Selective clearing and planting experiment to promote shrubland fire resilience [Espanha]
- Criação:
- Atualização:
- Compilador/a: Nina Lauterburg
- Editor: –
- Revisores: Deborah Niggli, Alexandra Gavilano
Experimento para aumentar la resiliencia del matorral contra incendios (Spanish)
technologies_1579 - Espanha
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- Selective clearing and planting experiment to promote shrubland fire resilience: 4 de Janeiro de 2017 (inactive)
- Selective clearing and planting experiment to promote shrubland fire resilience: 30 de Julho de 2019 (inactive)
- Selective clearing and planting experiment to promote shrubland fire resilience: 1 de Dezembro de 2021 (public)
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Expandir tudo Recolher tudo1. Informação geral
1.2 Detalhes do contato das pessoas capacitadas e instituições envolvidas na avaliação e documentação da tecnologia
Especialista em GST:
Valdecantos Alejandro
Fundación Centro de Estudios Ambientales del Mediterráneo (CEAM)
Espanha
Especialista em GST:
Baeza Jaime
Fundación Centro de Estudios Ambientales del Mediterráneo (CEAM)
Espanha
Nome do projeto que facilitou a documentação/avaliação da Tecnologia (se relevante)
Catastrophic shifts in drylands (EU-CASCADE)Nome da(s) instituição(ões) que facilitou(ram) a documentação/ avaliação da Tecnologia (se relevante)
Centro de Estudios Ambientales del Mediterraneo (CEAM) - Espanha1.3 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
1.4 Declaração de sustentabilidade da tecnologia descrita
A tecnologia descrita aqui é problemática em relação a degradação da terra de forma que não pode ser declarada uma tecnologia de gestão sustentável de terra?
Não
2. Descrição da tecnologia de GST
2.1 Descrição curta da tecnologia
Definição da tecnologia:
The combination of clearing of fire-prone seeder species and planting of more fire resistant resprouter species directs the vegetation to later successional stages which increases the resilience to fires.
2.2 Descrição detalhada da tecnologia
Descrição:
The forests and shrublands in Ayora experienced a series of disturbances in the past (such as deforestation and land use), which resulted in the degradation of the vegetation and the reduction of the resilience to fires. At present, there is a high fire incidence. Post-fire landscapes regenerated with a high and continuous fuel accumulation with few native resprouter species. Therefore appropriate vegetation management is crucial.
For management the major goals are to reduce the fuel load and its continuity and to increase the resilience of the vegetation to fires. Within this experiment carried out by CEAM (Centro de Estudios Ambientales del Mediterráneo, University of Valencia) different fuel management techniques were examined. They selected three study sites (Morera, Roñoso, Gachas) with a similar history of land use, vegetation composition, soil characteristics, and a typical post-fire scenario whith scarce occurrence of resprouter species. In each site, four plots were established to test the effect of the following management techniques: 1) control (no action), 2) clearing, 3) planting (within the shrubland) and 4) the combination of clearing and planting.
The main purpose of this experiment was to find out which management technique is the most appropriate to prevent fires and it was shown that the combination of selective clearing of fire-prone shrubs (fuel control) and planting of more resistant resprouter species can increase the resilience to fires and is therefore a suitable management practice. Compared to the other management techniques, there are some advantages. Clearing the vegetation (either by hand or mechanically) reduces the fire risk and enhances seedling establishment and growth. Furthermore, the cleared vegetation is chipped and applied in-situ as mulch, which protects the soil from erosion, reduces soil temperature and moisture loss, and enhances carbon conservation. Additionnally, selective clearing allows to preserve desired species and by planting resprouter species the natural processes can be accelerated. Once established, resprouter species persist for a long time which promotes an increase of the vegetation resilience.
In this documentation, only the combination of clearing and planting is evaluated since this action is considered as the most appropriate management practice.
In each study site, the experimental area covered about 5000m2 (3 plots of 1000m2 each, one plot of 2000m2). To test the effect of the combination of clearing and planting, a clearing machine was used to clear a plot of 1000 m2 in all three sites. The few resprouting individuals such as Juniperus oxycedrus and Quercus ilex and also some seeder trees such as Pinus halepensis and Pinus pinaster were left standing. The planting holes (0.35 m2) were created with a tractor using a backhoe. The slash and brush chips generated by the clearing were reused in the planting holes as mulch which resulted in ecological benefits.
In February 2003, native resprouters of late successional stages with a low amount of dead fuel were planted, such as Quercus ilex, Rhamnus alaternus and Pistacia lentiscus, all protected by a plastic tree shelter to prevent browsing.
The seedlings were grown for 8 months in a nursery in Santa Faz (Alicante) and then transferred to a nursery in La Hunde (Ayora) one month before planting. The Regional Forest Services of Valencia provided seeds as well.
The region of Ayora is mountainous with a dry subhumid climate (~380 mm annual rainfall). The risk of fire incidence is at its highest from June to September when there are adverse conditions like drought, high temperatures and strong winds (mainly the winds coming from central Spain, called “poniente”). The population density is very low and there are only few job opportunities (e.g. marginal agriculture, grazing, hunting, beekeeping). Most of the inhabitants work in the nuclear power plant. Forest management could be a source for jobs.
2.3 Fotos da tecnologia
2.5 País/região/locais onde a tecnologia foi aplicada e que estão cobertos nesta avaliação
País:
Espanha
Região/Estado/Província:
Spain, Valencia
Especificação adicional de localização:
Ayora
Especifique a difusão da tecnologia:
- Uniformemente difundida numa área
Se a área precisa não for conhecida, indicar a área aproximada coberta:
- < 0,1 km2 (10 ha)
Comentários:
Boundary points of the Technology area: Morera Centre latitude (N): 39° 07’ 17’’ Centre longitude (W): 0°57’11’’
Roñoso Centre latitude (N): 39° 07’ 22’’ Centre longitude (W): 0°57’56’’
Gachas Centre latitude (N): 39° 01’ 58’’ Centre longitude (W): 0°53’30’’
Map
×2.6 Data da implementação
Caso o ano exato seja desconhecido, indique a data aproximada:
- menos de 10 anos atrás (recentemente)
2.7 Introdução da tecnologia
Especifique como a tecnologia foi introduzida:
- durante experiências/ pesquisa
Comentários (tipos de projeto, etc.):
This research was carried out in the framework of the SPREAD project funded by the European Commission (2002-2005), in the year 2003.
3. Classificação da tecnologia de GST
3.1 Principal/principais finalidade(s) da tecnologia
- Reduz, previne, recupera a degradação do solo
- Reduzir riscos de desastre
3.2 Tipo(s) atualizado(s) de uso da terra onde a tecnologia foi aplicada
Floresta/bosques
- Quercus ilex, Rhamnus alaternus, Pistacia lentiscu
Produtos e serviços:
- Madeira
- Lenha
- Frutas e nozes
- Outros produtos florestais
- Pastagem/Alimentação de folhas e brotos
- Conservação/proteção da natureza
- Lazer/turismo
- Proteção contra desastres naturais
- wind mill parc, hunting
Comentários:
Major land use problems (compiler’s opinion): In Spain the prevalent dense shrublands (dominated by seeder species), which resulted from agricultural land abandonment and fire occurrence, contain a high fire risk because of both the high fuel loads and their continuity. Resprouter species have been removed in the past and are therefore scarce, whereas seeder species are abundant and increase the risk of fires.
Selective felling of (semi-) natural forests: As a management practice. The forest should be cut more frequently since there is a huge amount of fuel but there is no money for management.
Plantation forestry: Almost the whole forest in this region was planted. Furthermore, they also planted different species as a management practice.
3.5 Grupo de GST ao qual pertence a tecnologia
- Gestão natural e seminatural de floresta
- Gestão de plantação florestal
3.6 Medidas de GST contendo a tecnologia
Medidas vegetativas
- V1: cobertura de árvores/arbustos
- V3: Limpeza da vegetação
- V5: Outros
Comentários:
Specification of other vegetative measures: Introduction of fire resistant species
Type of vegetative measures: aligned: -linear
3.7 Principais tipos de degradação da terra abordados pela tecnologia
Degradação biológica
- Bf: efeitos prejudiciais de incêndios
- Bs: Qualidade e composição de espécies/declínio de diversidade
Comentários:
Main causes of degradation: deforestation / removal of natural vegetation (incl. forest fires) (Deforestation in the past (removal of resprouter species), land abandonment, uncontrolled growth of fire prone vegetation, afforestations, forest fires), other human induced causes (specify) (change of vegetation composition to fire-prone shrubland), population pressure (Vast areas were deforested in the past for agriculture, important key species were removed. After land abandonment there was a lack of management strategies.), poverty / wealth (The current economic crisis in Spain leads to a lack of investment in forest management, therefore only a minor part of forests is managed), labour availability (In the past there was outmigration from the region to the big cities and therefore there was a lack of management)
Secondary causes of degradation: change of seasonal rainfall (More variability in precipitation leads to a higher risk of fires), droughts (more fires during droughts), land tenure (The state is only allowed to apply management practices in public forest. The private forest is often not managed which increases the risk of fires and the resulting degradation), inputs and infrastructure: (roads, markets, distribution of water points, other, …) (There were big fires in the past because of the lack of fire extinction media like water ponds, streets, transport media (this has been improved now)), education, access to knowledge and support services (Loss of knowledge, important for today’s fires: People (especially from the cities) are not aware anymore of the risk of fire. In the past people lived with the risk and knew how to prevent fires.), governance / institutional (Law to induce implementation of conservation interventions (ley forestal 3/1993). Before this law was implemented there were less conservation practices and therefore a higher fire risk)
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
- Reduzir a degradação do solo
4. Especificações técnicas, implementação de atividades, entradas e custos
4.1 Desenho técnico da tecnologia
Especificações técnicas (relacionada ao desenho técnico):
On the left, the situation before management is illustrated. Dense shrublands contain a high fire risk due to their high fuel amount and continuity. On the right, the situation after management is shown. The combination of selective clearing of fire-prone seeder species and planting of more fire resistant resprouter species (illustrated by tree shelters in the drawing) promotes shrubland resilience to fires.
Location: Ayora. Valencia, Spain
Date: 13-12-2013
Technical knowledge required for field staff / advisors: high (The experiment was carried out by scientists (biologists) with a high technical knowledge.)
Technical knowledge required for land users: low (In case of upscaling this experiment to a local or regional level, the work could be carried out by land users with a low technical knowledge, with technical support of scientists and forest agents)
Main technical functions: control of fires, reduction of dry material (fuel for wildfires), Promotion of vegetation species and varieties (more fire resistant vegetation composition)
Secondary technical functions: control of raindrop splash, increase in nutrient availability (supply, recycling,…), increase / maintain water stored in soil
Aligned: -linear
Vegetative material: T : trees / shrubs
Number of plants per (ha): 1000
Vertical interval between rows / strips / blocks (m): <2m
Spacing between rows / strips / blocks (m): <2m
Vertical interval within rows / strips / blocks (m): <2m
Width within rows / strips / blocks (m): <2m
Vegetative measure: Selective vegetation clearing
Vegetative material: T : trees / shrubs
Trees/ shrubs species: Planted species: Pistacia lentiscus, Quercus ilex and Rhamnus alaternus.
Other species: Removed species: Ulex parviflorus, Rosmarinus officinalis, Cistus albidus
Autor:
Nina Lauterburg
4.2 Informação geral em relação ao cálculo de entradas e custos
Outro/moeda nacional (especifique):
Euro
Se for relevante, indique a taxa de câmbio do USD para moeda local (por exemplo, 1 USD = 79,9 Real): 1 USD =:
0,74
Indique a média salarial da mão-de-obra contratada por dia:
47.00
4.3 Atividades de implantação
Atividade | Periodicidade (estação do ano) | |
---|---|---|
1. | Cutting and chipping (in-situ) trees and shrubs (removed species: ulex parviflorus, rosmarinus officinalis, cistus albidus. Natural regenerated species which are not cleared: pinus halepensis, pinus pinaster, quercus ilex, juniperus oxycedrus) | autumn/winter (when the vegetation activity is slowed down) |
2. | Planting (planted species: pistacia lentiscus, quercus ilex, rhamnus alaternus) | autumn/winter (february 2003) |
4.4 Custos e entradas necessárias para a implantação
Especifique a entrada | Unidade | Quantidade | Custos por unidade | Custos totais por entrada | % dos custos arcados pelos usuários da terra | |
---|---|---|---|---|---|---|
Equipamento | machine use | ha | 1,0 | 3089,0 | 3089,0 | |
Equipamento | tree shelters | ha | 1,0 | 945,0 | 945,0 | |
Material vegetal | seedlings | ha | 1,0 | 4587,0 | 4587,0 | |
Custos totais para a implantação da tecnologia | 8621,0 | |||||
Custos totais para o estabelecimento da Tecnologia em USD | 11650,0 |
Comentários:
Duration of establishment phase: 0.5 month(s)
4.5 Atividades recorrentes/manutenção
Atividade | Periodicidade/frequência | |
---|---|---|
1. | There is no maintenance, but in case of maintenance they would do selective clearings (using machines) | all 5-7 years in autumn/winter |
4.6 Custos e entradas necessárias pata a manutenção/atividades recorrentes (por ano)
Especifique a entrada | Unidade | Quantidade | Custos por unidade | Custos totais por entrada | % dos custos arcados pelos usuários da terra | |
---|---|---|---|---|---|---|
Equipamento | machine use | ha | 1,0 | 446,0 | 446,0 | |
Custos totais para a manutenção da tecnologia | 446,0 | |||||
Custos totais de manutenção da Tecnologia em USD | 602,7 |
Comentários:
The costs were calculated for the application of the technology (combination of clearing and planting) on one hectare. The costs can vary depending on the amount of vegetation which has to be cleared (site specific). The costs of the clearing amount to 1090 Euro per ha (1470 Dollar). The costs of the plantation (both labour and machines) are approximately 5300 Euro per hectare (7150 Dollar). But it should also be noted that the application of the selective clearing and planting on a vast continuous area is not the aim of this technology, but rather to apply the treatments on some selected spots to reduce the continuity of fire-prone seeder species and to increase the probability of dispersal of resprouter species (e.g. by birds). Therefore the costs would be lower than indicated here.
The currency rate (Euro-Dollar) was calculated on November 16th, 2013.
4.7 Fatores mais importantes que afetam os custos
Descreva os fatores mais determinantes que afetam os custos:
Slope (if the slope is steep, the work is much more difficult and takes more time), distance from a street (people can work less in a day if they have to walk far to clear/plant), vegetation density (it takes more time to clear a densely vegetated area).
5. Ambiente natural e humano
5.1 Clima
Precipitação pluviométrica 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
Zona agroclimática
- Subúmido
Thermal climate class: temperate
5.2 Topografia
Declividade média:
- Plano (0-2%)
- Suave ondulado (3-5%)
- Ondulado (6-10%)
- Moderadamente ondulado (11-15%)
- Forte ondulado (16-30%)
- Montanhoso (31-60%)
- Escarpado (>60%)
Formas de relevo:
- Planalto/planície
- Cumes
- Encosta de serra
- Encosta de morro
- Sopés
- Fundos de vale
Zona de altitude:
- 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.
5.3 Solos
Profundidade do solo em média:
- Muito raso (0-20 cm)
- Raso (21-50 cm)
- Moderadamente profundo (51-80 cm)
- Profundo (81-120 cm)
- Muito profundo (>120 cm)
Textura do solo (solo superficial):
- Fino/pesado (argila)
Matéria orgânica do solo superficial:
- Médio (1-3%)
5.4 Disponibilidade e qualidade de água
Lençol freático:
5-50 m
Disponibilidade de água de superfície:
Precário/nenhum
Qualidade da água (não tratada):
Água potável boa
5.5 Biodiversidade
Diversidade de espécies:
- Médio
5.6 Características dos usuários da terra que utilizam a tecnologia
Orientação de mercado do sistema de produção:
- misto (subsistência/comercial)
Indivíduos ou grupos:
- Empregado (empresa, governo)
Gênero:
- Homens
Indique outras características relevantes dos usuários da terra:
Difference in the involvement of women and men: The experiment was done by biologists, all of them were men.
Population density: < 10 persons/km2
Annual population growth: negative
5.8 Propriedade de terra, direitos de uso da terra e de uso da água
Propriedade da terra:
- Estado
- Indivíduo, intitulado
Direitos do uso da terra:
- Indivíduo
- public/open access but organised (e.g. wood, hunting)
- public/open access but organised (e.g. wood, hunting)
Comentários:
There is some public land, controlled by the state. But there is also some private land. The access to the public land is open but organized. Permission is needed from the government to cut trees, to build a house or to hunt. There are some private hunting areas for which the hunting association has to pay a fee.
6. Impactos e declarações finais
6.1 Impactos no local mostrados pela tecnologia
Impactos socioeconômicos
Produção
Produção de forragens
Comentários/especificar:
More grasses for animals (game and livestock) in the cleared areas
Qualidade da forragem
Comentários/especificar:
Animals (especially goats) eat everything but they like more young grasses than shrubs
Produção animal
Comentários/especificar:
Game/wildlife and livestock are better because there is an increase in fodder quantity and quality
Produção de madeira
Comentários/especificar:
Production increases because there is less competition between species and more species planted. The wood/timber generated by the clearing can be used for biomass, fertilizers, pellets, firewood. A part of the wood is chipped in-situ and applied as mulch
Geração de energia
Comentários/especificar:
Bioenergy (biomass)
Renda e custos
Despesas com insumos agrícolas
Comentários/especificar:
Less damage on the cultivated fields because the wild animals do not destroy the fields anymore and stay in the forest (because there is more grass available due to clearings).
Impactos socioculturais
Oportunidades culturais
Comentários/especificar:
People appreciate the visual impact of a cleared forest with a high species richness. It has a high aesthetic value and offers recreational opportunities. Since the planted species are more fire-resistant this value can be sustained.
Oportunidades de lazer
Comentários/especificar:
People appreciate the visual impact of a cleared forest with a high species richness. It has a high aesthetic value and offers recreational opportunities. Since the planted species are more fire-resistant this value can be sustained.
Conhecimento de GST/ degradação da terra
Comentários/especificar:
Local people know about the importance of conservation of the area and really like to have the forest protected of wildfires. They will learn about the relationship of planting later-successional species and the reduction of the fire hazard.
Atenuação de conflitos
Comentários/especificar:
Less fires result in a decrease of the destroyed area, less money will have to be invested in restoration or fire extinction. Farmers, hunters,honey producers will experience fewer losses. Wild animals remain in the forest (more grasses after clearing).
Situação de grupos social e economicamente desfavorecidos
Comentários/especificar:
The clearing and planting could create more job opportunities for unemployed people. This is especially important during the current economic crisis.
Impactos ecológicos
Ciclo hídrico/escoamento
Evaporação
Comentários/especificar:
Due to the mulch layer more moisture is stored in the soil and less water is lost by evaporation (the soil is covered).
Solo
Umidade do solo
Comentários/especificar:
More soil moisture because of less dense shrubland and mulch cover after clearing
Cobertura do solo
Comentários/especificar:
Mulch layer
Perda de solo
Comentários/especificar:
Less erosion because the soil is protected by a mulch layer.
Ressecamento/ selagem do solo
Comentários/especificar:
Mulch layer protects the soil from crusting.
Ciclo e recarga de nutrientes
Matéria orgânica do solo/carbono abaixo do solo
Biodiversidade: vegetação, animais
Biomassa/carbono acima do solo
Diversidade vegetal
Comentários/especificar:
Reintroduction of native species which disappeared due to removal by humans in the past.
Diversidade animal
Comentários/especificar:
There might be more animals because of the fodder supply. Further, different species (e.g. birds) might be attracted by the reintroduced plant species.
Controle de praga/doença
Comentários/especificar:
Mono-plantations are bad for the propagation of a pest. After clearing there is a decrease in competition, plants are in healthier conditions,less prone to diseases.Weak plants are eliminated which reduces the risk of pests (always weak plants affected).
Clima e redução de riscos de desastre
Emissão de carbono e gases de efeito estufa
Comentários/especificar:
Carbon sequestration, and less fires because the fire-prone shrubs are removed and more fire-resistant trees and shrubs are prevalent
Risco de incêndio
Comentários/especificar:
The fire risk is reduced in the long term because by clearing fire-prone and planting more fire-resistant species the vegetation is redirected towards later successional stages (ecosystem more resilient against fires).
Velocidade do vento
Outros impactos ecológicos
germination of competing seeds
soil surface temperature
Comentários/especificar:
Mulch layer
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
Estação do ano | aumento ou diminuição | Como a tecnologia lida com isso? | |
---|---|---|---|
Temperatura anual | aumento | não bem |
Extremos (desastres) relacionados ao clima
Desastres meteorológicos
Como a tecnologia lida com isso? | |
---|---|
Temporal local | bem |
Tempestade de vento local | bem |
Desastres climatológicos
Como a tecnologia lida com isso? | |
---|---|
Seca | bem |
Desastres hidrológicos
Como a tecnologia lida com isso? | |
---|---|
Inundação geral (rio) | bem |
Outras consequências relacionadas ao clima
Outras consequências relacionadas ao clima
Como a tecnologia lida com isso? | |
---|---|
temperature decrease, snow, frost | não bem |
6.4 Análise do custo-benefício
Como os benefícios se comparam aos custos de implantação (do ponto de vista dos usuários da terra)?
Retornos a curto prazo:
levemente negativo
Retornos a longo prazo:
muito positivo
Como os benefícios se comparam aos custos recorrentes/de manutenção(do ponto de vista dos usuários da terra)?
Retornos a curto prazo:
muito positivo
Retornos a longo prazo:
muito positivo
Comentários:
Short term returns are slightly negative because the management practice is expensive and until the trees reach a mature state, there are not many returns (in terms of wood and biomass). In the long term this management practice has very positive results because it increases the resilience to fires and can be seen as a sustainable management of fire-prone areas. Additionally, wood and biomass can be extracted. The idea is not to apply any maintenance in the first 10 years after the establishment.
6.5 Adoção da tecnologia
Comentários:
There is no adoption trend since this was only an experiment, but maybe there will be the possibility to upscale this technology in a regional project.
6.7 Pontos fortes/vantagens/oportunidades da tecnologia
Pontos fortes/vantagens/oportunidades na visão do usuário da terra |
---|
Almost all villagers prefer a managed forest. It has a high aesthetic and recreational value. Through the application of this technology the awareness of the risk of wildfires would probably increase. |
Shepherds and farmers benefit from forest clearings. There are more young grasses in the forest which provides fodder for livestock. Also wild animals benefit from this food supply which in turn hinders them to destroy cultivated fields of the farmers. |
Pontos fortes/vantagens/oportunidades na visão do/a compilador/a ou de outra pessoa capacitada |
---|
After fires, the natural landscape regenerated with a high and continuous fuel amount and a scarce occurrence of native resprouter species. It is crucial to apply management actions to reduce the fire hazard. The experiment demonstrated that it is possible to accelerate the post-fire vegetation response (which promotes ecosystem resilience). |
Planting of resprouting species in post-fire areas can accelerate the natural process. Clearing of the vegetation reduces the fire risk, but this treatment may also enhance seedling establishment and growth. |
The slash and brush chips generated by the clearings can be reused in the planting holes. This mulch layer protects the soil surface and reduces both the soil surface temperature and the germination of competing seeds while increasing the soil moisture content, especially in the driest periods. |
The combination of clearing and planting resprouting species seems to be an appropriate option for managing these areas because, once established, the resprouting species persist for a long time and lead to an increase of the ecosystem resilience. |
Social and economic benefits for the locals. Especially during the economic crisis the forest management is an important source for jobs. |
6.8 Pontos fracos, desvantagens/riscos da tecnologia e formas de superá-los
Pontos fracos/vantagens/riscos na visão do/a compilador/a ou de outra pessoa capacitada | Como eles podem ser superados? |
---|---|
The management activities are expensive and labour-intensive. The state does not invest much money in prevention of forest fires but focuses more on fire extinction. | More investment in prevention of forest fires is required and this management practice could increase the ecosystem resilience against fires in the long term in a sustainable way. This would also generate jobs. This technology implies a combination of techniques (selective clearing and planting). Costs may be reduced by implementing individual techniques but positive results may also be reduced. |
The technology could result in a reduction of the animal production because grazing should be restricted after planting to ensure the growth of the planted seedlings. | Since the technology would not be applied over vast areas but only locally on some plots, the fodder supply would probably still cover the needs of the animals. |
Depending on the site, some soil may be exposed to erosion due to mechanical clearing. | Mulching with brush chipping can minimize or even solve this problem. |
After clearing, an increase in wind velocity might occur. | The planted trees will grow which will again result in the reduction of this problem. |
7. Referências e links
7.1 Métodos/fontes de informação
- visitas de campo, pesquisas de campo
- entrevistas com especialistas em GST
Quando os dados foram compilados (no campo)?
26/04/2013
7.2 Referências às publicações disponíveis
Título, autor, ano, ISBN:
Valdecantos, A., Baeza, M.J., Vallejo, V.R. (2009): Vegetation management for promoting ecosystem resilience in fire-prone Mediterranean shrublands. Restoration Ecology 17, 3: 414-421.
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