1.2 Detalhes do contato das pessoas capacitadas e instituições envolvidas na avaliação e documentação da tecnologia

Nome da(s) instituição(ões) que facilitou(ram) a documentação/ avaliação da Tecnologia (se relevante)

Nome da(s) instituição(ões) que facilitou(ram) a documentação/ avaliação da Tecnologia (se relevante)

1.3 Condições em relação ao uso da informação documentada através de WOCAT

O/a compilador/a e a(s) pessoa(s) capacitada(s) aceitam as condições relativas ao uso de dados documentados através da WOCAT:

Sim

2.1 Descrição curta da tecnologia

Definição da tecnologia:

Smallholder farmers can use polyhouses to produce high demand vegetables, such as tomatoes, and can earn a substantial income from even a relatively small plot of land in a short time.

2.2 Descrição detalhada da tecnologia

Descrição:

During the wet season (June–October), the monsoon rains severely limit the type of crops that can be grown in open fields and they also restrict the production of seedlings. Low-cost polyhouses can be used to protect crops from excessive rainfall and can provide a sheltered environment for the production of better quality crops over the rainy season cropping period. For example, smallholder farmers who produce high demand vegetables such as tomatoes can earn as much as USD 350–500 from a plot of land which measures only 100 m2 in area over the short time period from June to November. This is much more than they can earn by growing any traditional crop by conventional methods. The Sustainable Soil Management Programme (SSMP) is promoting this technology in several mid-hill districts of Nepal.

Establishment / maintenance activities and inputs: Polyhouses should be situated in well-drained areas where sunshine is abundant and there is no shade throughout the cropping period. The bamboo frame can be constructed earlier in the year but the plastic roofing is not added until after one or two rainfall events. The height of the polyhouse frame varies depending on the altitude. At higher elevations, the polyhouses are lower to help trap more heat and moisture, whereas at lower elevations the polyhouses are higher to allow more air to circulate and moisture to evaporate. The preparations, which take place mid-May to early June, consist of fertilizing the soil and planting the tomato seedlings. Throughout the growing season the tomato plants are staked, trained, and pruned and a top dressing of fertilizer is added to produce a higher quality product.

2.3 Fotos da tecnologia

2.5 País/região/locais onde a tecnologia foi aplicada e que estão cobertos nesta avaliação

2.7 Introdução da tecnologia

Especifique como a tecnologia foi introduzida:

• através de projetos/intervenções externas

3.1 Principal/principais finalidade(s) da tecnologia

• Melhora a produção
• Criar impacto econômico benéfico

3.2 Tipo(s) atualizado(s) de uso da terra onde a tecnologia foi aplicada

Terra de cultivo

• Cultura anual

• tomatoes

Número de estações de cultivo por ano:

• 1

Especifique:

Longest growing period in days: 214; Longest growing period from month to month: May to November

Comentários:

Major land use problems (compiler’s opinion): In the mid-hills of Nepal, the arable land of most farm households has been divided into very small plots. If this land is used to produce traditional crops such as maize, wheat, and millet using conventional farming methods, it cannot provide full employment for all of the householders and cannot yield sufficient cash income for the household. The risk of intense rainfall during the monsoon season, which can damage crops, has prevented these farmers from switching to more lucrative high value crops.

3.5 Grupo de GST ao qual pertence a tecnologia

• Greenhouses

3.6 Medidas de GST contendo a tecnologia

Medidas agronômicas

• A7: Outros

3.7 Principais tipos de degradação da terra abordados pela tecnologia

Erosão do solo pela água

• Wt: Perda do solo superficial/erosão de superfície

Comentários:

Main causes of degradation: Heavy / extreme rainfall (intensity/amounts) (During the summer monsoon (June-October), continuous or heavy rainfall can damage seedlings and erode the land; it is difficult to establish crops during this time.)

3.8 Redução, prevenção ou recuperação da degradação do solo

Especifique o objetivo da tecnologia em relação a degradação da terra:

• Prevenir degradação do solo

4.1 Desenho técnico da tecnologia

Especificações técnicas (relacionada ao desenho técnico):

Left: Sketch of a polyhouse. The optimum length is 20 m and the width 5 m. The height of the central and side poles varies depending on the elevation. Note that there should be a space of at least 1 m between polyhouses.

Right top: Cross sectional view of a planting bed showing row-to-row (RXR) and plant-to-plant (PXP) distances. Note that there should be a space of at least 90 cm between beds.

Right bottom: Inside the polyhouse, the tomatoes can be staked using bamboo poles; the plants are trained along these trellises.

Technical knowledge required for land users: moderate

Main technical functions: Increase Productivity, Introduce high value crop

Secondary technical functions: increase in nutrient availability (supply, recycling,…)

Autor:

AK Thaku

4.2 Informação geral em relação ao cálculo de entradas e custos

Especifique como custos e entradas foram calculados:

• Por unidade de tecnologia

Especifique a moeda utilizada para os cálculos de custo:

• USD

4.3 Atividades de implantação

Comentários:

Details for the establishment of Poly house. Establishment activities 1. Construction of the polyhouse using bamboo poles, wooden posts, clear plastic sheet, nails, and rope. 2. How long it takes to construct the polyhouse and plant the crops depends on how much labour is available. Depending on their level of expertise, four to five people can construct the structure in one day; and two people can complete the soil preparation and planting in one day. Technical guidelines for erecting a polyhouse The optimum length of a polyhouse is 20 m, and the width is 5 m; 400–500 gauge plastic sheeting is used. The height of the polyhouse depends on the elevation: at 1200–1600 masl, the optimum height of the central pole is 3 m and the side poles are 2 m high; at 1600–2000 masl, the central pole is 2.5 m high and the side poles are 1.6 m high. There should be an open space of at least 1 m between polyhouses. Technical guidelines for preparing the soil and planting tomatoes Per plant, at least 3–4 kg of well-decomposed farmyard manure and compost are worked into the soil. Before transplanting the seedlings, the soil around each is dressed with 10 g of DAP (diammonium phosphate) and 6 g of MoP (muriate of potash). The seedlings are transplanted when they are 20–25 days old. In an open row system, the suggested row to row (RxR) spacing is 90 cm and the suggested plant to plant (PxP) spacing is 60 cm; in a closed row system the row to row and plant to plant spacing can both be 60 cm. At least two top dressings of DAP and MoP (10:10 g) are necessary 20–25 and 40–45 days after transplanting; 1 kg per 0.05 ha of borax is also added at the time of the first top dressing. Alternatively, these two top dressings can be substituted by a mixture of cattle urine (50 ml) and water (200 ml water) per plant. The dressing with this mixture can begin 20–25 days after transplanting, and is repeated every 10–12 days.

4.4 Custos e entradas necessárias para a implantação

4.5 Atividades recorrentes/manutenção

4.6 Custos e entradas necessárias pata a manutenção/atividades recorrentes (por ano)

4.7 Fatores mais importantes que afetam os custos

Descreva os fatores mais determinantes que afetam os custos:

All costs and amounts are rough estimates by the technicians and authors. Exchange rate USD 1 = NPR 71 in April 2011

5.1 Clima

5.2 Topografia

Comentários e outras especificações sobre a topografia:

Slopes on average: Also moderate (6-10%), rolling (11-15%) and hilly (16-30%)

Landforms: Also footslopes

5.3 Solos

Caso disponível anexe a descrição completa do solo ou especifique as informações disponíveis, p. ex. tipo de solo, PH/acidez do solo, nitrogênio, capacidade de troca catiônica, salinidade, etc.

Soil fertility is medium - high

Soil water storage capacity is medium - high

5.6 Características dos usuários da terra que utilizam a tecnologia

5.7 Área média de terrenos utilizados pelos usuários de terrenos que aplicam a Tecnologia

5.8 Propriedade de terra, direitos de uso da terra e de uso da água

Propriedade da terra:

• Indivíduo, não intitulado
• Indivíduo, intitulado

Direitos do uso da terra:

• Indivíduo

Direitos do uso da água:

• Comunitário (organizado)

6.1 Impactos no local mostrados pela tecnologia

Impactos socioeconômicos

Produção

Renda e custos

Outros impactos socioeconômicos

Impactos socioculturais

Impactos ecológicos

Solo

Biodiversidade: vegetação, animais

Clima e redução de riscos de desastre

6.2 Impactos externos mostrados pela tecnologia

6.3 Exposição e sensibilidade da tecnologia às mudanças climáticas graduais e extremos/desastres relacionados ao clima (conforme o ponto de vista dos usuários da terra)

Mudança climática gradual

Mudança climática gradual

Extremos (desastres) relacionados ao clima

Desastres meteorológicos

Outras consequências relacionadas ao clima

Outras consequências relacionadas ao clima

Comentários:

optimize the plant density; train and prune plants often to avoid overcrowding; modify the structure to provide more ventilation (ventilated polyhouse) in especially hot areas

6.4 Análise do custo-benefício

Como os benefícios se comparam aos custos de implantação (do ponto de vista dos usuários da terra)?

Como os benefícios se comparam aos custos recorrentes/de manutenção(do ponto de vista dos usuários da terra)?

6.5 Adoção da tecnologia

Comentários:

There is a moderate trend towards spontaneous adoption of the Technology

Comments on adoption trend: Although the technology is only moderately expensive to implement and provides a higher rate of return than traditional crops, smallholder farmers often need technical support and encouragement to get started. This support can be in the form of improved seed varieties and plastic sheeting for the polyhouse.

Driver for adoption:
• relatively simple technology
• higher economic return
• provides on-farm employment
Constraints
• smallholder farmers and poorer households need initial support to establish the polyhouse
• farmers need technical support
• farmers need practical information and technical backstopping

6.7 Pontos fortes/vantagens/oportunidades da tecnologia

6.8 Pontos fracos, desvantagens/riscos da tecnologia e formas de superá-los

7.1 Métodos/fontes de informação

7.2 Referências às publicações disponíveis

Título, autor, ano, ISBN:

Construction of polyhouse and rainy season tomato cultivation inside polyhouse (in Nepali). Kathmandu, Nepal: Sustainable Soil Management Programme, Helvetas Nepal, SSMP (2010)