turmeric in Mahasamund District of Chhattisgarh
Abstract Views :192 |
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Authors
Affiliations
1 Krishi Vigyan Kendra, Bhalesar, Mahasamund (C.G.), IN
2 Indira Gandhi Krishi Vishwavidyalaya, Raipur (C.G.), IN
1 Krishi Vigyan Kendra, Bhalesar, Mahasamund (C.G.), IN
2 Indira Gandhi Krishi Vishwavidyalaya, Raipur (C.G.), IN
Source
Agriculture Update, Vol 12, No 4 (2017), Pagination: 732-734Abstract
A front line demonstration was conducted at five farmers field in Mahasamund district of Chhattisgarh during Kharif 2016-17 to demonstrate the improved package of practice of Turmeric (Curcuma longa). There were two treatments in which one was local check and was cultivation of turmeric with full package of practice.The result revealed that local check gives a yield of 182 q/ha. while turmeric cultivation with full package of practices gives a yield of 241 q/ha. which shows that by adopting package of practices there were 32% increase in yield. The rhizome weight per plant recorded to be 184 g in local check against a 224 g in demonstration field. Similarly net return was also calculated which shows that local check gives a net income of Rs. 179400/ha with a B:C ratio of 2.38 against a net income of Rs. 259700 with B:C ratio of 2.73 in demonstration field. The extension gap recorded was 59 per cent during the period of study.Keywords
Extension Gap, FLD, Turmeric, Technology Gap, Technology Index.References
- Anonymous (2014). Indian Horticulture Database 2014,National Horticulture Board, New Delhi, Publication 06
- Anonymous (2015). District wise area and production of Horticultural Crops. Department of Horticultural crops. Department of Horticulture and Farm Forestry, Govt. of Chhattisgarh, Raipur.
- Rajput, Savita, Rajput, Angad Singh, Verma, S.K. and Jain, V. (2016). Impact of front line demonstration on okra. J. Krishi Vigyan, 5(1) : 74-76.
- Samui, S.K., Mitra, S., Roy, D.K., Mandal, A.K. and Saha, D. (2000).Evaluation of front line demonstration on groundnut. J. Indian Society Costal Agric. Res., 18(2):180-183.
- Deeper Insights into role of Green Technology for Pollution Free Environment: An updated Review
Abstract Views :61 |
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Authors
Affiliations
1 Dau Shri Vasudev Chandrakar Kamdhenu Vishwavidyalaya, Anjora, Durg - 491001, (C.G), IN
2 University College of Pharmacy, Pt. Deendayal Upadhyay Memorial Health Sciences and Ayush University of Chhattisgarh, Raipur-492002, Chhattisgarh, IN
3 School of Pharmacy, Chouksey Engineering College, Masturi Road, Bilaspur, Chhattisgarh-495004, IN
1 Dau Shri Vasudev Chandrakar Kamdhenu Vishwavidyalaya, Anjora, Durg - 491001, (C.G), IN
2 University College of Pharmacy, Pt. Deendayal Upadhyay Memorial Health Sciences and Ayush University of Chhattisgarh, Raipur-492002, Chhattisgarh, IN
3 School of Pharmacy, Chouksey Engineering College, Masturi Road, Bilaspur, Chhattisgarh-495004, IN
Source
Research Journal of Science and Technology, Vol 14, No 2 (2022), Pagination: 98-104Abstract
India is the second largest country in the world based on the population that faces many challenges for various environmental issues such as water and air pollution etc. As per the survey by World Bank experts this issues become more exacerbated between 1947 and 1995. Within last decade India has devoted towards putting much efforts to resolve these environmental issues and improving environmental qualities. The major possible issues those contributes to various environmental issues include population growth, deforestation, establishment of industries for growth of economy, burning of fuel, degradation of agricultural lands, drainage of consumer waste into water resources such as rivers, depletion of natural resources such as water, mineral, rocks etc. Another major factor that contributes largely for environmental pollution includes solid waste pollution. As per the data available elsewhere there are more than hundred million tons of solid wastes generated by various cities in India in every year. Now-a-days it has been observed that the tourist places of India are also facing such issues. Green technology is an environment friendly technology which has developed and used to protect the environment and conserves natural resources. This technology is intended to mitigate or reverse the effects of human activity on the environment. Green technology generally uses innovative ideas and methods to create environment friendly products. Green nano-technology that uses green engineering and green chemistry is one of the emerging fields in science and technology. In the matter of environmental pollution and the disposal of waste, Green technology answers to that as well. Among all the possible areas where the creations and growth are possible that include; eco- friendly textiles, biodegradable papers and containers, green energy, green building, organic agriculture, and manufacturing of similar products and materials to support green business. Green technology covers a broad area of production and consumption technologies. The 7R’s of green technology also includes replace, reduce, reliable, repair, reuse, recycle and resources. The green technologies involve the use of environmental technologies for assessment of pollution prevention and control, remediation and restoration. A prevention technology helps to avoid the production of environmentally hazardous substances to minimize damage to the environment.Keywords
Green technology, Green nano-technology, environment, global warming, pollution.References
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- Jain P, Satapathy T, Pandey R. Rhipicephalus microplus: A parasite threatening cattle health and consequences of herbal acaricides for up-liftment of livelihood of cattle rearing communities in Chhattisgarh, Biocatalysis and Agricultural Biotechnology.2020,26; doi: 10.1016/j.bcab.2020.101611
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