Your search keyword '"Sörensson, Anna A."' showing total 4 results

1. Introducing a new floodplain scheme in ORCHIDEE (version 7885): validation and evaluation over the Pantanal wetlands.

Author

Schrapffer, Anthony, Polcher, Jan, Sörensson, Anna, and Fita, Lluís

Subjects

FLOODPLAINS, ENERGY budget (Geophysics), WETLANDS, HYDROLOGIC cycle, WATERSHEDS, DIGITAL elevation models

Abstract

Adapting and improving the hydrological processes in land surface models are crucial given the increase in the resolution of the climate models to correctly represent the hydrological cycle. The present paper introduces a floodplain scheme adapted to the higher-resolution river routing of the Organising Carbon and Hydrology In Dynamic Ecosystems (ORCHIDEE) land surface model. The scheme is based on a sub-tile parameterisation of the hydrological units – a hydrological transfer unit (HTU) concept – based on high-resolution hydrologically coherent digital elevation models, which can be used for all types of resolutions and projections. The floodplain scheme was developed and evaluated for different atmospheric forcings and resolutions (0.5 ∘ and 25 km) over one of the world's largest floodplains: the Pantanal, located in central South America. The floodplain scheme is validated based on the river discharge at the outflow of the Pantanal which represents the hydrological cycle over the basin, the temporal evolution of the water mass over the region assessed by the anomaly of total water storage in the Gravity Recovery And Climate Experiment (GRACE), and the temporal evaluation of the flooded areas compared to the Global Inundation Extent from Multi-Satellites version 2 (GIEMS-2) dataset. The hydrological cycle is satisfactorily simulated; however, the base flow may be underestimated. The temporal evolution of the flooded area is coherent with the observations, although the size of the area is underestimated in comparison to GIEMS-2. The presence of floodplains increases the soil moisture up to 50 % and decreases average temperature by 3 ∘ C and by 6 ∘ C during the dry season. The higher soil moisture increases the vegetation density, and, along with the presence of open-water surfaces due to the floodplains, it affects the surface energy budget by increasing the latent flux at the expense of the sensible flux. This is linked to the increase in the evapotranspiration related to the increased water availability. The effect of the floodplain scheme on the land surface conditions highlights that coupled simulations using the floodplain scheme may influence local and regional precipitation and regional circulation. [ABSTRACT FROM AUTHOR]

Published

2023

2. ESTIMATION OF THE FLOODED AREA OVER THE PANTANAL, A SOUTH AMERICAN FLOODPLAIN, USING MODIS DATA.

Author

Schrapffer, Anthony, María Cappelletti, Lucía, and Sörensson, Anna

Subjects

FLOODPLAINS, LAND-atmosphere interactions, PRINCIPAL components analysis

Abstract

Copyright of Meteorologica is the property of Centro Argentino de Meteorologos and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

3. Benefits of representing floodplains in a Land Surface Model: Pantanal simulated with ORCHIDEE CMIP6 version.

Author

Schrapffer, Anthony, Sörensson, Anna, Polcher, Jan, and Fita, Lluís

Subjects

*WATER balance (Hydrology), *FLOODPLAINS, *OCEAN-atmosphere interaction, *LAND-atmosphere interactions, *GLOBAL modeling systems, *HYDROLOGIC cycle

Abstract

Tropical floodplains have a significant impact on the regional water cycle and on land-atmosphere interaction but are not always considered in Land Surface Models (LSMs) or in Earth system models. This study evaluates the importance of representing tropical floodplains in an LSM to provide realistic river discharges, evapotranspiration fluxes and other variables crucial for land's interaction with the ocean and atmosphere. Off-line simulations of the world's largest tropical wetland, the Pantanal are conducted with ORCHIDEE, the LSM of IPSL's regional and global Earth system model. We analyse the period 1961–2000, which includes both dry and wet decades. Atmospheric uncertainty is considered through the utilization of three forcing data sets, each one in two versions: the original dataset and a regionally bias adjusted version. The activation of the floodplain module leads to a systematic improvement of intra-annual variability and extremes of river discharge. Temporal evolution and spatial distribution of flooded area are coherent with satellite estimations, although the model, due to the coarse resolution of the topography, underestimates the extent of the area. Considering floodplains in ORCHIDEE enhance the evapotranspiration since it permits the water from the upstream region to evaporate in the plains. This have strong consequences on the water balance and on the spatial pattern of surface fluxes. The simulations allow us to perform a model-guided residual estimation of evapotranspiration through a water balance obtaining an annual evapotranspiration over Pantanal of 1220 mm while precipitation is estimated to be 1250 mm with an uncertainty of 180 mm. [ABSTRACT FROM AUTHOR]

Published

2020

4. High resolution numerical analysis of the land-river-floodplains-atmosphere interaction in the La Plata Basin

Author

Schrapffer, Anthony André Victor and Sörensson, Anna

Subjects

MODELADO NUMERICO, HYDROLOGY, PANTANAL, LAND-ATMOSPHERE INTERACTION, MODELLING, INTERACCIONES SUELO-ATMOSFERA, HIDROLOGIA, LLANURAS DE INUNDACION, FLOODPLAINS

Abstract

Las llanuras de inundación tropicales son regiones temporalmente o permanentemente inundadas debido al desbordamiento de los ríos en zonas de llanura. Las llanuras de inundación ubicadas sobre importantes ríos pueden tener un régimen anual de inundación predecible lo que explica que sean importantes lugares ecológicos con una gran biodiversidad proporcionando importantes servicios ecológicos. El Pantanal, una de las más extensas llanuras de inundación tropical del mundo, es la región de estudio de esta tesis. El objetivo es de desarrollar un esquema de llanuras de inundación para el modelo de superficie ORCHIDEE que sea compatible con modelos atmosféricos de alta resolución para las razones siguientes: (1) mejorar la representación del impacto de las llanuras de inundación sobre los ciclos del agua y de la energía en ORCHIDEE, (2) estudiar la dinámica del Pantanal y (3) evaluar los impactos de las llanuras de inundación sobre las interacciones suelo-atmósfera en esta región. En un primer tiempo, la versión original a baja resolución de las llanuras de inundación en ORCHIDEE fue utilizada para mostrar la importancia de incluir las llanuras de inundación en los modelos de superficie para mejorar la representación del ciclo del agua y permitir una representación más realista de los flujos suelo-atmósfera. El esquema de llanuras de inundación desarrollado está basado en la construcción del grafo rutaje de los ríos en una retícula atmosférica usando modelos de elevación digital a alta resolución vía el concepto de Unidades de Transferencia Hidrológica (HTU). Una herramienta de pre-procesamiento flexible y paralelizada fue desarrollada para facilitar y mejorar la construcción de los grafos de rutaje de los ríos en distintas retículas atmosféricas para facilitar la integración de datos hidrológicos suplementarios para la representación de las llanuras de inundación. Este esquema tiene que enfrentarse a nuevos problemas relacionados con la resolución como la posibilidad para un HTU de inundar a sus vecinos. Este esquema fue validado en comparación con observaciones y con su versión previa en ORCHIDEE. La comparación de simulaciones con y sin el esquela de inundación activado, forzadas por forzantes atmosférica a distintas resoluciones nos permitió evaluar (1) el impacto de las llanuras de inundación en las variables de superficie y (2) como la resolución afecta la simulación de la dinámica de las llanuras de inundación. El esquema de llanuras de inundación fue utilizado en una simulación del modelo RegIPSL (modelo acoplado ORCHIDEE-WRF) para estudiar cómo modifica las interacciones suelo- atmósfera sobre la región del Pantanal y cuales son los impactos locales y remotos sobre el clima de Sur America. Tropical floodplains are regions which are temporarily or permanently flooded due to the overflow of rivers over a lowland area. Floodplains over large rivers may have a predictable annual flood regime which is why they are important ecological places with a rich biodiversity providing important ecological services. The Pantanal which is one of the world’s largest tropical floodplains is the region of study for this thesis. The aim is to develop a floodplains scheme for the ORCHIDEE Land Surface Model (LSM) compatible with high resolution atmospheric models for the following reasons : (1) improve the representation of the impact of floodplains on the water and energy cycle in ORCHIDEE, (2) study the dynamic of the Pantanal flood-plains and (3) evaluate the impact of floodplains on the land-atmosphere interactions over this region. Initially, the original low resolution version of the floodplains in ORCHIDEE has been used to show the importance of including floodplains in a Land Surface Models as it improves the representation of the water cycle and allows to represent more realistic land-atmosphere fluxes. The high resolution floodplains scheme developed here is based on the construction of the river routing graph on an atmospheric grid using high resolution Hydrologically-conditioned DEM via the Hydrological Transfer Units (HTUs) concept. A parallelized flexible pre-processing tool has been developed in order to facilitate and improve the construction of the river routing graph on different types of atmospheric grids which facilitates the integration of additional hydrological data required for the representation of floodplains. This scheme had to handle new issues related to the resolution such as the possibility of an HTU to flood its neighbours. This scheme has been validated in comparison to observations and to its previous version in OR-CHIDEE. The comparison of simulations with and without floodplains forced by atmospheric forcings with different resolutions allowed us to evaluate : (1) the impact of floodplains on land surface variables and (2) how the resolution affects the simulation of the floodplain dynamics. The high resolution floodplains scheme has been used in a simulation of the RegIPSL model (coupled ORCHIDEE-WRF model) to study how it modifies land-atmosphere interactions over the Pantanal region and the local and remote impact on the climate of South America. Fil: Schrapffer, Anthony André Victor. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina.

Published

2022