Water retention polders without agriculture to improve water management [Alemania]
- Creación:
- Actualización:
- Compilador: Martin Maier
- Editor: –
- Revisores: Fabian Ottiger, David Streiff, Alexandra Gavilano
Ungenutzter Polder zur Verbesserung des Wassermanagements (Nordsee Region)
technologies_1582 - Alemania
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- Water retention polders without agriculture to improve water management: 8 de marzo de 2017 (inactive)
- Water retention polders without agriculture to improve water management: 8 de marzo de 2017 (inactive)
- Water retention polders without agriculture to improve water management: 29 de abril de 2017 (inactive)
- Water retention polders without agriculture to improve water management: 1 de abril de 2019 (public)
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Expandir todo Colapsar todos1. 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
Especialista MST:
Kleyer Michael
University of Oldenburg
Alemania
Especialista MST:
Karrasch Leena
University of Oldenburg
Alemania
Especialista MST:
Mayer Martin
University of Oldenburg
Nombre del proyecto que financió la documentación/ evaluación de la Tecnología (si fuera relevante)
Book project: Making sense of research for sustainable land management (GLUES)Nombre del proyecto que financió la documentación/ evaluación de la Tecnología (si fuera relevante)
Sustainable Coastal Land Management (COMTESS / GLUES)Nombre de la(s) institución(es) que facilitaron la documentación/ evaluación de la Tecnología (si fuera relevante)
University of Oldenburg (University of Oldenburg) - Alemania1.3 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:
Sí
1.5 Referencia al (los) Cuestionario(s) de Enfoques MST (documentados usando WOCAT)
Stakeholder participation in integrated assessment and planning of … [Alemania]
Stakeholders have been involved in integrated assessment to develop action-oriented land use options addressing possible climate change adaptation measures as alternatives to traditional coastal protection strategies.
- Compilador: Martin Maier
2. Descripción de la Tecnología MST
2.1 Breve descripción de la Tecnología
Definición de la Tecnología:
Water retention polders to reduce flood risk due to heavy rainfall or runoff at high tide in coastal lowlands. The retention polders are used to accumulate organic material for climate change mitigation and enable development of undisturbed natural habitats, rather than for agriculture.
2.2 Descripción detallada de la Tecnología
Descripción:
In the 19th and 20th century land was reclaimed from the sea to make use of the exposed fertile soils for agriculture through a process known as ‘impoldering’. The reclaimed land is now characterized by intensive grazing and cropland. This is a region where agriculture is the most important form of land use. However, the land needs to be regularly drained. Given the expected increase in precipitation in winter due to climate change, the corresponding increase in freshwater discharge needs to be managed. Furthermore, the periods when natural discharge into the sea oc-curs are likely to decrease – because of rising sea levels also caused by climate change. Consequently, in winter and spring, greater quantities of freshwater will need to be pumped into the sea rather than discharged naturally at the low or ‘ebb’ tide. Specially embanked water retention polders will be required to temporarily impound water as part of a multifunctional approach to coastal zone management.
Purpose of the Technology: These retention polders could be a cost-effective alternative to expensive invest-ments in extra pumping capacities to prevent submergence of low-lying cultivated areas. The primary aim is to restrict floods to the retention polders when the drain-age network is overburdened and cannot deal with the predicted extra demands in the future. The high evapotranspiration from the open waterbody, and the reeds growing within, will also help with reducing the amount of water. During dry sum-mers, the water in the retention polder could also be put to creative use as a source of irrigation. Another potential advantage is that subsurface saltwater intrusion in the region could be prevented by the freshwater-filled polders. During extreme storm surges and in the rare case of breaches in the sea wall, the retention polders would serve as an extra line of defence by holding seawater.
Establishment / maintenance activities and inputs: An embankment enclosing approx. 3,000 ha will be able to store up to 25,000,000 m³ water. This will improve the drainage of an area of approx. 49,000 ha. The invest-ment for building this water retention area is high – but for the reasons stated it serves a necessary purpose at a cost which is lower than the alternative – increased pumped drainage installations. Maintenance costs will be lower than the drainage alternative as only the integrity of the embankment needs to be monitored regularly. However within the proposed retention polders – the areas enclosed by the em-bankment - no agricultural activity will take place. This will lead to a change from the current intensive grazing for dairy farming and cropland to non-agricultural use. And therefore a development towards swamps, reed stands and open waters will take place. It is expected that a development to undisturbed natural habitats will increase the number of endangered species. There will be an accumulation of or-ganic material (and organic carbon) in the form of peat due to the wet conditions within the retention polders. Carbon will be sequestered by plant growth and thus reduce the amount of CO2 in the atmosphere. The natural regeneration within the embanked areas will be attractive for tourism and recreation, which should provide an opportunity for additional income generation for the local population.
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:
Alemania
Región/ Estado/ Provincia:
Germany, Lower Saxony
Especifique más el lugar :
Landkreis Aurich
Especifique la difusión de la Tecnología:
- distribuida parejamente sobre un área
Si la Tecnología se halla difundida homogéneamente a lo largo de un área, especifique el área que cubre (en km2):
33,7
Comentarios:
Total area covered by the SLM Technology is 33.7 km2.
Map
×2.6 Fecha de la implementación
Si no se conoce el año preciso, indique la fecha aproximada:
- 10-50 años atrás
2.7 Introducción de la Tecnología
Especifique cómo se introdujo la Tecnología:
- durante experimentos/ investigación
- mediante proyectos/ intervenciones externas
3. Clasificación de la Tecnología MST
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: :
Sí
Especifique el uso combinado de tierras (cultivos/ pastoreo/ árboles):
- Agropastoralismo (incluyendo cultivo-ganado integrados)
Tierras cultivadas
- Cosecha anual
Cosechas anuales - Especifique cultivos:
- cereales - cebada
- cereales - maíz
- wheat
Número de temporadas de cultivo por año:
- 1
Especifique:
Longest growing period in days: 240 Longest growing period from month to month: March to October
Tierra de pastoreo
Pastoreo intensivo/ producción de forraje:
- Cortar y llevar/ cero pastoreo
- Pastoreo mejorado
Tipo de animal:
- ganado - lechero
- ganado - carne de res no lechera
Productos y servicios:
- carne
- leche
Comentarios:
Major land use problems (compiler’s opinion): Flood events and droughts may substantially disrupt the current land use system in the future and lead to higher drainage costs and higher economic risks for agricultural production. This will reduce the ecological and economic viability of the current intensive and highly productive land use under a changing climate.
Major land use problems (land users’ perception): There is no awareness of risks due to climate change.
Future (final) land use (after implementation of SLM Technology): Other: Oo: Other: wastelands, deserts, glaciers, swamps, recreation areas, etc
Constraints of infrastructure network (roads, railways, pipe lines, power lines): needs to be adapted to regular flooding
Constraints of recreation (landscape is used for reacreation and tourism): change in landscape due to retention area
Constraints of nature conservation areas (protected sites): wetter conditions in retention area
Livestock density : > 100 LU /km2
3.4 Provisión de agua
Comentarios:
Water supply: rainfed, mixed rainfed - irrigated
3.5 Grupo MST al que pertenece la Tecnología
- manejo de agua superficial (manantial, río, lagos, mar):
- protección/manejo de humedales
- Flood prevention
3.6 Medidas MST que componen la Tecnología
medidas estructurales
- S5: Diques, hondonadas, estanques
medidas de manejo
- M1: Cambio de tipo de uso de la tierra
- M2: Cambio de gestión/ nivel de intensidad
Comentarios:
Main measures: structural measures
Secondary measures: management measures
3.7 Principales tipos de degradación del suelo encarados con la Tecnología
deterioro químico del suelo
- Cs: salinización/ alcalinización
degradación del agua
- Hs: cambio en la cantidad de aguas superficiales
- Hg: cambio en nivel de aguas subterráneas/ nivel de acuífero
- Hq: reducción de la calidad de aguas subterráneas
Comentarios:
Main type of degradation addressed: Hs: change in quantity of surface water
Secondary types of degradation addressed: Cs: salinisation / alkalinisation, Hg: change in groundwater / aquifer level, Hq: decline of groundwater quality
Main causes of degradation: change of seasonal rainfall (Climate change, higher rainfall in winter, lower in summer), Heavy / extreme rainfall (intensity/amounts) (Heavy rainfall in winter due to climate change expected), floods (Flooding due to heavy rainfall in winter)
Secondary causes of degradation: droughts (Droughts due to less rainfall in summer (climate change)), other natural causes (avalanches, volcanic eruptions, mud flows, highly susceptible natural resources, extreme topography, etc.) specify (Sea level rise)
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:
- prevenir la degradación del suelo
- reducir la degradación del suelo
Comentarios:
Main goals: prevention of land degradation
Secondary goals: mitigation / reduction of land degradation
4. Especificaciones técnicas, actividades de implementación, insumos y costos
4.1 Dibujo técnico de la Tecnología
Especificaciones técnicas (relacionadas al dibujo técnico):
The figure shows the study region, located on the North Sea coast. The whole area is protected by a sea wall (grey). Crop fields (yellow), grasslands (green) and the drainage system (light blue) char-acterize the region. Large water bodies (blue) sur-rounded by reeds (brown) act as water retention polders. Vegetative regeneration, build-up of peat and re-establishment of natural habitats occurs within the retention polders. The land around the retention polders (the higher parts of the land-scape) profits from the retention areas as the risk of flooding is reduced and can be used for cropland and intensive grazing. Depending on the size of the retention area a huge amount of excess water can be contained. Retention areas of 3,000 ha are able to store up to 25,000,000 m³ water. The height of the dams depends on the elevation of the landscape but in general a height of less than 2 m is sufficient.
Location: Krummhörn. County of Aurich, Lower Saxony
Technical knowledge required for field staff / advisors: high (To generate income in the retention area (without existing agricultural methods))
Technical knowledge required for Water board: high (To build a new adapted drainage system with retention areas)
Main technical functions: control of dispersed runoff: retain / trap, control of concentrated runoff: retain / trap
Secondary technical functions: increase in organic matter, increase / maintain water stored in soil, increase of groundwater level / recharge of groundwater
Dam/ pan/ pond
Height of bunds/banks/others (m): 1
Width of bunds/banks/others (m): 2
Length of bunds/banks/others (m): 30000
Construction material (earth): sand core and clay cover
Specification of dams/ pans/ ponds: Capacity 25000000m3
Catchment area: 49000ham2
Beneficial area: 49000ham2
Other specifications: size of retention area (embanked area): 3,000.00 ha
Change of land use type: The former pastures and crop fields will not be used any more. Cessation of land use will take place.
Change of land use practices / intensity level: No more agricultural land use within the retention areas. The wetter conditions will lead to peat accumulation
Autor:
Udo Schotten
4.2 Información general sobre el cálculo de insumos y costos
otra / moneda nacional (especifique):
Euro
Si fuera relevante, indique la tasa de cambio de dólares americanos a la moneda local (ej. 1 U$ = 79.9 Reales Brasileros): 1 U$ =:
0,94
Indique el costo promedio del salario de trabajo contratado por día:
100.00
4.3 Actividades de establecimiento
Actividad | Momento (estación) | |
---|---|---|
1. | Building of dams | during winter months |
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 | Labour | Dam | 1,0 | 21000000,0 | 21000000,0 | |
Equipo | Machine use | Dam | 1,0 | 9000000,0 | 9000000,0 | |
Material de construcción | Earth | Dam | 1,0 | 750000,0 | 750000,0 | |
Costos totales para establecer la Tecnología | 30750000,0 | |||||
Costos totales para establecer la Tecnología en USD | 32712765,96 |
Comentarios:
Duration of establishment phase: 3 month(s)
4.5 Actividades de establecimiento/ recurrentes
Actividad | Momento/ frequencia | |
---|---|---|
1. | Control of dams | once a year |
2. | Maintenance of dams | once a year |
3. | Maintanance of drainage system | once a year |
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 | Labour | Dam | 1,0 | 800,0 | 800,0 | |
Equipo | Machine use | Dam | 1,0 | 300,0 | 300,0 | |
Material de construcción | Earth | Dam | 1,0 | 100,0 | 100,0 | 1,0 |
Otros | Maintenance per km ditch | Dam | 1,0 | 2270,7 | 2270,7 | |
Indique los costos totales para mantenecer la Tecnología | 3470,7 | |||||
Costos totales para mantener la Tecnología en USD | 3692,23 |
Comentarios:
Machinery/ tools: digger, open truck
The main investment is based on a dam length of 30 km to build up the retention area of a size of 3 000 ha. The length of the drainage network for the whole watershed is 1,074 km. Within the retention area no maintenance of the drainage network is necessary as there is no agricultural land use and drainage is not maintained any more. Maintenance costs of drainage network are based on long term annual mean cost of 2,270.72 Euro per km including pumping costs.
4.7 Factores más determinantes que afectan los costos:
Describa los factores más determinantes que afectan los costos:
The establishment costs are for the whole retention area (3 000 ha). The establishment period will be half a year.
Mainly the elevation in the region determines the costs as the height of the dams depend on the elevation. Typical heights are 1 m up to 2 m with a slope of 1:3.
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
Zona agroclimática
- húmeda
Thermal climate class: temperate
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
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):
- fina/ pesada (arcilla)
Materia orgánica de capa arable:
- elevada (>3%)
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. :
Soil fertiliuty is high
Soil drainage/infiltration is medium
Soil water storage capacity is high
5.4 Disponibilidad y calidad de agua
Agua subterránea:
< 5 m
Disponibilidad de aguas superficiales:
bueno
Calidad de agua (sin tratar):
solo para uso agrícola (irrigación)
5.5 Biodiversidad
Diversidad de especies:
- baja
5.6 Las características de los usuarios de la tierra que aplican la Tecnología
Orientación del mercado del sistema de producción:
- comercial/ mercado
Ingresos no agrarios:
- 10-50% de todo el ingreso
Nivel relativo de riqueza:
- promedio
Individuos o grupos:
- empleado (compañía, gobierno)
Nivel de mecanización:
- mecanizado/motorizado
Género:
- mujeres
- hombres
Indique otras características relevantes de los usuarios de las tierras:
Land users applying the Technology are mainly common / average land users
Population density: 50-100 persons/km2
Annual population growth: < 0.5%
1% of the land users are very rich and own 1% of the land.
50% of the land users are rich and own 24% of the land.
50% of the land users are average wealthy and own 50% of the land.
and own 25% of the land.
Off-farm income specification: Many farmers do additional work in industry or servicing sector
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)?
- gran escala
Comentarios:
Average area of land owned or leased by land users applying the Technology: 5-15 ha, 15-50 ha, 50-100 ha, 50-100 ha, 100-500 ha
5.8 Tenencia de tierra, uso de tierra y derechos de uso de agua
Tenencia de tierra:
- individual, sin título
Derechos de uso de tierra:
- individual
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
6. Impactos y comentarios para concluir
6.1 Impactos in situ demostrados por la Tecnología
Impactos socioeconómicos
Producción
producción de cultivo
Comentarios/ especifique:
No agricultural land use in the retention area any more.
producción de forraje
Comentarios/ especifique:
No agricultural land use in the retention area any more.
Ingreso y costos
ingreso agrario
Otros impactos socioeconómicos
Intrusion by saline groundwater
Impactos socioculturales
oportunidades recreativas
Comentarios/ especifique:
Diversification of landscape by building the retention area will increase the attractivity for recreation and tourists.
MST/ conocimiento de la degradación del suelo
Comentarios/ especifique:
No agricultural land use under wet conditions results in more diversity and conservation of regional species and habitats.
Improved livelihoods and human well-being
Comentarios/ especifique:
'Regional belonging' and 'feeling of safety' are measured. The amount of increase is modelled and will be added here.
Impactos ecológicos
Ciclo de agua/ escurrimiento de sedimento
cantidad de agua
Comentarios/ especifique:
Typical for the region are wet situations. These typical wet conditions are restored by cessation of drainage system within the retention area.
calidad de agua
Comentarios/ especifique:
Updwelling of saline groundwater is prevented by increased water level in the retention area.
nivel freático/ acuífero
Comentarios/ especifique:
By water in the retention are the recharge of groundwater will increase and prevents salinization.
evaporación
Comentarios/ especifique:
Instead of pumping water into the sea a higher amount is evapotranspirated naturally.
Suelo
humedad del suelo
Comentarios/ especifique:
Typical for the region are wet situations. These typical wet conditions are restored by cessation of drainage system within the retention area.
salinidad
Comentarios/ especifique:
By water in the retention are the recharge of groundwater will increase and prevent salinization.
materia orgánica debajo del suelo C
Comentarios/ especifique:
By wetter conditions and due to cessation of land use, the soil organic matter will be increased and peat layers will established..
Biodiversidad: vegetación, animales
biomasa/ sobre suelo C
diversidad vegetal
Comentarios/ especifique:
By wet conditions without land use the number of typical local species will be increased.
diversidad animal
Comentarios/ especifique:
By wet conditions without land use the number of typical local species will be increased.
especies benéficas
diversidad de hábitats
Comentarios/ especifique:
By wet conditions without land use the number of typical local habitats will be increased.
Reducción de riesgos de desastres y riesgos climáticos
emisión de carbono y gases de invernadero
Comentarios/ especifique:
Modelled is the global warming potential by gas emissions. Not yet clear if it is benefit or disadvantage. Model will show.
6.2 Impactos fuera del sitio demostrados por la Tecnología
disponibilidad de agua
corriente confiable y estable fluye en estación seca
Comentarios/ especifique:
Water stored in retention area can be used for irrigation during dry summer months.
inundaciones río abajo
Comentarios/ especifique:
Measured m3 of excess water in the catchment area, leading to floods or needs to be pumped. Exact values from modelling will be added as soon as possible!
daño a campos de vecinos
daños a infraestructura pública / privada
Production area
Cantidad antes de MST:
49.000
Cantidad luego de MST:
48.400
Comentarios/ especifique:
For the whole catchment area a loss of approx. 600 ha (size of retention area).
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 |
Extremos (desastres) relacionados al clima
Desastres climatológicos:
¿Cómo es que la tecnología soporta esto? | |
---|---|
tormenta de lluvia local | bien |
tormenta de viento | bien |
Desastres climatológicos
¿Cómo es que la tecnología soporta esto? | |
---|---|
sequía | bien |
Desastres hidrológicos
¿Cómo es que la tecnología soporta esto? | |
---|---|
inundación general (río) | bien |
Otras consecuencias relacionadas al clima
Otras consecuencias relacionadas al clima
¿Cómo es que la tecnología soporta esto? | |
---|---|
periodo reducido de crecimiento | no se sabe |
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:
muy negativo
Ingresos a largo plazo:
neutral/ balanceado
¿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:
positivo
Comentarios:
The benefits will be visible in the longer time frame. There will be benefits of the investments when considering sea level rise in the upcoming 100 years.
6.5 Adopción de la Tecnología
Comentarios:
Comments on spontaneous adoption: The SLM Technology is not implemented by local land users but this SLM technology needs to be implemented by spatial planning of the county / federal state.
There is a little trend towards spontaneous adoption of the Technology
Comments on adoption trend: The SLM Technology is not yet implemented by land users but first it needs to be considered in spatial planning of the county and the federal state. Land users and local experts showed during participatory workshops that there may be a chance for implementation.
6.7 Fuerzas/ ventajas/ oportunidades de la Tecnología
Fuerzas/ ventajas/ oportunidades desde la perspectiva del usuario de la tierra |
---|
Protection of vulnerable landscape by building the retention area in the low elevated parts of the landscape that are up to date already difficult to drain. The retention area will support the drainage of the arable fields and pastures outside the retention area. How can they be sustained / enhanced? Combine with other technical solutions for protection against flooding (including strengthening of the ditch system and in-creasing pumping capacity). |
Fuerzas/ ventajas/ oportunidades desde la perspectiva del compilador o de otra persona de referencia clave |
---|
Prevention of flooding during strong rainfalls and possibility to irrigate during dry periods How can they be sustained / enhanced? The larger the retention areas are the more water can be stored. |
Prevention of salt water intrusion in the region. Fresh water in the retention areas prevent saline ground water from up dwelling How can they be sustained / enhanced? Build polders where saline ground water dwells up. |
Endangered species might obtain new habitats in the retention area How can they be sustained / enhanced? Cessation of agricultural land use can help to improve the habitats for endangered species and increase attractiveness for tourism. |
Through investments in building retention areas the very expensive strengthening of existing drainage structures is not necessary anymore How can they be sustained / enhanced? Alternative benefits for land owner can be generated e.g. increas-ing the attractiveness for tourism. |
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? |
---|---|
Retention area in a region of high relevance for tourism. The retention area will change the landscape and this may reduce the value of the region for tourism | Include interests from tourism in the retention area (access, information, attractivity). |
Endangered species might lose habitats when establishing the retention polders | Do not build a retention area where endangered species live. |
Loss of livelihoods | Retention areas should be planned for parts of the landscape without settlements. |
Debilidades/ desventajas/ riesgos desde la perspectiva del compilador o de otra persona de referencia clave | ¿Cómo sobreponerse a ellas? |
---|---|
Loss of land for agricultural production | Build up retention area in low elevated parts, where the productivity is already poor. |
For peat formation wet conditions are necessary, but under wet conditions highest methane emissions were measured. The emissions due to methane are therefore higher than the potential storage effects due to carbon sequestration. | Ground water levels should kept stable near to the soil surface. |
7. Referencias y vínculos
7.1 Métodos/ fuentes de información
7.2 Vínculos a las publicaciones disponibles
Título, autor, año, ISBN:
http://www.comtess.uni-oldenburg.de/
7.3 Vínculos a la información relevante disponible en línea
Título/ descripción:
http://www.comtess.uni-oldenburg.de/
Vínculos y módulos
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Stakeholder participation in integrated assessment and planning of … [Alemania]
Stakeholders have been involved in integrated assessment to develop action-oriented land use options addressing possible climate change adaptation measures as alternatives to traditional coastal protection strategies.
- Compilador: Martin Maier
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