NAME OF WATERSHED :- BASERI ( IWMP – V )
MACRO/ MICRO :- 8/1, 2, 3, 4, 5, 9
GEOGRAPHICAL AREA :- 9795 Ha.
PROPOSED AREA :- 4725 Ha.
FOR TREATMENT :- 4725 Ha.
TOTAL AMOUNT :- 741.57 LAC.
WATERSHED SCHEME :- 567.00 LAC.
OTHER SCHEME :- 174.57 LAC.
TOTAL COST PER HACT. :- 0.16 LAC.
W/S COST PER HACT. :- 0.12 LAC.
PANCHAYAT SAMITI :- BASERI
DISTRICT . :- DHOLPUR
ASSISTANT ENGINEER
PANCHAYAT SAMITI BASERI DHOLPUR (RAJ.)
DETAIL PROJECT REPORT
DPR TEMPLATE Index
S.No Topics Page no.
1 Chapter
Location General Features of watershed (Cost and Area details) Climatic and Hydrological information Other Development Schemes in the project area Details of infrastructure in the project areas Institutional arrangements (,DWDU,PIA,WDT,WC)
2 Chapter Basic Data ,Analysis and Scope
2.1 Demography Details 2.2 Development Indicators 2.3 Land use 2.4 Agriculture status and Productivity Gap Analysis 2.5 Horticulture/Vegetable/Floriculture status 2.6 Land holding pattern 2.7 Livestock status 2.8 Fodder status 2.9 Farm Implements 2.10 NREGS Status 2.11 Migration details 2.12 Livelihood Details. 2.13 Existing SHG 2.14 Ground Water details 2.15 Drinking Water Status 2.16 Water use efficiency 2.17 Slope details 2.18 Water Budgeting 2.19 Soil Details 2.20 Soil erosion status
3 Chapter Proposed Development Plan
4 Chapter Activity wise Total Abstract of cost
5 Chapter Annual Action Plan
5.1 Project fund 5.2 Convergence Plan
6 Chapter Project outcomes
7 Technical designs and estimates for proposed activities
8 Enclosures
8 .1 Maps a. Location –District, block, village, watershed location map b. Map of Project with Watershed Boundary demarcation in cadastral map c. Land Use Land Cover map d. Existing water bodies, DLT e. PRA Map (along with photos & paper drawing) f. GIS based intervention map g. Treatment map ie proposed works on revenue map
8.2 Documents of Agreements:
Proceedings of gram sabha for EPA approval
Proceedings of gram sabha Resolution for committee constitution
Documents related to PRA exercise
Proceedings of gram sabha for DPR approval
Proceedings of Panchayat Samiti General body for DPR approval
Watershed Committee Registration certificate
MoU – PIA – DWMA, PIA – WC(in case of NGO as PIA)
Basic Information of Project Area
S.No. Name of Project - IWMP BASERI -V W/S 8/1,2,3,4,5,9
(a) Name of Catchment - Chambal Catchment Area
(b) Name of watershed area
- IWMP BASERI -V W/S 8/1,2,3,4,5,9
(c) Project Area - 4725 Ha.
(d) Cost of Project - 567.00 Laks
(e) cost/hectare - 12000/- per ha
(f) Year of Sanction - 2010-2011
(g) Watershed Code - 090108/1, 2, 3, 4, 5, 9
(h) No. of Gram Panchayatsin project area
- Sarmathura , Jhiri , Golari, Domai
(i) No. of villages in project area - 11 No
(j) Type of Project - Other
(k) Elevation (metres) - 250 M
(l) Major streams - 10.50 km length
(m) Slope range (%) -
2-3%
S. No.
Name of Gram
Panchayat Name of Villages
Covered Census code of
villages
Total Area
in (Ha)
Area in W/S (Ha)
1 Sarmathura 1. Garha Khoh 808000101114500 173 150
2. Mugalpura 808000101114100 210 150
2 Jhiri 1. Jhiri 808000101118500 4494 1078
3 Golari 1. Gopalpur 808000101118900 781 117
2. Jakha 808000101117800 839 550
3. Golari 808000101118700 3470 480
4. Golipura 808000101118800 188 100
4 Domai 1. Dadroni 808000101117600 994 250
2. Shitalpura 808000101117700 1491 575
3. Mallapura 808000101117900 1207 575
4. Gironiya 808000101118000 2888 700
TOTAL 16735 4725
1. Introduction:
Drought and consequent famine has become a recurring phenomenon in Rajasthan as with few other regions of the country. Despite rich
heritage Rajasthan is one of the poorest states in the country. The backwardness and the hardship that the people face to cope up with the
environmental adversity, the inadequacy and the uncertainty of food supply due to disasters make it difficult for the people to take the
advantage of various development schemes.
In order to combat the frequent recurrence of drought in the States, Drought Prone Area Programme (DPAP) was introduced during the year
1975, as a Centrally Sponsored Scheme (CSS) with matching state share of 50:50 and adopted the watershed approach in 1987. The Drought
Prone Area Programme concentrated on non-arable lands. Drainage lines for in-situ soil and moisture conservation, agro-forestry, pasture
development, horticulture and alternate land use were its main components. Integrated Wasteland Development Programme (IWDP) was
introduced during 1992 with 100% Central assistance.
The Indian government accords high priority to integrated watershed management programs, especially in rain-fed and drought-prone areas.
The department of Land Resources (DoLR) has been implementing three area development programmes namely- Drought Prone Area
Programme (DPAP), Desert Development Programme (DDP) and Integrated Wasteland Development Programme (IWDP) since 1995. From
April 2008, these three programmes has been Integrated into one comprehensive scheme based on Common Guidelines, framed by National
Rain fed Area Authority (NRAA). The modified scheme is known as Integrated Watershed Management Programme. The central government
has initiated integrated watershed management program in collaboration with the state government in semi arid region in the country.
Resource degradation has an adverse impact on human welfare. Degraded environment tends to affect livelihood of the poor and particularly of
women adversely. Generally the poor depends upon the common property resources and degradation of the CPR’s affects the consumption
levels, nutrition and livelihood of women adversely. The program believes on the ability of communities to initiate and sustain collective action
often depends on internal socioeconomic characteristics and the biophysical and socioeconomic setting. This program also acknowledges the
potential of watershed development in dry land areas, aiming to strengthen the ecological and institutional foundation to strengthen the rural
livelihoods.
The program provides opportunity to Asst. Engineer (Watershed) P.S. BASERI to develop 5180 ha through Department of Land Resources and
Watershed, Zilla Parishad, Dholpur. The innovative approach attempts to address the critical issues of natural resource management and set in
example of model practices for scaling of such initiatives. Keeping in view the watershed-based development approach, the project will prepare
a detailed project report to guide the implementation process. The project would be a unique opportunity to work on issues of ecological security
and improvement in the well being of the different sections of the society and will guide the planning, implementation and the capacity building
aspects.
The project will guide an intervention, which is anchored on people’s engagement at various levels, and is based on the specific characteristics of
the socio-economic-ecological settings, to foster a healthy relationship between livelihoods and natural surroundings and offer a stable economic
opportunity. In translating into action, it is essential to realistically assess the potential of the farming system, common and private resources,
and soil, water, biodiversity and nutrient capacity. The scope of the desired intervention is in terms of bringing equilibrium between supply and
demand both quantitatively and qualitatively, so as to develop a balance between appropriation and production needs. Such a realistic
assessment and movement towards a balanced land use and livelihoods strategies would significantly depend on the strength and character of
the institutions of collective management and regulation, matched by consonant policies.
2. About BASERI :
BASERI is situated between 770 15’0”E to 770 45’0” E and 260 20’0” N to 26050’0” N and has an average Eelevation of 250 mts from mean sea
level. The Northern boundary is Bhartpur Distt. & U.P.State and on the East by P.S. Bari , on the South by M.P. State and on the West by
Karoli Distt. are surrounded in other sides. The topography is both undulated as well as plain. On one side it is surrounded by plain and good
forest reserve on the other hand there lies a huge patch of land with minimum slope and degraded ecosystem. With an program to implement
watershed development in the region, 4725 ha of land has been demarcated, to treat the eco-fragile land and improve the livelihood pattern both
in terms of food and fodder through decentralized governance mechanism.
The Integrated Watershed Development Program aims to address the critical issues of natural resource management and set in example of
model practices for scaling of such initiatives. Through this program implementation in both public and private land has been focused.
Productivity enhancement and livelihoods shall be given priority along with conservation measures. Resource development and usage will be
planned to promote farming and allied activities to promote local livelihoods while ensuring resource conservation and regeneration.
Capacity Building and training of all functionaries and stakeholders involved in the watershed programme implementation would be carried
out. The watershed development process would be synergized with the employment generating programmes such as the Mahtma Gandi
National Rural Employment Guarantee Scheme (MNREGS).
Project would include in the formation of SHGs, User groups, village level committee and Watershed Committee. The implementation would
include the involvement of the groups for better implementation, participation and transparency.
3. Watershed Development in BASERI:
Watershed Development programs have become the most important tools for promoting growth in dry-land areas of India. People in the arid
and semi-arid regions of Rajasthan practice innovative methods of harvesting rainwater for drinking and agricultural purposes by building
embankments since ages to meet water requirement for various purposes. Various Govt policies and different agencies are working in the field
of watershed focusing on watershed management, natural resource management, drought mitigation, improving drinking water supply, soil
conservation, etc. A range of activities was undertaken to harness rainwater. The structures ranged from earthen field bunds to cement and
concrete structures, plugging water flow in small streams and structures to harness the flow from whole watersheds or sub-river basins. With all
these interventions, the main objective was to check surface water runoff, impound water and recharge groundwater.
Watersheds connect land units through flows of water, nutrients, and sediment. However the patterns of interaction among these components is
highly complex with the landscapes under constant change, emerging as the outcome of dynamic and variable ecological processes and
disturbance events, in interaction with human use.
According to IWMP - V , 12 Villages of BASERI Tehsil have been identified falling under the watershed comprising of 4725 Ha. Erratic rainfall
and degradation of natural resources has brought up the concern in controlling and developing the resources, for which the tehsil have been
focused upon as the drainage lines opens into - Chambal River basin. IWMP - V is also an initiative of watershed development. This program
will not only develop the common land but would also benefit the farmers by working in their private land. The program would focus on
livelihood enhancement focusing in promoting best practices in agriculture as well as for animal husbandry.
Groundwater recharge depends on geo-hydrological parameters so it becomes difficult to assess their actual impact. This becomes even more
difficult when the intervening agency is not aware of these technical parameters. Keeping on mind about the different parameters on ground
water recharge survey based on geo-hydrology has been emphasized to avoid the difficulties. Impact of watershed on well and open well
irrigation is assessed in terms of wells and the changes in the depth of the water table.
The programme also intends to conduct capacity building programs at various levels to sensitize the community in effective implementation of
the program. The trainings would focus on various aspects including strengthening of village and Panchayat level institutions, SHGs, exposure
visits on NRM, Institutions and Volunteerism. The trainings would also be a platform in setting up and facilitating long term processes that
bring different groups into constructive engagements, dialogue and decision making towards good governance of the landscape.
4. Conceptual Build-up: Strengthening Watershed Development Approach
Rural poverty is mostly associated with recurrent occurrences of drought, poor maintenance and degradation of natural resources. Degradation
of land and water resources is one of the most serious problems being faced by India today, particularly in the semi arid areas, and BASERI is no
exceptional. It has led to adverse economic and ecological consequences in contemporary rural society, where survival, sustenance and growth
are intimately linked to the health and productivity of the surrounding natural resources. In the recent past, several interventions were made to
reduce poverty through drought-proof technologies. Transition in climate and degradation of Natural Resources is one of the reasons for
Watershed Development and has huge prospects in transforming rural lives and looks into holistic process of:
Introducing new knowledge and technology.
Appreciating, maintaining and adapting traditional knowledge.
Building effective exchange systems through a diverse set of institutional arrangements.
Building and strengthening specific, responsive, accountable and adaptive systems.
Though in general ‘guidelines’ and conceptual documents incorporate these elements, however specific focus on only one or two components
have not helped in fulfilling the major objectives of watershed development programs. In this respect specific attention needs to be given to
further strengthen watershed development approach. Some of the key issues have been highlighted for these purposes are:
a) Addressing comprehensively the micro-drivers of change:
Watershed development projects have huge potential to address the micro-drivers effectively. However the degree to which the various
drivers in the three major components of social-
economic-ecological are comprehensively addressed in watershed development projects leaves much to be desired. The degree to which these
Watershed Development Projects
Drivers of change:
Soil and nutrient properties
Biomass availability
Water availability
Land use
Social and institutional capability
Technological adoption
Patterns of demand and supply
Natural resource usage
Economic status Energy availability
Influencing livelihood strategies
Agriculture
Livestock
Production of other materials
Labour and migration
Biomass
Energy
Landscape and environmental management
Agro-ecosystem function
drivers are properly understood and incorporated in watershed management plans will directly influence how much the project potentially is
able to influence the various aspects of livelihood strategies.
Another important aspect is comprehensively looking both the supply side enhancement measures and the demand side management measures
in watershed development programs. Only focusing on the supply side enhancement measures have not helped the communities to put up
sustainable and judicious use of the resources created. Demand management through better socio-institutional capability, technological adoption
etc., would need to be properly incorporated in the project design to impart sustainability to resource management practices.
b) Watershed development and adaptive management
Watershed management has several characteristics which include:
Multiple stakeholders with multiple interests.
Complex ecological systems with a variety of land use.
High level of uncertainty and many unknown
factors.
This makes watershed management a complex process
requiring a learning approach based on a process of
experimental decision-making and monitoring. Adaptive
management has been developed to address these
characteristics and ‘is an approach for managing the complex
systems based on incremental, experiential learning and
decision making, supported by active ongoing monitoring and
feedback from the effects of outcomes of decisions’. It involves
the process of building social capital among stakeholders for
collaboration and learning, and knowledge sharing among group members.
c) Watershed development with an Integrated Landscape Restoration Program
Watershed projects should be seen as means to put in sustainable land-use planning. Landscape restoration approach is a process that aims to
regain ecological integrity and enhance human well being in degraded landscapes. Key aspects of LRA are that it focuses on:
Restoration decision on how best to restore functionality, that is, the goods, services and processes that the different components of
landscape delivers.
It recognizes that neither the solutions to the complex land use problems nor the outcomes of a particular course of action can be
predicted accurately, especially as ecosystems nor land-use patterns change over time.
It recognizes the need for multi-solution approach to provide the practitioners with sufficient flexibility to address the complex issues.
Landscape constitutes of different components and the pattern in which these components are distributed makes each landscape a unique
one. Based on the location specificities landscape can be classified as agricultural landscape, pasture landscape, forest landscape, or even
more. In improving watershed management approach the value of this framework is not only in clearly envisioning specific restoration plans
for each components but also in establishing the links with different landscape component and its contribution for specific landscape
restoration.
6. Project Purpose, Objectives and Outcomes:
The broad objectives of the project are:
a. Strengthen the capacity of village institutions and panchayats to implement and support watershed development plan.
b. Restore functionality of different landscape components comprehensive approach to conservation to deliver intended goods and services.
c. Restore ecological integrity by increasing flow of nutrients, water and biomass across the landscape with improved biodiversity and
stabilized production systems.
d. Increase household incomes through strengthening current livelihood strategies, introducing new ones and diversifying sources of
income.
In this context, the purpose of the project would be:
To assist village communities in obtaining tenure on public land or usufructs and initiating strengthening systems of collective
management and governance over land and water, in a contiguous area to draw on the advantages of its ecological and social structure.
To increase the availability of biomass through re-vegetation of the marginal lands and increased availability of surface and ground water
through soil and moisture conservation and retention measures.
To assist communities in effectively integrating animal husbandry, agriculture and natural resources management and in regulating the
demand for biomass and water through rules, regulations and mechanisms evolved by community institutions at village and inter village
levels
Landscape planning and management brings the conservation fully into the rural development discourse by highlighting the importance
of ecosystem services in supporting continued agricultural production. It emphasizes both the need and the opportunity to foster
synergies among conservation, agricultural production, livestock production and rural livelihoods.
To strengthen the village level and meso-level governance of biomass and water resources by village communities, including involvement
of Panchayats in addressing natural resource management along with other initiatives of the Government, Multilateral agencies.
To promote partnerships between the village communities, academia, civil society and district administration that collectively envision,
develop and implement land use plans for the conservation and judicious use of natural resources.
To promote convergence by implementing watershed works in private land through different ongoing development schemes.
Implementation of the project for seven years would result in the following outcome:
Lack of participation makes the implementation of watershed projects very ineffective therefore strong collective management by village
institutions over their landscape, with appropriate tenure arrangements, in contiguous areas in each location. As the setting and level of
discussion in each of the institutions would vary, processes on appropriation and production would be at different levels of maturity and
intensity. However, processes on integration of various components of the ecosystem, an assessment of their status and a proactive course
of action would be evolved by the communities within and across habitations.
The biomass and biodiversity of common lands would be improved, and the availability of surface as well as ground water would be
increased.
Village communities would be moving towards effective integration of animal husbandry, agriculture and natural resources management
and regulating the demand for biomass and water through rules, regulations and mechanisms evolved by them at village and inter village
levels.
Village level and meso-level governance of biomass and water resources by village communities, strengthened along with the
involvement of Panchayats, government, civil society, other agencies etc.
Landscape planning and management engages different actors (scientific experts, professionals and village communities) in an informed,
iterative and participatory planning process. This planning process through understanding alternative future scenarios helps to encourage
informed discussions of alternatives. The discussion leads to a landscape plan that is adaptive in terms of implementation, monitoring
and learning.
7. Area Details:
7.1 Geographical Profile: IWMP – V watershed is Located in BASERI Tehsil of Dholpur Dist . BASERI is situated between 770 15’0”E to 770 45’0” E and 260 20’0” N to
26050’0” N and has an average Eelevation of 250 mts from mean sea level. The Northern boundary is Bhartpur Distt. & U.P.State and on the
East by P.S. Bari , on the South by M.P. State and on the West by Karoli Distt. are surrounded in other sides. Dholpur district falls in the
Chambal (793.00 sq km)
Grassland Ecosystem
Grassland ecosystem is a type of terrestrial ecosystem. Grasslands occupy a comparatively huge stretches of landscape approx. 19.70% of total
geographical area under permanent pastures. These grasslands are at degradation stage of tropical dry deciduous forests. Both types of
grasslands are found in the district. In Dholpur area, Dicanthium-Cenchrus-Lasiurus Grassland is found.
In BASERI the Rainfall ranges between 550-750 mm, which is favorable for the former grassland type, the temperature is also very high. The
average annual Temperature ranges between 29-34c.
Flora &Fauna -
In hilly area, where forest cover is better, Apluda mutica is seen growing in abundance. This is an annual tall grass that can grow under partial
shade up to some extent. Along moist shady streams, Ammonia pentandra, Bergia ammonites, Cyprus rotundas etc grass can be seen.
In the plains, Prosopis juliflora, Acacia nilotica, Azadirecta indica, Acacia lucophloea, Bateau monospermous, Anogeisus pendula and related
species, Date Palm along the drainage lines etc are found in abundance. It is also found that where Prosopis forms the green cover in the project
area, yet acts as a problem for the community as seen to grow profusely along the road sides capturing road and making it difficult to pass by,
also creates problem by blocking the drainage lines.
The primary consumers are the herbivores feeding on grasses comprising mainly of cow, buffalo, sheep, hare, blue-buck, mouse, millipedes,
centipedes, ants, grasshoppers, beetles, babbler, crow, Bulbul, etc. Besides, secondary consumers are those who are feeding on herbivores. They
are hyena, jackal, fox, lizard, snakes, mongoose, etc. Hawks feed on small secondary consumers, thus occupying the tertiary consumers.
Decomposers active in decay of dead organic matter of different life forms are fungi like Mucor, Aspergillus, Penicillium, Cladosporium,
Rhizophus, Fusarium etc., and some bacteria and actinomycetes. They bring about the mineral back to the soil, thus making them available to the
producers.
Pond/Reservoir Ecosystem
A pond as a whole serves a good example of a fresh water ecosystem. BASERI is a drought prone area. Therefore, traditionally,
ponds/reservoirs/water bodies have been developed at many places to meet the water requirement/availability for domestic consumption,
irrigation use as well as livestock drinking during stress period mostly. Coincidentally, these water bodies provide very good aquatic habitats.
Terrestrial animals like migratory birds also find solace for their breeding during winter. These ponds are a self-sufficient and self-regulating
system. They are very rich in basic inorganic and organic compounds, such as water itself, carbon dioxide gas, oxygen gas, calcium, nitrogen,
phosphates, amino acids, humic acid, etc. Some proportions of nutrients are in solution state but most of them are present as stored in particulate
matter as well as in living organisms. Various organisms that constitute the biotic component like Potamogeton, Hydrilla, Vallisneria,
Utricularia, Azolla, Lemna, Oscillatory, Anabaena, Chlamydomonas, Spirula etc. A few insects and both small and large fishes are found in
various ponds or lakes.
Non-perennial River Ecosystem
Major rivers of Dholpur is Chambal River. The river which was perennial 10 years ago has become non-perennial now. Numerous small as well
as large dams have been constructed along the river. Not only this stored water provide water for irrigation and drinking purposes of the
people, the reservoirs act as pond/lake ecosystem as well. Ecologically also, these water systems are very important. Several aquatic life forms
emerge during the period of water-flow, but as soon as they dry up in winter and summer, the aquatic life suddenly disappears. Commonly
occurring life forms are:
As they drive up, the entire tract of their courses glows with the shinning of sands. Large deposits of gravels and pebbles also occur along the
banks. The riverbeds of some of these rivers are predominantly composed of hard rocks, exposed and literally dead. Though some small life
forms occur sporadically where the stagnant water is found along the course.
Cropland Ecosystem
Cropland ecosystems are artificial or man-engineered, where, in order to obtain more food, cloth, timber, medicines and other useful products,
man becomes responsible for the replacement of natural systems. To secure maximum production, man makes much planned manipulations in
the physico-chemical environment. These include addition of fertilizers to soil, use of chemicals for disease control, proper irrigation practices
etc. Thus, a cropland ecosystem is an artificial system aimed primarily to grow a single species of one’s choice. We have ecosystems of dominant
crop species like maize, jowar, wheat, bajra, vegetables, etc. under suitable conditions of their growth and yield. It is generally argued that in a
natural ecosystem, the nature maximizes for gross production, whereas in an artificial ecosystem, man maximizes for net production. In a
cropland ecosystem, there is not necessarily an increase in the total dry matter production of the whole plants, but generally most of the
production goes into grain and less into leaves, stems and roots. Thus, in agriculture, there is an objective to achieve high rate of production (P)
of readily harvestable products with little standing crop (B) left in the field for accumulation or we may say that there is a high P/B efficiency.
Nature, on the other hand, follows just the reverse efficiency, i.e. a high B/P ratio where the standing crop is generally accumulated to its
maximum.
Abiotic Component
These include the climatic conditions such as rainfall, temperature; wind velocity, frost, hail, humidity etc. are suitable for the above
mentioned crops, especially maize.
Biotic Component
The various living organisms in the food chain occur as follows:
o Producers:
The dominant plant species would naturally be Zee Mays, Urad, Jowara and Till. A number of weeds like Cynodon dactylon,
Launnea nudicaulis, Euphorbia hirta, Cyprus rotundas, Digitaria Spp., Alysicarpus spp. also contribute to primary production of
the field.
o Consumers:
Primary consumers are herbivores represented by a variety of animals, big as well as small. The smaller animals include chiefly the
insects as aphids, trips, beetles, etc. which feed and lay their eggs on maize leaves. Larger animals are rabbits, rats, birds and man
feeding on leaves, flowers and fruits of maize.
Secondary consumers are carnivores like frogs and some birds that eat insects.
Tertiary consumers are carnivores like snakes and hawks which feed on the secondary consumers: frog s and small birds.
Decomposers are microbes present in soil as well as air that decompose the dead organic matter of plants and animals. These are
chiefly bacteria, Actinomycetes and fungi responsible for decay, decompositions and humification making the minerals available
again to the producers.
The pattern of interconnectedness among different components of ecosystem:
Every ecosystem comprises of two major components: Abiotic and Biotic. They are intricately inter-twined and dependent on each other, and
ensure a delicate but complex ecological linkage leading to nutritional and energy flow through various trophic levels both within and between
ecosystems. The pattern of inter-connectedness among different components of ecosystems therefore, lies in its explicit recognition of
complexity, interaction, functional processes and change over time. Structurally, different components of ecosystems can be represented as
follows:
Functionally, there is a constant exchange of matter and energy between the physical environment and the living community.
Interdependence of different Ecosystems
Problems faced from regeneration point of view
Laws of wild life that broke food chain.
Repeated drought
Poor natural regeneration.
High rate of Soil erosion by water.
Recycling of nutrient
High biotic pressure.
Shallow soil especially in tableland area.
Impervious basalt strata, poor recharging of underground water table.
Soil compaction due to trampling
Over grazing
High run off due to slope & less vegetation.
Success ional degradation of common land, grass land & forest land.
Problem of weeds, and exotics Prosopis juliflora, Acanthospermum, Xanthium strumarium, Parthenium spp.
Poor condition of grasslands. Presence of grasses of lower serial stages.
Lack of proper management at community as well as govt. levels
Poor water regime at upper strata of soil.
Degradation level of vegetation is a high, old tree of Madhuca indica were harvested nearly two decades back for making lime & Sterculia urens
for gum tapping.
Problems of Grasslands
Private "Grass bids" are common in the area where good quality of fodder grasses occurs. These bids can be used for seed collection for
launching the seed sowing activities.
Problems of Bids are as follows:
Over grazing
Lack of Nitrogen fixing legumes
High run offs
Trampling
Creation of unproductive blanks sporadically due to over grazing
Water borne soil erosion
Food seed production uncontrolled grazing is responsible for poor seed production
Poor regeneration or no regeneration of grasses
Retrogressive succession due to high biotic pressure
Lack of proper input & management practices
Grazing lands and pasturelands are suffering from heavy grazing and trampling. Sparse & flattish tillers of perennial grasses are visible during
winters & summers. Flatness of tiller is an indication of heavy trampling Erectness of grass culms is an evidence of non trampling stage, which is
generally not seen in mat of pastures.
Soil Erosion
Soil of Dholpur is moderately to severely eroded mainly by Rivers and Nallahs, mostly during the rainy months. Besides, stagnation of water has given rise to the problem of salinity and alkalinity.
7.4 Land Use Profile There are mainly 8 types of land use / land cover has been identified from the Land Sat Imageries. The classes are as follows:
1. Kharif Crop Area
2. Rabi Crop Area
3. Double/Tripple agriculture land
4. Current Fallow Land
5. Scrub/Degraded Forest land
6. Other Waste land
7. Scrub Land
8. Water bodies
Total area of proposed watershed is 4725 Ha.
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1 Garha Khoh Sarmathura 4 7 53 86 150 173 23
2 Mugalpura Sarmathura 3 17 65 65 150 210 60
3 Jhiri Jhiri 0 19 314 745 1078 4494 4116
4 Gopalpur Golari 0 4 31 82 117 781 664
5 Jakha Golari 0 5 117 428 550 839 289
6 Golari Golari 0 56 140 284 480 3470 2990
7 Golipura Golari 27 21 23 29 100 188 88
9 Dadroni Domai 3 108 57 82 250 994 744
10 Shitalpura Domai 11 37 87 440 575 1491 916
11 Mallapura Domai 6 20 27 522 575 1207 632
12 Gironiya Domai 0 6 190 504 700 2888 1488
TOTAL 54 300 1104 3267 4725 16735 12010
7.5 Demographic Profile
TOTAL FAMILY
S. No
Block Name
Panchayat Name
Village Name SC ST OBC Minority Others Total
1 BASERI Sarmathura Garha Khoh 23 59 0 0 0 82
2 BASERI Sarmathura Mugalpura 0 72 0 0 0 72
3 BASERI Jhiri Jhiri 81 30 235 40 32 418
4 BASERI Golari Gopalpur 0 0 51 5 15 71
5 BASERI Golari Jakha 0 205 30 0 0 235
6 BASERI Golari Golari 0 0 150 0 6 156
7 BASERI Golari Golipura 0 39 62 0 0 101
8 BASERI Domai Dadroni 68 59 71 9 10 217
9 BASERI Domai Shitalpura 0 70 0 3 0 73
10 BASERI Domai Mallapura 0 0 50 0 2 52
11 BASERI Domai Gironiya 0 16 48 0 0 64
TOTAL 172 550 697 57 65 1541
(Source House Hold Survey)
Population:
The population under the project area is inhabited by different types of communities like Gujjar, Jataw, Meena, Khatik, Jat, Rajputs, Brahmins, Ganrel etc.
S. No
Panchayat Name
Village Name
vf'kf{kr izkFkfed f'k{kk mPp izkFkfed f'k{kk gk;j f'k{kk
Grand Total MAL
E FEMALE
tot. Ili
MALE
FEMALE
T. P MALE
FEMALE
T. UP
MALE
FEMALE
T. H
1 Sarmathura Garha Khoh 147 220 367 68 28 96 58 19 77 17 3 20 560
2 Sarmathura Mugalpura 118 176 294 57 24 81 49 16 65 14 3 17 457
3 Jhiri Jhiri 895 731 1626 374 249 623 325 174 499 88 37 125 2873
4 Golari Gopalpur 167 250 417 65 27 92 56 18 74 16 3 19 602
5 Golari Jakha 336 502 838 185 79 264 159 52 211 44 9 53 1366
6 Golari Golari 282 422 704 105 45 150 90 30 120 25 5 30 1004
Demographic Status
ST, 23.58%
SC, 23.17%
OBC, 53.25%
ST SC OBC
7 Golari Golipura 166 249 415 72 30 102 62 20 82 18 3 21 620
8 Domai Dadroni 320 480 800 178 75 253 152 50 202 42 9 51 1306
9 Domai Shitalpura 145 217 362 65 27 92 56 18 74 16 3 19 547
10 Domai Mallapura 69 102 171 56 24 80 48 16 64 14 2 16 331
11 Domai Gironiya 145 150 295 41 17 58 35 11 46 10 2 12 411
TOTAL 2790 3499 6289 1266 625 1891 1090 424 1514 304 79 383 10077
Literacy: From the above table describing the literacy status in the project area shows that the ratio is high. Male student ratio is higher than girl student ratio.
Connectivity: Most of the villages under the project area have metal roads except for Kota , Jhiri , Malpura village which is very interior with no proper connectivity.
7.6 Livelihood Profile
- Poverty is multi-dimensional; therefore poverty reduction efforts have to be multi-dimensional targets. The solutions have to straddle different
disciplines and encompass economic, social, political and institutional factors. Several attempts were made in the past and continue to be made
even now in prioritizing the areas and develop suitable strategies. Deteriorating natural resource base is affecting the livelihoods of the rural
communities especially of those belonging to the poor and marginalized sections that are mostly dependent on the commons and other fallow
lands for biomass and water.
Families facing chronic food insecurity are caught in a hunger trap. The inadequacy and uncertainty of their food supply make it difficult for
them to take advantage of development opportunities.
Rajasthan is predominantly an agricultural state with a little more than 77 percent of the population living in the rural areas. Agriculture is
the single largest sector in the economy, employing about 69 percent of labor force. Total cultivable area in the state is 257Lakh hectares (1998-
99). The estimated food grain production is 172.961 lakh tonnes. Rajasthan grows both Kharif and Rabi crops but the former is more important
than the latter. The principal crops cultivated in the state are rice, barely, jowar, millet, maize, gram, wheat, oilseeds, pulses, cotton and tobacco.
Other crops are red chilies, mustard, cumin seeds, methi and hing.
With the degrading forest cover and increasing population the water resources are declining sharply in the state. Depleting ground water
resources is affecting the agriculture, which in turn is having adverse impact on rural population. This decline in availability will also have
negative impact on drinking water situation resulting in water borne diseases, and lower level of cleanliness amongst the poor. Cereal
production has long dominated the farming scene in the state of Rajasthan – particularly in the rain fed, drought prone areas. As farmers of these
areas operate under highly uncertain situation food security is the uppermost concern.
Availability of water has strongly conditioned the nature of agriculture and farming practices in various parts of the state. Irrigated areas will
have intensive cropping systems involving two to three crop cycles. Irrigation also favors high input based cash crops such as cotton, oilseeds,
coriander etc. However single crop cycles are dominant in Rajasthan and a second crop is entirely dependent on the sub soil moisture or water
yields in wells and tanks. The farmers in the rain fed areas tend to remain neglected from the provisions of agricultural services.
Kharif is the most important growing season in the project area of Dholpur . Local cereals and pulses are the principal crops during Kharif
together with oilseeds. Major cereals grown during Kharif in different parts of the state include bajra, maize and jowar and a wide variety of
coarse grains. Crop production during Rabi remains mainly limited to such regions where irrigation facilities are well developed. Wheat is the
most important Rabi cereal crop. The other produce in the Rabi season features wheat, gram, mustard, rapeseed and cotton.
The state of Rajasthan is nearly self sufficient in its food grain requirements but due to very harsh climatic conditions moderate to very high
transitory food insecurity can be experienced in one part of the State or other in almost all the years.
Rajasthan evokes a picture of parched and thirsty lands faced with low and often erratic rainfall. This reality brings enormous hardship to the
people. The worst drought years in recent times were 1985- 87 during which rainfall failed for three successive years. Along with crop loss large
scale loss of livestock and deprivation occurred in rural areas during this period.
In Rajasthan the Agricultural Sector is a predominant source of employment. The industrial backwardness is indicated through the share of
Labor force engaged in the sector. The share of agricultural Labor has been increasing. The activities allied to agriculture and non-household
manufacturing not being able to afford full time employment to people is pushing workers into agriculture and other types of Labor, – a sector
that face crisis. Agriculture Labor in areas where it is primarily rain fed or in semi arid and arid areas is very unstable and unsustainable
especially for the Labor and the small and marginal farmers.
In Dholpur dependence on livestock is probably as great as dependence on crops. In times of drought when it is not possible to produce food
grains a household is supported by continued milk and other animal products. Sheep and goat rearing are important in livelihood strategies of
small and marginal landowners as well as the landless. They are a critical element in livelihood for the pastoral transmigrates.
During drought years cows and buffaloes are first to succumb to scarcities. Poor natural grasses, low agricultural residue and scarce water
renders cattle weak and debilitated thus affecting their future generations. The loss of fodder crop also affects the livestock population. The
incidence of livestock loss thus becomes significant when scarcity due to natural disaster is taken into account.
Migration to cities both within the state and outside is very widespread in the state during the period of crisis and under employment. Migration
to cities and towns is usually to employment sectors in mining and quarrying and related work, in construction and in some small trading and
manufacturing.
Looking into the IWMP - V project area, a few of the villages have canal system through which the farmers opt for Rabi cultivation, but the rest
solely depends on Kharif cultivation for their livelihood. Further, it is observed that the farmers are quite ignorant on water use in relation to
irrigation. Flood irrigation is basically practiced for which there is extensive exploitation of ground water as well as surface water.
Livelihood status in BASERI (BASERI - IWMP - V )
TOTAL FAMILY
S. No
Block Name
Panchayat Name
Village Name SC ST OBC Minority Others Total
1 BASERI Sarmathura Garha Khoh 23 59 0 0 0 82
2 BASERI Sarmathura Mugalpura 0 72 0 0 0 72
3 BASERI Jhiri Jhiri 81 30 235 40 32 418
4 BASERI Golari Gopalpur 0 0 51 5 15 71
5 BASERI Golari Jakha 0 205 30 0 0 235
6 BASERI Golari Golari 0 0 150 0 6 156
7 BASERI Golari Golipura 0 39 62 0 0 101
8 BASERI Domai Dadroni 68 59 71 9 10 217
9 BASERI Domai Shitalpura 0 70 0 3 0 73
10 BASERI Domai Mallapura 0 0 50 0 2 52
11 BASERI Domai Gironiya 0 16 48 0 0 64
TOTAL 172 550 697 57 65 1541
Livelihood enhancement plan
S. No
Panchayat
Name Village Name
SMALL FARMERS MARGINAL FARMERS BIG FARMERS
TOTA
L
SC
ST
OB
C
Min
ority
Oth
ers
Tota
l
SC
ST
OB
C
Min
ority
Oth
ers
Tota
l
SC
ST
OB
C
Min
ority
Oth
ers
Tota
l
1 Sarmathura
Garha Khoh 8 19 0 0 0 27 6 15 0 0 0 21 2 7 0 0 0 9 57
2 Sarmathura
Mugalpura 0 23 0 0 0 23 0 18 0 0 0 18 0 10 0 0 0 10 51
3 Jhiri Jhiri 26 10 75 13 11 135 20 8 58 1 8 95 11 3 33 14 3 64 294
4 Golari Gopalpur 0 0 17 2 5 24 0 0 13 2 4 19 0 0 6 -1 1 6 49
5 Golari Jakha 0 66 10 0 0 76 0 52 8 0 0 60 0 27 3 0 0 30 166
6 Golari Golari 0 0 49 0 2 51 0 0 38 1 2 41 0 0 19 -1 0 18 110
7 Golari Golipura 0 13 20 0 0 33 0 10 16 0 0 26 0 4 8 0 0 12 71
8 Domai Dadroni 22 19 23 3 4 71 17 15 18 3 3 56 9 7 9 0 0 25 152
9 Domai Shitalpura 0 23 0 1 0 24 0 18 0 1 0 19 0 8 0 0 0 8 51
10 Domai Mallapura 0 0 17 0 1 18 0 0 13 0 0 13 0 0 5 0 0 5 36
11 Domai Gironiya 0 6 16 0 0 22 0 4 12 0 0 16 0 1 6 0 0 7 45
TOTAL 56 179 227 19 23 504 43 140 176 8 17 384 22 67 89 12 4 194 1082
7. Elements of Work
7.1 Ecologically sound regeneration
While Nature functions as a fairly independent system and could perhaps rejuvenate and reach an equally good state in the long run, the direct
and immediate impact of the degradation of natural systems would decimate several species and severely affect the poor who depend on natural
surroundings for their survival. Moreover the scale and extent of degradation of the natural surroundings and the inadequate attention that such
fundamental concerns receive in development planning brings us face- to-face with a situation where concerted action is necessary to halt and
reverse such trends. We also observe that ecological degradation is mostly caused by social and economic factors necessitating an
interdisciplinary action in safeguarding Nature. A few of the phases of ecological restoration inculcates in ii) assisting village communities in
protecting their forests and grazing lands to enable natural regeneration of the existing rootstock and ii) assessing the stock and flow of biomass,
biodiversity and water across natural and production systems so as to place the relevance of the efforts on regeneration and bring to the table an
informed discussion around the permissible levels of extraction so as to draw strategies for conservation action.
7.2 Institutional mechanism
Good governance has been seen as a panacea to make development efforts meaningful for the citizens - that which enables citizens and
communities to fulfill their lives and destinies, enable people to create sustainable livelihoods for themselves, facilitate the fulfillment of basic
needs, and promote an attitude of self-reliance. Institutional process involve in strengthening, nurturing and reviving of village institutions and
working towards enabling them to gain a sound legal foothold on the natural resources, where it is uncertain or disputed, and where a legal
provision exists.
7.3 Building dialogue and discussion
We know that any progress will require a complex of social, political and economic changes. The challenge ahead is to marry scientific and
technological innovation with a much greater capacity for institutional innovation. Such innovation and change relies to a large extent on the
effectiveness with which a diversity of stakeholders with different interests and from different sectors and scales can interact.
In such a context, there is an increasing recognition that governing a landscape is no longer solely the domain of government. Evidences show
that due to the complexities of socio-economic and political environments government cannot govern forest and nature on its own. The rapid
processes of decentralization and devolution that is taking place around the world indicates the need to shift towards collaborative governance
in which various actors (e.g. governments, local communities, local entrepreneurs and civil society) are expected to co-manage resources such as
forest and nature.
Although multi-stakeholder processes (MSPs) are based on recognising the importance of achieving equity and accountability between
stakeholders, win-win solutions are not always possible. The complexity of issues and stakes, across different levels and timescales, may lead to
a negotiated compromise in which win-lose or even lose-lose solutions have to be accepted. In such situations it is critical to understand the role
of the state as (at least in theory) the protector of the common good for the long-term. Policy makers often find themselves caught between their
public service duties, short-term electoral interests and the splintered interests of different stakeholder groups.
Setting up and facilitating long term processes that bring different groups into constructive engagements, dialogue and decision making towards
good governance of the landscape. Processes that aim to involve stakeholders in
improving situations that affect them; forms of social interaction that enable different individuals and groups, who are affected by an issue, to
enter into dialogue, negotiation, learning, decision making and collective action; about getting government staff, policy makers, community
representatives, scientists, business people and NGO representatives to think and work together.
8. Components of Work
8.1 Capacity Building and Community Mobilization
Training and exposure enhances knowledge, skill, attitude and human relationships. Though, a number of measures had been taken in this
regard, experiences show that the training programmes should aim at (i) strengthening those processes, skills and knowledge that help in the
delivery of various watershed development activities; (ii) improving the quality of watershed management and its governance iii) providing
more number of relevant trainings involving more community participation particularly rural women and; (iv) strengthening the various
habitation level institutions by promoting traditional practices of good governance mechanism of Natural Resources.
8.2 Work on landscape component
8.2.1 Work on arable land
Arable land constitutes 1458 ha of the total project area. The area has minimum slope and is less undulated. The community primarily depends
on agriculture and animal husbandry for sustaining their livelihoods. Discussions with community and intensive survey revealed that these
areas are prone to soil erosion due to runoff, wrong agronomic practices and poor vegetation. As soil depth is moderately low and regular
erosion of valuable top soil has its impact on not only decreasing the productivity levels but also raising the question of sustainability of the most
critical production system.
Presently there is least physical measures to retain soil moisture for longer periods which leads to increasing exploitation of groundwater for
irrigation and for poor farmers frequent crop failures due to lack of water availability at different phases of crop growth.
Work to restore the functionality of this component of landscape will involve not only intensive physical treatment but also regular discussions
and awareness building of the communities to adopt better agronomic practices like rotational cropping, use of green/organic manure, agro-
forestry etc., Focus will be to increase the productivity of each land unit per drop of water which not only help in raising farm incomes both in
terms of food grains and fodder but also leads to sustainable and judicious use of resources.
Physical treatments planned constitute of measures to harvest water which provide soil moisture for longer periods. The physical treatment
measures will also aim to minimize soil erosion under safe levels. Activities planned to address these includes farm ponds, farm bunds and
Masonry check dam keeping in view the parameters like soil depth, slope, vegetation, erodibility and rainfall.
8.2.2 Work on non arable land
These are the most degraded portions in the landscape with very low productivity due to continuous process of soil erosion which has in many
pockets completely removed the soil cover. Lack of any physical treatment measures, very low vegetative cover and prolonged neglect to
effectively manage them, has led to non functionality of this landscape component to provide any substantial goods and services which have
played a critical role in sustaining farming and livestock systems in semi arid conditions. These landscape components also play a critical role in
nutrient and water transfer and have a organic link with private lands. The project will intensively focus on these common and private
wastelands to build spaces for poor who mainly depend on these marginal lands to meet their resource needs. Restoration of these lands will
also aim to strengthen the intricate link these have with the low lying farm lands and strengthen ecological security.
The physical activities planned will address two main components of regeneration and soil and water conservation. However crafting and
strengthening strong institutions which can establish strong governance on these lands will be the key to sustainability of these physical
measures.
Regeneration Activities:
On village grazing lands: the project plans to regenerate 431 ha of Panchayat grazing lands with appropriate mix of trees and grasses.
On revenue lands: The project aims improve the productive capacity of the 271 ha of revenue wastelands which have been subject to acute
degradation.
Efforts would be made to increase the soil moisture regime by appropriate soil and moisture conservation activities such as:
Contour Trenching
Masonry Check Dam
8.2.3 Drainage line treatment
Firstly it is observed that due to minimal slope sheet erosion is very prominent leading to extensive siltasion in the drains. Secondly the
drainage density combined with geological understanding of the area shows a high recharge potential in the area.
The project aims in this context to further enhance the recharge with combination of various physical measures to check water flow and
harvest water. The project also aims to enhance the availability of surface and ground water through the construction of various water
harvesting and recharge structures such as:
Masonry Check Dam
M.M.S. (Minor Masonry Structure)
The structures primarily aim to check runoff, soil erosion and enhance recharge. These structures also have been aimed to serve as structures for
livestock drinking.
8.3 Livelihood promotion activities
Poverty alleviation programme is not an exclusive entity but will necessarily include dynamic nature and integration of range of context specific
interventions. Poverty itself is an abstract phenomenon and requires sensitization of beneficiaries, implementers and the policy workers.
Collective associations will be basis of intervention strategy. Diversification of livelihood alternatives with ecological and social considerations
will be the guiding principle. Skill enhancement will open new opportunities to strengthen the employment options.
Poverty alleviation programmed should closely knit the concurrent context specific realities and then draw a household specific dynamic plan
which can be updated in the subsequent stages, since the intervention requirement will change automatically. The major challenge is poverty
among working people. The poor needs a number of (new) employment opportunities to come out of the poverty.
CHAPTER – I INTRODUCTION
Location.
Dhlopur(IWMP2010-11)-V Project is located in Baseri Block, of Dholpur district. The project area is at a distance of 65 km from its Block head
quarters and 75 Kms from the district head quarters. There are 5415 no. of habitations in the Project area and other details are given below.
1 Average Annual Rainfall(mm)
Year Average Annual Rainfall(mm)
1 2000
358.00
2 2001
618.00
3 2002
283.00
4 2003
575.00
5 2004
907.00
6 2005
420.00
7 2006
621.50
8 2007
560.50
9 2008
532.00
10 2009
387.00
11 2010
636.00 Average Monthly Rainfall
S.No Year Month
Total Average June July August September
1 2000 11.20 278.20 131.20 3.20 423.80 358.00
2 2001 57.20 412.20 249.00 16.00 734.40 618.00
3 2002 45.00 6.20 174.70 13.20 239.10 283.00
4 2003 129.40 173.00 135.60 30.00 468.00 575.00
5 2004 55.20 271.60 599.20 52.40 978.40 907.00
6 2005 38.00 125.80 37.60 179.80 381.20 420.00
7 2006 167.60 290.20 479.40 95.60 1032.80 621.50
8 2007 24.40 272.20 91.20 15.60 403.40 560.50
9 2008 202.40 118.60 138.80 184.00 643.80 532.00
10 2009 20.20 233.00 53.20 0.40 306.80 387.00
11 2010 102.40 104.00 0.00 0.00 206.40 636.00
Total 853.00 2285.00 2089.90 590.20 5818.10 5898.00
3 Temperatue (Degree C)
Season Max Min i) Summer Season 49 34 ii) Winter Season 29 5 iii) Rainy Season 38 17
4 Runoff i) Peak Rate (cum/hr)
ii) Total run off volume of rainy season (ha.m.)
iii) Time of return of maximum flood 5 years 10
years
Last drought In-Year
iv)Periodicity of Drought in village area once twice
5 Sediment Production Rate(SPR)(ha-m/100sq km/year 27 Q/ha /year
6 Slope of Watershed
S.No. Slope percentage Area in hectares Average soil loss
(Tonnes/ ha/ year) 1 0 to 3% 5180 Ha 45
2 3 to 8% 0
3 8 to 25% 0
4 > 25% 0
7 Erosion status in project Area
S.No. Cause Type of erosion Area affected (ha) Run off (mm/ year)
Water erosion
a Sheet 94
b Rill 155 c Gully 4570 Sub-Total 4725 Wind erosion 0 NA Total for project 4725
A. Soil Profile
S.No. Major Soil Classes Area in hectares
1 Fine Loam 650 2 Silt Loam 2980 3 Degraded 1095 Total 4725
B. Soil Depth :
Depth (Cms.) Area in hectares
1 0.00 to 7.50 502 Ha 2 7.50 to 45.00 835 Ha 3 > 45.00 3388 Ha E Soil fertility Status Kg/ha N 127 P 17.9 K 182 Micronutrients PPM
CHAPTER – II Socio economic Features, Problems and Scope
Socio-Economic Parameters 1 Household and Economic Activity
S.No. Description of
Total No.
hosehold
Population in No.
SC ST OTHERS TOTAL
Total No.of.h.h. Members No.of.h.
h. Members No.of.h.h.
Members
No.of.h.h.
Members
1 2 3 4 5a 5b 6a 6b 7a 7b 8a 8b (i) Cultivatours 1023 6864 137 919 416 2791 470 3154 1023 6864
(ii) Dairying 1157 7763 154 1033 469 3147 534 3583 1157 7763
(iii) Landless Agri. Laboures
440 2952 58 389 178 1194 204 1369 440 2952
(iv) BPL 450 3020 60 403 181 1215 209 1402 450 3020
h.h.= house hold Indicate only Households with main occupation in the case of more than one occupation in a Household.
S. No
Gram panchayat Village Gen.
Household Area SC Household Area ST
Household Area OBC Household Area
Total of HH
1 Sarmathura 1. Garha Khoh 0 0 16 3 41 8 0 0 57
2. Mugalpura 0 0 0 0 51 20 0 0 51 2 Jhiri 1. Jhiri 22 1 57 4 21 1 194 13 294 3 Golari 1. Gopalpur 10 1 0 0 0 0 39 3 49 2. Jakha 0 0 0 0 145 4 21 1 166 3. Golari 4 2 0 0 0 0 106 54 110 4. Golipura 0 0 0 0 27 18 44 30 71 4 Domai 1. Dadroni 7 5 48 35 41 30 56 41 152 2. Shitalpura 0 0 0 0 49 46 2 2 51
3. Mallapura 1 1 0 0 0 0 35 25 36 4. Gironiya 0 0 0 0 11 1 34 5 45
Total 44 10 121 42 386 129 531 173 1082
Cattle and Animal Population
S.No. Description of animals Population in No Yield (milk in
lit.) 1 Cows A Indegeneous 605 3025 B Hybrid 312 3744 C Ox 153 0 2 Buffaloes 811 4866 3 Bull 79 0 4 Sheep 224 0 5 Goat 283 141.5 6 Others 167 0
Total 2634 11776.5 Details of infrastructure in the project areas
Parameters Status
(i) No. of villages connected to the main road by an all- weather road 4 No
(ii) No. of villages provided with electricity 12No
(iii) No. of household without access to drinking water
(iv)
No. of educational institutions:
Primary(p)/ Secondary (S)/ Higher Secondary(HS) Vocational institution(VI)
(P) 34 No
(S) 4 No
(HS) 1
(VI) 0
(v) No. of villages with access to Primary Health center 4 No
(vi) No. of villages with access to Veterinary Dispensary 3 No
(vii) No. of villages with access to Post Office 4 No
(viii) No. of villages with access to Banks 2
(ix) No. of villages with access to Markets / mandis 3
(x) No. of villages with access to Agro-industries 0
(xi) Total quantity of surpls millk 4000
(xii) No. of millk collection centers 2 (e.g.union (u)/Society (S)/ Private agency(PA)/ others(O). (U) (S)
2No (PA) (O)
(xiii) No. of villages with access to Anganwadi center 2 No
(xiv) Any other facilities with no. of village (please specify 0
(xv) Nearest KVK Bari (xvi) Coperative society 2 No (xvii) NGOS 0 (xviii
) Credit institutions 0
(i)Bank 1 No (xix) Agro Service center's 0
Institutional arrangements (SLNA,DWDU,PIA,WDT,WC, Secretary) DWDU Details
PIA particulars
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1 2 3
S.No Particulars Details of DWDU
1. PM ,DWDU Sh Uda Ram Rao
2. Address with contact no., website Zila Parishad, Dholpur
3. Telephone 9468553661
4. Fax
5. E-mail [email protected]
1 2 3
S.No Particulars Details of PIA
1. Name of PIA Sh Ramjeet Singh
2. Designation Assistant Engineer
3. Address with contact no., website Panchayat Samiti Baseri
4. Telephone 9414025039
5. Fax -
6. E-mail -
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4 l:Ik eh.kk & lnL; cdjh ikyu xLrhiqjk
5 feJk eh.kk & lnL; cdjh ikyu xLrhiqjk
6 jruh eh.kk & lnL; cdjh ikyu xLrhiqjk
7 fdjuokbZ eh.kk & lnL; cdjh ikyu xLrhiqjk
8 ykyifr eh.kk & lnL; cdjh ikyu xLrhiqjk
9 jkeckbZ eh.kk & lnL; cdjh ikyu eksf<;kiqjk
10 Jh fd'ku eh.kk & lnL; cdjh ikyu eksf<;kiqjk
11 lw[kk rsyh & lnL; cdjh ikyu eksf<;kiqjk
(iv.) Loa; lgk;rk lewg dk uke & flykbZZ dk;Z gsrq lewg dza
la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 ltuokbZ eh.kk & v/;{k flykbZ dk;Z eksf<;kiqjk
2 HkwjksokbZ eh.kk & lfpo flykbZ dk;Z eksf<;kiqjk
3 jkek eh.kk & lnL; flykbZ dk;Z eksf<;kiqjk
4 lwvkokbZ eh.kk & lnL; flykbZ dk;Z eksf<;kiqjk
5 :iokbZ eh.kk & lnL; flykbZ dk;Z eksf<;kiqjk
6 gYdh eh.kk & lnL; flykbZ dk;Z eksf<;kiqjk
7 jkensbZ eh.kk & lnL; flykbZ dk;Z eksf<;kiqjk
8 dykorh eh.kk & lnL; flykbZ dk;Z eksf<;kiqjk
9 _f"kokbZ eh.kk & lnL; flykbZ dk;Z eksf<;kiqjk
10 Hkohrk eh.kk & lnL; flykbZ dk;Z eksf<;kiqjk
11 ekyrh eh.kk & lnL; flykbZ dk;Z udViqjk
v&2 xfrfof/kokj@lewgokj miHkksDrk lewgks dk fooj.k xzke iapk;r ljeFkqjk
(i.) d`f"k Hkwfe miHkksDrk lewg dk uke & d`f"k ;ksX; Hkwfe ij ;wtlZ lewg
dza la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 jkeokbZ eh.kk & v/;{k d`f"k ;ksX; Hkwfe ij ;wtlZ lewg eksf<;kiqjk
2 jkeQy eh.kk & lfpo d`f"k ;ksX; Hkwfe ij ;wtlZ lewg eksf<;kiqjk
3 YgkSjs eh.kk & lnL; d`f"k ;ksX; Hkwfe ij ;wtlZ lewg Mksyjsiqjk
4 gyqdk eh.kk & lnL; d`f"k ;ksX; Hkwfe ij ;wtlZ lewg eksf<;kiqjk
5 egkjktflag eh.kk & lnL; d`f"k ;ksX; Hkwfe ij ;wtlZ lewg Mksyjsiqjk
6 jEik eh.kk & lnL; d`f"k ;ksX; Hkwfe ij ;wtlZ lewg Mksyjsiqjk
7 xksiky tkVo & lnL; d`f"k ;ksX; Hkwfe ij ;wtlZ lewg xnk[kks
8 'kkafr tkVo & lnL; d`f"k ;ksX; Hkwfe ij ;wtlZ lewg xnk[kks
9 jktw eh.kk & lnL; d`f"k ;ksX; Hkwfe ij ;wtlZ lewg udViqjk
10 gqde flag eh.kk & lnL; d`f"k ;ksX; Hkwfe ij ;wtlZ lewg eksf<;kiqjk
(ii.) vd`f"k Hkwfe miHkksDrk lewg dk uke & vd`f"k ;ksX; Hkwfe ij ;wtlZ lewg
dza la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 lw[kk eh.kk & v/;{k vd`f"k ;ksX; Hkwfe ij ;wtlZ lewg udViqjk
2 gksjh yky eh.kk & lfpo vd`f"k ;ksX; Hkwfe ij ;wtlZ lewg ekf<;kiqjk
3 YgkSjs eh.kk & lnL; vd`f"k ;ksX; Hkwfe ij ;wtlZ lewg udViqjk
4 jkeds'k eh.kk & lnL; vd`f"k ;ksX; Hkwfe ij ;wtlZ lewg udViqjk
5 ek;k tkVo & lnL; vd`f"k ;ksX; Hkwfe ij ;wtlZ lewg xnk[kks
6 yTtk tkVo & lnL; vd`f"k ;ksX; Hkwfe ij ;wtlZ lewg xnk[kks
7 ekyrh eh.kk & lnL; vd`f"k ;ksX; Hkwfe ij ;wtlZ lewg udViqjk
8 Hkqus'k eh.kk & lnL; vd`f"k ;ksX; Hkwfe ij ;wtlZ lewg udViqjk
9 eqUuh eh.kk & lnL; vd`f"k ;ksX; Hkwfe ij ;wtlZ lewg udViqjk
10 HkxokunsbZ eh.kk & lnL; vd`f"k ;ksX; Hkwfe ij ;wtlZ lewg udViqjk
11 txnh'k dgkj & lnL; vd`f"k ;ksX; Hkwfe ij ;wtlZ lewg dgkjiqj
(iii.) miHkksDrk lewg dk uke & ukyk mipkj ds fy, lewg
dza la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 gjh eh.kk & v/;{k ukyk mipkj MkSyjs dk iqjk
2 f'kon;ky dgkj & lfpo ukyk mipkj dgkjiqjk
3 ofu;k eh.kk & lnL; ukyk mipkj MkSyjs dk iqjk
4 gqdek eh.kk & lnL; ukyk mipkj MkSyjs dk iqjk
5 iwju dgkj & lnL; ukyk mipkj MkSyjs dk iqjk
6 jEis dgkj & lnL; ukyk mipkj ukxnsu
7 }kfjdk eh.kk & lnL; ukyk mipkj xLrhiqjk
8 yk[ku eh.kk & lnL; ukyk mipkj eksf<;kiqjk
9 eqds'k eh.kk & lnL; ukyk mipkj MkSyjs dk iqjk
10 jkelqrk eh.kk & lnL; ukyk mipkj MkSyjs dk iqjk
(iv.) miHkksDrk lewg dk uke & mRiknu ;wtlZ xqzi lewg
dza la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 jk;flag & v/;{k mRiknu ;wtlZ xqzi lewg udViqjk
2 tynsoh & lfpo mRiknu ;wtlZ xqzi lewg udViqjk
3 :ekyh & lnL; mRiknu ;wtlZ xqzi lewg MkSyjs iqjk
4 dY;ku dgkj & lnL; mRiknu ;wtlZ xqzi lewg ukxnsu
5 nkeksnj dgkj & lnL; mRiknu ;wtlZ xqzi lewg dgkjiqjk
6 dykorh dgkj & lnL; mRiknu ;wtlZ xqzi lewg dgkjiqjk
7 ia[kh eh.kk & lnL; mRiknu ;wtlZ xqzi lewg xLrhiqjk
8 :iflag eh.kk & lnL; mRiknu ;wtlZ xqzi lewg xLrhiqjk
9 jkefuokl tkVo & lnL; mRiknu ;wtlZ xqzi lewg xLrhiqjk
10 dykorh eh.kk & lnL; mRiknu ;wtlZ xqzi lewg xLrhiqjk
11 lUrks dgkj & lnL; mRiknu ;wtlZ xqzi lewg ukxnsu
v&2 xzke iapk;rokj] ljiap lfpo dk fooj.k
dza
la- xzke iapk;r dk uke ljiap dk uke lfpo@xzke lsod dk uke
1 MksebZ foeyk nsoh eh.kk Jh gkfde flag eh.kk
v&3 ,dhd`r tyxzg.k izc/kau ;kstuk & MksebZ
(i.) xzke lHkk dh fnukad & 24-02-2011
v&4 I. W. M. P. gsrq MksebZ iapk;r dh tyxzg.k milfefr dk fooj.k
dza
la- lnL; dk uke in xzke
1 Jh jkethr flag lgk;d vfHk;Urk ia- l- & clsMh
2 nsosUnz flag @ yk[ku flag lfpo f[kMkSjk
3 egs'k dksyh @ uFkqvk dksyh lnL; MksebZ
4 pesyh @ jktjke dksyh lnL; MksebZ
5 pkSFkhokbZ @ jkeQwy eh.kk lnL; MksebZ
6 egs'k 'kekZ @ izlknh 'kekZ lnL; MksebZ
7 ykyflag xwtZj @ [kwok xwtZj lnL; MksebZ
8 ckcw iztkifr@euhjke iztkifr lnL; MksebZ
9 euhjke @ gjsr eh.kk lnL; MksebZ
10 ykyflag @ fxYyw lnL; MksebZ
11 eqjkjh xkSM @ Jh/kj xkSM lnL; MksebZ
12 ckcw@fpjksth esgrj lnL; MksebZ
13 mfeZyk @ izgykn jktiwr lnL; MksebZ
v & 1 xfrfof/kokj@lewgokj Loa; lgk;rk lewgks dk fooj.k
(i.) Loa; lgk;rk lewg dk uke & VSUV ds fy, Loa; lgk;rk lewg dza
la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 ckcw @ Jhyky & v/;{k VSUV ds fy, Loa; lgk;rk lewg MksebZ
2 jkechj @ ekaxh & lfpo VSUV ds fy, Loa; lgk;rk lewg MksebZ
3 yYyw @ cq)k & lnL; VSUV ds fy, Loa; lgk;rk lewg MksebZ
4 egkjktflag @ Jhiky & lnL; VSUV ds fy, Loa; lgk;rk lewg MksebZ
5 fdYdh @ pgqvk & lnL; VSUV ds fy, Loa; lgk;rk lewg MksebZ
6 Hkxoku flag @ xksVs & lnL; VSUV ds fy, Loa; lgk;rk lewg MksebZ
7 eqUuk @ cz)k & lnL; VSUV ds fy, Loa; lgk;rk lewg MksebZ
8 dey flag @ eksrh & lnL; VSUV ds fy, Loa; lgk;rk lewg MksebZ
9 jkefuokl @ jkepju & lnL; VSUV ds fy, Loa; lgk;rk lewg MksebZ
10 nkSth @ Jhyky & lnL; VSUV ds fy, Loa; lgk;rk lewg MksebZ
11 ckcwyky @ nsohyky & lnL; VSUV ds fy, Loa; lgk;rk lewg MksebZ
12 xksfoUnk @ gfjiky & lnL; VSUV ds fy, Loa; lgk;rk lewg MksebZ
(ii.) Loa; lgk;rk lewg dk uke & HksM cdjh ikyu gsrq Loa; lgk;rk lewg dza
la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 esgnh@cq)q & v/;{k HksM cdjh ikyu MksebZ
2 xksVs @ eqjyh & lfpo HksM cdjh ikyu MksebZ
3 eqUuh @xaxkjke & lnL; HksM cdjh ikyu MksebZ
4 jk/kk @ eqds'k & lnL; HksM cdjh ikyu MksebZ
5 jkejrh @ jkefoykl & lnL; HksM cdjh ikyu MksebZ
6 izseckbZ @ Jh/kj & lnL; HksM cdjh ikyu MksebZ
7 vk'kknsoh @ fo".kq & lnL; HksM cdjh ikyu MksebZ
8 pesyh @ jkeizlkn & lnL; HksM cdjh ikyu MksebZ
9 deyk @ jrhjke & lnL; HksM cdjh ikyu MksebZ
10 panfu;k @ jkef[kykMh & lnL; HksM cdjh ikyu MksebZ
11 fdUrh @ ekaxh & lnL; HksM cdjh ikyu MksebZ
12 jkeorh @ 'kadj & lnL; HksM cdjh ikyu MksebZ
(iii.) Loa; lgk;rk lewg dk uke & nqX/k mRiknu gsrq Loa; lgk;rk lewg dza
la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 iUrks @ yksgfj;k & v/;{k nqX/k mRiknu 'khryiqjk
2 jE/kks @ jkeQwy & lfpo nqX/k mRiknu 'khryiqjk
3 jk/kk @ egkjkt & lnL; nqX/k mRiknu 'khryiqjk
4 pjuokbZ @ /kU/kh & lnL; nqX/k mRiknu 'khryiqjk
5 Hkaojks @ opu flag & lnL; nqX/k mRiknu 'khryiqjk
6 jke Hkxorh@ fd'ku & lnL; nqX/k mRiknu 'khryiqjk
7 eqUuh @ jkeckcw & lnL; nqX/k mRiknu 'khryiqjk
8 jEih @ jkelgk; & lnL; nqX/k mRiknu 'khryiqjk
9 enu @ f'kopju & lnL; nqX/k mRiknu 'khryiqjk
10 eqUuh @ Hkksxh & lnL; nqX/k mRiknu 'khryiqjk
11 dyk @ lqxzhe & lnL; nqX/k mRiknu 'khryiqjk
(iv.) Loa; lgk;rk lewg dk uke & eqxhZ ikyu gsrq Loa; lgk;rk lewg dza
la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 fxjkZt @ uFkqvk & v/;{k eqxhZ ikyu gsrq Loa; lgk;rk
lewg MksebZ
2 egs'k @ uFkqvk & lfpo eqxhZ ikyu gsrq Loa; lgk;rk
lewg MksebZ
3 ckcw @ euhjke iztkifr & lnL; eqxhZ ikyu gsrq Loa; lgk;rk
lewg MksebZ
4 jktsUnz @ Hkks: & lnL; eqxhZ ikyu gsrq Loa; lgk;rk
lewg MksebZ
5 jkechj @ jktkjke & lnL; eqxhZ ikyu gsrq Loa; lgk;rk
lewg MksebZ
6 pkSF;k @ fcgkjh tkVo & lnL; eqxhZ ikyu gsrq Loa; lgk;rk
lewg MksebZ
7 dYyk @ lqxzho & lnL; eqxhZ ikyu gsrq Loa; lgk;rk
lewg MksebZ
8 cRrks @ cEek esgrj & lnL; eqxhZ ikyu gsrq Loa; lgk;rk
lewg MksebZ
9 fuOoks @ jes'k & lnL; eqxhZ ikyu gsrq Loa; lgk;rk
lewg MksebZ
10 pesyh @ jrhjke dksyh & lnL; eqxhZ ikyu gsrq Loa; lgk;rk
lewg MksebZ
11 eqUuh @ Bkdqjnkl & lnL; eqxhZ ikyu gsrq Loa; lgk;rk
lewg MksebZ
12 jkes'oj @ eqdUnk & lnL; eqxhZ ikyu gsrq Loa; lgk;rk
lewg MksebZ
(v.) Loa; lgk;rk lewg dk uke & lwvj ikyu gsrq Loa; lgk;rk lewg dza
la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 jkechj @ cEok & v/;{k lwvj ikyu gsrq Loa; lgk;rk
lewg MksebZ
2 dkyhpj.k @ [kwoh & lfpo lwvj ikyu gsrq Loa; lgk;rk
lewg MksebZ
3 jes'k @ fpjUth & lnL; lwvj ikyu gsrq Loa; lgk;rk
lewg MksebZ
4 fuOoks @ jes'k & lnL; lwvj ikyu gsrq Loa; lgk;rk
lewg MksebZ
5 xhrk @ ckcw & lnL; lwvj ikyu gsrq Loa; lgk;rk
lewg MksebZ
6 cRrks @ cEek & lnL; lwvj ikyu gsrq Loa; lgk;rk
lewg MksebZ
7 jeth @ [kwoh & lnL; lwvj ikyu gsrq Loa; lgk;rk
lewg MksebZ
8 lqjs'k @ [kwch & lnL; lwvj ikyu gsrq Loa; lgk;rk
lewg MksebZ
9 jXxks @ jeth & lnL; lwvj ikyu gsrq Loa; lgk;rk
lewg MksebZ
10 ckWch @ [kwch & lnL; lwvj ikyu gsrq Loa; lgk;rk
lewg MksebZ
11 fxjkZt @ uFkqvk & lnL; lwvj ikyu gsrq Loa; lgk;rk
lewg MksebZ
12 v'kQhZ @ jeth & lnL; lwvj ikyu gsrq Loa; lgk;rk
lewg MksebZ
v&2 xfrfof/kokj@lewgokj miHkksDrk lewgks dk fooj.k xzke iapk;r MksebZ
(i.) d`f"k Hkwfe miHkksDrk lewg dk uke & d`f"k ;ksX; Hkwfe ij ;wtlZ lewg dza
la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 gkfde flag @fuYyks eh.kk & v?;{k dzf"k ;ksX; Hkwfe ij ;wtlZ lewg clariqjk
2 jrhjke @fpjath & lfpo dzf"k ;ksX; Hkwfe ij ;wtlZ lewg clariqjk
3 jktsUnz @ Hkks: &lnL; dzf"k ;ksX; Hkwfe ij ;wtlZ lewg clariqjk
4 dSyklh @pUVs & lnL; dzf"k ;ksX; Hkwfe ij ;wtlZ lewg clariqjk
5 dkyw @jkeHktu eh.kk &lnL; dzf"k ;ksX; Hkwfe ij ;wtlZ lewg clariqjk
6 egkjktflag @jkeQwy eh.kk &lnL; dzf"k ;ksX; Hkwfe ij ;wtlZ lewg clariqjk
7 vkseh @[kwok xqtZj &lnL; dzf"k ;ksX; Hkwfe ij ;wtlZ lewg clariqjk
8 jks'ku @xtir &lnL; dzf"k ;ksX; Hkwfe ij ;wtlZ lewg clariqjk
9 lqvk @ekuiky &lnL; dzf"k ;ksX; Hkwfe ij ;wtlZ lewg clariqjk
10 cUdw @eaxy &lnL; dzf"k ;ksX; Hkwfe ij ;wtlZ lewg clariqjk
11 jkeohj @ dSyklh & lnL; dzf"k ;ksX; Hkwfe ij ;wtlZ lewg clariqjk
12 dSyklh @jkegsr & lnL; dzf"k ;ksX; Hkwfe ij ;wtlZ lewg clariqjk
(ii.) vd`f"k Hkwfe miHkksDrk lewg dk uke & vd`f"k ;ksX; Hkwfe ij ;wtlZ xzqi lewg dza
la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 prqjk @fxj/kj xqtZj & v?;{k vdzf"k ;ksX; Hkwfe ij dk;Z eYyiqjk
2 cuckjh @izlknh &lfpo vdzf"k ;ksX; Hkwfe ij dk;Z MksebZ
3 vk'kk@fo".kq & lnL; vdzf"k ;ksX; Hkwfe ij dk;Z MksebZ
4 jkensbZ @ lksuiky &lnL; vdzf"k ;ksX; Hkwfe ij dk;Z MksebZ
5 jkenkl @ ekxhjke & lnL; vdzf"k ;ksX; Hkwfe ij dk;Z xksfoaniqjk
6 jkeHktu @';ke eh.kk & lnL; vdzf"k ;ksX; Hkwfe ij dk;Z lhryiqjk
7 jktdqekjh @eksgu eh.kk & lnL; vdzf"k ;ksX; Hkwfe ij dk;Z clariqjk
8 xksiky @ jkeHktu vdzf"k ;ksX; Hkwfe ij dk;Z xzkex<h
9 jkefuokl @cPpw eh.kk & lnL; vdzf"k ;ksX; Hkwfe ij dk;Z xzkex<h
10 ckcw @ dyqvk & lnL; vdzf"k ;ksX; Hkwfe ij dk;Z clariqjk
11 jkelgk; @ 'adj eh.kk & lnL; vdzf"k ;ksX; Hkwfe ij dk;Z MksebZ
12 jkedqekj @Jhifr eh.kk & lnL; vdzf"k ;ksX; Hkwfe ij dk;Z ujk;uiqjk
¼iii½ miHkksDrk lewg dk uke &;wtlZ xzqi Mszust yk;u V+hVesUV esa dk;Z
dza
la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 j.kthr @ jrhjke eh.kk & v?;{k Mszust yk;u V+hVesUV esa dk;Z clariqjk
2 yk[ku @fxYyksjke eh.kk & lfpo Mszust yk;u V+hVesUV esa dk;Z clariqjk
3 jkedyk @ yk[ku eh.kk & lnL; Mszust yk;u V+hVesUV esa dk;Z clariqjk
4 Hkwjk @ f'k;kjke eh.kk & lnL; Mszust yk;u V+hVesUV esa dk;Z clariqjk
5 gkfde @ eqdqV flag eh.kk & lnL; Mszust yk;u V+hVesUV esa dk;Z MksebZ
6 lqxzho @Ygksjs eh.kk & lnL; Mszust yk;u V+hVesUV esa dk;Z MksebZ
7 ek;k @ jkefuokl & lnL; Mszust yk;u V+hVesUV esa dk;Z MksebZ
8 vrjflag @ izlknh & lnL; Mszust yk;u V+hVesUV esa dk;Z xksfoaniqjk
9 jkeQwy @ gjukjk;u & lnL; Mszust yk;u V+hVesUV esa dk;Z lhryiqjk
10 dY;ku @enu & lnL; Mszust yk;u V+hVesUV esa dk;Z clariqjk
11 yYyw @cq?nk & lnL; Mszust yk;u V+hVesUV esa dk;Z xzkex<h
12 jkef[kykMh @ eqdUnk & lnL; Mszust yk;u V+hVesUV esa dk;Z xzkex<h
(iv.) miHkksDrk lewg dk uke & ;wtlZ xzqi lkeqnkf;d laxBu dza
la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 txnhl @ HkkS# & v?;{k ;wtlZ xzqi lkeqnkf;d laxBu eYyiqjk
2 jkeohj @ jktkjke dksyh & lfpo ;wtlZ xzqi lkeqnkf;d laxBu MksebZ
3 jkeosVh @ vkseh & lnL; ;wtlZ xzqi lkeqnkf;d laxBu MksebZ
4 esanh @ cq?nw & lnL; ;wtlZ xzqi lkeqnkf;d laxBu MksebZ
5 xhrk @ ckcw & lnL; ;wtlZ xzqi lkeqnkf;d laxBu xksfoaniqjk
6 jktw @ ijlknh & lnL; ;wtlZ xzqi lkeqnkf;d laxBu xksfoaniqjk
7 js[kk @cuckjh & lnL; ;wtlZ xzqi lkeqnkf;d laxBu lhryiqjk
8 oSdqUVh @ ijlknh & lnL; ;wtlZ xzqi lkeqnkf;d laxBu clariqjk
9 nsohizlkn @ jkeHktu & lnL; ;wtlZ xzqi lkeqnkf;d laxBu xzkex<h
10 ek[ku @ nkSthjke & lnL; ;wtlZ xzqi lkeqnkf;d laxBu xzkex<h
11 fxjkZt @ uFkqvk & lnL; ;wtlZ xzqi lkeqnkf;d laxBu MksebZ
12 gjn;ky @ mns & lnL; ;wtlZ xzqi lkeqnkf;d laxBu MksebZ
v&3 ,dhd`r tyxzg.k izc/kau ;kstuk & xksykjh
(i.) xzke lHkk dh fnukad &10/03/2011
v&4 I. W. M. P. gsrq xksykjh iapk;r dh tyxzg.k milfefr dk fooj.k
dza
la- lnL; dk uke in xzke
1 Jh jkethr flag lgk;d vfHk;Urk ia- l- & clsMh
2 jkeds'k @ ukjk;.kflag eh.kk lfpo xkSykjh
3 Jhefr jkejrh @txUukFk tkVo lnL; xkSykjh
4 Jhefr jkedyh @ fdjksMh lnL; xkSykjh
5 jkeohj @ukjk;.kflag eh.kk lnL; xkSykjh
6 xksiky @ izHkw eh.kk lnL; xkSykjh
7 jktohj @ jkes'oj eh.kk lnL; xkSykjh
8 egkohj @ eU;k xqtZj lnL; xkSykjh
9 jk/ks';ke @ dIrku xqtZj lnL; xkSykjh
10 jkepju @ ckcwjke xqtZj lnL; xkSykjh
11 jkeohj @ vtqZu xqtZj lnL; xkSykjh
12 dIrku @ Ygksjs xqtZj lnL; xkSykjh
(i.) Loa; lgk;rk lewg dk uke & VSUV ds fy, Loa; lgk;rk lewg dza
la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 xks/kk @ jks'ku & v/;{k VSUV ds fy, Loa; lgk;rk lewg xkSyhiqjk
2 uSuh @ gyqds & lfpo VSUV ds fy, Loa; lgk;rk lewg xkSyhiqjk
3 lquhrk @ yTtkjke & lnL; VSUV ds fy, Loa; lgk;rk lewg xkSyhiqjk
4 irwdh @ txnh'k & lnL; VSUV ds fy, Loa; lgk;rk lewg xkSyhiqjk
5 larks"k @ lwos & lnL; VSUV ds fy, Loa; lgk;rk lewg xkSyhiqjk
6 lkSekSrh @ jkethyky & lnL; VSUV ds fy, Loa; lgk;rk lewg xkSyhiqjk
7 foeyk @ iszeflag & lnL; VSUV ds fy, Loa; lgk;rk lewg xkSyhiqjk
8 eersl @ odhy & lnL; VSUV ds fy, Loa; lgk;rk lewg xkSyhiqjk
9 fojeknsoh @ jkey[ku & lnL; VSUV ds fy, Loa; lgk;rk lewg tkjkSyk
10 egSUnzdkSj @ f'koflag & lnL; VSUV ds fy, Loa; lgk;rk lewg tkjkSyk
11 jkejrh @ fo/;kjke & lnL; VSUV ds fy, Loa; lgk;rk lewg tkjkSyk
12 jkeflag @ dksdk & lnL; VSUV ds fy, Loa; lgk;rk lewg tkjkSyk
(ii.) Loa; lgk;rk lewg dk uke & eqxhZ ikyu gsrq Loa; lgk;rk lewg dza
la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 foeys'k @ f'koflag & v/;{k eqxhZ ikyu tkjkSyk
2 dEiwjh @ jkeohj flag & lfpo eqxhZ ikyu tkjkSyk
3 'kkUrh nsoh @ HkSajksflag & lnL; eqxhZ ikyu tkjkSyk
4 jfo;k @ cCcw [kak & lnL; eqxhZ ikyu tkjkSyk
5 mfeZyk @ /keZflag & lnL; eqxhZ ikyu tkjkSyk
6 lfork @ yybZ & lnL; eqxhZ ikyu tkjkSyk
7 cMh @ fljeksgj & lnL; eqxhZ ikyu tkjkSyk
8 xqekuflag @ ewykjke & lnL; eqxhZ ikyu tkjkSyk
9 fd'kunsbz @ fpEeuyky & lnL; eqxhZ ikyu tkjkSyk
10 js'kks [kka @ tXxs [kka & lnL; eqxhZ ikyu tkjkSyk
11 tunsoh @ I;kjs & lnL; eqxhZ ikyu tkjkSyk
12 eqUuh @ gkfde & lnL; eqxhZ ikyu tkjkSyk
(iii.) Loa; lgk;rk lewg dk uke & nqX/k mRiknu gsrq Loa; lgk;rk lewg dza
la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 xhrk nsoh @ jeqth &v/;{k nqX/k mRiknu tkjkSyk
2 jkensoh @ nwYgsjke &lfpo nqX/k mRiknu tkjkSyk
3 JhokbZ @ xksiky & lnL; nqX/k mRiknu tkjkSyk
4 vkseorh @ eqUukyky & lnL; nqX/k mRiknu tkjkSyk
5 ehjk @ jeqth & lnL; nqX/k mRiknu tkjkSyk
6 eaxfy;k @ dIrku & lnL; nqX/k mRiknu tkjkSyk
7 ehjk @lqYrku & lnL; nqX/k mRiknu xkSykjh
8 lquhrk @ jkenhu eqlyeku & lnL; nqX/k mRiknu xkSykjh
9 gfjI;kjh @ jktkjke & lnL; nqX/k mRiknu xkSykjh
10 ek;knsoh @ vukjflag & lnL; nqX/k mRiknu xkSykjh
11 jkenqykjk @ jken;ky & lnL; nqX/k mRiknu xkSykjh
12 jk/kk @ vorkj & lnL; nqX/k mRiknu xkSykjh
(iv.) Loa; lgk;rk lewg dk uke & flykbZ]d<+kbZ ,oa cqukbZ gsrq Loa; lgk;rk lewg dza
la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 deys'k @ y{e.k & v/;{k flykbZ]d<+kbZ ,oa cqukbZ xkSyhiqjk
2 eerk @ eqUuh & lfpo flykbZ]d<+kbZ ,oa cqukbZ xkSyhiqjk
3 lUrks @ thrsUnz &lnL; flykbZ]d<+kbZ ,oa cqukbZ xkSyhiqjk
4 yhyk @ NksVw &lnL; flykbZ]d<+kbZ ,oa cqukbZ xkSyhiqjk
5 isze @ cPNw & lnL; flykbZ]d<+kbZ ,oa cqukbZ xkSyhiqjk
6 Jherh @ Egks# 7 lnL; flykbZ]d<+kbZ ,oa cqukbZ tkjkSyk
7 lksuokbZ @ Hkqtoy & lnL; flykbZ]d<+kbZ ,oa cqukbZ tkjkSyk
8 HkkSrh @ nwYgsjke & lnL; flykbZ]d<+kbZ ,oa cqukbZ tkjkSyk
9 tudJh @ vkSrkj & lnL; flykbZ]d<+kbZ ,oa cqukbZ tkjkSyk
10 lquhrk @ gjh & lnL; flykbZ]d<+kbZ ,oa cqukbZ tkjkSyk
11 tequk @ jkefd'ku & lnL; flykbZ]d<+kbZ ,oa cqukbZ tkjkSyk
12 yhykorh @ gyqds & lnL; flykbZ]d<+kbZ ,oa cqukbZ tkjkSyk
(i.) d`f"k Hkwfe miHkksDrk lewg dk uke & d`f"k ;ksX; Hkwfe ij ;wtlZ lewg dza
la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 jkenkl @ d`f"k ;ksX; Hkwfe ij ;wtlZ lewg xkSykjh
2 dY;ku flag @ pUnuflag xqtZj & lfpo d`f"k ;ksX; Hkwfe ij ;wtlZ lewg xkSykjh
3 jkes'oj @ ihre tkVo & lnL; d`f"k ;ksX; Hkwfe ij ;wtlZ lewg xkSykjh
4 xksjk @ cuSflag tkVo & lnL; d`f"k ;ksX; Hkwfe ij ;wtlZ lewg xkSykjh
5 foeys'k @ ljuke xqtZj & lnL; d`f"k ;ksX; Hkwfe ij ;wtlZ lewg xkSykjh
6 gfjifr @ tjnku xqtZj & lnL; d`f"k ;ksX; Hkwfe ij ;wtlZ lewg xkSykjh
7 jktsUnz @ iUuk & lnL; d`f"k ;ksX; Hkwfe ij ;wtlZ lewg xkSykjh
8 fo/;kjke @ dUgS;k & lnL; d`f"k ;ksX; Hkwfe ij ;wtlZ lewg xkSykjh
9 dSyklh @ eaxyk ukbZ & lnL; d`f"k ;ksX; Hkwfe ij ;wtlZ lewg xkSykjh
10 Jh;k @ fo".kq xqtZj & lnL; d`f"k ;ksX; Hkwfe ij ;wtlZ lewg xkSykjh
11 eqUuk @ iksFkh xqtZj & lnL; d`f"k ;ksX; Hkwfe ij ;wtlZ lewg xkSykjh
12 ikuokbZ @ HkkS# xqtZj & lnL; d`f"k ;ksX; Hkwfe ij ;wtlZ lewg xkSykjh
(ii.) vd`f"k Hkwfe miHkksDrk lewg dk uke & vd`f"k ;ksX; Hkwfe ij ;wtlZ xzqi lewg dza
la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 jkes'oj @ panu xqtZj & v/;{k vd`f"k ;ksX; Hkwfe ij ;wtlZ tkjkSyk
2 cYyw @ xksiky xqtZj & lfpo vd`f"k ;ksX; Hkwfe ij ;wtlZ tkjkSyk
3 /keZflag @ Hkowrh tkVo & lnL; vd`f"k ;ksX; Hkwfe ij ;wtlZ tkjkSyk
4 egsUnz @ tkfye tkVo & lnL; vd`f"k ;ksX; Hkwfe ij ;wtlZ tkjkSyk
5 jkefuokl @ eu#i eh.kk & lnL; vd`f"k ;ksX; Hkwfe ij ;wtlZ xkSykjh
6 xksnk @ dIrku xqtZj & lnL; vd`f"k ;ksX; Hkwfe ij ;wtlZ xkSykjh
7 ykyk @ NksVs xqtZj & lnL; vd`f"k ;ksX; Hkwfe ij ;wtlZ xkSykjh
8 f'konsbZ @ ljnkj flag & lnL; vd`f"k ;ksX; Hkwfe ij ;wtlZ xkSykjh
9 jktohj @ cMh xqtZj & lnL; vd`f"k ;ksX; Hkwfe ij ;wtlZ xkSykjh
10 y{e.k @ Ygksjs xqtZj & lnL; vd`f"k ;ksX; Hkwfe ij ;wtlZ xkSykjh
11 dYyk @ iUuk xqtZj & lnL; vd`f"k ;ksX; Hkwfe ij ;wtlZ xkSykjh
12 equs'kokbzZ @ jkeohj eh.kk & lnL; vd`f"k ;ksX; Hkwfe ij ;wtlZ xkSykjh
¼iii½ miHkksDrk lewg dk uke &ukyk mipkj dk;Z
dza
la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 vksnkjke @ ';keflag xqtZj & v/;{k ukyk mipkj dk;Z tkjkSyk
2 uhrs'k @ gCcw xqtZj & lfpo ukyk mipkj dk;Z tkjkSyk
3 iszeflag @ ghjkflag tkVo & lnL; ukyk mipkj dk;Z tkjkSyk
4 xqMMh @ jkefuokl xqtZj & lnL; ukyk mipkj dk;Z tkjkSyk
5 y{e.k @ cnzh xqtZj & lnL; ukyk mipkj dk;Z tkjkSyk
6 gfj;k @ jken;ky xqtZj & lnL; ukyk mipkj dk;Z tkjkSyk
7 fnydkSj @ lqYrku xqtZj & lnL; ukyk mipkj dk;Z tkjkSyk
8 iszeorh @ Jhyky xqtZj & lnL; ukyk mipkj dk;Z tkjkSyk
9 eqUuk @ iksFkh eh.kk & lnL; ukyk mipkj dk;Z xkSykjh
10 jes'k @ ykykjke eh.kk & lnL; ukyk mipkj dk;Z xkSykjh
11 ykyifr @ xaxk/kj eh.kk & lnL; ukyk mipkj dk;Z xkSykjh
12 Jh/kj @ jruflag xqtZj & lnL; ukyk mipkj dk;Z xkSykjh
(iv.) miHkksDrk lewg dk uke & ;wtlZ xzqi lkeqnkf;d laxBu dza
la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 JhHkku @ fpEeu xqtZj & v/;{k ;wtlZ xzqi lkeqnkf;d laxBu xkSyhiqjk
2 vkSrkj @ iksFkh eh.kk & lfpo ;wtlZ xzqi lkeqnkf;d laxBu xkSyhiqjk
3 xhrk @ cuckjh eh.kk & lnL; ;wtlZ xzqi lkeqnkf;d laxBu xkSyhiqjk
4 f'konsbZ @ cnzh xqtZj & lnL; ;wtlZ xzqi lkeqnkf;d laxBu xkSyhiqjk
5 lhek @ jkeohj xqtZj & lnL; ;wtlZ xzqi lkeqnkf;d laxBu xkSyhiqjk
6 ek;k @ ykyifr eh.kk & lnL; ;wtlZ xzqi lkeqnkf;d laxBu xkSyhiqjk
7 egs'k @ lquhrk eh.kk & lnL; ;wtlZ xzqi lkeqnkf;d laxBu xkSyhiqjk
8 jkts'k @ jktu tkVo & lnL; ;wtlZ xzqi lkeqnkf;d laxBu xkSyhiqjk
9 HkxokunsbZ @ eqjkjh tkVo & lnL; ;wtlZ xzqi lkeqnkf;d laxBu xkSyhiqjk
10 cuSflag @ Jh/kj xqtZj & lnL; ;wtlZ xzqi lkeqnkf;d laxBu xkSyhiqjk
11 HkSajksyky @ Hkqtcy eh.kk & lnL; ;wtlZ xzqi lkeqnkf;d laxBu xkSyhiqjk
12 egs'k @ jkethyky eh.kk & lnL; ;wtlZ xzqi lkeqnkf;d laxBu xkSyhiqjk
v&2 xzke iapk;rokj] ljiap lfpo dk fooj.k
dza
la-
xzke iapk;r dk
uke ljiap dk uke lfpo@xzke lsod dk uke
1 f>jh jkethyky eh.kk Jh jkeckcw
v&3 ,dhd`r tyxzg.k izc/kau ;kstuk & f>jh
(i.) xzke lHkk dh fnukad &01/05/2011
v&4 I. W. M. P. gsrq f>jh iapk;r dh tyxzg.k milfefr dk fooj.k
dza
la- lnL; dk uke in xzke
1 Jh jkethr flag lgk;d vfHk;Urk ia- l- & clsMh
2 latw flag tknksu @ ukjk;uflag lfpo f>jh
3 ihre @ Hkksxhjke lnL; tkjkSyk
4 Jhyky @ewyk lnL; tkjkSyk
5 vejflag @ eksguyky lnL; tkjkSyk
6 NqVVu @ Jhyky eh.kk lnL; tkjkSyk
7 vuqjk/kk @ fuosZ'k lnL; tkjkSyk
8 jktw @ jkeoju lnL; tkjkSyk
9 vuwi @ nhoku lnL; tkjkSyk
10 eqds'k @ panu lnL; tkjkSyk
11 bUnzthr @ dapuflag lnL; tkjkSyk
12 m"kk @ lnL; tkjkSyk
(i.) Loa; lgk;rk lewg dk uke & HkSal ikyu
dza
la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 lqeu nsoh @ ekuflag & v/;{k HkSal ikyu f>jh
2 iwrknsoh @ ikuflag & lfpo HkSal ikyu f>jh
3 iq"ik @ cztjktflag & lnL; HkSal ikyu f>jh
4 dqlqe @ gkfde flag & lnL; HkSal ikyu f>jh
5 eUuh @ cgknqj & lnL; HkSal ikyu f>jh
6 jk/kk @ nsohpju & lnL; HkSal ikyu f>jh
7 #def.k @ ekrknhu & lnL; HkSal ikyu f>jh
8 eqUuhnsoh @ ukjk;.k flag & lnL; HkSal ikyu f>jh
9 ehuwnsoh @ izgykn & lnL; HkSal ikyu f>jh
10 lqeu @ /keZflag & lnL; HkSal ikyu f>jh
11 jkelusgh @ jk?kosUnz & lnL; HkSal ikyu f>jh
12 oknkeh @ jken;ky & lnL; HkSal ikyu f>jh
(ii.) Loa; lgk;rk lewg dk uke & cdjh ikyu gsrq Loa; lgk;rk lewg
dza
la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 mfeZyk @ fdjksMh & v/;{k cdjh ikyu tkjkSyk
2 tynsoh @ jeqth ukbZ & lfpo cdjh ikyu tkjkSyk
3 dVksjh @ dyqvk ukbZ & lnL; cdjh ikyu tkjkSyk
4 vUuw @ ckcwyky ukbZ & lnL; cdjh ikyu tkjkSyk
5 foLlhnsoh @ vejflag eh.kk & lnL; cdjh ikyu tkjkSyk
6 js[kk @ fnus'k eh.kk & lnL; cdjh ikyu tkjkSyk
7 lunsoh @ Hkxorh eh.kk & lnL; cdjh ikyu tkjkSyk
8 cq?nks osok @ Jhyky & lnL; cdjh ikyu tkjkSyk
9 yykosVh @ ekrknhu & lnL; cdjh ikyu tkjkSyk
10 tequk osok @ f'koflag eh.kk & lnL; cdjh ikyu tkjkSyk
11 lkearh @ f'k;kjke eh.kk & lnL; cdjh ikyu tkjkSyk
12 psuks @ jrhjke eh.kk & lnL; cdjh ikyu tkjkSyk
(iii.) Loa; lgk;rk lewg dk uke & nqX/k mRiknu gsrq Loa; lgk;rk lewg
dza
la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 lquhrk @ ihre tkVo & v/;{k nqX/k mRiknu tkjkSyk
2 jkeI;kjh @ bUnzthr & lfpo nqX/k mRiknu tkjkSyk
3 eqUuh @ jrhjke eh.kk & lnL; nqX/k mRiknu tkjkSyk
4 gyqdh @ xjflag eh.kk & lnL; nqX/k mRiknu tkjkSyk
5 dVksjh @ dyqvk & lnL; nqX/k mRiknu tkjkSyk
6 eerk @ dslo & lnL; nqX/k mRiknu tkjkSyk
7 jkedyh @ /kuhjke & lnL; nqX/k mRiknu tkjkSyk
8 jkeifr @ ij"kksRre & lnL; nqX/k mRiknu tkjkSyk
9 tynsoh @ jeqth ukbZ & lnL; nqX/k mRiknu tkjkSyk
10 tequk @ f'koflag eh.kk & lnL; nqX/k mRiknu tkjkSyk
11 js[kk @ fnus'k eh.kk & lnL; nqX/k mRiknu tkjkSyk
12 lq[kokbZ @ jke#i eh.kk & lnL; nqX/k mRiknu tkjkSyk
(i.) d`f"k Hkwfe miHkksDrk lewg dk uke & d`f"k ;ksX; Hkwfe ij ;wtlZ lewg dza
la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 jes'k @ jkefd'ku dksyh & v/;{k d`f"k ;ksX; Hkwfe ij ;wtlZ lewg f>jh
2 jktiky @ jken;ky dksyh & lfpo d`f"k ;ksX; Hkwfe ij ;wtlZ lewg f>jh
3 Hkxokunkl @ jkethyky eh.kk & lnL; d`f"k ;ksX; Hkwfe ij ;wtlZ lewg f>jh
4 jkevorkj @Hkxorh eh.kk & lnL; d`f"k ;ksX; Hkwfe ij ;wtlZ lewg f>jh
5 fdj.k @/kesZUnz jktiwr & lnL; d`f"k ;ksX; Hkwfe ij ;wtlZ lewg f>jh
6 jatuk @ fo".kq jktiwr & lnL; d`f"k ;ksX; Hkwfe ij ;wtlZ lewg f>jh
7 ;ksxsUnz @ jktkjke jktiwr & lnL; d`f"k ;ksX; Hkwfe ij ;wtlZ lewg f>jh
8 /kesZUnz @ tqxrkt jktiwr & lnL; d`f"k ;ksX; Hkwfe ij ;wtlZ lewg 'kadjiqj
9 lanhi @ dslo & lnL; d`f"k ;ksX; Hkwfe ij ;wtlZ lewg 'kadjiqj
10 dqe#nhu @ yYyks [kka & lnL; d`f"k ;ksX; Hkwfe ij ;wtlZ lewg 'kadjiqj
11 gfjKku @ tudflag & lnL; d`f"k ;ksX; Hkwfe ij ;wtlZ lewg 'kadjiqj
12 v'kksd @ ekuflag & lnL; d`f"k ;ksX; Hkwfe ij ;wtlZ lewg 'kadjiqj
(ii.) vd`f"k Hkwfe miHkksDrk lewg dk uke & vd`f"k ;ksX; Hkwfe ij ;wtlZ xzqi lewg dza
la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 jkeohj @ ikrh jke xqtZj & v/;{k vd`f"k ;ksX; Hkwfe ij dk;Z 'kadjiqj
2 jkeoju @ ikrhjke & lfpo vd`f"k ;ksX; Hkwfe ij dk;Z 'kadjiqj
3 gksre @ jruyky & lnL; vd`f"k ;ksX; Hkwfe ij dk;Z 'kadjiqj
4 gkfde @HkkS# & lnL; vd`f"k ;ksX; Hkwfe ij dk;Z 'kadjiqj
5 Hkowrh @ HkkS# & lnL; vd`f"k ;ksX; Hkwfe ij dk;Z 'kadjiqj
6 eksguyky @ jruyky & lnL; vd`f"k ;ksX; Hkwfe ij dk;Z 'kadjiqj
7 yhyk @ ikrhjke & lnL; vd`f"k ;ksX; Hkwfe ij dk;Z Hkaeiqjk
8 ehjk @ gksre & lnL; vd`f"k ;ksX; Hkwfe ij dk;Z Hkaeiqjk
9 ifjeky @ iUuk & lnL; vd`f"k ;ksX; Hkwfe ij dk;Z Hkaeiqjk
10 jkefdlu @ iUuk & lnL; vd`f"k ;ksX; Hkwfe ij dk;Z Hkaeiqjk
11 fljeksgj @ Jhyky & lnL; vd`f"k ;ksX; Hkwfe ij dk;Z Hkaeiqjk
12 y[ku @ Hkxorh & lnL; vd`f"k ;ksX; Hkwfe ij dk;Z Hkaeiqjk
¼iii½ miHkksDrk lewg dk uke &ukyk mipkj dk;Z
dza
la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 NksVs @ jruyky & v/;{k ukyk mipkj dk;Z f>jh
2 jktkjke @ ljou & lfpo ukyk mipkj dk;Z f>jh
3 Ygksjs @ ljou & lnL; ukyk mipkj dk;Z f>jh
4 dYyw @ NksVs & lnL; ukyk mipkj dk;Z f>jh
5 jktkjke @ yksdeu & lnL; ukyk mipkj dk;Z f>jh
6 fnus'k @ jkefdlu & lnL; ukyk mipkj dk;Z f>jh
7 uhjt @ vejflag & lnL; ukyk mipkj dk;Z Hkaeiqjk
8 tuosn @ jkeyky & lnL; ukyk mipkj dk;Z Hkaeiqjk
9 Jhifr @ fdluyky & lnL; ukyk mipkj dk;Z Hkaeiqjk
10 jeqth @ Hkxoar & lnL; ukyk mipkj dk;Z Hkaeiqjk
11 deys'kh @ jkeohj & lnL; ukyk mipkj dk;Z Hkaeiqjk
12 uhye @ jktw & lnL; ukyk mipkj dk;Z Hkaeiqjk
(iv.) miHkksDrk lewg dk uke & ;wtlZ xzqi lkeqnkf;d laxBu
dza
la- v/;{k@lnL;kssa ds uke xfrfof/k dk uke xkWao dk uke
1 xEHkhj @ ekuiky & v/;{k lkeqnkf;d laxBu Hkaeiqjk
2 dsnkj @ekaxh & lfpo lkeqnkf;d laxBu Hkaeiqjk
3 ekuflag @ vtqZu & lnL; lkeqnkf;d laxBu Hkaeiqjk
4 ?ku';ke @dk'khjke & lnL; lkeqnkf;d laxBu Hkaeiqjk
5 gfjfoykl @ enuw & lnL; lkeqnkf;d laxBu Hkaeiqjk
6 thou @ rstw & lnL; lkeqnkf;d laxBu Hkaeiqjk
7 dSyklh @ y[kifr & lnL; lkeqnkf;d laxBu f>jh
8 juflag @ jkeLo#i & lnL; lkeqnkf;d laxBu f>jh
9 NksVs @ lkeark & lnL; lkeqnkf;d laxBu f>jh
10 nhoku @ vaxn & lnL; lkeqnkf;d laxBu f>jh
11 QkStnkj @ Hkwjk & lnL; lkeqnkf;d laxBu f>jh
12 eqUuk @ HkkSyk & lnL; lkeqnkf;d laxBu f>jh
Problems and scope of improvement in the project area The socio economic conditions of the area can be improved through increased production which
can be achieved through expansion in cultivated area and productivity enhancement. 72 ha land is
arable wasteland and 89 ha is fallow can be brought under cultivation.
54 ha is only irrigated and with efforts this can be increased to 85 . The productivity gap of major
crops in the area as compared with district and with areas in the same agro climatic zones indicate
potential to increase the productivity. The demonstration of improved package of practices,
improved varieties, increased irrigation facilities and soil conservation measures under the project
can bridge this gap. Due to small land holdings in the area focus of the project would be on
diversification in agriculture (horticulture, vegetables, green houses, Agro forestry, fodder
crops)and diversification in Livelihoods(Agriculture, Animal husbandry, self employment)
Fodder scarcity can be met out through Pasture development .Improved animal Husbandry
practices can increase the productivity of livestock.
WATER BUDGETING
(A) Area (Calculated from revenue record)
1. Good Catchment where runoff is maximum & infiltration is minimum like hillocks,
plateanu etc
2. Average catchment-cultivated land, forest land with vegetation.
3. Bad catchment where runoff is minimum & infiltration is maximum e.g. Sandy soil
Type of W/S Area of W/S Factor Cum/ha Expected Yeild Cum
Good 920 1615 1485800
Average 1550 1211 1877050
Bad 4050 807 3268350
Total 6631200
STORAGE OF RUNOFF BY EXISTING STRUCTURES
S.No. Name of Structure No./Area Storage Capacity
(Cum)
1 Tank/Talab/Nadi 20 100000
2 Anicut/WHS/
Khadin
8 24000
Total 124000
STORAGE OF RUNOFF BY PROPOSED STRUCTURES
S.No. Name of Structure No./Area Storage Capacity
(Cum)
1 Nadi / Talab 6 15000
2 Anicut(MMS) 15 45000
Total 60000
Total Runoff trapped = Existing Strs +Proposed Strs. =124000+60000=184000 % Runoff trapped =184000*100/6631200=2.77%
izkstsDV ds ifj.kke dz- la- iSjkehVj ifj;kstuk {ks= esa
¼ifj;kstuk iwoZ½
ifj;kstuk vof/k mijkUr of) dk izLrkfor
Lrj@vkadyu
1 ty ls lEcfU/kr ¼ehVj½
(I.) dqvksa esa vkSlr ty Lrj dqqvks dh xgjkbZ dqqvks dh xgjkbZ
(i.) IWMP BASERI - V 12.10 M. (xgjkbZ) 11.15 M. (xgjkbZ) 2 d`f"k ls lEcfU/kr
(i.) tyxzg.k es cks;k x;k dqy {ks=Qy
¼gSDVs;j½
302 354
(ii.) tyxzg.k {ks= esa usV cqvkbZ {ks= ¼gSDVs;j½ 354 750
(iii.) tyxzg.k {ks= esa yh tkus okyh fofHkUu
Qlysa ¼iztkfrokj½
ifj;kstuk iwoZ Qlyokj ifj;kstuk vof/k mijkUr Qlyokj
tksr {ks=
¼gSDVs;j½
fDoaVy izfr
gSDVs;j mRiknu
tksr {ks= ¼gSDVs;j½ fDoaVy izfr gSDVs;j
mRiknu
BAJARA 95 18.50 125 30.00
URAD 55 10.60 65 13.00 MUNG 35 6.00 42 8.00
TIL 7 6.50 15 8.00 GWAR 15 15.40 30 18.00 OTHER 20 10.50 40 15.00 WHEET 15 25.00 30 30.00 CHANA 0 11.00 20 12.00 SARNSO 25 10.00 55 12.00
(iv.) tSo moZjdksa ds mi;ksx dh fLFkfr orZeku esa ifj;kstuk vof/k mijkUr
20% 60% (v.) pkjk mRiknu ¼fdLeokj]fDoaVy½ orZeku esa ifj;kstuk vof/k mijkUr
BAJARA 3800 5000 WHEET 525 1050 OTHER 10000 12000 CHANA 0 160 PASTURE LAND 10000 30000 TOTAL 24325 48210
3 m/kkfudh ls lEcfU/kr ¼iztkfrokj½ ifj;kstuk iwoZ iztkfrokj ifj;kstuk vof/k mijkUr iztkfrokj
la[;k fDo-@isM+ mRiknu ¼fDoaVy½ la[;k fDo-@isM+ mRiknu
¼fDoaVy½
(i.) vke 15 2.00 30 15 2.00 30
(ii.) uhacw 45 0.50 23 5500 0.50 2750
(iii.) vkoayk 25 0.50 13 4500 0.50 2250
(iv.) iihrk 40 0.30 12 40 0.30 12
(v.) djksnk 18 0.30 5 30140 0.30 9042
(vi.) ve:n 32 0.30 10 2500 0.30 750
(vii.) csj 10 0.50 5 265 0.50 133
(viii.) tkequ 3 3.00 9 3 3.00 9
(ix.) vukj 12 0.30 4 580 0.30 174
4 d`f"k okfudh ¼iztkfrokj½ ifj;kstuk iwoZ iztkfrokj ifj;kstuk vof/k mijkUr iztkfrokj
dqy la[;k ikS/ks izfr gSDVs;j dqy la[;k ikS/ks izfr gSDVs;j
d`f"k ;ksX; Hkwfe ¼iztkfrokj½ 3186 9 46729 132 pkjkxkg Hkwfe ¼iztkfrokj½ 65565 15 119565 28 ou Hkwfe ¼iztkfrokj½ flok; pd ¼iztkfrokj½ dqy
4 i'kqikyu ls lEcfU/kr orZeku esa ifj;kstuk vof/k mijkUr
(i.) ladj iztkfr ds i'kqvksa dh la[;k ¼iztkfrokj½ xk;
(ii.) vkSlr nqX/k mRiknu izfr i'kq ¼iztkfrokj½
fd-xzk- esas
3.20 KG 7.50 KG
(iii.) i'kqvksa esa ikbZ tkus okyh chekfj;ksa ds uke
¼la[;k esa deh½
xy?kksVw o [kqjid]eqgid NIL
6 lkekftd & vkfFkZd orZeku esa ifj;kstuk vof/k mijkUr
(I.) izfr ifjokj vkSlr vkenuh 20000 55000 (II.) Loa; lgk;rk lewg (i.) dqy Loa; lgk;rk lewg dh la[;k (ii.) dqy lnL;ks dh la[;k (iii.) dqy cpr jkf'k (iv.) t-xz- ifj;kstuk ls lgk;rk ¼jkf'k½ Lac. (v.) cSSad fydsat ¼jkf'k½
Lac.
/kkSyiqj 742.03clsM+h 567.00clsM+h IWMP - V 175.03567.00 yk[k
mipkfjr fd;k tkus okyk izLrkfor {kS=Qy 4725 gSDVj 0.16
HkkSfrd
y{;;wfuV
foRrh;
y{;
HkkSfrd
y{;nj foRrh; y{;
HkkSfrd
y{;nj foRrh; y{;
1 iz'kklfud ykxr 10% 56.700 56.700 0.000
2 eksfuVfjax 1% 5.670 5.670 0.000
3 boksY;q'ku 1% 5.670 5.670 0.000
4 izos'k fcUnq xfrfof/k 4% 22.680 22.680 0.000
5 laLFkku o {kerk fuekZ.k 5% 28.350 28.350 0.000
6 foLr`r ifj;kstuk izfrosnu1% 5.670 5.670 0.000
124.740 124.740 0.000
7 tyxzg.k fodkl dk;Z pj.k
56%317.52
1 d`f"k Hkwfe dk;Z ¼vflafpr½
(i) feV~Vh ds cka/k ¼ ECD ½ No. 219 Ha 15.828 79 0.2008 15.828 0.0847 MNREGS(ii) Weste Weir No 60 No 8.520 60 0.142 8.520(iii) Farm Pond No. 11 No 6.688 11 0.608 6.688 0.885 MNREGS(iv) Horticulture (NRM) Ha. 52 Ha 5.452 52 0.1048 5.452 0.13 MNREGS2 ¼vd`f"k Hkwfe½ 0.000
(i) pjkxkg fodkl Ha. 150 Ha 96.816 150 0.6454 96.816(ii) NADI IN P.D BLOCK 6 No 12.000 6 2.0000 12.000
(iii) pjkxkg fodkl Ha.(Private Farmer)
486 Ha 28.493 444 0.0569 25.259 42 0.077 3.234 MNREGS
(iv) Open Contour Trench Ha 596 Ha 52.900 400 0.0828 33.104 196 0.101 19.796 MNREGS(v) Bank stablaization 15654 M 31.012 15654 0.00198 31.012(vi) Weste Weir No 35 No 11.305 35 0.323 11.305
Name of Other Scheme
mi;ksx
From W/S Other Scheme
dqy ykxr jkf'k
lefUor tyxzg.k izcU/ku ifj;kstuk vUrxZr clsM+h tyxzg.k {kS= dh o"kZokj okf"kZd dk;Z ;kstuk
ykxr izfr gSDVj
daz-
la-xfrfof/k dk uke
ifjokjks dh
la[;k
TOTAL TARGET
tyxzg.k {kS= dk uke vU; ;kstuk ls
ftys dk uke dqy ykxr jkf'k
iapk;r lfefr dk uke tyxzg.k {kS= ls
/kkSyiqj 742.03clsM+h 567.00clsM+h IWMP - V 175.03567.00 yk[k
mipkfjr fd;k tkus okyk izLrkfor {kS=Qy 4725 gSDVj 0.16
HkkSfrd
y{;;wfuV
foRrh;
y{;
HkkSfrd
y{;nj foRrh; y{;
HkkSfrd
y{;nj foRrh; y{;
Name of Other Scheme
From W/S Other Scheme
dqy ykxr jkf'k
lefUor tyxzg.k izcU/ku ifj;kstuk vUrxZr clsM+h tyxzg.k {kS= dh o"kZokj okf"kZd dk;Z ;kstuk
ykxr izfr gSDVj
daz-
la-xfrfof/k dk uke
ifjokjks dh
la[;k
TOTAL TARGET
tyxzg.k {kS= dk uke vU; ;kstuk ls
ftys dk uke dqy ykxr jkf'k
iapk;r lfefr dk uke tyxzg.k {kS= ls
3 ukyk mipkj dk;Z
(i) Masanery Check Dam No 16.228 16.228(ii) M.M.S. No 55.310 55.310
340.552 317.52 23.030
8 ekbdzks m/ke (LIVE STOKE) 9%
51.03
1 Lo;a lgk;rk lewg (R/F.) to SHG 128 No 32.000 128 0.25000 32.000
2 R.F To IndividualEnterpreneurs 20 No 5.000 20 0.25000 5.000
3 Grant in aid to Federation ofSHG 7 No 14.030 7 2.00000 14.030
4 eqxhZikyu 28 No 42.000 0.00 28 1.5 42.000 ANIMAL HUSBANDRY
5 eNyh ikyu 1 No 5.000 0.00 1 5 5.000 ANIMAL HUSBANDRY
6 mPp f’k{kk 59 No 5.900 0.00 59 0.1 5.900 SOCIAL WALFAIR
7 rduhdh izf’k{k.k 42 No 4.200 0.00 42 0.1 4.200 Rudset/ILFS
8 lkekftd lgk;rk 165 No 6.600 0.00 165 0.04 6.600 SOCIAL WALFAIR
9 i'kq chek ;kstuk 50 420 No 1.680 0 420 0.004 1.680 ANIMAL HUSBANDRY
116.410 51.030 65.3809 mRiknu i)fr 10% 56.7001 A.I. No. 3246 No 4.869 3246 0.0015 4.8692 A.H. CAMP 2x5x4 10 No 2.400 10 0.24 2.400
mi;ksx
mi;ksx
/kkSyiqj 742.03clsM+h 567.00clsM+h IWMP - V 175.03567.00 yk[k
mipkfjr fd;k tkus okyk izLrkfor {kS=Qy 4725 gSDVj 0.16
HkkSfrd
y{;;wfuV
foRrh;
y{;
HkkSfrd
y{;nj foRrh; y{;
HkkSfrd
y{;nj foRrh; y{;
Name of Other Scheme
From W/S Other Scheme
dqy ykxr jkf'k
lefUor tyxzg.k izcU/ku ifj;kstuk vUrxZr clsM+h tyxzg.k {kS= dh o"kZokj okf"kZd dk;Z ;kstuk
ykxr izfr gSDVj
daz-
la-xfrfof/k dk uke
ifjokjks dh
la[;k
TOTAL TARGET
tyxzg.k {kS= dk uke vU; ;kstuk ls
ftys dk uke dqy ykxr jkf'k
iapk;r lfefr dk uke tyxzg.k {kS= ls
3 [kjhQ No 9.053 9.053
4 jch No 7.162 7.162
5 Qynkj ikS/kkjksi.k 65 Ha 19.297 49 0.2863 14.029 16 0.329 5.268 MNREGS
6 oehZ dEiksLV 6 No 1.800 6 0.30 1.800 0.000
7 usMsi dEiksLV 387 No 7.740 387 0.02 7.740 0.000
8 d`f"k Hkwfe (cvh Pro.) Alu 181 Ha 3.171 181 0.01752 3.171 0.019 0.000 MNREGS
9d`f"k Hkwfe (cvh Pro.) Alu+Kar
54 Ha 9.905 54 0.18343 9.905 0.21 0.000 MNREGS
10 Inovative Works11 Kitchen garden 8 No 1.920 8 0.240 1.920 0.00012 Kitchen garden 8 No 2.440 8 0.305 2.440 HORTICULTURE13 Trellis 8 No 1.920 8 0.240 1.920 0.00014 Trellis 8 3.312 8 0.414 3.312 HORTICULTURE15 tSfod ckM+ 66 Ha 10.362 66 0.157 10.362 OTHERS
16 Qwyksa dh [ksrh 16 Ha 3.840 16 0.24 3.840 HORTICULTURE
17 elkyk [ksrh 9 Ha 2.097 9 0.233 2.097 HORTICULTURE
18 vkS"k/kh; ikSa/kksa dh [ksrh 8 Ha 1.200 8 0.15 1.200 HORTICULTURE
19 ulZjh LFkkiuk (25000 Forest Plant/- Family)
23 No 17.250 23 0.75 17.250 MNREGS
20 ftIle ls Hkwfe lq/kkj 56 Ha 0.392 56 0.007 0.392 AGRICULTURE
21 flapkbZ gsrq ikbZi ykbZu 37 No 5.550 37 0.15 5.550 AGRICULTURE
22 fLaizDyj flLVe 20 Ha 9.000 20 0.45 9.000 AGRICULTURE
/kkSyiqj 742.03clsM+h 567.00clsM+h IWMP - V 175.03567.00 yk[k
mipkfjr fd;k tkus okyk izLrkfor {kS=Qy 4725 gSDVj 0.16
HkkSfrd
y{;;wfuV
foRrh;
y{;
HkkSfrd
y{;nj foRrh; y{;
HkkSfrd
y{;nj foRrh; y{;
Name of Other Scheme
From W/S Other Scheme
dqy ykxr jkf'k
lefUor tyxzg.k izcU/ku ifj;kstuk vUrxZr clsM+h tyxzg.k {kS= dh o"kZokj okf"kZd dk;Z ;kstuk
ykxr izfr gSDVj
daz-
la-xfrfof/k dk uke
ifjokjks dh
la[;k
TOTAL TARGET
tyxzg.k {kS= dk uke vU; ;kstuk ls
ftys dk uke dqy ykxr jkf'k
iapk;r lfefr dk uke tyxzg.k {kS= ls
23 fMªi flapkbZ ;kstuk 23 Ha 9.660 23 0.42 9.660 AGRICULTURE
24 d`f"k ;a= ¼Lis;j½ 17 No 0.850 17 0.05 0.850 AGRICULTURE
25 ikS/k laj{k.k ;a= 12 No 0.120 12 0.01 0.120 AGRICULTURE
26 uhe mRiknu 48 No 0.240 48 0.005 0.240 MNREGS
27 xzhu gkml LFkkiuk 8 Ha 12.000 8 1.5 12.000 HORTICULTURE
28 ckal mRiknu 38 Ha 3.040 38 0.08 3.040 HORTICULTURE
143.321 56.700 86.621
10 dUlksfyM+s'ku pj.k 3% 17.010 17.010
742.03 567.00 175.03
S. No
NAME OF DEPARTMENT Amount
1 MNREGS 45.7882 ANIMAL HUSBANDRY 48.6803 SOCIAL WALFAIR 12.5004 Rudset/ILFS 4.2005 OTHERS 10.3626 HORTICULTURE 27.9297 AGRICULTURE 25.572
Grand Total 175.03
Convergence Fund
Total
GRAND TOTAL
: /kkSyiqj
: clsM+h
: clsM+h IWMP- V
: 567.00 yk[k
: 4725 gSDVj
ek=k nj ykxrHkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;HkkSfrd foRrh;
ftys dk uke
daz- la-
xfrfof/k dk uke2016 - 17
f)rh; o"kZ lkroh o"kZ2010 - 11
iapk;r lfefr dk uke
tyxzg.k {kS= dk uke
2011 - 12 2013 - 14 2014 - 15o"kZokj okf"kZd dk;Z ;kstuk
y{;2015 - 16NBoh o"kZiape o"kZ
2012 - 13
mipkfjr fd;k tkus okyk izLrkfor {kS=Qy
lefUor tyxzg.k izcU/ku ifj;kstuk vUrxZr clsM+h tyxzg.k {kS= dh o"kZokj okf"kZd dk;Z ;kstuk
r`rh; o"kZ prqFkZ o"kZizFke o"kZ
567.00
dqy ;ksx
dqy ykxr jkf'k
: /kkSyiqj
: clsM+h
: clsM+h IWMP- V G.P. - SARMATHURA
: 36.00 yk[k
: 300 gSDVj
ek=k nj ykxrHkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;HkkSfrd foRrh;
4 izos'k fcUnq xfrfof/k
1.440 1.440 1.44
5 laLFkku o {kerk fuekZ.k
(I.) miHkksDrk lewg dk izf'k{k.k
(i) [kjhQ No. 0.00
(ii) jch No. 0.00
(iii) Qynkj No. 0.00
(iv)pjkxkg fodkl] i'kqikyu] vU;
miHkksDrk0.00
(II.) WDT izf'k{k.k 0.00
(III.) ,Dlikstj 0.00
(i) ftys ds vUnj 0.00
(ii) jkT; ds vUnj 0.00
mipkfjr fd;k tkus okyk izLrkfor {kS=Qy
2014 - 15
36.00
o"kZokj okf"kZd dk;Z ;kstuk
y{;NBoh o"kZ
iapk;r lfefr dk uke
2015 - 16 2016 - 172010 - 11
izFke o"kZ
lefUor tyxzg.k izcU/ku ifj;kstuk vUrxZr clsM+h tyxzg.k {kS= dh o"kZokj okf"kZd dk;Z ;kstuk
dqy ;ksx2011 - 12 2012 - 13
ftys dk uke
f)rh; o"kZ
tyxzg.k {kS= dk uke
dqy ykxr jkf'k
2013 - 14
mi;ksx
lkroh o"kZiape o"kZr`rh; o"kZ prqFkZ o"kZdaz- la-
xfrfof/k dk uke
: /kkSyiqj
: clsM+h
: clsM+h IWMP- V
: 567.00 yk[k
: 4725 gSDVj
ek=k nj ykxrHkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;HkkSfrd foRrh;
ftys dk uke
daz- la-
xfrfof/k dk uke2016 - 17
f)rh; o"kZ lkroh o"kZ2010 - 11
iapk;r lfefr dk uke
tyxzg.k {kS= dk uke
2011 - 12 2013 - 14 2014 - 15o"kZokj okf"kZd dk;Z ;kstuk
y{;2015 - 16NBoh o"kZiape o"kZ
2012 - 13
mipkfjr fd;k tkus okyk izLrkfor {kS=Qy
lefUor tyxzg.k izcU/ku ifj;kstuk vUrxZr clsM+h tyxzg.k {kS= dh o"kZokj okf"kZd dk;Z ;kstuk
r`rh; o"kZ prqFkZ o"kZizFke o"kZ
567.00
dqy ;ksx
dqy ykxr jkf'k
(III.) ukjk ys[ku dk;Z 0.00
(IV.) in;k=k 0.00
1.800 0.180 0.900 0.540 0.180 1.800
6 foLr`r ifj;kstuk izfrosnu 0.360 0.360 0.360
0.360 0.360 0.360
tyxzg.k dk;Z pj.k
7 tyxzg.k fodkl dk;Z pj.k
(I.) d`f"k Hkwfe dk;Z ¼vflafpr½
(i) feV~Vh ds cka/k ¼ ECD ½ No. 8 20200 1.616 1 0.202 4 0.808 2 0.404 1 0.202 8 1.616
(ii) West weir Na. 6 14200 0.852 0 0.000 3 0.426 2 0.284 1 0.142 6 0.852
(iii) Horticulture (NRM) Ha.
5 10484 0.524 0.200 0.200 0.124 0.524
(iv) Farm Pond 2 60800 1.216 0 0.000 2 1.216 1.216
(II.) ¼vdf"k Hkwfe½
(i) pjkxkg fodkl Ha. 10 64544 6.364 2 1.291 4 2.492 4 2.582 10 6.365
(ii) NADI IN P.D BLOCK 1 200000 2.000 1 1.000 0 1.000 1 2.000
(iii)pjkxkg fodkl
Ha.(Private farmer) 36 5689 2.048 0.0 0.000 10.00 0.569 15 0.853 11 0.626 36 2.048
(iv) Open Contour Trench 30 8276 2.483 0.000 5 0.414 25 2.069 30 2.483
mi;ksx
mi;ksx
: /kkSyiqj
: clsM+h
: clsM+h IWMP- V
: 567.00 yk[k
: 4725 gSDVj
ek=k nj ykxrHkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;HkkSfrd foRrh;
ftys dk uke
daz- la-
xfrfof/k dk uke2016 - 17
f)rh; o"kZ lkroh o"kZ2010 - 11
iapk;r lfefr dk uke
tyxzg.k {kS= dk uke
2011 - 12 2013 - 14 2014 - 15o"kZokj okf"kZd dk;Z ;kstuk
y{;2015 - 16NBoh o"kZiape o"kZ
2012 - 13
mipkfjr fd;k tkus okyk izLrkfor {kS=Qy
lefUor tyxzg.k izcU/ku ifj;kstuk vUrxZr clsM+h tyxzg.k {kS= dh o"kZokj okf"kZd dk;Z ;kstuk
r`rh; o"kZ prqFkZ o"kZizFke o"kZ
567.00
dqy ;ksx
dqy ykxr jkf'k
(v) Bank Stablization(vi) Weste Weir
(IV) ukyk mipkj dk;Z
(i) Masanery Check Dam 0.987 0.014 0.390 0.391 0.192 0.987
(ii) MMS 3.510 1.000 1.500 1.010 3.510
mi;ksx 21.60 1.507 7.299 10.499 2.30 21.60
8ekbdzks m/ke ,oa vkthfodk fodkl dk;Z
A LIVE STOCK(i) A.I. No. 327 150 0.491 150 0.225 90 0.135 54 0.081 33 0.050 327 0.491
(ii) A.H. CAMP 2x2x4
,d fnolh; 8 10000 0.800 2 0.200 2 0.200 2 0.200 2 0.200 8 0.80
Lo;a lgk;rk lewg (R/F.) 14 10000 1.400 6 0.600 4 0.400 4 0.400 14 1.40
BmRiknu O;oLFkk ,oa
vkthfodk fodkl dk;Z
(I.) [kjhQ No 0.198 0.060 0.108 0.017 0.013 0 0.198
(II.) jch No. 0.130 0.055 0.050 0.025 0.000 0 0.130
(III.) Qynkj ikS/kkjksi.k Ha. 2 28630 0.573 1 0.286 0.5 0.143 0.5 0.143 0 0.000 2 0.573
(iv.) oehZ dEiksLV No 1 30000 0.300 0.0 0.000 1 0.300 0 0.000 0.000 1 0.300
(v.) usMsi dEiksLV No 20 2000 0.400 8 0.160 4 0.080 6 0.120 2 0.040 20 0.400
(vi.) df"k Hkwfe (cvh Pro.) aluevera
24 1752 0.420 5 0.088 8 0.140 7.0 0.123 4 0.070 24.00 0.420
(vii.) df"k Hkwfe (cvh Pro.) aluevera+karonda
18343 0.000 0 0.000 0 0.000 0 0.000 0 0.000
(viii.) kitchen garden 1 24454 0.245 1 0.245 0 0.000 0 0.000 0 0.000 1 0.245
: /kkSyiqj
: clsM+h
: clsM+h IWMP- V
: 567.00 yk[k
: 4725 gSDVj
ek=k nj ykxrHkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;HkkSfrd foRrh;
ftys dk uke
daz- la-
xfrfof/k dk uke2016 - 17
f)rh; o"kZ lkroh o"kZ2010 - 11
iapk;r lfefr dk uke
tyxzg.k {kS= dk uke
2011 - 12 2013 - 14 2014 - 15o"kZokj okf"kZd dk;Z ;kstuk
y{;2015 - 16NBoh o"kZiape o"kZ
2012 - 13
mipkfjr fd;k tkus okyk izLrkfor {kS=Qy
lefUor tyxzg.k izcU/ku ifj;kstuk vUrxZr clsM+h tyxzg.k {kS= dh o"kZokj okf"kZd dk;Z ;kstuk
r`rh; o"kZ prqFkZ o"kZizFke o"kZ
567.00
dqy ;ksx
dqy ykxr jkf'k
(ix) Trellis 1 35350 0.354 1 0.354 0 0.000 0 0.000 0 0.000 1 0.354
(x) Nursary 0 0.75 0.090 0.090 0 0.090
5.400 0.360 2.160 1.440 1.080 0.360 5.400
9 dUlksfyM+s'ku pj.k 1.080 1.080 1.080
36.00 2.16 3.49 11.30 13.25 4.01 1.80 36.00
mi;ksx
dqy ;ksx
: /kkSyiqj
: clsM+h
: clsM+h IWMP- V
: 567.00 yk[k
: 4725 gSDVj
ek=k nj ykxrHkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;HkkSfrd foRrh;
ftys dk uke
daz- la-
xfrfof/k dk uke2016 - 17
f)rh; o"kZ lkroh o"kZ2010 - 11
iapk;r lfefr dk uke
tyxzg.k {kS= dk uke
2011 - 12 2013 - 14 2014 - 15o"kZokj okf"kZd dk;Z ;kstuk
y{;2015 - 16NBoh o"kZiape o"kZ
2012 - 13
mipkfjr fd;k tkus okyk izLrkfor {kS=Qy
lefUor tyxzg.k izcU/ku ifj;kstuk vUrxZr clsM+h tyxzg.k {kS= dh o"kZokj okf"kZd dk;Z ;kstuk
r`rh; o"kZ prqFkZ o"kZizFke o"kZ
567.00
dqy ;ksx
dqy ykxr jkf'k
: /kkSyiqj
: clsM+h
: clsM+h IWMP- V G.P. - JHIRI
: 129.36 yk[k
: 1078 gSDVj
ek=k nj ykxrHkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;HkkSfrd foRrh;
4 izos'k fcUnq xfrfof/k1234567891011121314
5.174 5.174 5.174
5 laLFkku o {kerk fuekZ.k
tyxzg.k {kS= dk uke
dqy ykxr jkf'k
mipkfjr fd;k tkus okyk izLrkfor {kS=Qy
o"kZokj okf"kZd dk;Z ;kstuky{;
129.36ftys dk uke
iapk;r lfefr dk uke
NBoh o"kZdaz- la-
xfrfof/k dk uke2016 - 17
f)rh; o"kZ2011 - 12 2012 - 13
r`rh; o"kZ prqFkZ o"kZ iape o"kZ2013 - 14 2014 - 15 2015 - 16
mi;ksx
lefUor tyxzg.k izcU/ku ifj;kstuk vUrxZr clsM+h tyxzg.k {kS= dh o"kZokj okf"kZd dk;Z ;kstuk
dqy ;ksx2010 - 11izFke o"kZ lkroh o"kZ
: /kkSyiqj
: clsM+h
: clsM+h IWMP- V
: 567.00 yk[k
: 4725 gSDVj
ek=k nj ykxrHkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;HkkSfrd foRrh;
ftys dk uke
daz- la-
xfrfof/k dk uke2016 - 17
f)rh; o"kZ lkroh o"kZ2010 - 11
iapk;r lfefr dk uke
tyxzg.k {kS= dk uke
2011 - 12 2013 - 14 2014 - 15o"kZokj okf"kZd dk;Z ;kstuk
y{;2015 - 16NBoh o"kZiape o"kZ
2012 - 13
mipkfjr fd;k tkus okyk izLrkfor {kS=Qy
lefUor tyxzg.k izcU/ku ifj;kstuk vUrxZr clsM+h tyxzg.k {kS= dh o"kZokj okf"kZd dk;Z ;kstuk
r`rh; o"kZ prqFkZ o"kZizFke o"kZ
567.00
dqy ;ksx
dqy ykxr jkf'k
(I.) miHkksDrk lewg dk izf'k{k.k
(i) [kjhQ No. 0.000(ii) jch No. 0.000(iii) Qynkj No. 0.000
(iv)pjkxkg fodkl] i'kqikyu] vU;
miHkksDrk0.000
(II.) WDT izf'k{k.k 0.000(III.) ,Dlikstj 0.000(i) ftys ds vUnj 0.000(ii) jkT; ds vUnj 0.000
(III.) ukjk ys[ku dk;Z 0.000(IV.) in;k=k 0.000
6.468 0.647 3.234 1.940 0.647 6.468
6 foLr`r ifj;kstuk izfrosnu 1.294 1.294 1.294
1.294 1.294 1.294tyxzg.k dk;Z pj.k
7 tyxzg.k fodkl dk;Z pj.k
(I.) d`f"k Hkwfe dk;Z ¼vflafpr½
(i) feV~Vh ds cka/k ¼ ECD ½ No. 7 20200 1.279 2 0.404 3 0.471 2 0.404 7 1.279(ii) West weir Na. 5 14200 0.710 2 0.284 2 0.284 1 0.142 5 0.710
(iii) Horticulture (NRM) Ha.
10484 0.000
(iv) Farm Pond 1 60800 0.608 1 0.608 1 0.608(II.) ¼vdf"k Hkwfe½
(i) pjkxkg fodkl Ha. 40 64544 25.458 7 4.518 25 15.776 8 5.164 40 25.458(ii) NADI IN P.D BLOCK 1 200000 2.000 1 2.000 1 2.000
(iii)pjkxkg fodkl
Ha.(Private farmer) 200 5689 11.378 50 2.845 110 6.258 40 2.276 200 11.378
mi;ksx
mi;ksx
: /kkSyiqj
: clsM+h
: clsM+h IWMP- V
: 567.00 yk[k
: 4725 gSDVj
ek=k nj ykxrHkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;HkkSfrd foRrh;
ftys dk uke
daz- la-
xfrfof/k dk uke2016 - 17
f)rh; o"kZ lkroh o"kZ2010 - 11
iapk;r lfefr dk uke
tyxzg.k {kS= dk uke
2011 - 12 2013 - 14 2014 - 15o"kZokj okf"kZd dk;Z ;kstuk
y{;2015 - 16NBoh o"kZiape o"kZ
2012 - 13
mipkfjr fd;k tkus okyk izLrkfor {kS=Qy
lefUor tyxzg.k izcU/ku ifj;kstuk vUrxZr clsM+h tyxzg.k {kS= dh o"kZokj okf"kZd dk;Z ;kstuk
r`rh; o"kZ prqFkZ o"kZizFke o"kZ
567.00
dqy ;ksx
dqy ykxr jkf'k
(iv) Open Contour Trench 160 8276 13.242 25 2.069 110 9.104 25 2.069 160 13.242
(v) Bank Stablization 2500 198 4.953 1900 3.764 600 1.189 2500 4.953(vi) Weste Weir 5 32300 1.615 4 1.292 1 0.323 1.615(IV) ukyk mipkj dk;Z(i) Masanery Check Dam 3.753 0.035 0.500 2.407 0.811 3.753(ii) MMS 12.620 1.663 9.500 1.457 12.620
mi;ksx 77.62 5.241 25.608 38.034 8.732 77.61
: /kkSyiqj
: clsM+h
: clsM+h IWMP- V
: 567.00 yk[k
: 4725 gSDVj
ek=k nj ykxrHkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;HkkSfrd foRrh;
ftys dk uke
daz- la-
xfrfof/k dk uke2016 - 17
f)rh; o"kZ lkroh o"kZ2010 - 11
iapk;r lfefr dk uke
tyxzg.k {kS= dk uke
2011 - 12 2013 - 14 2014 - 15o"kZokj okf"kZd dk;Z ;kstuk
y{;2015 - 16NBoh o"kZiape o"kZ
2012 - 13
mipkfjr fd;k tkus okyk izLrkfor {kS=Qy
lefUor tyxzg.k izcU/ku ifj;kstuk vUrxZr clsM+h tyxzg.k {kS= dh o"kZokj okf"kZd dk;Z ;kstuk
r`rh; o"kZ prqFkZ o"kZizFke o"kZ
567.00
dqy ;ksx
dqy ykxr jkf'k
8ekbdzks m/ke ,oa vkthfodk fodkl dk;Z
A LIVE STOCK(i) A.I. No. 875 150 1.313 402 0.603 241 0.362 145 0.218 87 0.131 875 1.313(ii) A.H. CAMP 2x2x4
,d fnolh; 8 10000 0.800 2 0.200 2 0.200 2 0.200 2 0.200 8 0.80
Lo;a lgk;rk lewg (R/F.) 26 10000 2.600 3 0.300 11 1.100 7 0.700 5 0.500 26 2.60
BmRiknu O;oLFkk ,oa
vkthfodk fodkl dk;Z
(I.) [kjhQ No 0.741 0.177 0.310 0.056 0.119 0.079 0.741
(II.) jch No. 0.450 0.200 0.100 0.050 0.100 0.450
(III.) Qynkj ikS/kkjksi.k Ha. 10 28630 2.863 4 1.145 4.0 1.145 2.0 0.573 10 2.863
(iv.) oehZ dEiksLV No 10 30000 3.000 4 1.200 4 1.200 2 0.600 10 3.000
(v.) usMsi dEiksLV No 70 2000 1.400 44 0.880 14 0.280 2 0.040 10 0.200 70 1.400
(vi.) df"k Hkwfe (cvh Pro.) aluevera
0 1752 0.000
(vii.) df"k Hkwfe (cvh Pro.) aluevera+karonda
19 18343 3.485 5 0.917 8 1.467 1 0.183 4 0.734 1 0.183 19 3.485
(viii.) kitchen garden 4 24454 0.978 2 0.489 1 0.245 1 0.245 4 0.978(ix) Trellis 4 35350 1.414 2 0.707 1 0.354 1 0.354 4 1.414(x) Nursary 0.75 0.360 0.360 0.360
19.404 1.294 7.762 5.174 3.881 1.293 19.404
9 dUlksfyM+s'ku pj.k 3.881 3.881 3.881
129.36 7.76 12.36 39.97 47.93 14.88 6.47 129.36
mi;ksx
dqy ;ksx
: /kkSyiqj
: clsM+h
: clsM+h IWMP- V
: 567.00 yk[k
: 4725 gSDVj
ek=k nj ykxrHkkSfrd
y{;
foRrh;
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y{;
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y{;
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y{;
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y{;
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y{;
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ftys dk uke
daz- la-
xfrfof/k dk uke2016 - 17
f)rh; o"kZ lkroh o"kZ2010 - 11
iapk;r lfefr dk uke
tyxzg.k {kS= dk uke
2011 - 12 2013 - 14 2014 - 15o"kZokj okf"kZd dk;Z ;kstuk
y{;2015 - 16NBoh o"kZiape o"kZ
2012 - 13
mipkfjr fd;k tkus okyk izLrkfor {kS=Qy
lefUor tyxzg.k izcU/ku ifj;kstuk vUrxZr clsM+h tyxzg.k {kS= dh o"kZokj okf"kZd dk;Z ;kstuk
r`rh; o"kZ prqFkZ o"kZizFke o"kZ
567.00
dqy ;ksx
dqy ykxr jkf'k
: /kkSyiqj
: clsM+h
: clsM+h IWMP- V G.P. - GOLARI
: 149.64 yk[k
: 1247 gSDVj
ek=k nj ykxrHkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
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y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
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y{;HkkSfrd foRrh;
4 izos'k fcUnq xfrfof/k1234567891011121314
5.986 5.986 5.986
dqy ykxr jkf'k
o"kZokj okf"kZd dk;Z ;kstuk
y{;
ftys dk uke
iapk;r lfefr dk uke
mi;ksx
2012 - 13 dqy ;ksx2011 - 12 2013 - 14 2014 - 15 2015 - 16prqFkZ o"kZ iape o"kZ
daz- la-
xfrfof/k dk uke2016 - 17
149.64
f)rh; o"kZ r`rh; o"kZ lkroh o"kZ
mipkfjr fd;k tkus okyk izLrkfor {kS=Qy
tyxzg.k {kS= dk uke
2010 - 11izFke o"kZ
lefUor tyxzg.k izcU/ku ifj;kstuk vUrxZr clsM+h tyxzg.k {kS= dh o"kZokj okf"kZd dk;Z ;kstuk
NBoh o"kZ
: /kkSyiqj
: clsM+h
: clsM+h IWMP- V
: 567.00 yk[k
: 4725 gSDVj
ek=k nj ykxrHkkSfrd
y{;
foRrh;
y{;
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y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
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y{;
HkkSfrd
y{;
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y{;
HkkSfrd
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foRrh;
y{;HkkSfrd foRrh;
ftys dk uke
daz- la-
xfrfof/k dk uke2016 - 17
f)rh; o"kZ lkroh o"kZ2010 - 11
iapk;r lfefr dk uke
tyxzg.k {kS= dk uke
2011 - 12 2013 - 14 2014 - 15o"kZokj okf"kZd dk;Z ;kstuk
y{;2015 - 16NBoh o"kZiape o"kZ
2012 - 13
mipkfjr fd;k tkus okyk izLrkfor {kS=Qy
lefUor tyxzg.k izcU/ku ifj;kstuk vUrxZr clsM+h tyxzg.k {kS= dh o"kZokj okf"kZd dk;Z ;kstuk
r`rh; o"kZ prqFkZ o"kZizFke o"kZ
567.00
dqy ;ksx
dqy ykxr jkf'k
5 laLFkku o {kerk fuekZ.k
(I.) miHkksDrk lewg dk izf'k{k.k
(i) [kjhQ No. 0.00(ii) jch No. 0.00(iii) Qynkj No. 0.00
(iv)pjkxkg fodkl] i'kqikyu] vU;
miHkksDrk0.00
(II.) WDT izf'k{k.k 0.00(III.) ,Dlikstj 0.00(i) ftys ds vUnj 0.00(ii) jkT; ds vUnj 0.00
(III.) ukjk ys[ku dk;Z 0.00(IV.) in;k=k 0.00
7.482 0.748 3.741 2.245 0.748 7.482
6 foLr`r ifj;kstuk izfrosnu 1.496 1.496 1.496
1.496 1.496 1.496tyxzg.k dk;Z pj.k
7 tyxzg.k fodkl dk;Z pj.k
(I.) d`f"k Hkwfe dk;Z ¼vflafpr½
(i) feV~Vh ds cka/k ¼ ECD ½ No. 7 20200 1.414 2 0.404 2 0.404 2 0.404 1 0.202 7 1.414(ii) West weir Na. 6 14200 0.852 2 0.284 2 0.284 2 0.284 0.000 6 0.852
(iii) Horticulture (NRM) Ha.
27 10484 2.831 5 0.524 10 1.048 10 1.048 2 0.210 27 2.831
(iv) Farm Pond 4 60800 2.432 1 0.608 1 0.608 2 1.216 0.000 4 2.432(II.) ¼vdf"k Hkwfe½
(i) pjkxkg fodkl Ha. 50 64544 31.822 5 3.227 23 14.845 22 13.750 50 31.822(ii) NADI IN P.D BLOCK 2 200000 4.000 1 2.000 1 2.000 2 4.000
mi;ksx
mi;ksx
: /kkSyiqj
: clsM+h
: clsM+h IWMP- V
: 567.00 yk[k
: 4725 gSDVj
ek=k nj ykxrHkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;HkkSfrd foRrh;
ftys dk uke
daz- la-
xfrfof/k dk uke2016 - 17
f)rh; o"kZ lkroh o"kZ2010 - 11
iapk;r lfefr dk uke
tyxzg.k {kS= dk uke
2011 - 12 2013 - 14 2014 - 15o"kZokj okf"kZd dk;Z ;kstuk
y{;2015 - 16NBoh o"kZiape o"kZ
2012 - 13
mipkfjr fd;k tkus okyk izLrkfor {kS=Qy
lefUor tyxzg.k izcU/ku ifj;kstuk vUrxZr clsM+h tyxzg.k {kS= dh o"kZokj okf"kZd dk;Z ;kstuk
r`rh; o"kZ prqFkZ o"kZizFke o"kZ
567.00
dqy ;ksx
dqy ykxr jkf'k
(iii)pjkxkg fodkl
Ha.(Private farmer) 108 5689 6.144 10 0.569 30 1.707 40 2.276 28 1.593 108 6.144
(iv) Open Contour Trench 100 8276 8.276 5 0.414 20 1.655 50 4.138 25 2.069 100 8.276
(v) Bank Stablization 5000 198 9.906 1000 1.980 3000 5.940 1000 1.986 5000 9.906(vi) Weste Weir 10 32300 3.230 2 0.646 6 1.938 2 0.646 10 3.230(IV) ukyk mipkj dk;Z(i) Masanery Check Dam 4.278 0.023 1.031 2.919 0.305 4.278(ii) MMS 14.600 3.300 8.000 3.300 14.600
mi;ksx 89.78 6.053 29.508 43.913 10.31 89.78
: /kkSyiqj
: clsM+h
: clsM+h IWMP- V
: 567.00 yk[k
: 4725 gSDVj
ek=k nj ykxrHkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;
HkkSfrd
y{;
foRrh;
y{;HkkSfrd foRrh;
ftys dk uke
daz- la-
xfrfof/k dk uke2016 - 17
f)rh; o"kZ lkroh o"kZ2010 - 11
iapk;r lfefr dk uke
tyxzg.k {kS= dk uke
2011 - 12 2013 - 14 2014 - 15o"kZokj okf"kZd dk;Z ;kstuk
y{;2015 - 16NBoh o"kZiape o"kZ
2012 - 13
mipkfjr fd;k tkus okyk izLrkfor {kS=Qy
lefUor tyxzg.k izcU/ku ifj;kstuk vUrxZr clsM+h tyxzg.k {kS= dh o"kZokj okf"kZd dk;Z ;kstuk
r`rh; o"kZ prqFkZ o"kZizFke o"kZ
567.00
dqy ;ksx
dqy ykxr jkf'k
8ekbdzks m/ke ,oa vkthfodk fodkl dk;Z
A LIVE STOCK(i) A.I. No. 1186 150 1.779 545 0.818 327 0.491 196 0.294 118 0.177 1186 1.779(ii) A.H. CAMP 2x2x4
,d fnolh; 8 10000 0.800 2 0.200 2 0.200 2 0.200 2 0.200 8 0.80
Lo;a lgk;rk lewg (R/F.) 22 10000 2.200 1.000 0.500 0.700 0 2.20
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(I.) [kjhQ No 2.623 0.996 0.482 0.712 0.433 0 2.623
(II.) jch No. 2.100 0.500 0.400 0.600 0.357 0.243 0 2.100
(III.) Qynkj ikS/kkjksi.k Ha. 27 28630 7.730 12 3.436 6 1.718 6 1.718 3 0.859 27 7.730
(iv.) oehZ dEiksLV No 4 30000 1.200 2 0.600 1 0.300 1 0.300 0.000 4 1.200
(v.) usMsi dEiksLV No 100 2000 2.000 41 0.820 39 0.780 20 0.400 0 0.000 100 2.000
(vi.) df"k Hkwfe (cvh Pro.) aluevera
21 1752 0.368 10 0.175 5 0.088 5.0 0.088 1 0.018 21.00 0.368
(vii.) df"k Hkwfe (cvh Pro.) aluevera+karonda
18343 0.000
(viii.) kitchen garden 2 24454 0.489 1 0.245 1 0.245 0 0.000 2 0.489(ix) Trellis 2 35350 0.707 1 0.354 1 0.354 0 0.000 0 0.000 2 0.707(x) Nursary 0.75 0.450 0.450 0.450
22.446 1.496 8.978 5.986 4.489 1.496 22.446
9 dUlksfyM+s'ku pj.k 4.489 4.489 4.489
149.64 8.23 11.29 40.73 50.65 14.80 5.99 149.64
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(iv)pjkxkg fodkl] i'kqikyu] vU;
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(II.) WDT izf'k{k.k 0.00(III.) ,Dlikstj 0.00(i) ftys ds vUnj 0.00(ii) jkT; ds vUnj 0.00
(III.) ukjk ys[ku dk;Z 0.00(IV.) in;k=k 0.00
12.600 1.260 6.300 3.780 1.260 12.600
6 foLr`r ifj;kstuk izfrosnu 2.520 2.520 2.520
2.520 2.520 2.520tyxzg.k dk;Z pj.k
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(i) feV~Vh ds cka/k ¼ ECD ½ No. 57 20200 11.514 12 2.424 18 3.636 18 3.636 9 1.818 57 11.514(ii) West weir Na. 43 14200 6.106 12 1.704 10 1.420 10 1.420 11 1.562 43 6.106
(iii) Horticulture (NRM) Ha.
20 10484 2.097 0.900 1.000 0.197 2.097
(iv) Farm Pond 4 60800 2.432 2 1.216 2 1.216 4 2.432(II.) ¼vdf"k Hkwfe½
(i) pjkxkg fodkl Ha. 55 64544 35.004 9 5.809 25 15.641 21 13.554 55 35.004(ii) NADI IN P.D BLOCK 3 200000 6.000 2 4.000 1 2.000 3 6.000
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Ha.(Private farmer) 100 5689 5.689 9 0.512 51 2.901 22 1.252 18 1.024 100 5.689
(iv) Open Contour Trench 294 8276 24.331 0.035 105 8.690 150 12.414 39 3.192 294 24.331
(v) Bank Stablization 9982 198 19.775 9982 19.775 9982 19.775(vi) Weste Weir 20 32300 6.460 20 6.460 20 6.460(IV) ukyk mipkj dk;Z(i) Masanery Check Dam 7.210 4.013 2.796 0.401 7.210(ii) MMS 24.580 8.000 8.000 8.580 24.580
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A LIVE STOCK(i) A.I. No. 858 150 1.287 394 0.591 237 0.356 142 0.213 85 0.128 858 1.287(ii) A.H. CAMP 2x2x4
,d fnolh; 8 10000 0.800 2 0.200 2 0.200 2 0.200 2 0.200 8 0.80
Lo;a lgk;rk lewg (R/F.) 43 10000 4.300 2.000 1.500 0.800 0 4.30
BmRiknu O;oLFkk ,oa
vkthfodk fodkl dk;Z
(I.) [kjhQ No 5.491 1.500 1.490 1.015 1.486 0 5.491
(II.) jch No. 4.430 1.020 1.204 1.400 0.806 0 4.430
(III.) Qynkj ikS/kkjksi.k Ha. 10 28630 2.863 5 1.432 2 0.573 3 0.859 0 0.000 10 2.863
(iv.) oehZ dEiksLV No 10 30000 3.000 4 1.200 3 0.900 2 0.600 1 0.300 10 3.000
(v.) usMsi dEiksLV No 197 2000 3.940 72 1.440 51 1.020 50 1.000 24 0.480 197 3.940
(vi.) df"k Hkwfe (cvh Pro.) aluevera
136 1752 2.383 64 1.121 60 1.051 8 0.140 4 0.070 136.00 2.383
(vii.) df"k Hkwfe (cvh Pro.) aluevera+karonda
35 18343 6.420 15 2.751 8 1.467 5 0.917 7 1.284 35 6.420
(viii.) kitchen garden 4 24454 0.978 2 0.489 1 0.245 1 0.245 4 0.978(ix) Trellis 4 35350 1.414 2 0.707 1 0.354 1 0.354 0 0.000 4 1.414(x) Nursary 0.75 0.495 0.495 0 0.495
37.801 2.520 15.120 10.080 7.619 2.462 37.801
9 dUlksfyM+s'ku pj.k 7.560 7.560 7.560
252.00 13.86 19.30 69.32 84.86 24.39 10.02 252.00dqy ;ksx
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Name of work :-Waste weir S.No Particular Qty. Rate Per Amount Labour RateL.Amount
1 Excavation in hard soil dry ormost&disposal of excavatedmaterial within intial lead of30 m and liftof 1.5m includingdressing etc complete 5.58 85.00 cum 474.30 85.00 474.3
4 cement concrete well mixed
in cement mortar(1:4:8) laidin position complete includingcuring Aggregate size upto50mm. HB 1.55 1762.00 cum 2735.51 312.55 485.234
5 Random rubble stone
masonary in cement sandmortar(1:6) for foundation 3.58 1449.00 cum 5183.80 366.50 1311.15
6 Random rubble stone
masonary in cement sandmortar(1:6) forsuper structure 1.85 1567.00 cum 2891.12 484.50 893.903
8 Cement plaster including
smooth finishing in cementmortar (1:4)25mm thick 11.77 136.00 cum 1600.04 58.15 684.135
9 Cement concrete coping in
cement mortar1:.2:4.100mmthick 0.27 3126.00 cum 850.27 398.00 108.256
TOTAL 13735.03 3956.986 Rehandling of cement
beyond 100 m initial lead leadup to 200 0.88 85.00 75.11 85.00 75.11
TOTAL 13810.14 4032.09EXTRA Add 35% lebour rate increase 0.00TOTAL 13810.14 4032.09METARIAL 9778.05 SAY 0.10LABOUR 4032.09 SAY 0.040TOTAL 13810.14Add 3% Contingency Charges 414.30
TOTAL Rs. 14224.44Say 0.14200
ABSTRACT OF COST
ModEl estimate of wasteweir in arale land
P.S. - BASERI, DISTT. - DHOLPUR (RAJ.)
IWMP BASERI - V W/S 8/1, 2, 3, 4, 5, 9
Name of work :- WEIST WEIRP,S, DISTT. BHILWARABASERI DISTT. DHOLPUR
S.No.PARTICULAR No. LENGTHBREADTHHT/DEPTHQUANTITY1 Total Excavation
H.W. 1.00 4.00 0.75 0.60 1.80H.W.E. 2.00 1.50 0.45 0.60 0.81S.W. 2.00 1.50 0.45 0.60 0.81Toe wall 1.00 4.00 0.30 0.45 0.54Apron 1.00 4.00 0.75 0.45 1.35Wing Wall 2.00 0.50 0.45 0.60 0.27
Total (cu.m) 5.582 Excavation in hard soil dry or
most&disposal of excavatedmaterial within intial lead of30 m and liftof 1.5m includingdressing etc complete 10%ofTotalExcavation
Total 5.585 cement concrete well mixed
in cement mortar(1:4:8) laidin position complete includingcuring Aggregate size upto50mm. HB Total ExcavationH.W. 1.00 4.00 0.75 0.15 0.45H.W.E. 2.00 1.50 0.45 0.15 0.20S.W. 2.00 1.50 0.45 0.15 0.20Toe Wall 1.00 4.00 0.30 0.15 0.18Apron 1.00 4.00 0.75 0.15 0.45Wing Wall 2.00 0.50 0.45 0.15 0.07
Total 1.556 Random rubble stone
masonary in cement sandmortar(1:6) for foundation H.W. 1.00 4.00 0.75 0.45 1.35H.W.E. 2.00 1.50 0.45 0.45 0.61S.W. 2.00 1.50 0.45 0.45 0.61Toe Wall 1.00 4.00 0.30 0.30 0.36Apron 1.00 4.00 0.75 0.15 0.45Wing Wall 2.00 0.50 0.45 0.45 0.20
Total 3.587
Random rubble stonemasonary in cement sandmortar(1:6) forsuper structure
H.W. 1.00 4.00 0.58 0.35 0.81H.W.E 1.00 3.00 0.40 0.50 0.60S.W. 2.00 1.05 0.40 0.25 0.21
2.00 0.30 0.40 0.50 0.122.00 0.05 0.40 0.25 0.01
Wing Wall 2.00 0.50 0.40 0.25 0.10
Total 1.859 Cement plaster including
smooth finishing in cementmortar (1:3)25mm thickH.W. 1.00 4.00 0.35 1.40
1.00 4.00 0.65 2.601.00 4.00 0.30 1.20
S.W. 2.00 0.40 0.15 0.12
DETAILED ESTIMATE
2.00 0.35 0.33 0.122.00 1.05 0.25 0.532.00 0.75 0.30 0.45
H.W.E. 1.00 3.00 0.50 1.50Toe Wall 1.00 4.00 0.15 0.60Wing Wall 2.00 0.50 0.25 0.25Apron 1.00 4.00 0.75 3.00
Total 11.7711 Cement concrete coping in
cement mortar1:2:4.75 mmthickH.W. 1.00 4.00 0.40 0.05 0.08S.W. 2.00 1.80 0.40 0.05 0.07H.W.E. 1.00 3.00 0.40 0.05 0.06Toe.Wall 1.00 4.00 0.30 0.05 0.06
Total 0.2712 E/W for bind / embankment
in dry or mosit soil includinglaying on layers 1.5cmBreaking of clods sort ing ofgrass pabbles ete anddressing in requred profilewhen compacted manually orby plain roller with initial leadof 30mt and lift 1.5 mt(exeluding charges ofwaterring and compaction)Hard soil Total 0
13 Dry stone pitching hammerdressing with packing ofvoids from small stoneincluding all lifts in reqiredprofile of depth of 20 to 23cm 0
Total 0
2 Name of work :- CONSTRUCTION OFWEIST WEIR
Design
1 Available crest length 4.00 M
2 Total catchment area 1.00 Ha
3 Hight of structure 0.35 M
A Design discharge (By flood discharge method)
A HYDROLIC DESIGN
Peak rate of run off in cum/sec.=
Q = C I A C= 0.4036 Catchment Area 1.00 Ha
DESIGN OF WEIR
Q = 0.27 cumsec K = L3 H L= 75.00 M
Say 0.27 cumsec H= 0.80 MK 726.18Tc=0.0195K0.77
3.11I = 23.90 cm/hr.
B HYDROLIC DESIGN
Q = 1.71L(h)3/2 L = 4.00 mt length available at siteh =[Q/1.71L]2/3
h = 0.11 Say = 0.10
Taking free board as 0.05 M
Total d = 0.15
C. STRUCTURAL DESIGN
(I) Top width of Head wallh /(p-1)0.5 0.09 0.09 say = 0.40 M(as per site condition where h = 0.10 m p = 2.30 0.10 M
p Specific gravty of stone masnory in cm = 2.3
(ii) Bottom width of head wallb = h+H /(p-1)0.5 0.39 Say = 0.75 M
H =heigth of head wall in meters = 0.35 m 0.35 M
(iii) Length of head wall extension H +d + 1 1.50 1.50 Md = h+free board = 0.15 0.15 Mbut as per side condition L/S M 1.5 R/S M 1.5 3.00 M
(iv) Heigth of Head wall extensionH + d = 0.50 M
(v) Botton width of HW ext. side wall & wing wall0.5(H+h)= 0.23 0.45 M
(vi) Top width of HW ext0.4H= 0.14 0.40 M
(vii) Length of BasinL.B =0.75(H+d)+H 0.73 0.75 M
(viii) Thickness of Basin =0.60m(incloding concreting)
(ix) Height of side wall H+d = 0.50 0.50 M
(x) Height of side wall =1.5h at W W joints1.5h = 0.15 0.25 M
(xi) Length of side wall = B. W. of H. W -B.W of H W E+L.B+ width of toe wall
1.50
(xii) Length of wing wall = 2.25 h=0.23 0.00 M
(xiii) Height of the wing wall = 0.15 0.00 M
(xiv) Top width of Head wall ext site wall wing wall =
(xv) Width of toe wall= 0.3 M
(xvi)Height of toe wall = 0.15 M
(xvii) Height of wing wall at wing end = 0.00 M
(xviii) Bottem width of the side wall &wing wall taking as per Bottom width
of the head wall ext as in item no.5= m 0.45 M
(xix)Depth of foundation taking as 0.60 M
Prepared by Checked by Approved by
STABILITY CHECK'S
a Top width of anicut = 0.40 m
b Bottm width of anicut = 0.75 m w1 + w2self weight of anicut
p1 Pressure due to water besswall
p2 Horizontal water pressure
p3 Up lift pressure
h Food heigth = 0.10 m H heigth of anicut = 0.35 m L considening one metre = 1 S 2.3 C 0.6
Forces acting on a over flow gravity damForces and momrnt calculation'sconsidening one metre length of ancut and taking Restoring moment as positive (+ ve) and overturning momentas negative (-ve)moment taken at B
s. no. Forcesv- vertical forces
H- horizontal forces
Force acting at a distance from B
moment at B 2x5 + ve -ve
1 w1 = a x H xLxS0.32 0.32 2.20 0.71
2 w2 = 1/2x(b-a)xHxLxS0.14 0.14 1.13 0.16
3 p1 =wh x H0.04 0.04 0.90 0.03
4 p2 =wH2/2 x H0.06 0.06 0.60 0.04
5 p3 =cxwbx(H+h)/20.09 0.09 1.80 0.17
TOTAL 0.37 0.10 0.87 0.24 Em=mr-mo
0.63
CHECKS IN OVERTURNING
Factor of satety agaist overturning
Emr/Emo =+m/-m = Restoning moment/overturning moment
3.64
it is more than 1.50 hance structure is safe against overturning
SLINDING
Factor of safety against slinding
Ev/Eh = 3.83
it is more than 1.0 hance structure is safe against slinding
RUPTURE (safety against tension at the bese)
X Relne Position of resultant measured from toe
x = Em/Ev = 1.71
e = b/2 - X -1.33
Ev/b (1+6e/b) -10.17
Ev/b (1-6e/b) 11.16
P max = -10.17
P min = 11.16
NAME OF WORK : WASTE WEIR S.no Particular Qty. Cement Sand Aggregate Stone Bags Cum 50mm 20mm Cum
1 Cement concrete (1:3:6) mmHB (cum) 4.05,0.43,0.86 1.55 6.29 0.67 1.34
2 R R stone masonary (1:6)Foundation/ Super structure(cum) 1.40, 0.30, 1.10 5.42 7.59 1.63 5.96
3 Cement plaster (1:6)25 mmthick (sqm) 0.153 0.03 11.77 1.80 0.35
4 Raised &cut pointing (sqm)0.0.32, 0.0043
5 Stone kharanja in cementmortar (1:6)(cum)1.80, 0.375, 1.20
6 Cement concrete coping incement mortar1:1.5:3.75 mmthick 7.33,0.40,0.78 0.27 1.99 0.11 0.21
7 Dry stone pitching TOTAL 17.67 2.76 1.55 5.96
SAY 18 BAGS 0.88 MT
PLAN1.5 4.00 1.5
1.40
0.3 0.5
0.150.40
0.35 0.25G.L G.L
0.15
0.450.60
0.150.15
0.75
0.40
0.50
0.60
0.150.45
S.W.& H.Ex- X- Sec.
0.75
MATERIAL CONSUMPTION STATEMENT
0.40
X-Section
G.L.
0.40
2. 2.
0.10 P30.40
P1
0.35 w1 0.55 P2 0.18
0.12 w2
0.45
0.35
0.27
0.75
0.25 0.50
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A- l[r] fpduh] dadj feêh esa 80 izfr- vkSlr 1 100 400 250 1.6 400 ?ku eh- 91.00 91.00 36400.00 36400.00
B- fo?kfVr pV~Vku @eqjZe 20 izfr- vkSlr 1 100 400 250 0.4 100 ?ku eh- 134.00 134.00 13400.00 13400.00
2 vfrfjDr fy¶V dk dk;Z 1 100 156.25 128.125 0.5 64.06 l[;k 11.00 11.00 704.69 704.69
3 vfrfjDr yhM dk dk;Z 1 100 400 250 1 250 l[;k 33.75 33.75 8437.50 8437.50
Total 58942.19 58942.19
;ksx 58942 58942.19tksM+ 2 % dfUVu tsalh 1768.27 1768.27
;ksx 60710 60710.45
60710
SAY 6080060710
9060800
Øa-la- dk;Z dk fooj.k la0iSnsa dk
{ks=Qy
IWMP BASERI - V W/S 8/1, 2, 3, 4, 5, 9P.S. - BASERI, DISTT. - DHOLPUR (RAJ.)
ek=k bdkbZ
nj jkf'k
iSans dh pkSM+kbZ 10 eh- & Åij dh pkSM+kbZ 20 eh- & xgjkbZ 2 ehVj Location-
NREGS
ykxr lkexzh en esa
dqy ;ksx
dk;Z dk Ukke& QkeZ ikS.M fuekZ.k dk;Z xzke& xzke iapk;r&
dk;kZy; iapk;r lfefr] clsM+h ] ftyk /kksyiqj
fuekZ.k dk;Z gsrq foLr`r ykxr&vuqeku
Total
dqy ;ksx
ykxr Je en esa
vkSlr
{ks=QyxgjkbZ
Åij
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{ks=Qy
Name of work :-Construction of Nadi in P.D. block S.Noitem no. Particular Qty. Rate Per Amount Labour Rate L.Amount
1 2,(b)1 Excavation in hard soil dry or
most&disposal of excavatedmaterial within intial lead of30 m and liftof 1.5m includingdressing etc complete 2.71 85.00 cum 230.01 85.00 230.01
2 2(c ),1 Excavation in ordinarymurram or earth mixed withbajri and kankar or boulderdry or most&disposal ofexcavated material withinintial lead of 30 m and liftof1.5m including dressing etccomplete 8.12 99.00 cum 803.68 99.00 803.682
3 2(d ),1Excavation in disintegratedrock and or soft rock or hardbankar or compacted murrumdry or moist includingdressing&disposal ofexeavated matarual with intiallead of 30m and lift of 1.5m
16.24 134.00 cum 2175.62 134.00 2175.6244 192,17 cement concrete well mixed
in cement mortar(1:4:8) laid inposition complete includingcuring Aggregate size upto40mm. HB 8.46 1762.00 cum 14906.52 312.55 2644.173
5 27,3 Random rubble stonemasonary in cement sandmortar(1:6) for foundation 14.73 1449.00 cum 21343.77 366.50 5398.545
6 28,3 Random rubble stonemasonary in cement sandmortar(1:6) forsuper structure 14.03 1567.00 cum 21986.58 484.50 6798.0195
7 70,8 Cement plaster includingsmooth finishing in cementmortar (1:4)25mm thick 33.21 136.00 cum 4515.88 58.15 1930.8708
8 40(ii),4 Cement concrete coping incement mortar1:2:4.100mmthick 0.99 3126.00 cum 3108.81 398 395.811
ABSTRACT OF COST
9 2(b),1 E/W for bind / embankment indry or mosit soil including layingon layers 1.5cm Breaking ofclods sort ing of grass pabblesete and dressing in requredprofile when compactedmanually or by plain roller withinitial lead of 30mt and lift 1.5 mt(exeluding charges of waterringand compaction) Hard soil 1380.00 91.00 cum 125580.00 91.00 125580
TOTAL 194650.87 145956.74TOTAL 194650.87Add 3% Contingency Charges 5839.53Total METARIAL 54533.66 SAY 0.545Total LABOUR 145956.74 SAY 1.460G. TOTAL 200490.40 Say 2.00
Prepared by checked by Approved by
S.No. PARTICULAR No. LENGTH BREADTHHT/DEPTH QUANTITY1 Total Excavation
H.W. 1.00 6.00 1.60 1.00 9.60H.W.E. 1.00 3.00 0.60 1.00 1.80S.W. 2.00 2.90 0.60 1.00 3.48wing wall 4.00 0.80 0.60 1.00 1.92Toe wall 1.00 6.00 0.45 0.90 2.43Apron 1.00 6.00 1.45 0.90 7.83
Total (cu.m) 27.062 Excavation in hard soil dry or
most&disposal of excavatedmaterial within intial lead of30 m and liftof 1.5m includingdressing etc complete 10%ofTotalExcavation
Total 2.713 Excavation in ordinary
murram or earth mixed withbajri and kankar or boulderdry or most&disposal ofexcavated material withinintial lead of 30 m and liftof1.5m including dressing etccomplete 30% of TotalExcavation
Total 8.124
Excavation in disintegratedrock and or soft rock or hardbankar or compacted murrumdry or moist includingdressing&disposal ofexeavated matarual with intiallead of 30m and lift of 1.5m60% of Total Excavation
Total 16.24
5 cement concrete well mixedin cement mortar(1:3:6) laid inposition complete includingcuring Aggregate size upto50mm. HB Total ExcavationH.W. 1.00 6.00 1.60 0.30 2.88H.W.E. 1.00 3.00 0.60 0.30 0.54S.W. 2.00 2.90 0.60 0.30 1.04Wing Wall 4.00 0.80 0.60 0.30 0.58Toe Wall 1.00 6.00 0.45 0.30 0.81Apron 1.00 6.00 1.45 0.30 2.61
Total 8.46
DETAILED ESTIMATE
6 Random rubble stonemasonary in cement sandmortar(1:6) for foundation H.W. 1.00 6.00 1.30 0.70 5.46H.W.E. 1.00 3.00 0.60 0.70 1.26S.W. 2.00 2.90 0.60 0.70 2.44Wing Wall 4.00 0.80 0.60 0.70 1.34Toe Wall 1.00 6.00 0.45 0.60 1.62Apron 1.00 6.00 1.45 0.30 2.61
Total 14.737 Random rubble stone
masonary in cement sandmortar(1:6) forsuper structure
H.W. 1.00 6.00 0.95 0.80 4.56H.W.E 1.00 3.00 0.60 1.45 2.61S.W. 2.00 1.90 0.60 1.03 2.34
2.00 1.00 0.60 1.45 1.742.00 0.00 0.60 0.73 0.00
Wing Wall 4.00 0.80 0.60 1.45 2.78Total 14.03
8 Cement plaster includingsmooth finishing in cementmortar (1:3)25mm thickH.W. 1.00 6.00 0.80 4.80
1.00 6.00 1.10 6.601.00 6.00 0.30 1.80
S.W. 2.00 0.60 0.65 0.782.00 1.00 1.05 0.782.00 1.90 1.03 3.902.00 1.45 0.30 0.87
Wing Wall 2.00 0.80 0.60 0.962.00 0.60 0.60 0.72
H.W.E. 1.00 3.00 0.50 1.50Toe Wall 1.00 6.00 0.30 1.80Apron 1.00 6.00 1.45 8.70
Total 33.219 Cement concrete coping in
cement mortar1:2:4.75 mmthickH.W. 1.00 6.00 0.60 0.08 0.27S.W. 2.00 3.50 0.60 0.08 0.32Wing Wall 2.00 0.80 0.60 0.08 0.07H.W.E. 1.00 3.00 0.60 0.08 0.14Toe.Wall 1.00 6.00 0.45 0.08 0.20Apron 0.00 6.00 1.45 0.10 0.00
Total 0.9910 E/W for bind / embankment in
dry or mosit soil including layingon layers 1.5cm Breaking ofclods sort ing of grass pabblesete and dressing in requredprofile when compactedmanually or by plain roller withinitial lead of 30mt and lift 1.5 mt(exeluding charges of waterringand compaction) Hard soil 1380 1380.00
Total 1380.002. 2. 2. 2. 2. 2. 2. 2.
1 Name of village :- BASERI IWMP - VP.S . - BASERI DISTT. DHOLPUR ( RAJ.)
2 Name of work :- CONTRUCTION OF NADI WITH WASTEWEIR Design
1 Available crest length 6.00 M2 Total catchment area 20.00 Ha3 Hight of structure 0.80 MA Design discharge (By flood discharge method) A HYDROLIC DESIGN
Peak rate of run off in cum/sec.=Q = C I A C= 0.40
36 Catchment Area 20.00 HaQ = 1.78 cumsec K = L3
H L= 1200.00 M
Say 2.00 cumsec H= 4.00 MK 20784.61Tc=0.0195K0.77
41.18I = 8.00 cm/hr.
B HYDROLIC DESIGNQ = 1.71L(h)3/2 L = 6.00 mt length available at siteh =[Q/1.71L]2/3
h = 0.34 Say = 0.35 Taking free board as 0.3 MTotal d = 0.65
C. STRUCTURAL DESIGN (I) Top width of Head wall
h /(p-1)0.5 0.31 0.31 say = 0.60 M(as per site condition where h = 0.35 m p = 2.30 0.35p Specific gravty of stone masnory in cm = 2.3
(ii) Bottom width of head wallb = 0.8H+T.W+.3 1.54 Say = 1.60 MH =heigth of head wall in meters = 0.8 m 0.80 M
(iii) Length of head wall extension H +d + 1 2.45 2.45 Md = h+free board = 0.65 0.65 Mbut as per side condition L/S M 1.5 R/S M 1.5 3.00 M
(iv) Heigth of Head wall extensionH + d = 1.45 M
(v) Botton width of HW ext. side wall & wing wall0.5(H+h)= 0.58 0.60 M
(vi) Top width of HW ext0.4H= 0.32 0.60 M
(vii) APRON WIDTH =H+d 1.45 1.45 M
(viii) Thickness of Basin =0.60m(incloding concreting) (ix) Height of side wall
H+d = 1.45 1.45 M (x) Height of side wall =1.5h at W W joints
1.5h = 0.53 0.50 M
NADI IN P. D. BLOCK2. 2. 2. 2. 2. 2. 2. 2.
(xi) Length of side wall = B. W. of H. W -B.W of H W E+Apron width+ width of toe wall2.90
(xii) Length of wing wall = 2.25 h= 0.79 0.80 M (xiii) Height of the wing wall = 0.53 0.60 M (xiv) Top width of Head wall ext site wall wing wall = 0.60mt (xv) Width of toe wall= 0.45 M (xvi) Height of toe wall = 0.30 M (xvii) Height of wing wall at wing end = 0.60 M (xviii) Bottem width of the side wall &wing wall taking as per Bottom width
of the head wall ext as in item no.5= m 0.60 M (xix) Depth of foundation taking as 1.00 M
STABILITY CHECK'S a Top width of anicut = 0.60 m b Bottm width of anicut = 1.60 m w1 + w2self weight of anicut p1 Pressure due to water besswall p2 Horizontal water pressure p3 Up lift pressure h Food heigth = 0.35 m H heigth of anicut = 0.80 m L considening one metre = 1 S 2.3 C 0.6
Forces acting on a over flow gravity damForces and momrnt calculation'sconsidening one metre length of ancut and taking Restoring moment as positive (+ ve) and overturning momentas negative (-ve)moment taken at B
s. no. Forces
v- vertical forces
H- horizontal forces
Force acting at a distance from B
moment at B 2x5 + ve -ve
1 w1 = a x H xLxS1.10 1.10 2.20 2.43
2 w2 = 1/2x(b-a)xHxLxS0.92 0.92 1.13 1.04
3 p1 =wh x H0.28 0.28 0.90 0.25
4 p2 =wH2/2 x H0.32 0.32 0.60 0.19
5 p3 =cxwbx(H+h)/20.46 0.46 1.80 0.83
TOTAL 1.56 0.60 3.47 1.27 Em=mr-mo
2.19 CHECKS IN OVERTURNINGFactor of satety agaist overturning Emr/Emo =+m/-m = Restoning moment/overturning moment
2.72it is more than 1.50 hance structure is safe against overturning SLINDINGFactor of safety against slindingEv/Eh = 2.61it is more than 1.0 hance structure is safe against slindingRUPTURE (safety against tension at the bese)X Relne Position of resultant measured from toe x = Em/Ev = 1.40e = b/2 - X -0.60Ev/b (1+6e/b) -1.29Ev/b (1-6e/b) 3.24P max = -1.29 P min = 3.24
NAME OF WORK : RAIN WATER HARVESTING STRUCTURE ANICUT S.no Particular Qty. Cement Sand Aggregate Stone Bags Cum 50mm 20mm Cum
1 Cement concrete (1:3:6) mmHB (cum) 4.05,0.43,0.86 8.46 34.26 3.64 7.28
2 R R stone masonary (1:6)Foundation/ Super structure(cum) 1.40, 0.30, 1.10 28.76 40.27 8.63 31.64
3 Cement plaster (1:6)25 mmthick (sqm) 0.153 0.03 33.21 5.08 1.00
4 Raised &cut pointing (sqm)0.0.32, 0.0043
5 Stone kharanja in cementmortar (1:6)(cum)1.80, 0.375, 1.20
6 Cement concrete coping incement mortar1:1.5:3.75 mmthick 7.33,0.40,0.78 0.99 7.29 0.40 0.78
7 Dry stone pitching TOTAL 86.90 13.66 8.05 31.64
SAY 87 BAGS 4.34 MT
0.35 P30.60
P1
0.80 w1 1.3 P2 0.40
0.27 w2
1.150.80
0.69
MATERIAL CONSUMPTION STAEMENT
1.60
0.53 1.07
PLAN1.5 6.00 1.5
2.90
0.450.80
0.650.60
0.80 0.50G.L G.L
0.30 0.901.00
0.300.3 1.45
1.60
0.60
0.601.45
0.50G.L G.L
1.00 1.00
0.3 0.30.60
S.W.& H.Ex- X- Sec. W.W. X- Sec.
0.60
X-Section
0.60
0.60
2.
Name of Village :- Name of Panchayat :-
Name of Work :- Pasture Land Development
1 Ha. Area for P.D, 400 Rmt. Length of Thore fencing per ha.400 Plants to be planted in one hectare Say 400
S.no Particular Unit Quantity Labour Rate
Total Rate
Labour Cost
Total Amount
(A) Thor fencing work1 Excavation for thor fencing size 0.15x0.15x60 m Cum 9.00 91 91 819.00 819.002 Supply and cutting of 80 cm thor sticks.(7 No Danda /-Ha) Per 100 stick 2800 74.3 174 2080.4 4872.00
3
Transportation cost of thor sticks through bullock cart from 5 km distance, loading & unloading. (70+30=100)
Per 100 stick 2800 100 100 2800 2800.00
4 Rehandling work of thor sticks up to 200 to 500mt distance. Per 100 stick 2800 76.5 76.5 2142 2142.00
5 Planting of Thor sticks. Rmt. 400 6.93 6.93 2772 2772.00Total 10613.40 13405.00
(B) Plantation work6 Planting of Aloevera plant on Boundary of field & (0.6mx0.6m)
spacing with complete work ( 400x0.6=240 Rmt)Per Rmt 240 9.97 9.97 2392.8 2392.8
7 Cost of Aloevera Including Transportation 10 Km + LoadingUnloading + Rehandling 50 %(3.75+0.94+0.297+0.3715=5.36)
Per plant 400 1 5.36 400 2144.00
8 Grass Seeding work (Dhaman Seed)12 kg/-Ha Per Kg 12 0 50.00 0 600.009 Making of Pallets Per Kg 12 18.9 18.90 226.8 226.80
10 Spreeding of Grass Seed Per Ha 1 160 160.00 160 160.00Note:- All Rates Apply Gramin kary Nirdesika 2011 Total Rs.3,180 Rs.5,524
Rs.3,180 Rs.5,524 Total Rs.3,180 5523.60
Add.3% Contengencey 165.71Grand Total 5689.31
Total Cost/ Ha Labour Cost/ Ha
Material Cost/ Ha
5689 3180 2510Total Cost of Private Pasture Dovelopment 19094Cost From w/s scheme 5689Contribution From Farmer in terms of live fencing 13405
IWMP BASERI - V W/S 8/1, 2, 3, 4, 5, 9
ALOEVERA
P.S. - BASERI, DISTT. - DHOLPUR (RAJ.)
Costing & Quantity Estimation of Pasture Land Development
1.0 x 1.0 mt. Spacing
(Production)
Total Area in Ha 1
S. No. Item Quantity Unit Rate Amount
1 Marking of contour line through dumpy level 300 Per metre 0.31 93.00
2Dug belling work for CCT up to 5-7 cm depth (As per BSR2011, P.no. 14, item no. 155a) (2X300=600)
600 Rm 1.00 600.00
Quantity of E/W (300Rmt X 0.2025=60.75 cum) 60.75 Cum
3 Excavation of hard soil for CCT as per BSR2011,P.no. 17, item no. 189b) 40% 24.3 Cum 91.00 2211.30
4 Excavation of murram for CCT as per BSR2011,P.no. 17, item no. 189c) 60% 36.45 Cum 99.00 3608.55
5 Sowing of local grass seed on bunds As per BSR2007, P.no. 11, item no. 142) (3X300=900) 900 Rm 0.59 531.00
6 Grass seedA Spreeding of Grass seed 1 Ha 160 160.00B Making of pallets 12 Kg 18.9 226.80C Dhaman 12 Kg 50 600.00
Total cost for CCT 8030.65
Contengency charge 3% 240.928271.57
SAY Am 8300 Per Ha
IWMP BASERI - V W/S 8/1, 2, 3, 4, 5, 9
P.S. - BASERI, DISTT. - DHOLPUR (RAJ.)
OPEN LAND CONTOUR TRENCHCosting & Quantity Estimation of Contour trench
Total length of CCT per ha =300 rm/haCX= 0.2025 Cum
FOR P.S. - BASERI
S.no. Item Quantity Unit Rate Amount1 Dug belling work up to 5-7 cm depth 400 Rm 0.88 352.00
2 Earth work in hard soil for construction ofbund including ramming compaction anddressing up to the lead of 50m and lift1.5 m
215 Cum 85.00 18275.00
3 Prepare pallets with composition of grass seed , fine soil and water
4 Kgs 50.00 200.00
4 Sowing of seed on bunds 300 Rm 0.59 177.00
5 Grass seed
6 Stylohemata 1 LS 70.00 70.00
7 Dhaman 2 LS 80.00 160.00
19234.00577.02
19811.02Say 20000Per. M. Cost 200.00
0.40
U/S D/S
Contingency @ 3%Grand Total
MODEL ESTIMATE OF BANK STABLIZATION
Cross section of bund - 2.15 sqm
BASERI ( IWMP - V ) W/S - 8/1, 2, 3, 4, 5, 9P.S. - BASERI, DISTT. - DHOLPUR (RAJ.)
For lenth 100 M.
1.5:1
1.00 2:1
G.L G.L. 0.4 3.90
0.6
X-Section3.583