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Kerala Agricultural University, Thrissur
The history of agricultural education in Kerala can be traced back to the year 1896 when a scheme was evolved in the erstwhile Travancore State to train a few young men in scientific agriculture at the Demonstration Farm, Karamana, Thiruvananthapuram, presently, the Cropping Systems Research Centre under Kerala Agricultural University. Agriculture was introduced as an optional subject in the middle school classes in the State in 1922 when an Agricultural Middle School was started at Aluva, Ernakulam District. The popularity and usefulness of this school led to the starting of similar institutions at Kottarakkara and Konni in 1928 and 1931 respectively.
Agriculture was later introduced as an optional subject for Intermediate Course in 1953. In 1955, the erstwhile Government of Travancore-Cochin started the Agricultural College and Research Institute at Vellayani, Thiruvananthapuram and the College of Veterinary and Animal Sciences at Mannuthy, Thrissur for imparting higher education in agricultural and veterinary sciences, respectively. These institutions were brought under the direct administrative control of the Department of Agriculture and the Department of Animal Husbandry, respectively. With the formation of Kerala State in 1956, these two colleges were affiliated to the University of Kerala. The post-graduate programmes leading to M.Sc. (Ag), M.V.Sc. and Ph.D. degrees were started in 1961, 1962 and 1965 respectively.
On the recommendation of the Second National Education Commission (1964-66) headed by Dr. D.S. Kothari, the then Chairman of the University Grants Commission, one Agricultural University in each State was established. The State Agricultural Universities (SAUs) were established in India as an integral part of the National Agricultural Research System to give the much needed impetus to Agriculture Education and Research in the Country. As a result the Kerala Agricultural University (KAU) was established on 24th February 1971 by virtue of the Act 33 of 1971 and started functioning on 1st February 1972. The Kerala Agricultural University is the 15th in the series of the SAUs.
In accordance with the provisions of KAU Act of 1971, the Agricultural College and Research Institute at Vellayani, and the College of Veterinary and Animal Sciences, Mannuthy, were brought under the Kerala Agricultural University. In addition, twenty one agricultural and animal husbandry research stations were also transferred to the KAU for taking up research and extension programmes on various crops, animals, birds, etc.
During 2011, Kerala Agricultural University was trifurcated into Kerala Veterinary and Animal Sciences University (KVASU), Kerala University of Fisheries and Ocean Studies (KUFOS) and Kerala Agricultural University (KAU).
Now the University has seven colleges (four Agriculture, one Agricultural Engineering, one Forestry, one Co-operation Banking & Management), six RARSs, seven KVKs, 15 Research Stations and 16 Research and Extension Units under the faculties of Agriculture, Agricultural Engineering and Forestry. In addition, one Academy on Climate Change Adaptation and one Institute of Agricultural Technology offering M.Sc. (Integrated) Climate Change Adaptation and Diploma in Agricultural Sciences respectively are also functioning in Kerala Agricultural University.
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ThesisItem Open Access Impact of prominent KAU rice varities on the economic status of farmers in Kerala and Karnataka(Department of Agricultural Economics, College of Horticulture, Vellanikkara, 2016) Dhruthiraj, B S; KAU; Chitra ParayilThe present study entitled “Impact of prominent KAU rice varieties on the economic status of farmers in Kerala and Karnataka” was conducted with the objectives of working out the costs and returns of prominent rice varieties, Jyothi and Uma, released from KAU, to find out the relationship between varietal adoption and net farm income, to identify specific reasons for adoption of KAU varieties and to analyze profitability of the KAU varieties in the states of Kerala and Karnataka by comparing with with local non-KAU varieties cultivated by farmers. The survey was conducted by collecting both primary data and secondary data. The area of study were major rice growing districts of Kerala (Palakkad and Alappuzha) and Karnataka (Mysore and Mandya). These districts were selected on the basis of prominence in adoption of rice varieties released from KAU. The primary data were collected by means of pre-tested interview schedule. The farmers in the study area were categorized into two groups on the basis of variety grown as: KAU variety adopting farmers and local popular non KAU variety adopting farmers. Forty farmers each cultivating at least one acre and adopting KAU variety and 40 farmers cultivating a local popular non-KAU variety were randomly selected and surveyed in each state making a total sample size of 160. The cost-return structure was worked out both for KAU and non KAU variety production using cost concepts. The average cost of cultivation (Cost C2) of KAU varieties was found to be lesser in Palakkad (Rs.73,213 per hectare) compared to Karnataka (Rs.75,731 per hectare ) and Alappuzha (Rs. 81,915 per hectare) and in case of local non KAU varieties, the average cost of cultivation was Rs.83,981 per hectare, Rs.83,634 per hectare and Rs.94,526 per hectare in Karnataka, Palakkad and Alappuzha respectively. The net income obtained by cultivating KAU varieties was found to be higher in Palakkad (Rs.48, 143 per hectare), followed by Alappuzha (26,356 per hectare) and Karnataka (Rs.11, 746 per hectare. The benefit – cost ratio (BCR) at the C2 and explicit cost level was found to be positive for KAU varieties in both the states. This implies that cultivation of KAU varieties was profitable for farmers in both the states. Garrett ranking technique was used to determine the reasons for adoption of KAU varieties. The possible reasons for adoption of KAU varieties in Karnataka were identified as high market price, high yield potential, high tillering capacity and resistance to pests and diseases while in Kerala, Farmers highlighted high yield potential, high market price, high tillering capacity, suitability, to the location, consumption purpose, resistance to pests and diseases and short duration of the variety as major reasons for adoption. Probit model was used to find out the factors affecting adoption of KAU rice varieties. In Kerala, Organizational membership and gross income of the farmers while in Karnataka, education, organizational membership, area and gross income of the farmers were identified as the major factors affecting the adoption of KAU varieties. The average cost of cultivation (cost C2) for seed production of KAU varieties was found to be higher in Karnataka (Rs. 88,176 per hectare), compared to Kerala (Rs.86, 355 per hectare). The average gross income was found to be higher in Kerala (Rs.1, 56,223 per hectare) compared to Karnataka (Rs.1, 17,513 per hectare). The net income at cost C2 was found to be positive for both the states whereas the amount was found to be higher in Kerala was compared to Karnataka. The marketing channels identified Kerala were Channel 1: Farmer- Supplyco - Rice millers - Public distribution system (PDS) – Consumers, Channel 2: Farmer - Rice millers – Retailers- Consumers and Channel 3: Farmer- Middlemen- Rice milers - Retailers - Consumers. The marketing channels identified in Karnataka were Channel 1: Farmer – Rice milers- Kerala marketing channels identified in Karnataka were Channel 1: Farmer - Rice millers- Kerala rice market - Wholesaler/Local trader - Retailer -Consumer, Channel 2: Farmer - Local trader – Kerala rice market- Rice millers -Retailer - Consumer, Channel 3: Farmer - Kerala rice market - Wholesaler/Rice millers/Local agents – Retailers - Consumers, Channel 4: Farmer - APMC -middlemen -Kerala rice market - Wholesaler/Rice millers/Local agents - Retailers - Consumer. For both KAU and non KAU rice varieties, labour cost accounted for highest share in the cost A1 components in both the states; therefore, efforts have to be made for mechanizing paddy cultivation. Also initiatives have to be taken to attract the younger generation towards agriculture and more importantly paddy cultivation.ThesisItem Open Access Groundwater irrigation: management, adaptation and economic costs under declining resource conditions(Department of Agricultural Economics, College of Horticulture, Vellanikkara, 2017) Seenath Peedikakandi; KAU; Indira Devi, PGroundwater is the major source of domestic use and irrigation in Kerala, accounting for 39 per cent of net irrigated area. Irrigated agriculture in the state shows continuous increase over years. At the same time Kerala is reported as third among the states with highest depletion of groundwater. This situation poses challenges in agricultural production. The study ‘Groundwater irrigation: Management, adaptation and economic costs under declining resource conditions’ was undertaken, in this background. The objectives of the study were to analyse the extent of decline in groundwater resources and farmers’ understanding of the same, to analyse the extraction practices, management and economic efficiency of groundwater irrigation and coping (short term) and adaptation (long term) strategies towards management of groundwater decline and the economic cost of adaptation strategies. The study was conducted in Palakkad district of Kerala. Based on the stage of ground water development, three Block Panchayats viz., Chittur (over exploited), Malampuzha (critical) and Pattambi (semi-critical) were selected for the study. 50 Open Well (OW) irrigated and 50 Bore Well (BW) irrigated farms from each BP were randomly selected from the Grama Panchayats (GPs) where observational wells of the GWD (Ground Water Department- Kerala) are situated. Primary data was collected from the sample farms through field visits using pre-tested structured interview schedule and through direct observation. PRA (Participatory Rural Appraisal) was also conducted in each BP to draw the time line of changes in ground water status and social perceptions. Secondary data on monthly water levels of Groundwater Monitoring Wells (GMWs) maintained by GWD (Palakkad),rainfall data and published reports were used for the study. Statistical tools like descriptive analysis, regression and Stochastic Frontier Function were employed for analysis of the data. In most of the GMWs in the study area, the Water Level from Ground (WLG) has been declining over the years. The trend was more predominant during early summer (Dec.–Jan.) in Chittur and Malampuzha and in late summer in Pattambi BP. Regression analysis showed that WLG was significantly influenced by one year lagged rainfall in Chittur and current year rainfall in Malampuzha and Pattambi. The average well density was 205/km2 with highest in Pattambi. Density of defunct wells was highest (45/km2) and the average functional age of bore wells was lowest (7 years) in Chittur. The depth of well was highest in Chittur where bore well depth (136 mbgl- meters below ground level) was double than that of Pattambi. Coconut based cropping system was prevalent in most of the farms except in Malampuzha where paddy was the major crop. Flood, basin and sprinkler irrigations were found to be more common in Malampuzha and Pattambi BPs, while drip irrigation was prevalent in Chittur. Cost of irrigation in Chittur was about Rs. 29,000/ha/year which accounted for 37 per cent of cost of cultivation. Annual net return per ha. of farm was lowest (Rs. 17,640/-) in Chittur due to low cropping intensity. Stochastic Frontier Analysis indicated that mean economic efficiency was high (99.9%) in Chittur as most of the farms were functioning along the cost frontier. The variability among the farms in Chittur was low. Respondents opined that groundwater is declining over the years irrespective of the region. It has been so, for more than a decade in Chittur affecting socio-economic well-being of farmers. They attributed intensive extraction through bore wells and low rainfall as the major reasons for the decline. Farm level adaptations to water scarcity are classified under ‘supply management’ (methods that facilitated increase in quantity of water available for irrigation) and ‘demand management’ (methods that tried to use the water effectively through minimizing the use) strategies. The supply management strategies were mainly exploitative in nature which included digging new bore well (52-58%), improved draft technology with compressor pumps (58%), taking pits for water conservation (7%), coconut husk burial (12%), coconut leaf mulching (18%) and dependence on water markets (8%). Digging new bore well was the most common supply management strategy in Chittur which is highly capital intensive. The average cost amounted to Rs. 8,520/ha/year. Intensive extraction was done by excessive use of subsidized electricity. Adoption of drip irrigation (60%) was the most widely practiced demand management strategy which cost about Rs. 22,000/ha/year. Cropping pattern change from paddy and sugarcane to coconut was also observed. About 18 per cent of the land area in Chittur was kept fallow due to water scarcity. The study brings out results that suggest policy interventions in regulating bore well digging and revisiting the power subsidy system. In Chittur area, where the rainfall is scanty, extension of the Right Bank Canal of the Chittur River irrigation project is the most feasible solution. Taking up on-farm research trials in the area to suggest efficient farming systems and practices may also be done. Simultaneously water resource conservation strategies are to be popularized through awareness creation, capacity building programmes and subsidy support.ThesisItem Open Access Performance analysis of agro-processing self-help groups in Thrissur district(Department of Agricultural Economics, College of Horticulture, Vellanikkara, 2007) Lina, Joy; KAU; Prema, AThe present study on the "Performance analysis of agro-processing Self Help Groups in Thrissur district” was conducted to study the functioning of Self help Groups (SHGs), to identify the factors determining effective functioning and to study the constraints faced by the SHGs and provide suggestions for effective functioning. The study was taken up among Swarnajayanti Gram Swarozgar Yojna (SGSY) SHGs in Thrissur district. Five blocks having maximum percentage of agro-processing SHGs were selected. The activities undertaken by the agro-processing SHGs were classified under four groups i.e. fish processing, copra processing, powder making and ready to eat items making Group characteristics as the indicators of performance studied were group cohesion, group decision-making, group leadership, team spirit and maintenance of records. Copra processing unit obtained the highest rank in group characteristics. Profile characteristics studied were information seeking behaviour, innovativeness, risk orientation, economic motivation, management orientation, attitude towards self employment, knowledge about processing and market perception Powder making units were having the highest rank in profile characters Non performing groups showed the lowest score in both the group characteristics and in the profile characteristics Correlation analysis between group and profile characteristics revealed that management orientation was the major socio-economic variable affecting the group performance. Marketing channel for all the categories showed the lack of adequate forward and backward linkages. All the categories marketed their products within the district only. Packaging and traveling expense were the main items of the marketing cost Lack of common retail outlet for SHG products was the major constraint faced by SHGs in their marketing Cost of material input and labour cost were the main items in working capital of each category The copra processing units were having highest BC ratio (2.26) BC ratio of all the performing units were more than unity which indicated that all the units studied were running in profit The units were receiving a subsidy of 50 percent loan taken and they also received Rs10000 as revolving fund. All the units studied were having more than Rs 30,000 as thrift. The major constraints faced by the SHGs were the lack of concession regarding lending rate and lack of any aid from panchayat.ThesisItem Open Access Investment pattern in rural households of Ollukkara Block Panchayath in Thrissur District(Department of Agricultural Economics, College of Horticulture, Vellanikkara, 2002) Pratheesh, V.S.; KAU; Thomas, E.K.Agriculture which is the back bone of Indian economy, is now heading towards a radical transformation. When the green revolution technology was introduced in the mid sixties, great expectations were raised as to the beneficial effects it could induce into every class of farmers and other sectors of the populations by increasing food production, employment opportunities and income levels. But its latter day performances have belied these expectations and it seemed that only those who have necessary absorptive capacity or infrastructure are only benefited. So for the betterment of agriculture there should be more and more investment both in the public and private sector. Under these circumstances the present study entitled "Investment Pattern in rural households of Ollukkara block panchayath in Thrissur district" is of high relevance and was conducted with the following objectives. 1. To study the different sources of income of rural people 2. To examine the savings and expenditure pattern 3. To analyze the nature of investment 4. To identify the constraints associated with investment in rural areas. The study was conducted in the sample selected at random from 50 numbers of Agricultural labourers, farmers and service sector people from the five wards selected from the total 74 wards in the Ollukkara block panchayath of Thrissur district. The data for the agricultural year 2001-2002 were collected using a well structured interview schedule. The study revealed that the mainsource of farm income in farmers and service sector people was crops where as for labourers it was livestock. On an average 81. 9 5 per cent of the total farm income was directed from the crops and only 18,95 was from livestock. Category wise analysis showed that net income and benefit cost ratio were much higher for labourer households and lowest for service sector people. 141 At the aggregate level, consumption expenditure accounted for 78.91 per cent, and the rest 21.09 per cent was for farm expenditure. Of the total, 78.09 per cent of farm expenditure was incurred for crops and only 21.91 per cent was made for livestock. The Category wise analysis showed that per household savings was highest for the service sector people followed by farmers and labourers. With respect to the gross farm investment, purchase of livestock was the most important item of investment followed by investment on land improvement, purchase of irrigation appliances, construction and repair of farm buildings and digging and repair of wells. The average rate of farm investment was only 1.53 per cent while the non farm investment was at the rate of 5.41 per cent. Lack of employment, High cost of living, and high loan out standing were reported as the most important constraint for investment along with constraints like non availability of labour, lack of irrigation etc.ThesisItem Open Access Integrated pest management in rice production: resource use efficiency and relative economics(Department of Agricultural Economics, College of Horticulture, Vellanikkara, 2005) Saijyothi, D; KAU; Indira Devi, PThe present study entitled Integrated Pest Management in rice production: resource use efficiency and relative economics, was conducted in Kuttanad region of Kerala, India with the specific objectives of evaluating the economics of IPM technology over the traditional practice and to assess the resource use efficiency. The study pertaining to the summer crop in the area (November 2004 to February 2005) was undertaken during March to July 2005 A sample of 70 farmers each from IPM and Non-IPM category were selected by conducting a preliminary survey to categorise the farmers under each group. The production details of paddy were gathered from both the groups using a pretested structured questionnaire by personal interview method. The management under IPM programme starts from the very beginning of the crop calendar, starting with the varietal selection, its source, seed rate and method of planting. Though both types of farms were sowing only recommended varieties, seed rate was much above the recommended level in the case of non IPM group and they primarily relied on farm saved seeds. It was the reverse in the case of IPM farms. The level of application of fertilizers and soil ameliorants was lower in the case of IPM farms. Among the various inputs in crop production, labour was the most important single item of expenditure in paddy production. The total labour use in IPM farms was found to be 75 man-days per hectare i.e., 5.63 per cent higher than that of Non-IPM farms (71 man days per hectare). This is primarily due to the additional labour required in IPM farms for weeding (due to lesser amount of weedicide use), land preparation (additional ploughing), harvesting (higher yield) and IPM measures. Thus the total expenditure on seeds and sowing, fertilizer application and plant protection charges were 67.15 per cent higher in the Non-IPM group. Contrary to this, the expenditure on land preparation, weeding and harvesting operations together, were 11.93 per cent higher in IPM group. Total cost of cultivation was estimated as 5.07 per cent higher in Non-IPM group (Rs31536/ha) compared to IPM group (Rs 29841/ha) Apart from the cost saving, relatively higher yield (45.23 quintals per hectare) was also there in IPM farms compared to the other group.(44.46 quintals per hectare). The partial budgeting analysis have revealed that the cost saving coupled with higher yield realization in IPM farms has resulted in an additional net private gain in income to the tune of Rs 2824 per hectare Benefit cost ratio at Cost A1 was estimated as 1.85 (Non-IPM) and it was 2.06 for IPM farms inferring rice cultivation under IPM, as more beneficial than chemical based cultivation. At cost C3 level, the non IPM groups were more prone to risk as the BC Ratio was very close to unity Cobb-Douglas production function was fitted to assess the efficiency of resource use in paddy cultivation for both IPM and Non-IPM farms. It could be concluded that IPM farms were economically more efficient in resource utilization than the Non-IPM counter parts. Though most of the farmers were aware of the potential hazards of excessive chemical use in agriculture, and got exposed to adequate training, the spread of the technology is constrained by factors like, the perception of a yield loss, difficulties in water management and labour problems. But those who have adopted the technology was found to be aware of the short-term nature of yield reduction and cost saving aspects of the technology. The policy suggestions are made based on the findings and future line of work is also suggested.ThesisItem Open Access Economic valuation of mangrove ecosystems in Kerala(Department of Agricultural Economics, College of Horticulture, Vellanikkara, 2013) Hema, M; KAU; Indira Devi, P.Mangroves are invaluable treasure o f our biodiversity with immense ecological and economic significance. But mangroves wealth of the world is depleting at an annual rate of -0. 34 per cent. Mangroves in Kerala, constitute 0.3 per cent o f that in India, is reported to be high in species diversity. The available reports indicate the depleting status o f the ecosystem in Kerala too. The socio-economic and ecological significance o f this ecosystem is to be studied in detail for assisting policy decisions when confronted with the conservation-development debate. This study was undertaken in this background. The study identified the stakeholders o f mangrove ecosystems o f Kerala and quantified the level o f dependence o f local communities for their livelihood and estimated the aggregate demand for products and services. Further, it identified and quantified the relative influence o f socioeconomic, institutional, climatic and anthropogenic forces on the destruction of mangroves and finally assessed the Total Economic Value (TEV) o f mangrove system and suggested policy prescriptions for the conservation and management of mangroves in Kerala. The study was conducted in the mangrove areas o f Emakulam and Kannur districts of Kerala. These two districts accounted for nearly 65 per cent o f the mangroves o f the state. The study was based on primary and secondary data. The primary data was gathered from 480 respondents belonging to four identified stakeholder groups (residents, fishermen, paddy farmers and general public), selected through simple random sampling method. Data was collected through personal interview using structured pretested interview schedule along with direct observation. The major tools of data analysis were Contingent Valuation Method (CVM) and Choice experiment. The data collection was conducted during June 2012 to January 2013. I Four stakeholder groups o f the mangrove ecosystem in the study area were residents living close to mangroves (<1 km from mangroves), fishermen (inland fishermen and women, engaged in shell mining and clam collection, shrimp farmers), paddy farmers (Pokkali and Kaippad) and general public (resides away from the mangroves). The residents were depending on the mangroves for extraction o f fuel wood, fodder and poles. On an average the level o f extraction was 307 kg o f fuel wood, 1024 kg of fodder and 14(no.) o f poles per year valued at X 4628/household. This amounted to 3 per cent o f their annual household income. The major species o f fish catch by the fishermen were Etroplus, shrimp, crab and Tilapia which was quantified at 1553 kg/ year valued at X 1,41,045. Shell mining which was found to be a major economic activity in Kannur region could generate an income of X 30,000/annum through the extraction and sale o f 7500 kg o f shells. Clam collected was quantified at 225 kg/year valued at X 5625. Thus, the average gross income from these activities was estimated at X 1,77,164 per year which was the main source o f income for the household. About 8 per cent of the fishermen were involved in shrimp farming and were mainly from Kannur district. The size o f the farm varied from 0.4 to 2 ha. The input cost/ha was X 2.8 lakhs which includes cost o f seed, feed, lime and water management. Labour cost was estimated at X 77,000. Hence total cost and returns o f shrimp farming/ha was X 3.27 and 4.75 lakhs respectively with net income o f ? 1.48 lakhs. Pokkali and Kaippad agricultural systems are proved to be closely interconnected with the:.mangrove ecosystem and the per hectare gross returns was X 60,007 and X 40,935 respectively. This amounted to average 30 per cent o f their household income. The respondents’ perception on the pattern of change and the major factors that effected the change in mangrove ecosystem was studied based on their responses. 46 per cent o f the respondents were o f the opinion that the mangrove ecosystem has declined over years and facing threat. The major factors responsible for the same were reported as anthropogenic, climatic forces and status o f property rights. The 11 developmental interventions like LNG Petronet Terminal, Puthuvypeen and ICTT Vallarpadam has resulted in large scale conversion o f mangrove areas. The contradictory forces o f development and conservation led to destruction of mangrove ecosystem. One fifth respondents opined that climatic factors were responsible for the decline. Nearly 85 per cent of the mangroves in the state were reported to be under private ownership and rest under public. The property right status along with economic status influences the rate o f depletion. The legal interventions and community and institutional efforts also influence the status of mangroves, most often positively. The economic valuation of ecological benefits o f mangroves was attempted employing the Contingent Valuation Method. The respondents expressed their willingness to contribute towards conservation both in cash and kind (cash payment and manual participation as labour and as volunteer in awareness programmes) and in combination. The average WTP expressed by the respondents was f 2308/annum the range being ? 50-28,870. The TEV of the mangrove ecosystem of the state was thus ? 1,17,947 million, which was 0.14 per cent ofthe GSDP (2011-12). A socially preferred management plan was identified among a set of alternatives, employing the choice experiment method. Among the management options given, the stakeholders preferred community management (41.6%) followed by public management (29.2%) and status quo (21.4%). The community management of the mangrove ecosystem provides opportunity for the local community to participate in management decision process. At the same time, the importance o f public funding for such activities is revealed in the analysis. The study suggests initiating scientific attempts on realistic area estimation and mapping o f the mangrove resources in the state. There should be attempts to identify and classify the species and document the traditional wisdom associated with them. Region specific studies are needed to establish and quantify the extent of association between mangrove ecosystem and the livelihood activities of local communities. The TEV justifies the increased resources allocation for the conservation efforts. Further, the implementation of community management system as institutional form for mangrove management in the state is suggested.ThesisItem Open Access Price behaviour of natural rubber in India.(Department of Agricultural Economics, College of Horticulture, Vellanikkara, 2011) Reeja, Varghese; KAU; Satheesh Babu, KNatural rubber, a product of vital commercial importance is recovered from the latex of the rubber tree, Hevea braziliensis. The present study entitled “Price behaviour of natural rubber in India” was conducted during 2010-11 based on the secondary data. The changes in area, production and productivity status of natural rubber in the world, India and Kerala were studied using the index numbers and compound growth rates. The compound growth rates in area, production and productivity of natural rubber in India were below the global growth rates, while that of Kerala was above the national level. India is emerging as the second largest consumer of natural rubber in the world. Consumption status of natural rubber in India showed that there is a growing deficit between domestic production and consumption of natural rubber in India. India was not a regular exporter of natural rubber, and therefore considerable fluctuations were observed in the export status depending on the domestic production level. The deficit in demand was met by imports. The import of natural rubber by Indian automobile industries grew annually by 12.37 per cent during the study period. The secular, seasonal, cyclical and irregular variations in rubber prices were studied using the techniques of classical decomposition of time series analysis. The trend in rubber prices in the domestic market at Kottayam and international market at Bangkok were captured by the single exponential smoothing model satisfactorily. The analysis showed that the RSS-4 prices in the Bangkok as well as the Kottayam markets were stagnant from January 1995 to April 2001, after which the prices showed an upward trend. The rubber prices were subjected to considerable seasonal variations due to the seasonality in production. In the international market, the peak price was observed in June and the trough price during the month of July, whereas in Kottayam market, the peak price was observed during May and the lowest price in the month of February. The rubber prices in the international as well as domestic markets were not subjected to pronounced price cycles. There were considerable irregular variations in rubber prices in both the markets. The rubber prices exhibited considerable instability in both the markets. Out of the different price forecasting models used to develop a reliable price forecasting model, the artificial neural network (ANN) model was found to be more reliable for predicting the price of RSS-4 in Kottayam market. However, no model could capture the underlying dynamics of rubber prices in the international market at Bangkok satisfactorily. The export competitiveness of Indian natural rubber was measured using nominal protection coefficient (NPC) under exportable hypothesis. It was found that Indian natural rubber was not export competitive during the study period. The market integration studies showed that Kottayam and Bangkok markets were integrated and there was a unidirectional influence of Bangkok market on the prices of natural rubber in Kottayam market, while the influence of Kottayam market on Bangkok market could not be established. The policy interventions suggested based on the study include efforts to increase the area under natural rubber in the non traditional rubber growing areas like North Eastern states, evolving technologies for enhancing the productivity of natural rubber in India to increase the income of farmers per unit cultivated area, improved tapping techniques to extend the tapping days, and to develop a multivariate price forecasting model. A reliable, regional market intelligence system for the natural rubber growers in the country to provide timely and reliable market information and intelligence is also suggested.ThesisItem Open Access Economic Analysis Of Production And Marketing Of Mushrooms(Department of Agricultural Economics, College of Horticulture, Vellanikkara, 2000) Renjith Raja, R; KAU; Elsamma JobThe present study entitled the Economics of Production and Marketing of Mushroom was undertaken during the year 1999-2000. This study was conducted in Thiruvananthapuram district. This district was purposely selected for the study because mushroom growmg units on commercial basis are well established ill Thiruvananthapuram district. A sample of 100 growers who maintained contact with the training centres was selected. Each farmer was interviewed personally. Among the 100 sample farmers 36 were cultivating mushrooms and the remaining had given up cultivation. All the mushroom growers were post-stratified on the basis of nature of investment into Category-I (Temporary upto Rs.15000 ), Category-IT (Semi-permanent Rs.15000-25000) and Category-Ill (Permanent above Rs.25000) Tabular analysis was used to study the socio-economic features, to estimate the cost and returns, marketing cost and margins of mushrooms. Cost concepts were used to estimate the income measures. At aggregate level the total cost incurred for cultivation of mushroom was Rs. 8167.83. Material inputs accounted for about 82.85 per cent of the total working capital requirement for the sample as a whole. Hired labour component was absent in category-I. At aggregate level this accounted for 17.15 per cent total working capital requirement. Total working capital requirement for mushroom production was Rs. 3738.51. As compared to males, females were more in the working force, which shows the women's participation in mushroom cultivation. Explicit costs accounted for 45.77 percent of the total cost. Implicit cost accounted for 54.23 per cent of the total cost. Cost A], Bj, Cl, and C3 per crop cycle for the sample as a whole was Rs. 4144.95, Rs. 4522.91, Rs. 1425.30 and Rs. 8167.83. The total working capital requirement for producing 1 kilogram of spawn was Rs. 12.83. Explicit cost accounted for 71.60 per cent of the total cost. Implicit cost accounted for 28.40 per cent of the total cost. Cost AI, B), Cl, and C3 per kilogram' of spawn Rs. 14.25, Rs. 14.49, and Rs. 16.29, 17.92 respectively. Gross income from mushroom for the sample as a whole was Rs. 12118.60. Gross income from spawn production was Rs. 40.00 for one kilogram of , spawn. Farm business income was Rs. 7973.65 for mushroom production and farm business income of spawn was Rs 25.75. For the sample as a whole the family labour income was Rs. 7595.69. and Rs. 25.51 in the case of spawn production .. The net income from mushrooms was Rs. 3950.77 and from spawn production it was Rs. 22.08. Farm investment income was Rs. 4328.73 and Rs. 22.32 for mushrooms and spawn production. The Benefit-Cost ratio was 1.48. The operating ratio which represents the efficiency of variable costs was 0.31. Aggregate fixed ratio was 0.21. The Benefit-Cost ratio in spawn production was 2.23. The operating ratio was 0.32. Fixed ratio was 0.08 Cobb Douglas production function fitted with returns (rupees) as dependent variable and expenditure on inputs like straw, spawn and labour as independent variables revealed that additional expenditure on straw and spawn could increase the output. The input human labour was found to be in' excess use. The most important marketing channel identified for mushroom was . , Producer-Consumer. Producers share in consumer rupee was 75 per cent. The retailer reaped a net margin of25 per cent for which they did not incurred any cost. The major constraint faced by mushroom growers in production was low yield due to incidence of pest and diseases and among the marketing problems the major constraint identified was lack of awareness among consumers.ThesisItem Open Access Supply chain analysis of marine fish marketing system in Kerala(Department of Agricultural Economics, College of Horticulture, Vellanikkara, 2017) Jeyanthi, P; KAU; Jesy Thomas, KFisheries is a major allied sector of agriculture contributing about 0.8 per cent to the Gross Domestic Product (GDP) and 5.15 per cent to agricultural GDP in India. Marine fisheries supports around 10 million people providing livelihood and employment directly or indirectly. Fish also provides more than one billion people living below the poverty line with most of their daily animal protein requirement globally. Kerala is a state known for its fish consumption which is more than four times the national average. However, the marine domestic fish marketing system faces several challenges in the process of distributing fish from the producer to the consumer. The study was conducted in Kerala state, which is the fourth largest fish producer in the country, and covered coastal and land locked (non-coastal) regions. The objectives of the study were to identify the supply chain of selected fish species, to assess the structure and performance of domestic fish markets, to examine the market integration and price transmission among the markets and to assess the consumer perception and suggest policy guidelines for improved fish marketing in Kerala. Two coastal districts viz., Ernakulam (E) and Kollam (K) and two land locked districts, Idukki (I) and Pathanamthitta (P) were selected and data was collected using simple random sampling from various marketing functionaries (producers, wholesalers, retailers and consumers). Since the species composition of marine fish landings is varied, the study focused on four high value (seer fish, shrimp, pomfret and tuna) and four low value but commonly consumed fish species (sardine, mackerel, anchovies, threadfin bream). Supply chain of the selected fish species was identified using the framework of Feller et al, 2006. Market performance of producers, wholesalers and retailers were assessed using Data Envelopment Analysis. The co-integration test was used to analyses the market integration of selected market pairs. Conjoint analysis was used to determine the attributes responsible for their fish purchasing behaviour. The constraints faced by the market functionaries were ranked using Rank Based Quotient. The generic supply chain of fish identified involved the auctioneer, wholesaler, retailers, secondary retailers, between the producer and the consumer. This is almost similar to the supply chain of other perishable like fruits, vegetables and flowers. The supply chain for sardine, tuna and thread fin bream also involved extra nodes in their supply chain due to industry specific demands like feed and other specialized products. The market structure of domestic fish markets was not efficient. The main reason being lack of infrastructure such as cold storage, well planned display and assemblage platforms, potable water and weighing balance. Market performance of producers was measured at the five landing centres in Ernakulam and Kollam and it was observed that only one market was efficient in each of the districts. It was revealed that the nature of inefficiency was due to scale rather than technology. In both Ernakulam and Kollam, only one wholesale market each was efficient and all other markets showed high technical efficiency i.e., above 0.80. In both wholesale and retail markets, the technical efficiency was relatively low in Idukki and Pathanamthitta with it being least in Idukki. It was revealed that the markets in the coastal regions showed relatively high technical efficiency than the land locked regions because of the higher volumes handled in the markets due to proximity with the landing centres, viz, the primary production centres, which is not so easily accessible to the land locked districts. Among wholesale markets, one market pair in Ernakulam, one in Idukki and one in Pathanamthitta showed co-integration and among retail one each in Ernkulam and Pathanamthitta showed co-integration. This indicates that in these markets there is a possibility of long run equilibrium in prices. The existence of low short run market integration (SRMI) at both wholesale as well as retail market levels was observed among the co-integrated market pairs. Consumer preference was for fresh fish in all the four districts studied in cleaned and cut form from retailers, wholesalers or wholesaler-cum-retailer. Sardine was the most preferred species in both coastal and landlocked regions of Kerala with more than 75 and 72 per cent of respondents, respectively, consuming it daily. The relative importance of attributes that consumer in Ernakulam and Kollam looked at while purchasing fish was fish species in fresh form and income. In Idukki and Pathanamthitta, availability and income were the relatively important attributes. Based on the pooled response of market functionaries in the selected districts the domination of middlemen was the major constraint for producers, wholesalers and retailers. Safety and quality of fish was the major constraint of consumers. The studies on efficiency of fish supply chain in line with the changing consumer preference are the future line of work towards sustainable fisheries development.
