Inundation and groundwater dynamics for quantification of evaporative water loss in tropical wetlands

Schwerdtfeger, J.; Johnson, Mark S.; Couto, Eduardo Guimarães; Amorim, Ricardo Santos Silva; Sanches, Luciana; Júnior, José Holanda Campelo; Weiler, Markus

doi:10.5194/hessd-11-4017-2014

Cited by 5 publications

(13 citation statements)

References 52 publications

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“…Based on the seasonal inundation dynamics, we calculated regional evaporation losses with a previously developed approach for the same region. We estimated potential evaporation (PET) and used PET to constrain the estimate of AET based on available water and hence inundation dynamics [16] (Appendix 1). In order to investigate the impact of local and upstream changes on the ecosystem, we also calculated evaporation for the years 2001-2013 and related our results to regional conditions of the study area (precipitation and inflow of tributaries).…”

Section: Methodsmentioning

confidence: 99%

“…This way, we determined the duration of the dry and wet seasons for the two-year study period. Using this water availability information we calculated daily AET with a recently developed approach (short description provided in Appendix 1), where evaporative water loss was simulated on a local scale [16]. Climatic variables used for this approach were derived from the National Institute of Meteorology in Brazil (INMET-Instituto Nacional de Meteorologia) including air temperature, relative humidity, wind velocity, barometric pressure and cloud cover data from OGIMET (www.ogimet.com).…”

Section: Dry and Wet Season Delineation For Evaporation Estimationmentioning

confidence: 99%

“…Assessing the vulnerability of wetlands to such changes is very difficult, even more where the remoteness results in insufficient ground truthing due to poor or missing gauging stations [10,[12][13][14]. River gauging data do not provide spatial information on the inundation extent in wetlands [15] and evaporation measurements are scarce, which complicates its estimation on a regional scale [16]. Therefore, in the last decades, satellite imagery became an important data source for assessing the status of remote wetland areas.…”

Section: Introductionmentioning

confidence: 99%

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Coupled Ground- and Space-Based Assessment of Regional Inundation Dynamics to Assess Impact of Local and Upstream Changes on Evaporation in Tropical Wetlands

et al. 2015

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Abstract:Modifications of human land use and climate change are known to be a threat for the health and proper functioning of tropical wetlands. They interfere with the seasonal flood pulse, which is seen as the most important driver for biodiversity and directly controls evaporation. In order to investigate the impact of local and upstream changes on wetlands, a regional assessment of evaporation is crucial but challenging in such often remote and poorly gauged ecosystems. Evaporation is the major water balance component of these wetlands and links the flood pulse with the ecosystem. It can therefore be seen as a proxy for their functioning. In the last decades, information from space became an important data source to assess remote wetland areas. Here, we developed a new approach to quantify regional evaporation driven by inundation dynamics as its dominant control. We used three water and vegetation indices (mNDWI (modified Normalized Difference Water Index), NDVI (Normalized Difference Vegetation Index), and EVI (Enhanced Vegetation Index)) from MODIS (Moderate Resolution Imaging Spectroradiometer) surface reflectance products to assess regional inundation dynamics between the dry and wet seasons. Two years of continual in situ water level measurements at different locations in our study area, the OPEN ACCESS Remote Sens. 2015, 7 9770Pantanal wetland of South America, provided the reference to evaluate our method. With process-based modeling that used the inundation dynamics to determine the water available for evaporation, we were able to estimate actual evaporation (AET) on a regional scale. Relating AET to changes in discharge due to upstream flow modifications and on local precipitation over the last 13 years, we found that the Pantanal is more vulnerable to alternated inundation dynamics than to changes in local precipitation. We concluded that coupling ground-and space-based information in this remote wetland area is a valuable first step to investigate the status of the Pantanal ecosystem.

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Section: Methodsmentioning

confidence: 99%

Section: Dry and Wet Season Delineation For Evaporation Estimationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Coupled Ground- and Space-Based Assessment of Regional Inundation Dynamics to Assess Impact of Local and Upstream Changes on Evaporation in Tropical Wetlands

et al. 2015

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“…Neste contexto, as dificuldades associadas aos estudos em ecossistemas florestais estão relacionadas à realização das medidas; em sistemas tropicais, por exemplo, há escassez de medições diretas de variáveis, como evaporação (Schwerdtfeger et al, 2014) e, em contrapartida, da estimativa do fechamento do balanço de energia (McCaughey et al, 1997;Barr et al, 2006;Wilson et al, 2002). Uma conclusão geral em referência a isto refere-se ao armazenamento de energia na biomassa que pode constituir um componente significativo do saldo de radiação em ecossistemas florestais durante períodos específicos.…”

Section: Introductionunclassified

Estoque de energia na biomassa e no ar do dossel de Vochysia divergens Pohl

Sanches

Silva

Lima

et al. 2014

Rev. bras. eng. agríc. ambient.

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R E S U M OA variação da energia armazenada na biomassa e no ar do dossel pode ser estimada por meio de medidas da temperatura da biomassa e do ar e da distribuição da biomassa, constituindo-se um componente significativo do balanço de energia. Apesar de que estimativas acuradas desse componente do balanço de energia são de difícil obtenção e normalmente desprezadas nos cálculos, sobretudo em análises de períodos longos. Colaborando com a compreensão do fechamento do balanço de energia existente na floresta, este trabalho estimou o estoque de energia disponível na biomassa por meio de dados micrometeorológicos em uma floresta de Vochysia divergens Pohl no Pantanal, em 2007. O armazenamento de energia na biomassa e no ar do dossel foi superior na estação chuvosa em relação à seca; entretanto, a diferença entre o valor máximo e mínimo horário foi maior durante a estação seca. Os valores de armazenamento de energia na biomassa e no ar do dossel em floresta de V. divergens no Pantanal foram, em 2007, similares à energia armazenada em outras florestas tropicais. Energy storage in the biomass and air of the canopy of Vochysia divergens Pohl A B S T R A C TThe variation of the storage energy in the biomass and in the air of the canopy can be estimated by measuring biomass and air temperature and biomass distribution being a significant component of energy balance. Nevertheless, accurate estimates of this component of energy balance are difficult to obtain and usually neglected in the calculations, especially in analysis of long periods. To understand the energy balance in the forest, this study estimated the energy stored in biomass using micrometeorological data in a forest monodominant Vochysia divergens Pohl in Pantanal in 2007. The energy stored in the biomass and in the air of the canopy (S) was higher in rainy season than in dry season, however, the difference between maximum and minimum values was higher during the dry season. The values of S in V. divergens forest in Pantanal in 2007 were similar to storage energy in the other tropical forests. Palavras-chave:área alagada balanço de energia inundação Pantanal sazonalidade

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“…While most previous studies have underestimated water losses in the basin resulting from evaporation, the main component of water loss in wetlands [17], very few studies have considered additional water losses through water withdrawal for irrigation purposes, that are estimated to amount to 2.69 km 3 /year of water on average [1].…”

Section: Introductionmentioning

confidence: 99%

Water Balance Analysis over the Niger Inland Delta-Mali: Spatio-Temporal Dynamics of the Flooded Area and Water Losses

et al. 2017

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Abstract:The Niger Inland Delta (NID) wetland comprises a large flooded area that plays an important role in the ecosystem services. This study provides a comprehensive understanding of the NID's hydro-climatological functioning using water balance approach. After a clear description of the water budget's elements specific to the NID catchment, a spatial and temporal dynamics of the annual flood across the NID over the period 2000-2009 was performed using data from satellite QuickSCAT and its associated sensor SeaWinds. The estimated areas were used along with observed discharge and remotely-sensed climatic data to quantitatively evaluate each water balance component. The results indicate: (i) a clear spatiotemporal of the flooded areas varied between 25,000 km 2 in wet periods and 2000 km 2 in dry periods; (ii) an average evapotranspiration loss of 17.31 km 3 (43% of the total inflow) was assessed in the catchment; (iii) precipitation's contribution to the NID's budget totals 5.16 km 3 (12.8% of the total inflow); and (iv) the contribution of return flow from irrigated fields totals 1.8 km 3 (4.5% of the total inflow, among which 1.2 km 3 are from Office du Niger) to the flooded areas, refined the NID's water balance estimates. Knowledge gained on NID's water balance analysis will be used to develop and calibrate hydrological models in the Niger Inland Delta of the basin.

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Inundation and groundwater dynamics for quantification of evaporative water loss in tropical wetlands

Cited by 5 publications

References 52 publications

Coupled Ground- and Space-Based Assessment of Regional Inundation Dynamics to Assess Impact of Local and Upstream Changes on Evaporation in Tropical Wetlands

Coupled Ground- and Space-Based Assessment of Regional Inundation Dynamics to Assess Impact of Local and Upstream Changes on Evaporation in Tropical Wetlands

Estoque de energia na biomassa e no ar do dossel de Vochysia divergens Pohl

Water Balance Analysis over the Niger Inland Delta-Mali: Spatio-Temporal Dynamics of the Flooded Area and Water Losses

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