Tecnologías

Recharge Ponds and Recharge Trenches [India]

Chaal or Khals (recharge pond) and Khanti (recharge trenches)

technologies_5193 - India

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1. Información general

1.2 Detalles de contacto de las personas de referencia e instituciones involucradas en la evaluación y la documentación de la Tecnología

Persona(s) de referencia clave

usuario de la tierra:

Joshi Jagdamba Prashad

Naikina Forest Head Council (Gram Panchayat)

India

Nombre del proyecto que financió la documentación/ evaluación de la Tecnología (si fuera relevante)
Onsite and Offsite Benefits of SLM
Nombre de la(s) institución(es) que facilitaron la documentación/ evaluación de la Tecnología (si fuera relevante)
ICIMOD International Centre for Integrated Mountain Development (ICIMOD) - Nepal
Nombre de la(s) institución(es) que facilitaron la documentación/ evaluación de la Tecnología (si fuera relevante)
G.B. Pant Institute of Himalayan Einvironment & Development (G.B. Pant Institute of Himalayan Einvironment & Development) - India

1.3 Condiciones referidas al uso de datos documentados mediante WOCAT

El compilador y la/s persona(s) de referencia claves aceptan las condiciones acerca del uso de los datos documentados mediante WOCAT:

1.4 Declaración de la sostenibilidad de la Tecnología descrita

¿La Tecnología aquí descrita resulta problemática en relación a la degradación de la tierra, de tal forma que no puede considerársela una tecnología sostenible para el manejo de la tierra?

No

Comentarios:

Like any tool, one needs to use and apply it appropriately. Land users and SLM specialists have admitted that these technologies can be ineffective depending on number, design and site selection for implementation. Recharge ponds and trenches could potentially cause soil disturbance and subsequent land degradation if such measures are not carefully considered by the users.

1.5 Referencia al (los) Cuestionario(s) de Enfoques MST (documentados usando WOCAT)

Community Forest Management in the Nakina Van Panchayat
approaches

Community Forest Management in the Nakina Van Panchayat [India]

Van Panchayats or village forest councils are a impressive example of grassroots community management of natural resources, where a specific administrative unit is locally elected by community members who are responsible for the management of activities related to the forest.

  • Compilador: Jaclyn Bandy
Naula Management and Conservation
approaches

Naula Management and Conservation [India]

Naulas are shallow, four-sided stepped wells designed to collect water from subterranean seepages or springs and are used to meet domestic water needs by the local communities. Naula management and conservation encompasses a range of activities that preserve their structure and function.

  • Compilador: Jaclyn Bandy

2. Descripción de la Tecnología MST

2.1 Breve descripción de la Tecnología

Definición de la Tecnología:

Recharge ponds (Chaals or khals) and recharge trenches (khanti) are common methods to catch the surface runoff and increase the infiltration to recharge groundwater and aid in natural spring recharge in the middle mountain regions.

2.2 Descripción detallada de la Tecnología

Descripción:

1. The recharge ponds and trenches have been applied in mountainous community forests. There have been about 60 trenches, 1 large and 4 small recharge ponds constructed in the specific sites in the community forest of Naikina. These are ideal areas to implement these technologies, as they encompass the microwatershed/springsheds of 3 springs.

a. Recharge ponds are circular or rectangular dugout structures which were constructed a natural depression area on sloping land. The standard size is usually as follows: Length =3 m, Width =3 m and Depth = 0.7 m, with site specific modifications. Water feeder channels which flow to the ponds helps to harvest additional surface flow. The walls are not vertical but have a 45 degree slope to prevent cave in.

b.Recharge trenches are small rectangular structures of typical dimensions: Length=1.5 m, Width= 1m , Depth= 0.7 m, constructed on sloping land in a staggered manner. The slope of the walls should be not more than 45 degrees, and the size of the trenches and their spacing depends on the slope of the land. In higher slope areas, one should construct smaller staggered trenches with closer spacing. These are generally made in high rainfall areas, as there is an increased danger of overflow. In staggered trenching, the trenches are located directly below one another in alternate rows and in a staggered fashion. These may be 2 m to 3 m long and the spacing between the rows may vary from 3 m to 5 m.

2. Aims/Objectives: The central focus of the technology is water conservation and harvesting of surplus monsoon runoff to recharge groundwater reservoirs, which is otherwise going un-utilized. Additionally, land degradation by water erosion is decreased due to slowing of runoff and increased soil infiltration. Water erosion after intense rainfall affects both onsite and offsite sites, causing soil displacement, increased frequency of landslides, damage to vegetation, agriculture land, and village settlements.

3. Methods: Due to decreased spring discharge in the dry season and high dependency on the springs for drinking water (humans and livestock), the community has implemented these technologies within in catchment areas of 3 essential springs (Bhind, Vaishnavi, and Bagawoti) in the last 3 years.

4. Stages of Implementation: Awareness building, community mobilization, and central planning was done by the head of the Forest Council (Gram Panchayat), Mr. Jagdamba Joshi. Recharge pond and trench construction was done over the course of a month by different villagers that were available to participate. They were incentivized to work with a small compensation of 5.30 USD (400 INR)/day. Activities and inputs included time and manual labor (about 3 days for the large recharge pond, 0.5-1 day for each of the small recharge ponds, and 4 days for 60 recharge trenches) and appropriate land-use planning and management. Primarily, the strategic construction of these technologies and selection in appropriate springshed recharge/catchment areas has led their success. The structures have been placed below the pine forest, (which generates high runoff) and reside in a restored broadleaf forest, which acts like a sponge to retain the runoff water flowing down from the pine forest above. The ponds lies in a natural, leveled depression with gentle slopes around. Broadleaf/oak dominated forest areas have been increasingly supported as technology construction sites, as the placement further improves of groundwater recharge.

To assure long-term effectiveness, maintenance and re-digging of the recharge ponds and trenches is carried out by villagers annually, pre-monsoon.

5. Gram Panchayat, Mr. Joshi has played a key role in informing the villagers of technology design, function and importance for supporting the community forest and subsequent spring recharge. He has previous knowledge of the application of these technologies through first-hand experiences working in the army. The villagers were solely responsible for construction with Mr. Joshi's guidance. The men were mainly responsible for making recharge ponds and the women dug trenches and removed weeds.

6) Technology benefits/impacts acknowledged by the community: moisture conservation, long-term groundwater recharge, spring recharge, reduction of soil-water erosion, improved infiltration and support for vegetation cover and broadleaf/oak forest.

Like: Relatively simple and inexpensive, little external inputs required, effective in short and long-term (provided site appropriate selection and regular seasonal rainfall)

Dislike: Drudgery, time consuming, maintenance required, distance (site of implementation may also be far from village).

2.3 Fotografías de la Tecnología

2.5 País/ región/ lugares donde la Tecnología fue aplicada y que se hallan comprendidos por esta evaluación

País:

India

Región/ Estado/ Provincia:

Uttarakhand

Especifique más el lugar :

Nakina Village, Pithoragarh Bloc

Especifique la difusión de la Tecnología:
  • aplicada en puntos específicos/ concentrada en un área pequeña
¿El/los sitio(s) de la Tecnología se ubica(n) en un área de protección permanente?

Si fuera el caso, especifique :

The technologies are located in a community protected forest, which has been under sole village management since the early 1950's.

Comentarios:

A large and small recharge pond above the roadside lies adjacent to a protected oak nursery.

2.6 Fecha de la implementación

Indique año de implementación:

2016

2.7 Introducción de la Tecnología

Especifique cómo se introdujo la Tecnología:
  • mediante la innovación de usuarios de tierras
  • mediante proyectos/ intervenciones externas
Comentarios (tipo de proyecto, etc.):

Mr. Jagdamba Joshi's self-started initiative in his community can be attributed to his personal work experience. While serving in the army, he was trained to build ponds and trenches. Through his own observations and perception of these technologies, he was certain they would help support the depleting groundwater.

3. Clasificación de la Tecnología MST

3.1 Propósito(s) principal(es) de la Tecnología MST

  • reducir, prevenir, restaurar la degradación del suelo
  • conservar el ecosistema
  • proteger una cuenca hidrográfica/ áreas corriente abajo – en combinación con otras Tecnologías
  • reducir el riesgo de desastres naturales
  • adaptarse al cambio climático/ extremos climáticos y sus impactos
  • crear impacto social benéfico

3.2 Tipo(s) actuales de uso de la tierra donde se aplica la Tecnología

Mezcla de tipos de uso de tierras dentro de la misma unidad de tierras: :


Bosques

Bosques

  • Bosques/ zonas boscosas (semi) naturales
  • Plantación de árboles, reforestación
Bosques/ zonas boscosas (semi-) naturales: Especifique tipo de manejo:
  • Tala selectiva
Tipo de bosque (semi)natural:
  • vegetación natural de sistemas de montañas subtropicales
  • Broadleaf/pine mixed forest
Plantación de árboles, reforestación: Especifique el origen y la composición de las especies:
  • Variedades mixtas
tipo de plantación de árboles, reforestación:
  • plantación de bosque subtropical seco - de hoja ancha
  • Quercus leucotrichophora, Quercus lanata, Quercus semecarpifolia, , Quercus glauca Thumb, Pyrus pasia, Myrica eaculanta and Rhododendron arborium
¿Los árboles especificados son deciduos o imperecederos?
  • deciduo
Productos y servicios:
  • Madera
  • Leña
  • Conservación/ Protección de la naturaleza

3.3 ¿Cambió el uso de tierras debido a la implementación de la Tecnología?

¿Cambió el uso de tierras debido a la implementación de la Tecnología?
  • No (Continúe con la pregunta 3.4)

3.4 Provisión de agua

Provisión de agua para la tierra donde se aplica la Tecnología:
  • de secano

3.5 Grupo MST al que pertenece la Tecnología

  • cosecha de agua

3.6 Medidas MST que componen la Tecnología

medidas estructurales

medidas estructurales

  • S4: Acequias niveladas, fosas
  • S5: Diques, hondonadas, estanques

3.7 Principales tipos de degradación del suelo encarados con la Tecnología

erosión de suelos por agua

erosión de suelos por agua

  • Wt: pérdida de capa arable/ erosión de la superficie
  • Wg: erosión en cárcavas
  • Wm: movimiento de masas / deslizamientos de tierra
  • Wo: efectos de degradación fuera del sitio
degradación del agua

degradación del agua

  • Hs: cambio en la cantidad de aguas superficiales
  • Hg: cambio en nivel de aguas subterráneas/ nivel de acuífero

3.8 Prevención, reducción o restauración de la degradación del suelo

Especifique la meta de la Tecnología con relación a la degradación de la tierra:
  • reducir la degradación del suelo
  • restaurar/ rehabilitar tierra severamente degradada

4. Especificaciones técnicas, actividades de implementación, insumos y costos

4.1 Dibujo técnico de la Tecnología

Especificaciones técnicas (relacionadas al dibujo técnico):

Bhind Catchment (Springshed) Recharge Technologies
Dimensions
Recharge Pond 1- Length: 2.37m Width: 0.86 m Depth: 0.61m
Pond 1 Volume- 1.24 m3
Slope: 24%

Recharge Pond 2- Length: 4.46 m, Width: 1.71 m, Depth: 0.97
Pond 2 Volume- 7.40 m3
Slope: 26%

Recharge Trench- Length: 2.5m, Width: 0.25 m, Height: 0.35 m
Trench Volume: 0.22 m3
Total Trench Volume (30): 6.6 m3

Spacing: Trenches are in different locations of the Bhind springshed, 20 functional trenches are aggregated within 1m of each other in a broadleaf forest just north on the cucumber farm. 10 trenches are located directly above the Cucumber farm.
Slope Range: 25-30%

Water Holding Capacity (L):
Total Capacity of Recharge Pond 1: 1,240 L
Total Capacity of Recharge Pond 2: 7,400 L
Total Capacity of Trenches (30): 6,600 L

Total WHC of Technologies: 15,240 L

Total Catchment area of Bhind Springshed: ~10 Hectares

Autor:

Jaclyn Bandy

Fecha:

25/07/2019

Especificaciones técnicas (relacionadas al dibujo técnico):

Bhind Catchment Recharge Technologies: Location Map

Autor:

Jaclyn Bandy

Fecha:

25/07/2019

Especificaciones técnicas (relacionadas al dibujo técnico):

Nakina Spring Catchments (springsheds) and Technology Locations

Autor:

Jaclyn Bandy

Fecha:

25/07/2019

Especificaciones técnicas (relacionadas al dibujo técnico):

Vaishnavi Recharge Structures Diagram Map

Autor:

Jaclyn Bandy

Fecha:

25/07/2019

Especificaciones técnicas (relacionadas al dibujo técnico):

Technologies in Vaishinavi Springshed
Dimensions:
Large Recharge Pond- Length: 10m, Width: 5m, Depth: 0.8 m
Large Pond Volume: 40 cubic meters (m3)

Overflow Canal (narrow pond adjacent to large recharge pond)
Dimensions:
Overflow Canal- Length: 12.9 m, Width: 1.22 m, Depth: 0.7cm
Overflow Canal: 11.017 m3

Small Recharge Pond- Length: 2.34 m, Width: 2 m, Depth: 0.74 m
Small Pond Volume: 3.36 m3

Recharge Trench- Length: 2.5m, Width: 0.25 m, Height: 0.35 m
Trench Volume: 0.22 m3
Total Trench Volume (20): 4.4 m3

Spacing: trenches within 0.5m of each other and <1m spacing between trenches and broadleaf trees and other bushes

Slope: 26%

Water Holding Capacity (L):
Total Capacity of Large Pond: 40,000 L
Total Capacity of Overflow Canal: 11,017 L
Total Capacity of Small Pond: 3,460 L
Total Capacity of Trenches (20): 4,400 L

Total WHC of Technologies: 58,877 L
Total Area of Technologies: 0.5 Hectare

Total Area of Vaishnavi Catchment: ~13 Hectares

Autor:

Jaclyn Bandy

Fecha:

25/07/2019

4.2 Información general sobre el cálculo de insumos y costos

Especifique cómo se calcularon los costos e insumos:
  • por unidad de Tecnología
Especifique unidad:

2 Ponds, 1 Overflow Canal, 20 Recharge trenches

Especifique las dimensiones de la unidad (si fuera relevante):

Total Trenches (20): 4.4 m3, Large Recharge Pond: 40 m3, Overflow Canal: 11.017 m3, Small Recharge Pond: 3.36 m3

otra / moneda nacional (especifique):

INR

Si fuera relevante, indique la tasa de cambio de dólares americanos a la moneda local (ej. 1 U$ = 79.9 Reales Brasileros): 1 U$ =:

70,0

Indique el costo promedio del salario de trabajo contratado por día:

400 INR

4.3 Actividades de establecimiento

Actividad Momento (estación)
1. Plan designed by administrative committee of Van Panchayat Winter 2016
2. For technology construction, groups of men and women (8 total per group) were established with their planned working days Pre-monsoon 2016
3. Trenches and recharge ponds were dug on a rotation system by the groups on different days Pre-monsoon 2016
4. Compensation was given to participants upon completion of the project after 20 days work. Pre-monsoon 2016

4.4 Costos e insumos necesarios para el establecimiento

Especifique insumo Unidad Cantidad Costos por unidad Costos totales por insumo % de los costos cubiertos por los usuarios de las tierras
Mano de obra Community manual labor person-days 120,0 400,0 48000,0 100,0
Equipo pick pieces 5,0 300,0 1500,0 100,0
Equipo shovel pieces 5,0 500,0 2500,0 100,0
Equipo pharuwa (hoe) pieces 4,0 300,0 1200,0 100,0
Equipo khanti (digging bar) pieces 3,0 1500,0 4500,0 100,0
Equipo hammer pieces 3,0 2000,0 6000,0 100,0
Equipo small hammer pieces 3,0 300,0 900,0 100,0
Equipo chino (chisel) pieces 4,0 500,0 2000,0 100,0
Material de construcción Rocks excavated on site
Costos totales para establecer la Tecnología 66600,0
Costos totales para establecer la Tecnología en USD 951,43
Comentarios:

On average 4 people worked on establishing the technology/day = 400 x 4 = 1600 (labor cost/day)
1600 x 30 days = 48,000 Total Cost

4.5 Actividades de establecimiento/ recurrentes

Actividad Momento/ frequencia
1. Monitoring of the area for any damages or maintenance required Weekly
2. Clearing of debris or filled sediment in pond/trenches/channel Pre monsoon

4.6 Costos e insumos necesarios para actividades de mantenimiento/ recurrentes (por año)

Especifique insumo Unidad Cantidad Costos por unidad Costos totales por insumo % de los costos cubiertos por los usuarios de las tierras
Mano de obra Maintenance Labor person-days 4,0 1600,0 6400,0 100,0
Equipo Communal equipment (see above for costs)
Indique los costos totales para mantenecer la Tecnología 6400,0
Costos totales para mantener la Tecnología en USD 91,43

4.7 Factores más determinantes que afectan los costos:

Describa los factores más determinantes que afectan los costos:

-Amount of siltation accumulated in the recharge structures (more debris/soil accumulation requires more maintenance and labor days)
-Labor availability

5. Entorno natural y humano

5.1 Clima

Lluvia anual
  • < 250 mm
  • 251-500 mm
  • 501-750 mm
  • 751-1,000 mm
  • 1,001-1,500 mm
  • 1,501-2,000 mm
  • 2,001-3,000 mm
  • 3,001-4,000 mm
  • > 4,000 mm
Especifique el promedio anual de lluvia (si lo conoce), en mm:

1500,00

Especificaciones/ comentarios sobre la cantidad de lluvia:

Monsoon- mid-June to mid-September; July and August are the rainiest months and the temperature is warm and moist; between 70-85% of the annual precipitation occurs in the monsoon season

Seasons
a. Winter or cold weather (mid Dec. - mid March)
b. Summer or hot weather (mid March - mid June)
c. Season of general rains (South - West monsoon season)
d. Season of retreating monsoon (mid September to mid November)

Indique el nombre de la estación metereológica de referencia considerada:

India Meteorological Department, Meteorological Centre Dehradun

Zona agroclimática
  • Sub-húmeda

The overall climatic condition in the Pithoragarh district is governed by the southwest monsoon. It has a sub-tropical to temperate climate, with three pronounced seasons; summer, winter, and monsoon. The hilly terrain of the Himalayan region has snow cover and is cold during winter with snowfall normally occurring during the months of December to March.

Temperature- The temperature ranges from 0°C to 10°C in winter and from 8°C to 33°C in summer season. However, there is no meteorological observatory in the district. The account of the climate is based mainly on the records of the observations in the neighboring districts where similar meteorological conditions prevail. Variations in temperature are considerable from place to place and depend upon elevation as well as aspect. As the insolation is intense at high altitudes, in summer temperatures are considerably higher in the open than in the shade.

5.2 Topografía

Pendientes en promedio:
  • plana (0-2 %)
  • ligera (3-5%)
  • moderada (6-10%)
  • ondulada (11-15%)
  • accidentada (16-30%)
  • empinada (31-60%)
  • muy empinada (>60%)
Formaciones telúricas:
  • meseta/ planicies
  • cordilleras
  • laderas montañosas
  • laderas de cerro
  • pies de monte
  • fondo del valle
Zona altitudinal:
  • 0-100 m s.n.m.
  • 101-500 m s.n.m.
  • 501-1,000 m s.n.m
  • 1,001-1,500 m s.n.m
  • 1,501-2,000 m s.n.m
  • 2,001-2,500 m s.n.m
  • 2,501-3,000 m s.n.m
  • 3,001-4,000 m s.n.m
  • > 4,000 m s.n.m
Indique si la Tecnología se aplica específicamente en:
  • situaciones cóncavas
Comentarios y especificaciones adicionales sobre topografía :

Average Altitude of evaluated sites: 1850m
Average Slope: 25%

5.3 Suelos

Profundidad promedio del suelo:
  • muy superficial (0-20 cm)
  • superficial (21-50 cm)
  • moderadamente profunda (51-80 cm)
  • profunda (81-120 cm)
  • muy profunda (>120 cm)
Textura del suelo (capa arable):
  • áspera/ ligera (arenosa)
  • mediana (limosa)
Textura del suelo (> 20 cm debajo de la superficie):
  • mediana (limosa)
Materia orgánica de capa arable:
  • media (1-3%)
  • baja (<1%)
Si se halla disponible, adjunte una descripción completa de los suelos o especifique la información disponible, por ej., tipo de suelo, pH/ acidez de suelo, capacidad de intercambio catiónico, nitrógeno, salinidad, etc. :

Mountain/hill soils are a collective name given to various types of soils found under the following conditions :
-under sub-tropical, temperate and sub-alpine conditions
-under various forest types

Characteristics: very thin, fertile, and may be less than a centimeter deep on steep slopes; they are mixed with pebbles, shingles (a mass of small rounded pebbles), and gravels; they have a low-medium water holding capacity. Angular and subangular fragments of parent rock may be found mixed with the lower layers of the mountain and hill soils.

Texture: varies from loamy to sandy loam.
Soil Reaction: ranges from acidic to neutral (pH 4.6 to 6.5)
Organic Matter content: 1-5%

Ferrugenous red roils are found in this district and are well developed over Himalayan rocks (quartzite, biotite schist, amphibolite schist). They are free of carbonates and deficient in nitrogen, humus and phosphorus, light textured, porous, and friable (brittle/crumbly). The soil depth ranges from about 10cm-75 cm. These soils may be grouped into two on basis of morphology

1. Red earths- loose, friable topsoil rich in secondary concretions (hard, compact mass of matter formed by the precipitation of mineral cement within the spaces between particles, and is found in sedimentary rock or soil)
2. Red loam- argillaceous soils having a blocky structure (argillaceous minerals may appear silvery upon optical reflection and are minerals containing substantial amounts of clay-like components, e.g. argillaceous limestones are limestones consisting predominantly of calcium carbonate, but including 10-40% of clay minerals)

Brown soil: is found particularly under dense broadleaved temperate and sub-alpine forests. There occurs a thick layer of humus on the forest floor (made of decomposed leaves, branches, twigs) and the topsoil is extremely rich in humus

Podsolic Soil: soil that has developed in humid/temperate conditions usually under coniferous forests (e.g. deodar, blue pine, fir, spruce) over quartzite, granites, schists and gneiss.

(Citation: Kumaun: The Land and the People, Sharad Singh Negi (1993)

5.4 Disponibilidad y calidad de agua

Agua subterránea:

5-50 m

Disponibilidad de aguas superficiales:

mediana

Calidad de agua (sin tratar):

agua potable de buena calidad

La calidad de agua se refiere a:

agua subterránea

¿La salinidad del agua es un problema?

No

¿Se está llevando a cabo la inundación del área? :

No

Comentarios y especificaciones adicionales sobre calidad y cantidad de agua:

Quantity: Water crisis has been a perennial problem in both the rural and urban areas of the Pithoragarh district
There is scarcity of safe drinking water of the villages in the study area. Hand pumps are often not functioning, pipe-water schemes are unreliable and the spring discharges have reduced during the dry season. Hand-pumped water often has a high iron content and bitter taste. Poor quality of groundwater in some of the naulas is mainly due to misuse and/or disuse of the structures.

A block-district groundwater resource estimation could not be carried out as the area is hilly (with slope >20%) and in major part aquifers are small, isolated bodies, and groundwater abstraction is done mainly through hand pumps and springs with small discharges.

However, we collected some physicochemical parameters that indicate the water (sourced from springs) is of good quality:

Water Quality Parameters of Springs:
pH: 6.29-8.18
Temp: 19.0-23.5 ºC
Electrical Conductivity: 109-504 µmsiemens
Total Dissolved Solids: 75-385 ppm

Other Parameters (from springs of nearby district, Champawat)
Electrical Conductivity: 127-222 µmsiemens
pH: 7.69-8.24
Calcium: 16-36 mg/l
Magnesium: 4.9-7.3 mg/l
Bicarbonate: 61-134 mg/l
Chloride: 5.3- 8.9 mg/l
Total Hardness as CaCO3: 70-110 mg/l

Source: Government of India Ministry of Water Resources, Central Ground Water Board, 2009 Groundwater Brochure of Champawat District (2009

5.5 Biodiversidad

Diversidad de especies:
  • mediana
Diversidad de hábitats:
  • mediana
Comentarios y especificaciones adicionales sobre biodiversidad:

Uttarakhand has more than 7000 species of medicinal plants and 500 species of fauna. Floral diversity contributes 31% of total floral density of India. Fauna contributes just 1.58% of the total faunal density of the country. There are 119 endemic species of flowering plants in the state that exhibited 2.35% endemism and 35 faunal endemic species. Because it lies at the juncture of India, Nepal and the Tibeten Autononmous region, there often cases of poaching and smuggling of wildlife contrabands, including bear bile, musk pods and leopard skins through the borders. Yarsa Gumba Ophiocordyceps sinensis, commonly known as Caterpillar Fungus, is also illegally traded transboundary in the region, together with various plant species. Due to anthropogenic impacts, changes is soil quality, and climatic elements, the biodiversity of our study site is not as high as in other areas of the Pithoragarh district.

Citation: Sundriyal, M. & Sharma, B. (2016). Status of Biodiversity in Central Himalaya, Applied Ecology and Environmental Sciences, 4( 2), 37-43.

5.6 Las características de los usuarios de la tierra que aplican la Tecnología

Sedentario o nómada:
  • Sedentario
Orientación del mercado del sistema de producción:
  • subsistencia (autoprovisionamiento)
  • mixta (subsistencia/ comercial)
Ingresos no agrarios:
  • 10-50% de todo el ingreso
Nivel relativo de riqueza:
  • pobre
Individuos o grupos:
  • grupos/ comunal
Nivel de mecanización:
  • trabajo manual
Género:
  • mujeres
  • hombres
Edad de los usuarios de la tierra:
  • jóvenes
  • personas de mediana edad
  • ancianos

5.7 Área promedio de la tierra usada por usuarios de tierra que aplican la Tecnología

  • < 0.5 ha
  • 0.5-1 ha
  • 1-2 ha
  • 2-5 ha
  • 5-15 ha
  • 15-50 ha
  • 50-100 ha
  • 100-500 ha
  • 500-1,000 ha
  • 1,000-10,000 ha
  • > 10,000 ha
¿Esto se considera de pequeña, mediana o gran escala (refiriéndose al contexto local)?
  • pequeña escala

5.8 Tenencia de tierra, uso de tierra y derechos de uso de agua

Tenencia de tierra:
  • comunitaria/ aldea
Derechos de uso de tierra:
  • comunitarios (organizado)
Derechos de uso de agua:
  • acceso abierto (no organizado)
  • comunitarios (organizado)
¿Los derechos del uso de la tierra se basan en un sistema legal tradicional?

Especifique:

Under the Kumaun Panchayat forest rules of 1931 (amended in 1976): the Van Panchayat (community forest council) is formed out of non-private land within the settlement boundaries of a village. Accordingly, all villagers are members of the VP upon their approval by a Sub-Divisional Magistrate under the state Revenue Department. The members are collectively referred to as the general body, which selects the management committee members through a democratic process.

Comentarios:

5-9 elected members assume control of the forest and the extent of villager use. They additionally raise funds and mobilize the village to protect and support sustainable land use. Presently 12,089 Van Panchayats are entrusted with the management of over 5,449.64 km2 of forests.

5.9 Acceso a servicios e infraestructura

salud:
  • pobre
  • moderado
  • bueno
educación:
  • pobre
  • moderado
  • bueno
asistencia técnica:
  • pobre
  • moderado
  • bueno
empleo (ej. fuera de la granja):
  • pobre
  • moderado
  • bueno
mercados:
  • pobre
  • moderado
  • bueno
energía:
  • pobre
  • moderado
  • bueno
caminos y transporte:
  • pobre
  • moderado
  • bueno
agua potable y saneamiento:
  • pobre
  • moderado
  • bueno
servicios financieros:
  • pobre
  • moderado
  • bueno
Comentarios:

The situation of infrastructure is difficult and inconsistent in the hill regions because of the terrain. The major infrastructural issues are drinking water and irrigation facilities, electricity, transportation and communication facilities and social infrastructure (housing and education). As for financial services, only the State Bank of India (SBI) is active in the hill regions where it is trying to achieve the objective of 100% financial inclusion. Some villages mentioned buying into into agricultural insurance in the past, however this was a temporary enterprise and they were never compensated after extreme climatic events that occurred and damaged over 70% of their crop.

Though infrastructure and education has generally improved over the years, institutional and marketing networks in the region aimed at supporting hill-farmers are lacking.

6. Impactos y comentarios para concluir

6.1 Impactos in situ demostrados por la Tecnología

Impactos socioeconómicos

Producción

producción de forraje

disminuyó
incrementó

calidad de forraje

disminuyó
incrementó

calidad de bosques

disminuyó
incrementó

manejo de tierras

obstaculizado
simplificado
Comentarios/ especifique:

Constructing these technologies in the forest and within spring catchment areas has supported the village to work collaboratively and increased overall insightfulness to on-and-offsite effects and potentials of SLM.

Ingreso y costos

gastos en insumos agrícolas

incrementó
disminuyó
Comentarios/ especifique:

Decreased the amount of supplementary fodder required for livestock. The amount of grasses, fodder, and fuelwood has increased with the help of strategic placement of recharge ponds and trenches.

carga de trabajo

incrementó
disminuyó
Comentarios/ especifique:

Less time spent collecting forest resources, as the area where the technology is near the village and supports fodder/fuelwood growth (broadleaf forest/oak nursery area)

Impactos socioculturales

seguridad alimentaria/ autosuficiencia

disminuyó
mejoró
Comentarios/ especifique:

Improved self sufficiency of village, as the technology has helped increase their water availability.

situación de salud

empeoró
mejoró
Comentarios/ especifique:

Water condition has improved. Their is less time spent collecting fodder in the forest, as these technologies have supported fodder tree and grass production.

derechos de uso de la tierra/ agua

empeoró
mejoró
Comentarios/ especifique:

There is less friction between the villages of Bhurimuni and Nakina. Nakina did not have to go ask for permission to access the Bhurimuni Naula for water during the dry season.

oportunidades culturales

disminuyó
mejoró
Comentarios/ especifique:

The improvements of forest resource security and resilience to disasters/climatic extremes have allowed the villagers to spend more of their time building up a communal gathering area for ceremonial events and festivals around the Vaishnavi Temple.

oportunidades recreativas

disminuyó
mejoró
Comentarios/ especifique:

There is more time for the women (1-2 hours saved) as the structural technologies have supported existing vegetation growth. This has reduced the time and distance required for gathering fodder an fuelwood.

instituciones comunitarias

se debilitaron
se fortalecieron
Comentarios/ especifique:

The partnerships formed between land-users, the Nakina Van Panchayat, the Forest Department and external institutions are leading examples of necessary cooperation between all levels of governance for project harmonization.

MST/ conocimiento de la degradación del suelo

disminuyó
mejoró
Comentarios/ especifique:

People are taking forest management seriously and making innovative plans for further SLM interventions, whether it be community-initiated or with the help of external institutions/agencies.

mitigación de conflicto

empeoró
mejoró
Comentarios/ especifique:

Increased availability of resources has helped the overall morale of the village. This has further enhanced cooperation for interventions that require participation and effort in the community forest.

situación de grupos en desventaja social y económica

empeoró
mejoró

Impactos ecológicos

Ciclo de agua/ escurrimiento de sedimento

cantidad de agua

disminuyó
incrementó
Comentarios/ especifique:

The technologies act as a water reservoir and improve water holding capacity of the soil by decreasing runoff velocity.

cosecha/ recolección de agua

disminuyó
mejoró

escurrimiento superficial

incrementó
disminuyó

drenaje de agua en exceso

disminuyó
mejoró

nivel freático/ acuífero

disminuyó
recargó

evaporación

incrementó
disminuyó
Suelo

humedad del suelo

disminuyó
incrementó

cubierta del suelo

disminuyó
mejoró

pérdida de suelo

incrementó
disminuyó

acumulación de suelo

disminuyó
incrementó

encostramiento/ sellado de suelo

incrementó
disminuyó

compactación de suelo

incrementó
disminuyó

materia orgánica debajo del suelo C

disminuyó
incrementó
Comentarios/ especifique:

Micro-catchments accumulate debris/silt washed down from upstream areas. When managed properly, this can function as a beneficial mulch to the soil, improving bioavailabiltiy of nutrients for plants.

Biodiversidad: vegetación, animales

Cubierta vegetal

disminuyó
incrementó
Comentarios/ especifique:

Improved water availability and thus potential/support for vegetation growth and cover.

biomasa/ sobre suelo C

disminuyó
incrementó
Comentarios/ especifique:

Improves grasses and vegetation growth, and collects debris/silt from upstream areas.

diversidad vegetal

disminuyó
incrementó
Comentarios/ especifique:

Micro-catchments provide water for native grasses, vegetation, and can help with the germination of seeds.

diversidad animal

disminuyó
incrementó
Comentarios/ especifique:

Micro-catchments provide water and habitat for small animals/birds.

especies benéficas

disminuyó
incrementó
Comentarios/ especifique:

Micro-catchments provide water, habitat, and protection for microorganisms and insect species. They support native grasses and vegetation.

diversidad de hábitats

disminuyó
incrementó
Reducción de riesgos de desastres y riesgos climáticos

deslizamientos/ fluyos de escombros

incrementó
disminuyó
Comentarios/ especifique:

Decreased surface flow velocity

impactos de sequías

incrementó
disminuyó
Comentarios/ especifique:

Improved groundwater availability and enhanced spring recharge

impactos de ciclones, tormentas de lluvia

incrementó
disminuyó
Comentarios/ especifique:

Erosion impacts from extreme rain storms is reduced by decreasing flow velocity

riesgo de incendio

incrementó
disminuyó
Comentarios/ especifique:

Area is protected and forest is further enhanced by improved groundwater availability

micro-clima

empeoró
mejoró
Comentarios/ especifique:

Decreased surface temperature due to improved vegetation/biomass, soil cover and water availability.

6.2 Impactos fuera del sitio demostrados por la Tecnología

disponibilidad de agua

disminuyó
incrementó
Comentarios/ especifique:

Improved spring discharge in the peak dry season

corriente confiable y estable fluye en estación seca

disminuyó
incrementó
Comentarios/ especifique:

Bhind and Vaishnavi Naulas (springs) have improved discharge in the peak dry season. According to villagers, there was little to no water available in May/June, and since 10 years the flow has returned due to improved forest management in combination with these structural technologies.

inundaciones río abajo

incrementó
disminuyó
Comentarios/ especifique:

impact of flash flood is minimized

colmatación río abajo

incrementó
disminuyó
Comentarios/ especifique:

Helped slow down sediment and runoff

contaminación de aguas subterráneas/ de ríos

incrementó
disminuyó
Comentarios/ especifique:

No direct evidence, but statements from the locals indicate that there are less sediments in the spring water ( due to improved soil infiltration and buffering capacity)

capacidad de amortiguación/ filtrado

disminuyó
mejoró

daño a campos de vecinos

incrementó
disminuyó
Comentarios/ especifique:

Less damage from runoff

daños a infraestructura pública / privada

incrementó
disminuyó
Comentarios/ especifique:

Decreased intensity of runoff on the roadside and settlement below

6.3 Exposición y sensibilidad de la Tecnología al cambio climático gradual y a extremos relacionados al clima/ desastres (desde la percepción de los usuarios de tierras)

Cambio climático gradual

Cambio climático gradual
Estación Incremento o reducción ¿Cómo es que la tecnología soporta esto?
temperatura anual incrementó bien
lluvia anual disminuyó moderadamente
Otro cambio climático gradual Intensity of rainfall in wet season incrementó bien

Extremos (desastres) relacionados al clima

Desastres climatológicos:
¿Cómo es que la tecnología soporta esto?
tormenta de lluvia local muy bien
tormenta local bien
granizada local bien
tormenta de nieve local no se sabe
tormenta de viento bien
Desastres climatológicos
¿Cómo es que la tecnología soporta esto?
ola de calor bien
sequía bien
incendio forestal bien
Desastres hidrológicos
¿Cómo es que la tecnología soporta esto?
inundación repentina moderadamente
deslizamiento moderadamente
Comentarios:

The functionality of the technology depends on its maintenance. For example, after an extreme hydrological event such as a rainstorm, the trenches and ponds can fill up with sediment and debris. If the structures are not maintained and reconstructed after such damaging events, they lose their purpose.

Similarly, if there is no rain and extreme drought, the structure may be intact with no maintenance. However with no water to collect, the technology has little use.

6.4 Análisis costo-beneficio

¿Cómo se comparan los beneficios con los costos de establecimiento (desde la perspectiva de los usuarios de tierra)?
Ingresos a corto plazo:

neutral/ balanceado

Ingresos a largo plazo:

muy positivo

¿Cómo se comparan los beneficios con los costos de mantenimiento/ recurrentes (desde la perspectiva de los usuarios de tierra)?
Ingresos a corto plazo:

neutral/ balanceado

Ingresos a largo plazo:

muy positivo

Comentarios:

Due to these interventions, spring discharge has improved in the dry season. As villagers are highly reliant on these springs, this has had a huge impact on the community. Establishment and maintenance costs are extremely low compared to the benefits.

6.5 Adopción de la Tecnología

  • 11-50%
Si tiene la información disponible, cuantifique (número de hogares y/o área cubierta):

In combination with the efforts of the Uttarakhand Forrest Department, under the Tata Water Mission (an initiative of Tata Trusts) 312 villages (out of 1,724) in Pithoragarh district have successfully implemented springshed management projects. They adopted a catchment area approach by identifying sources of springs, understanding their history and reason for decreased discharge before identifying areas that need to be rejuvenated.

De todos quienes adoptaron la Tecnología, ¿cuántos lo hicieron espontáneamente, por ej. sin recibir nada de incentivos/ materiales:
  • 0-10%
Comentarios:

Land users received an incentive of 5.30 USD (400INR), which is provided by funds that lie in the joint account between the Van Panchayat and the Uttarakhand State Forest Department. The community has limited access to these funds, and consent is needed to withdraw money for community forest related activities. Due to the time and drudgery to establish the technologies in the appropriate zone (usually far from the village, in the upper catchment area), many villagers will not willingly go out digging trenches and recharge ponds in the forest without incentives or exemplary evidence that these structures will give tangible or immediate benefits.

6.6 Adaptación

¿La tecnología fue modificada recientemente para adaptarse a las condiciones cambiantes?

Si fuera así, indique a qué condiciones cambiantes se adaptó:
  • cambios climáticos / extremos
Especifique la adaptación de la Tecnología (diseño, material/ especies, etc.):

Water channels were made to direct runoff into the large recharge pond.

6.7 Fuerzas/ ventajas/ oportunidades de la Tecnología

Fuerzas/ ventajas/ oportunidades desde la perspectiva del usuario de la tierra
Reduces erosion, improves catchment of runoff, increases groundwater availability and aids in spring recharge.
Supports soil quality and broadleaf forest growth through increased infiltration, improved soil moisture and water availability.
Reduces impact of landslides and further downstream damage to settlements (water erosion, siltation)
Fuerzas/ ventajas/ oportunidades desde la perspectiva del compilador o de otra persona de referencia clave
Views aligned with land user

6.8 Debilidades/ desventajas/ riesgos de la Tecnología y formas de sobreponerse a ellos

Debilidades/ desventajas/ riesgos desde la perspectiva del usuario de la tierra ¿Cómo sobreponerse a ellas?
Structural damage of technologies due to extreme hydrological events Maintenance after such events and application of vegetative measures to complement. Combine with conservation practices like mulching to aid infiltration and deceleration of runoff speed.
Function of technologies are lost when there is no rainfall In general, biological interventions are necessary to aid groundwater recharge in the area. However, due to increased vegetation cover, soil moisture and available organic matter can be conserved in times of drought.
Debilidades/ desventajas/ riesgos desde la perspectiva del compilador o de otra persona de referencia clave ¿Cómo sobreponerse a ellas?
Function of the technologies can be compromised with inappropriate design, site selection, or quantification of the area necessary for significant groundwater recharge (e.g. amount of recharge pond and trenches). Training and awareness about the limitations of this technology should be known and made aware by supporting agencies. Selection of catchment areas for springsheds and catchment calculations need to be assessed. Additionally, onsite experts should be provided during implementation.

7. Referencias y vínculos

7.1 Métodos/ fuentes de información

  • visitas de campo, encuestas de campo

Villages: Naikina, Digtoli, Bhurmuni, Talli Seam, Malli Seam

  • entrevistas con usuarios de tierras

1.Gram Panchayat (Head of Forest Council)
2. Former Village Head
3. Community group discussions (FDGs)

  • entrevistas con especialistas/ expertos en MST

1. Uttarakhand Forest Department
2. Local NGO Himalayan Sewa Samiti, CHEA
3. G.B. Pant researchers and project implementers

  • compilación de informes y otra documentación existente
¿Cuándo se compilaron los datos (en el campo)?

04/07/2019

Comentarios:

Field data duration: June 2019-July 2019

7.3 Vínculos a la información relevante disponible en línea

Título/ descripción:

Dhara Vikas Handbook: A User Manual for Springshed Development to Revive Himalayan Springs

URL:

https://www.indiawaterportal.org/news/dhara-vikas-handbook-user-manual-springshed-development-revive-himalayan-springs

Título/ descripción:

Protocol for Reviving Springs in the Hindu Kush Himalaya: A Practitioner’s Manual

URL:

http://lib.icimod.org/record/34040/files/SpringManual04-2018.pdf

Título/ descripción:

Reviving Dying Springs: Climate Change Adaptation Experiments From the Sikkim Himalaya

URL:

https://www.researchgate.net/publication/273670290_Reviving_Dying_Springs_Climate_Change_Adaptation_Experiments_From_the_Sikkim_Himalaya

Título/ descripción:

Assessing Landscape Restoration Opportunities for Uttarakhand, June 2018

URL:

https://www.iucn.org/sites/dev/files/content/documents/uttarakhand_restoration_opportunities_assessment_report_june_20181.pdf

Título/ descripción:

Stories of Success- narratives from a sacred land

URL:

http://lib.icimod.org/record/32844/files/SuccessStory.pdf

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