hydrology of the lurín catchment: monitoring and modelling
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KIT – Research University in the Helmholtz Association
INSTITUTE OF WATER AND RIVER BASIN MANAGEMENT - HYDROLOGY
www.kit.edu
Hydrology of the Lurín catchment:Monitoring and Modelling
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2INSTITUTE OF WATER AND RIVER BASIN MANAGEMENT - HYDROLOGY
Study Area: ChiRiLu
We studied the Lurín catchment near Lima, Perú
One of the ChiRiLu catchments that supply Lima with water
Lima: ~ 10 mill. people, ~ 10 mm rainfall per year
06.10.2020
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3INSTITUTE OF WATER AND RIVER BASIN MANAGEMENT - HYDROLOGY
Study Area: Lurín River
Length
111 km
Catchment area
1670 km²
Elevation range
0 to 5250 m amsl
06.10.2020
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4INSTITUTE OF WATER AND RIVER BASIN MANAGEMENT - HYDROLOGY
WHERE DOES THE WATER COME FROM?
WHERE DOES THE WATER GO?
HOW MUCH IS AVAILABLE FOR USAGE?
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5INSTITUTE OF WATER AND RIVER BASIN MANAGEMENT - HYDROLOGY
Study Area: Lurín River
Monitoring stations
as of 2017:
1 stream gauge
3 rain / meteo
stations
operated by
SENAMHI1
in 2018/19
+ 1/+2 stream
gauges
+ 1/+8
rain/meteo
operated by
SEDAPAL2/
TRUST
06.10.2020
1 Servicio Nacional de Meteorologia e Hidrologia2 Servicio de Agua Potable y Alcantarillado de Lima
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6INSTITUTE OF WATER AND RIVER BASIN MANAGEMENT - HYDROLOGY
Water balance with available data
Rainfall from station data leaves no water for evapotranspiration (left)
Gridded rainfall product PISCO1 much better (right), but
not available after 2018, rather coarse resolution (0.1°)
06.10.2020
1Peruvian Interpolation of the SENAMHI'S Climatological and hydrological data Observations - precipitation;
Aybar et al., 2019, Hydrological Sciences Journal
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7INSTITUTE OF WATER AND RIVER BASIN MANAGEMENT - HYDROLOGY
Rainfall patterns in ChiRiLu
Analysis of 18 rainfall gauges with 30 or more years of data in the three
catchments
Rainfall interpolation at monthly and daily timesteps using covariance
structures
06.10.2020
Correlation of rainfall sums and variance with elevation above threshold at yearly
(here) and monthly scales (next page)
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8INSTITUTE OF WATER AND RIVER BASIN MANAGEMENT - HYDROLOGY
Rainfall patterns in ChiRiLu
06.10.2020
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9INSTITUTE OF WATER AND RIVER BASIN MANAGEMENT - HYDROLOGY
Rainfall Interpolation
Covariance-variance model interpolates higher rainfall sums for the Lurín, and
allows to include new station data
Rainfall is main input requirement for hydrological modeling
06.10.2020
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10INSTITUTE OF WATER AND RIVER BASIN MANAGEMENT - HYDROLOGY
Perceptual Model of the Lurín River
Drainage to Pacific Ocean
Infiltration into valleybottomaquifer
Runoffconcentration
RainfallInput
Abstractions for irrigation
Wastewater discharge
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11INSTITUTE OF WATER AND RIVER BASIN MANAGEMENT - HYDROLOGY
Quantification of Groundwater Renewal Rate
Difference between stream gauges
Antapucro and Manchay allows to
estimate amount of infiltrated river water
In the first (almost completely monitored) rainy season, around 14 (8 to 19) million m³ were ‘lost’ between the two gauges
Mostly infiltrated (the river even falls dry there regularly)
Allows to infer sustainable groundwater usage
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12INSTITUTE OF WATER AND RIVER BASIN MANAGEMENT - HYDROLOGY
Quantification of Drainage to Ocean
Discharge volume passing Manchay
allows to estimate roughly the amount of
water draining to the Pacific Ocean
55 (48 to 64) million m³ of river water that have drained from the Lurín
catchment to the Pacific Ocean during this period (assuming that infiltration
losses continue as upstream)
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13INSTITUTE OF WATER AND RIVER BASIN MANAGEMENT - HYDROLOGY
Hydrological Modeling
Setting up and calibrating a distributed hydrological model (mHM 2) against the
only long-term stream gauge (Antapucro) revealed considerable differences in
rainfall-runoff reaction between years quality of discharge data?
06.10.2020
2 Mesoscale hydrological model;
Samaniego et al., 2010, Water Resources Research
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14INSTITUTE OF WATER AND RIVER BASIN MANAGEMENT - HYDROLOGY
Summary and Conclusions
Rainfall in the upper parts is the only water input for the catchment, and
monitoring improved with new rain gauges at high altitudes
Low-cost stream gauges at the right locations allowed first estimates for major
parts of the water balance
Groundwater renewal rate is much below estimated groundwater extraction
Considerable volume of water discharges to the ocean
Measures to hold and delay discharge are needed, for example more small-
scale reservoirs and infiltration enhancement in the upper catchment
Further investigations are needed to plan such measures locally, and to
support the management of water resources with whole catchment view
Establishing and maintaining a representative monitoring is essential
06.10.2020
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15INSTITUTE OF WATER AND RIVER BASIN MANAGEMENT - HYDROLOGY
JAN WIENHÖFER
JAN BONDY
SAMUEL SCHROERS
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