Report

LAND RESOURCE INVENTORY AND SOCIO-ECONOMIC STATUS OF FARM HOUSEHOLDS FOR WATERSHED PLANNING AND DEVELOPMENT SHETHALLI-2 (4D5B1Q2a) MICROWATERSHED Yadgir Taluk and District, Karnataka

Abstract

The land resource inventory of Shethalli-2 microwatershed was conducted using village cadastral maps and IRS satellite imagery on 1:7920 scale. The false colour composites of IRS imagery were interpreted for physiography and these physiographic delineations were used as base for mapping soils. The soils were studied in several transects and a soil map was prepared with phases of soil series as mapping units. Random checks were made all over the area outside the transects to confirm and validate the soil map unit boundaries. The soil map shows the geographic distribution and extent, characteristics, classification, behaviour and use potentials of the soils in the microwatershed. The present study covers an area of 503 ha in Shethalli-2 microwatershed in Yadgir taluk and district, Karnataka. The climate is semiarid and categorized as droughtprone with an average annual rainfall of 866 mm, of which about 652 mm is received during south–west monsoon, 138 mm during north-east and the remaining 76 mm during the rest of the year. An area of about 99 per cent is covered by soils, 1 per cent by rock lands, habitation and water bodies. The salient findings from the land resource inventory are summarized briefly below.  The soils belong to 13 soil series and 18 soil phases (management units) and 7 land use class.  The length of crop growing period is 120-150 days starting from the 1st week of June to 4th week of October.  From the master soil map, several interpretative and thematic maps like land capability, soil depth, surface soil texture, soil gravelliness, available water capacity, soil slope and soil erosion were generated.  Soil fertility status maps for macro and micronutrients were generated based on the surface soil samples collected at every 320 m grid interval.  Land suitability for growing 26 major agricultural and horticultural crops were assessed and maps showing the degree of suitability along with constraints were generated.  Entire land area of the microwatershed is suitable for agriculture.  About 150 cm) soils.  About 85 per cent of the area has clayey soils, 8 per cent loamy soils and 6 per cent sandy soils at the surface.  An area of about 93 per cent has non-gravelly and 6 per cent are gravelly soils.  About 59 per cent of the area has soils that are very high (>200 mm/m) in available water capacity, <1 per cent medium (101-150 mm/m), 20 per cent low (51-100 mm/m) and about 20 per cent very low (<50 mm/m).  Entire area of the microwatershed has very gently sloping (1-3%) lands.  About 88 per cent has soils that are moderately eroded (e2) and 10 per cent has severely eroded (e3).  An area of about 12 per cent is neutral (pH 6.5-7.3), 13 per cent is slightly alkaline (pH 7.3-7.8), 14 per cent soils that are moderately alkaline (pH 7.8 to 8.4), 32 per cent soils that are strongly alkaline (pH 8.4 – 9.0) and about 28 per cent are very strongly alkaline (pH>9.0) in soil reaction.  The Electrical Conductivity (EC) of the soils are dominantly <2 dSm- 1indicating that the soils are non-saline.  About 42 per cent medium (0.5-0.75%) and 57 per cent high (>0.75%) in organic carbon.  An area of 36 per cent has soils that are low (<23 kg/ha) and 56 per cent medium (23-57 kg/ha) and about 7 per cent high (>57 kh/ha) in available phosphorus.  About 67 per cent medium (145-337 kg/ha) and 32 per cent high (>337 kg/ha) in available potassium.  Available sulphur is low (<10 ppm) in about 30 per cent area, medium (10- 20 ppm) in 57 per cent and high (>20 ppm) in about 12 per cent area of the microwatershed.  Available boron is low (<0.5 ppm) in 39 per cent, 46 per cent medium (0.5- 1.0 ppm) and high (>1.0 ppm) in about 13 per cent area of the microwatershed.  About 30 per cent area has soils that are deficient (<4.5 ppm) in available iron and 68 per cent sufficient (>4.5 ppm).  Available manganese and copper are sufficient in all the soils of the microwatershed.  Entire area of the microwatershed is deficient (<0.6 ppm) in available zinc.  The land suitability for 26 major agricultural and horticultural crops grown in the microwatershed was assessed and the areas that are highly suitable (S1) and moderately suitable (S2) are given below. It is however to be noted that a given soil may be suitable for various crops but what specific crop to be grown may be decided by the farmer looking to his capacity to invest on various inputs, marketing infrastructure, market price and finally the demand and supply position. Land suitability for various crops in the Shethalli-2 microwatershed Crop Suitability Area in ha (%) Crop Suitability Area in ha (%) Highly suitable (S1) Moderately suitable (S2) Highly suitable (S1) Moderately suitable (S2) Sorghum 10 (2) 387 (77) Sapota - 27 (5) Maize 10 (2) 91 (18) Guava - 27 (5) Red gram - 313 (64) Pomegranate - 323 (64) Bajra 10 (2) 399 (80) Jackfruit - 27 (5) Ground nut - 113 (23) Jamun - 298 (59) Sunflower - 323 (64) Musambi - 323 (64) Cotton - 397 (79) Lime - 323 (64) Bengalgram - 397 (79) Cashew - 25 (5) Chilli - 397 (79) Custard apple 10 (2) 399 (80) Tomato 10 (2) 91 (18) Amla 10 (2) 399 (80) Drumstick - 336 (67) Tamarind - 298 (59) Mulberry - 40 (8) Marigold - 397 (79) Mango - 2 (<1) Chrysanthemum - 397 (79) Apart from the individual crop suitability, a proposed crop plan has been prepared for the 7 identified LMUs by considering only the highly and moderately suitable lands for different crops and cropping systems with food, fodder, fibre and other horticulture crops that helps in maintaining the ecological balance in the microwatershed.  Maintaining soil-health is vital for crop production and conserve soil and land resource base for maintaining ecological balance and to mitigate climate change. For this, several ameliorative measures have been suggested for these problematic soils like saline/alkali, highly eroded, sandy soils etc.  Soil and water conservation treatment plan has been prepared that would help in identifying the sites to be treated and also the type of structures required.  As part of the greening programme, several tree species have been suggested to be planted in marginal and submarginal lands, field bunds and also in the hillocks, mounds and ridges. This would help in supplementing the farm income, provide fodder and fuel, and generate lot of biomass which in turn would help in maintaining the ecological balance and contribute to mitigating the climate change. Baseline socioeconomic characterisation is prerequisite to prepare action plan for program implementation and to assess the project performance before making any changes in the watershed development program. The baseline provides appropriate policy direction for enhancing productivity and sustainability in agriculture. Methodology: Shethalli-2 micro-watershed (Yadgir taluk and district) is located in between 18019’ – 1807’ North latitudes and 740 5’ – 7409’ East longitudes, covering an area of about 502.83 ha, bounded by Badehalli, Balacheda, Kadechoora and Sowrashtrahalli villages. with length of growing period (LGP) 120-150 days. We used soil resource map as basis for sampling farm households to test the hypothesis that soil quality influence crop selection, and conservation investment of farm households. The level of technology adoption and productivity gaps and livelihood patterns were analysed. The cost of soil degradation and ecosystem services were quantified. Results: The socio-economic outputs for the Shethalli-2 micro-watershed in Yadgiri taluk and district are presented here. Social Indicators;  Male and female ratio is 57.6 to 42.4 per cent to the total sample population.  Younger age group 18 to 50 of population is around 55.6 per cent to the total population.  Literacy population is around 61.1 per cent.  Social groups belong to other backward caste (OBC) are around 50 per cent.  Fire wood is the source of energy for a cooking around 96.7 per cent sample households.  About 43.3 per cent of households have a yashaswini health card.  About 13.3 per cent farm households having MGNREGA card for rural employment.  Dependence on ration cards for food grains through public distribution system is around 90 per cent.  Swach bharath program providing closed toilet facilities to around 40 per cent of sample households.  Women participation in decisions making are around 77 per cent of households were found. Economic Indicators;  The average land holding is 1.92 ha indicates that majority of farm households belong to small and medium farmers. They account for dry land of 57.7 ha among the total cultivated land among the sample households. 2  Agriculture as the main occupation is only 23.6 per cent and agriculture is the main and non agriculture labour is subsidiary occupation for 43.8 per cent of sample households.  The average value of domestic assets is around Rs.13109 per household. Mobile and television are popular media mass communication.  The average value of farm assets is around Rs. 184433 per household, about 20.0 per cent of sample farmers are owing plough.  The average value of livestock is around Rs. 26552 per household; about 65.85 per cent of household are having livestock.  The average per capita food consumption is around 1117.5 grams (2647.4 kilo calories) against national institute of nutrition recommendation at 827 gram. Around 80 per cent of sample households are consuming more than the NIN recommendation.  The annual average income is around Rs. 30126 per household. About 90 per cent of farm households are below poverty line.  The per capita monthly average expenditure is around Rs.4224. Environmental Indicators-Ecosystem Services;  The value of ecosystem service helps to support investment to decision on soil and water conservation and in promoting sustainable land use.  The average value of ecosystem service for food grain production is around Rs. Rs.4967 ha/year. Per hectare food grain production services is maximum cotton (Rs.10438) followed by redgram (Rs.9374), maize (Rs.6440), groundnut (Rs. 4861), sorghum (Rs.2070) and paddy is negative returns.  The average value of ecosystem service for fodder production is around Rs.2856/ ha/year. Per hectare food grain production services is maximum sorghum (Rs. 5207) followed by paddy (Rs.3705), maize (Rs.1482) and groundnut (Rs.1029).  The data on water requirement for producing one quintal of grain is considered for estimating the total value of water required for crop production. The value of per hectare water used and value of water was maximum in red gram (Rs.47212) followed by cotton (Rs.39025), maize (Rs.30183), paddy (Rs. 28926), groundnut (Rs.27916) and sorghum (Rs. 25511). Economic Land Evaluation;  The major cropping pattern is redgram (50.71 %) followed by cotton (27.88 %), sorghum (10.32%), groundnut (9.63 %) and maize (1.46 %).  The total cost of cultivation and benefit cost ratio (BCR) in study area for cotton ranges between Rs.40780/ha in marginal farmers (with BCR of 1.09) and Rs.17985/ha in medium farmers (with BCR of 1.37). 3  In redgram the costs of cultivation range between Rs.35897/ha in marginal farmers (with BCR of 1.04) and Rs25330/ha in medium farmers (with BCR of 1.11).  In groundnut the cost of cultivation range between is Rs. 43673/ha in small farmers (with BCR of 1.21) and Rs. 18483 in semi medium farmers (with BCR of 1.20).  In maize the cost of cultivation is Rs.42960/ha in small farmers (with BCR of 1.18).  In paddy the cost of cultivation is Rs.32772/ha in small farmers (with BCR of 1.01).  In sorghum the cost of cultivation range between is Rs. 21800/ha in small farmers (with BCR of 1.44) and Rs. 11725/ha in medium farmers (with BCR of 1.31).  The land management practices reported by the farmers are crop rotation, tillage practices, fertilizer application and use of farm yard manure (FYM). Due to higher wages farmer are following labour saving strategies is not practicing soil and water conservation measures. Less ownership of livestock limiting application of FYM.  It was observed soil quality influences on the type and intensity of land use. More fertilizer applications in deeper soils to maximize returns. Suggestions;  Involving farmers is watershed planning helps in strengthening institutional participation.  The per capita food consumption and monthly income is very low. Diversifying income generation activities from crop and livestock production in order to reduce risk related to drought and market prices.  Majority of farmers reported that they are not getting timely support/extension services from the concerned development departments.  By strengthening agricultural extension for providing timely advice improved technology there is scope to increase in net income of farm households.  By adopting recommended package of practices by following the soil test fertiliser recommendation, there is scope to increase yield in cotton (29.4 to 71.1 %), redgram (22.5 to 42.2 %), groundnut (30.0 to 63.9 %), maize (70.2 %), paddy (70.5 %) and sorghum (58.0 to 82.4 %)