Download Free Farm Mechanization In Karnataka An Economic Analysis Book in PDF and EPUB Free Download. You can read online Farm Mechanization In Karnataka An Economic Analysis and write the review.

This publication gives a wide-ranging perspective on the present state of mechanization in the developing world, and, as such, constitutes a solid platform on which to build strategies for a sustainable future. Farm mechanization forms an integral plank in the implementation of sustainable crop production intensification methodologies and sustainable intensification necessarily means that the protection of natural resources and the production of ecosystem services go hand-in-hand with intensified production practices. This requires specific mechanization measures to allow crops to be established with minimum soil disturbance, to allow the soil to be protected under organic cover for as long as possible, and to establish crop rotations and associations to feed the soil and to exploit crop nutrients from various soil horizons. This work is the starting point to help the reader understand the complexities and requirements of the task ahead.
Mechanization is a process of replacing biological sources of energy involving animal and human labour to mechanized sources of energy. Farm mechanization indicates the use of machines for conducting agricultural operations replacing the traditional methods which involve human and animal labour. In the period 2004-05 to 2011-12, robust growth in the secondary and tertiary sectors led to significant job creation in agriculture sector. Tractors and power tillers have been driving the farm mechanization in India. Tractor sales have grown at a CAGR of 9.0 % in Financial Year (FY) 05-15 to around 5.5 lakh tractors in FY15 (around 2.3 lakh in FY2005) whereas sales of power tillers have grown at a CAGR of 10.6% in FY2005 to 2015 to 48,000 power tillers in FY2015 (17,841 in FY2005). Farm mechanisation is a fuel to agriculture production now days. As several studies indicate the mechanisation not only reduced the drudgery of manual labour and it enables the efficient and judicious use of resources. The increased agricultural production and productivity over the decades is coupled with the farm power availability. High labour intensive crops have turned to low labour intensive crops by replacing the mechanical power, which also reduced the cost of production and improved quality of produce led to increased farmers income share.
The present study has been carried out in Eastern Dry Zone of Karnataka which is one of the major agricultural production zone facing sever labour shortage and have scope for mechanization. The primary data for the study has been collected from the 30 CHS providers and 150 farmers. The study focused on characteristic features, farm machinery inventory available with different custom hire service (CHS) providers, economic feasibility, investment pattern, benefits in use of different CHS providers and problems faced by the farmers as well as the CHS providers in the study region. The results indicated that the government subsidized Non Governmental organization (NGO) operated CHSCs are following stringent norms in providing farm machinery services and payments towards services compared to other CHS providers in the study region. The NGO operated CHSC in Chikkaballapur had invested highest compared to other CHS providers. Irrespective of the CHS providers and region, the investment made on tillage equipments was the highest. However, the government subsidized CHSCs own maximum number farm machinery inventory compared to other CHS providers irrespective of the region. The feasible factors highlighted that all the government subsidized CHS providers are economically feasible and NGO operated CHSC in Tumkur is capable of generating higher returns. In addition, it was found that the farmers have realized 10 to 20 per cent higher returns from using custom hire services from government subsidized CHSC than other CHS providers. The non-availability of skilled labour, spare parts of farm machinery and repair and maintenance and local workshops were the major constraints faced by the CHS providers. While non-availability of machinery services in time, quality of farm operation and payment options were the major constraints faced by the farmers.
The term arecanut (Areca catechu L.) means the cluster of nuts. Emergence of the value added arecanut products have given a real boost to arecanut economy in India. Primary data on cost of cultivation of arecanut, perception regarding the constraints and awareness with special focus on emerging alternative arecanut products were collected from the sample farmers, consumers and traders of the sample area. The major source of data for the study was the sample farmers chosen from the selected taluks Viz., Thirthahalli, Kadur, Puttur, Vittla, Tumkur and Hollakere. The data pertain to the consumers and traders were collected from the selected districts namely Shimoga, Mangalore and Bangalore. In order to examine factors influencing the gross returns in arecanut, a regression analysis was carried out. Initially different types of functional forms were examined based on the co-efficient of determination (R2), adjusted R2 and Akaike Information Criterion. Finally the linear form chosen as a better fit based on the explanatory power, which is the co-efficient of determination (R2) and the significance of regression co-efficient. The dependent variable included in the model was gross returns in arecanut. Garret ranking were used to analyze the perception of farmers on production, market and policy based threats. Willingness to consume nutriceutical arecanut products logit analysis was conducted. The secondary data on alternative uses of arecanut were used to analyse the returns from alternative/potential uses of arecanut. Arecanut economy is currently facing crisis from several fronts. Legal Intervention to ban some of the value added products like ghutka is one of the threats which can curtail the demand considerably. Keeping these in background the present study has made an attempt to study the cost of cultivation, major threats, alternative uses of arecanut and awareness among consumers and traders.
This framework presents ten interrelated principles/elements to guide Sustainable Agricultural Mechanization in Africa (SAMA). Further, it presents the technical issues to be considered under SAMA and the options to be analysed at the country and sub regional levels. The ten key elements required in a framework for SAMA are as follows: The analysis in the framework calls for a specific approach, involving learning from other parts of the world where significant transformation of the agricultural mechanization sector has already occurred within a three-to-four decade time frame, and developing policies and programmes to realize Africa’s aspirations of Zero Hunger by 2025. This approach entails the identification and prioritization of relevant and interrelated elements to help countries develop strategies and practical development plans that create synergies in line with their agricultural transformation plans. Given the unique characteristics of each country and the diverse needs of Africa due to the ecological heterogeneity and the wide range of farm sizes, the framework avoids being prescriptive.
Karnataka is one of the nine major Bt cotton growing states in the country. The Bt cotton seed production focussed on the socio-economic characteristics of contract farmers, cost and return, efficiency of resource use and problems faced by the farmers in Bt cotton seed production under different companies. Five companies having highest area under Bt cotton seed production were selected for study. The present study was conducted with primary data collected entirely based on a multistage random sampling technique from 200 Bt cotton seed production growers who have contracted with the different seed companies. The study pertained to the agricultural year 2012-13. The total cost of Bt cotton seed production varied from one company contract farmers to other company contract farmers. The total cost was found to be higher (Rs.96829) in case of JK seeds company contract farmers followed by the farmers who have contracted with Monsanto seeds company (Rs.95797). While, the net returns obtained from Bt cotton seed production was found to be higher in case of Monsanto seeds company contract farmers (Rs.46387) followed by Kaveri seeds company contract farmers (Rs.33076). The Cobb-Douglas production function revealed that the farmers who have contracted with different seed companies, the use of seed was found to be optimum across all company contract farmers. Whereas, fertilizer resource was over utilized by farmers who have contracted with various companies. Non availability of trained labour and prevalence of high wage rate were the major constraints in case of production, where as poor technical assistance and low contract price were the contractual problems. The other problems regarding plant protection, high incidence of diseases was the major constraint in Bt cotton seed production and in case of marketing, high price of parents of Bt cotton seeds and low price of the seeds offered by the agencies were the major ones. Therefore the Bt cotton seed production technology had positive impact on Socio- economic status of farmers by increase in yield and reducing cost on inputs thereby increase in income and also standard of living.
Projects: the "cutting edge" of development; Identifying costs and benefits of agricultural projects; Selecting proper values; Comparing costs and benetits; Applying discounted measures of project worth; Financial analysis cosiderations for agricultural projects; Source of assistance for project preparation.
This book takes forward our understanding of agricultural input subsidies in low income countries.
This open access book provides an evidence-based roadmap for revitalising Indian agriculture while ensuring that the growth process is efficient, inclusive, and sustainable, and results in sustained growth of farmers’ incomes. The book, instead of looking for global best practices and evaluating them to assess the possibility of replicating these domestically, looks inward at the best practices and experiences within Indian states, to answer questions such as -- how the agricultural growth process can be speeded up and made more inclusive, and financially viable; are there any best practices that can be studied and replicated to bring about faster growth in agriculture; does the prior hypothesis that rapid agricultural growth can alleviate poverty faster, reduce malnutrition, and augment farmers’ incomes stand? To answer these questions, the book follows four broad threads -- i) Linkage between agricultural performance, poverty and malnutrition; ii) Analysing the historical growth performance of agricultural sector in selected Indian states; iii) Will higher agricultural GDP necessarily result in higher incomes for farmers; iv) Analysing the current agricultural policy environment to evaluate its efficiency and efficacy, and consolidate all analysis to create a roadmap. These are discussed in 12 chapters, which provide a building block for the concluding chapter that presents a roadmap for revitalising Indian agriculture while ensuring growth in farmers’ incomes.
The frontiers of technologies have been constantly expanded in many industries around the world, including the agricultural sector. Among many “frontier technologies” in agriculture, are protected agriculture, precision agriculture, and vertical farming, all of which depart substantially from many conventional agricultural production methods. It is not yet clear how these technologies can become adoptable in developing countries, including, for example, South Asian countries like India. This paper briefly reviews the issues associated withthese three types of frontier technologies. We do so by systematically checkingthe academic articleslisted in Google Scholar, which primarily focus on these technologies in developing countries in Asia. Where appropriate, a few widely-cited overview articles for each technology were also reviewed. The findings generally reveal where performances of these technologiescan be raised potentially, based on the general trends in the literature. Where evidence is rich, some generalizable economic insights about these technologies are provided. For protected agriculture, recent research has focusedsignificantly on various features of protective structures (tunnel heights, covering materials, shading structures, frames and sizes) indicating that there are potentials for adaptive research on such structures to raise the productivity of protected agriculture. The research on protected agriculture also focuses on types of climate parameters controlled, andenergy structures, among others. For precision agriculture, recent research has focused on the spatial variability of production environments, development of efficient and suitable data management systems, efficiency of various types of image analyses and optical sensing, efficiency of sensors and related technologies, designs of precision agriculture equipment, optimal inputs and service uses, and their spatial allocations, potentials of unmanned aerial vehicles (UAVs) and nano-technologies. For vertical farming, research has often highlighted the variations in technologies based on out-door / indoor systems, ways to improve plants’ access to light (natural or artificial), growing medium and nutrient / water supply, advanced features like electricity generation and integration of production space into an office / residential space, and water treatment. For India, issues listed above may be some of the key areas that the country can draw on from other more advanced countries in Asia, or can focus in its adaptive research to improve the relevance and applicability of these technologies to the country.