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Specific objective 1:
Recharge estimations in the dune belt complex
Responsible: Claus Kohfahl |
Task 1.1: Sampling. Soil-physical and chemical parameters.
Soil retention curves.
Participants: Fernando Ruiz, Natalia Fernández, Daniel Jesús
Martínez, Antonio Nicolás Martínez, Lidia Molano Lena.
M1.1.1. Aquifer characteristics. |
Task 1.2: Continuous measurements of parameters by
the weighing meteo-lysimeter.
Participants: Fernando Ruiz, Natalia Fernández, Daniel Jesús
Martínez, Antonio Nicolás Martínez, Lidia Molano Lena.
M1.2.1. Dependence of recharge on meteorological parameters. |
Task 1.3: Monitoring vadose zone. Lysimeter measurements.
Hydrus 1D model.
Participants: Carlos Mediavilla, Fernando Ruiz, Natalia
Fernández, Daniel Jesús Martínez, Antonio Nicolás Martínez,
Lidia Molano Lena.
M1.3.1. Recharge based on vadose zone data. Verification by
Lysimeter. |
Task 1.4: Future recharge time series based on prognosticated
T, P series until 2100.
Participants: Carolina Guardiola, Juan Antonio Luque.
M1.4.1. Future recharge time series in dependence on
meteorological data. |
Task 1.5: Estimate the transit times with tracer
test.
Participants: Luis Moreno, Javier Heredia, Carolina Guardiola,
Fernando Ruiz, Almudena de la Losa, Carlos Carnicero, Daniel
Jesús Martínez.
M1.5.1. Tracer test injection.
M1.5.2. Sampling.
M1.5.3. Conceptual & numerical modelling. |
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Specific objective 2:
Climate change. Wetland-groundwater interaction (Santa Olalla)
Responsible: Claus Kohfahl |
Task 2.1. Monitoring of surface water heads,
temperature and EC during.
Participants: Miguel Rodríguez, Antonio Sánchez de la Nieta,
Daniel Jesús Martínez, Lidia Molano Lena.
M2.1.1. Water level, EC and water Tª in Santa Olalla lagoon at a
3-hour scale.
M2.1.2. Water level, & T piezometry in Santa Olalla watershed at
3-hour scale.
M2.1.3. Interpretation of the data and elaboration of a daily
water balance. |
Task 2.2. Sampling sediment. Soil-physical &
chemical parameters. Soil retention curves.
Participants: Miguel Rodríguez, Antonio Sánchez de la Nieta,
Daniel Jesús Martínez, Lidia Molano Lena.
M.2.2.1. Aquifer and sediment parameters. |
Task 2.3: Installation of piezometers, FDR sensors and
meteorological station.
Participants: Fernando Ruíz Bermudo, Daniel Jesús Martínez.
M2.3.1. Installation of technical field equipment in Santa
Olalla. |
Task 2.4. Monitoring moisture, piezometry and hydrochemical
sampling. Hydrus 1D.
Participants: Natalia Fernández de los Santos, Lidia Molano
Lena.
M2.4.1. Groundwater-surface-water interaction and groundwater
recharge. |
Task 2.5. Generation of recharge time series.
Participants: Carolina Guardiola.
M2.5.1. Generation of future recharge time series based on
generated climate series. |
Task 2.6. Estimate the transit times with tracer
test.
Participants: Luis Moreno, Almudena de la Losa, Javier Heredia,
Fernando Ruiz, Lidia Molano Lena.
M2.6.2. Sampling.
M2.6.3. Conceptual & numerical modelling. |
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Specific objective 3:
Statistical significance of climate cycles o piezometric series.
Responsible: Juan Antonio Luque |
Task 3.1. Recopilation and treatment of head measurements from
databases.
Participants: Carolina Guardiola, Fernando Ruíz, Carlos
Mediavilla, Héctor Aguilera, Carmen Serrano, Nuria Naranjo
Fernández. |
Task 3.2. Spectral analysis
Participants: Carolina Guardiola, Fernando Ruíz, Carlos
Mediavilla, Héctor Aguilera
M3.2.1. Spatial variations of climatic cycles. |
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Specific objective 4:
Temporal recharge and geological - groundwater model.
Responsible: Carolina Guardiola |
Task 4.1. Quantification of geological uncertainties with geostatistical tools.
Participantes: Carolina Guardiola, Carlos Mediavilla, Ana
Rebollo, Javier Heredia, Nuria Naranjo Fernández.
M4.1.1. Indicator simulation of hydrofacies. |
Task 4.2. Groundwater numerical model: update, calibrate and
uncertainty analysis.
Participants: Carolina Guardiola, Carlos Mediavilla, Javier
Heredia, Hector Aguilera, Nuria Naranjo Fernández
M4.2.1. Spatial and numerical simulated heads and fluxes. |
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Specific objective 5:
Impact climate change on groundwater resources until 2100.
Responsible: Carolina Guardiola |
Task 5.1. Input of recharge series from tasks 1.4. & 3.2. into
the groundwater model.
Participants: Javier Heredia, Carmen Serrano, Nuria Naranjo
Fernández.
M5.1.1. Predictions of spatial and numerical simulated heads and
fluxes. |
Task 5.2. Focus on the climate change predictions in the area
of La Rocina.
Participants: Javier Heredia, Héctor Aguilera, Nuria Naranjo
Fernández.
M5.2.1. Affection of climate change to the discharge of the
aquifer to the stream. |
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Specific objective 6: Model based
prognostication of climate change. Santa Olalla site.
Responsible: Javier Heredia |
Task 6.1. Adaptation of the global numerical model to Santa
Olalla site.
Participants: Javier Heredia, Miguel Rodríguez, Carolina
Guardiola, Héctor Aguilera, Nuria Naranjo Fernández.
M6.1.1. A zoom model of the existing regional MODFLOW. |
Task 6.2. Simulation of climate change effects in the Santa
Olalla lagoon.
Participants: Javier Heredia, Miguel Rodríguez, Carolina
Guardiola, Hector Aguilera, Nuria Naranjo Fernández.
M6.2.1. Affection of climate change to the discharge of the
aquifer to the lagoon. |
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IGME
Ríos Rosas, 23
28003 Madrid
Teléfono + 34 913 495 700
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