Community Empowerment - Dr. SBM Prasanna, Dr. K Puttaraju, Dr.MS Mahadevaswamy (best inspirational books txt) 📗
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Comparison of profitability of tobacco and other crops
CTRI at Rajamundry (Andhra Pradesh), A Government of India Institution, has conducted applied research on scientific cultivation of tobacco in India. CTRI has carried out studies using various combinations of monocropping and intercropping patterns on different soil types. The studies have been carried out at the four regional centers of CTRI (Rajamundry, Anand, Shimoga and Pusa) with support from seven subcentres (Berhampur, Gurusahayaganj, Guntur, Dinhata, Nipani, Nandyal and Hunsur). The sample studies indicate that there are alternative crops to tobacco and that they are economically viable. Farmers in black soils of Andhra Pradesh, traditional soils of Gujarat and bidi areas of Karnataka have successfully replaced tobacco with alternative crops. The economic feasibility of these crops is also revealed in some CTRI studies presented on the basis of cost-benefit ratios (net returns).
Economics of production – tobacco and other alternate crops
Zone and type of tobacco
net income from tobacco (Rs./ha)
Net income from alternative crops (Rs./ha)
Northern light soils (NLS) (FCV)
27 668
Groundnut maize soybean
4 260
13 878
2 600
Northern black soils (NBS)
18 732
Rabi redgram
Bengalgram
9 850
9 195
Central black soils (CBS) (FCV)
19 799
Benglagram
Rabi Redgram
maize
10 200
10 010
8 010
Southern black soil (SBS) (FCV)
20 010
Blackgram
Sunflower
mustard
bengalgram
redgram
7 520
4 030
5 100
8 040
7 570
Southern light soils (SLS) (FCV)
15 030
Blackgram
sunflower
mustard
bengalgram
redgram
6 990
3 560
7 350
6 350
6 800
Karnataka light soils (KLS) (FCV)
18 010
Cotton
maze
9 100
5 350
Tamil Nadu (chewing)
35 108
Chilli
29 714
Bihar (chewing)
52 000
Potato
Garlic
35 200
12 400
West Bengal (chewing)
19 000
Amon paddy
Aus paddy
Mustard
Wheat
Jute
Maize
8 300
4 400
7 600
6 700
6 800
4 900
Gujarat (bidi)
51 423
Mustard
Groundnut
(summer) chillies
17 980
30 920
38 311
Uttar Pradesh (chewing and hookah)
22 000
Potato
Wheat
Bhendi
Sunflower
30 500
70 400
10 600
9 800
Source: Central Tobacco Research Institute (ICAR). Ministry of Agriculture, Government of India Rajahmundry (A.P.) – 533105
Similar studies on bidi tobacco in Karnataka indicate that sugar cane, in irrigated areas, and soybean and jowar, in unirrigated areas, can be alternatives for tobacco. For farmers growing tobacco on a large scale, the net return per rupee of investment in the cultivation of jowar was in fact higher than the return from tobacco. This indicated that farmers, especially those cultivating non-flue-cured Virginia tobacco, need not depend only on tobacco for economic returns and that there were equally remunerative alternative crops.
ICAR has suggested a judicious mix of alternative crops, as viable alternatives to tobacco crops, depending on variables that include the climatic conditions, soil type and availability of assured water supply. The broad suggestions are as follow:
For irrigated areas: sugar-cane, groundnut, oil palm, cotton, chilli, maize, onion, cucumber, blackgram, greengram, mustard, ragi, caster-groundnut, cotton-groundnut, pigeon pea-groundnut, paddy-mustard, potato, ginger-wheat, tomato lady’s finger, cabbage, caulifilower, garlic, tomato, brinjal (aubergine), pulses and turmeric.
For unirrigated areas: mustard, sorghum, greengram, coriander, Bengalgram, soybeat, redgram, safflower, groundnut, maize, bajra and caster.
Another area of study explored was the possible alternate use of the tobacco crop itself. Studies carried out by CTRI indicate the potential use of tobacco plants as a source of, among other things, protein, edible oil, nicotine sulphate, low-calorie sweetener and solanesol. And tobacco derivatives are being used in the pharmaceutical, oil, paint, soap and chemical industries. There are a number of industrial units engaged in extracting nicotine derivatives and nicotine products such as nicotine sulphate (used as an insecticide), nicotine hydrogen tartarate, nicotine bi-tartarate, nicotine salicylate and nicotine hydrochloride (used in tobacco-cessation products). The issue requires consideration, as there would be regions/soils, which may not be able to take up alternate crops and in which farmers may continue to grow tobacco. Should the global demand for tobacco products for consumption, as, for example, cigarettes or chewing tobacco, be reduced substantially (most unlikely in the short to medium term), the alternate use of tobacco crops, be reduced substantially (most unlikely in the short to medium term), the alternate use of tobacco crops could be explored. There is therefore a need for further empirical study on the techno-commercial and health viability of alternate uses of tobacco crops.
Tobacco farmers of AP and Karnataka say alternate cropping is not easy
Tobacco farmers in Andhra Pradesh and Karnataka, the tobacco producing states which account for about more than 80 per cent of the total tobacco production in india, say shifting to alternate cropping was not easy due to the soil conditions, which is more favorable to tobacco cultivation because it requires less water compared to other crops.
Moreover, returns from tobacco farming were high compared to that of other crops. “there is demand and a market for tobacco. About 80 per cent of the production is exported. We are open to moving to other crops if they are on a par with tobacco in terms of returns,” said A Gopalakrishna, a tobacco farmer from West Godavari district in AP. India is one of the signatories of the Framework Convention on Tobacco Control (FCTC), a global public health treaty which came into force in February 2005, which provides specific steps for governments – including tax and price measures – to reduce tobacco consumption, ban advertising, put prominent health warnings on tobacco packages and combating illicit trade in tobacco products.
However, major tobacco growing countries like USA. Argentina and Switzerland have not ratified the FCTC. Others like Malawi, Indonesia and Zimbabwe have not signed the treaty. There is a view that countries like India which had ratified the FCTC would lose its market to non-signatories. “If we do not cater to the tobacco demand, other countries will take the opportunity. This would deal a blow to the large scale employment of labour even as there would be a loss of revenues to the government in the form of excise and duties,” said Shivanag, farmer from Karnataka.
In India, which is the second largest producer and exporter of tobacco in the world, tobacco is grown on 0.45 H ha, accounting for only 0.31 per cent for the net cultivated area in India. India accounts for about six per cent by volume and 0.7 per cent by value of the global tobacco trade. There are around 90,000 registered tobacco growers in Andhra Pradesh and Karnataka. The total production is between 101 million kg to 105 million kg. Exports last year crossed $1 billion mark.
A field experiment conducted for three years during kharif season at the Zonal Agricultural Research Station Karnataka concluded that none of the alternative sole crops were comparable to FCV tobacco in terms of net returns. However, the study was optimistic that the cropping systems – hybrid cotton + chilli + groundnut and hybrid cotton + chilli + frenchbean – can be economically viable alternatives to FCV tobacco for farmers in Karnataka. Another study in Karnataka analyzed the nature and extent of crop diversification in the state by collecting secondary data for a period of 26 years from 1982-83 to 2007-08 and suggested that the creation of basic infrastructural facilities like sustained supply of irrigation water, markets, fertilizer availability, proper roads and transportation is an essential pre-requisite for crating enabling conditions for fostering the process of agricultural development and crop diversification, as most of these parameters greatly influence the nature and extent of crop diversification.
Combination of crops that have been found to be suitable in the different tobacco growing regions of the country and would be equally remunerative, viable alternatives to the tobacco crop
Types of tobacco and Zone
Alternative crops
Alternative cropping systems
Bidi/Chewing tobacco-Gujarat
Mustard, Groundnut, Chilli, Maize, Cotton and Castor
Cotton – Groundnut or Castor – Groundnut
Chewing and Hookah tobacco – Uttar Pradesh
Potato, Wheat, Okra, Sugarcane and Mustard
Maize – Potato
Chewing tobacco – Bihar
Potato, Garlic, Mustard, Maize and Wheat
Maize – Potato or Potato + Garlic
Chewing tobacco – West Bengal
Rice, Mustard, Potato, Wheat, Jute and Maize
Jute – Rice – Potato or Jute – Rice – Mustard
Chewing tobacco – Tamil Nadu
Sugarcane, Sunflower, Maize, Chilli, Moringa and Sorghum
Onion – Moringa or Chilli – Moringa
Bidi tobacco – Karnataka
Sugarcane, Chilli and Cotton
Groundnut – Soybean - Sugarcane
Conclusion
This board would provide technical assistance to farmers who are willing to switch from tobacco cultivation, and also provide information and assistance regarding high-yield-variety of seeds and fertilizers, and other related inputs. The suggested board may also help the government and agriculture-pricing committees in working out minimum support prices for alternate crops, in facilitating soft loans for the concerned farmers, in setting-pu auction platforms for these crops, in marketing of these alternate crops, and in other supportive activities. Awareness programs should be routinely held for the tobacco farmers on impacts of tobacco cultivation and tobacco consumption on human health, and on the available alternate, equally remunerative, crop options. Meanwhile, the research on alternative crops to tobacco or on the economic viability of these alternative crops should continue not only in the agricultural fields of research institutes or universities on an experimental basis, but also in situ in close collaboration with tobacco farmers.
This review attempts to raise awareness about the strategic significance of initiating programmes and projects on alternate cropping options to tobacco cultivation in order to facilitate the success of tobacco control in India. Development of new sustainable cropping alternatives to tobacco cultivation requires evidence-informed investment in specific supply chain processes beginning right at the farm level and extending through to the crop assembly, processing and distribution; and should be driven by close collaboration and optimal synergy among all the stakeholder government departments, with Ministry of Agriculture taking the lead.
AN ECOLOGICAL ANALYSIS OF COMMUNITY EMPOWERMENT: A STUDY OF WATER CRISES
Mr. HarshaDhar .G* & Dr. R. Sambashivam**
*Ph.D Research Scholar, P.G Studies and Research in Economics, Sahyadri Arts College, Kuvempu University, Shivamogga.
**Associate Professor and Co-ordinator, P.G Studies and Research in Economics, Sahyadri Arts College, Kuvempu University, Shivamogga.
ABSTRACT
Water crisis has been argued to be one of the biggest increasing pandemics of the present world century. For the purpose of qualitative study our paper verifies the relationship between the consciousness of water scarcity and community empowerment. Here we have attempted to outcome of an ecological analysis of the role social communities in water management. It recognizes the fact and figures in the middle of increasing population and their connected behavior are placing a high demand on very scarce water resources. On the one side, the situation is caused so otherwise accelerated by poverty in the region. While on the other side; water when properly managed can constitute an instrument for socioeconomic recovery and poverty alleviation. Business as usual in water resource management has not the way to overcome these difficulties. As such community water resource requires a new management paradigm that considers water not only from a holistic, comprehensive and multi-disciplinary perspective, but that, which seeks to fully associate all the different stakeholders into every stages of the process. The study aimed at analyzing the significance and challenges of water scarcity related to community activities. Including the beyond possessions our study has framed the couple of objectives those are; analyze the significance causes for water crises in community empowerment and then evaluate the fundamental challenges of community empowerment in front of water crises. A few hypotheses are additionally set for this study; significantly water crisis avoids the hygienic, healthy activities of community empowerment and next water scarcity and difficulties is the biggest obstacle for the successful path of community empowerment. Finally our paper revises the various strategies, conditions and impacts related to an ecological position and several features of community empowerment associated with water crises as according find the vital solutions for that in the way of socioeconomic welfare.
Keywords: crisis, comprehensive, multi-disciplinary, hygienic, obstacle, socioeconomic.
INTRODUCTION:
Analyzing the position of water crises associated with community empowerment is a needed obsession in the present sensorial. As we are facing water risks, pollutions and water related difficulties organized social communities have to respond gently
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