Determinants of Property Damage Recovery Time Among Households Affected by an Extreme Flood Event in Metro Manila, Philippines

This study identified the factors that influence household recovery following an extreme flood event, measured in terms of the length of time to repair, rebuild or replace damaged private property. Data was obtained through a survey of 400 households in Marikina City in Metro Manila, Philippines. Results from the empirical analysis indicated that household income, access to credit (borrowing), the use of a flood alarm system, access to safe shelter, membership in a community organisation, adoption of disaster-specific anticipatory measures and adoption of general preventive measures significantly reduced the time it took for affected households to recover from property damage. Evacuation, relief aid, type of housing, education, household size and frequency of flooding in the area did not have significant effects.

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Assessing invertebrate response to an extreme flood event at a regional scale utilizing past survey data

Limnology ◽

10.1007/s10201-021-00651-5 ◽

2021 ◽

Vol 22 (2) ◽

pp. 169-177

Author(s):

Yo Miyake ◽

Hiroto Makino ◽

Kenta Fukusaki

Keyword(s):

Survey Data ◽

Regional Scale ◽

Flood Event ◽

Extreme Flood

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Assessing the population dynamics of Escherichia coli in a metropolitan river after an extreme flood event

Journal of Water and Health ◽

10.2166/wh.2016.285 ◽

2016 ◽

Vol 15 (2) ◽

pp. 196-208 ◽

Cited By ~ 1

Author(s):

Nicole M. Masters ◽

Aaron Wiegand ◽

Jasmin M. Thompson ◽

Tara L. Vollmerhausen ◽

Eva Hatje ◽

...

Keyword(s):

Escherichia Coli ◽

Population Dynamics ◽

Antibiotic Resistance ◽

Virulence Genes ◽

Wastewater Treatment Plants ◽

Vero Cells ◽

Flood Event ◽

Typing Method ◽

E Coli ◽

Extreme Flood

We investigated Escherichia coli populations in a metropolitan river after an extreme flood event. Between nine and 15 of the 23 selected sites along the river were sampled fortnightly over three rounds. In all, 307 E. coli were typed using the PhP typing method and were grouped into common (C) or single (S) biochemical phenotypes (BPTs). A representative from each of the 31 identified C-BPTs was tested for 58 virulence genes (VGs) associated with intestinal and extra-intestinal E. coli, resistance to 22 antibiotics, production of biofilm and cytotoxicity to Vero cells. The number of E. coli in the first sampling round was significantly (P < 0.01) higher than subsequent rounds, whereas the number of VGs was significantly (P < 0.05) higher in isolates from the last sampling round when compared to previous rounds. Comparison of the C-BPTs with an existing database from wastewater treatment plants (WWTPs) in the same catchment showed that 40.6% of the river isolates were identical to the WWTP isolates. The relatively high number of VGs and antibiotic resistance among the C-BPTs suggests possessing and retaining these genes may provide niche advantages for those naturalised and/or persistent E. coli populations which may pose a health risk to the community.

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Reconstructing the Tropical Storm Ketsana flood event in Marikina River, Philippines

Hydrology and Earth System Sciences ◽

10.5194/hess-15-1283-2011 ◽

2011 ◽

Vol 15 (4) ◽

pp. 1283-1289 ◽

Cited By ~ 23

Author(s):

C. C. Abon ◽

C. P. C. David ◽

N. E. B. Pellejera

Keyword(s):

Metropolitan Area ◽

Hydrologic Modeling ◽

Time Lag ◽

The Philippines ◽

Tropical Storm ◽

Flood Event ◽

Flood Peak ◽

Gauge Data ◽

Metro Manila ◽

Peak Runoff

Abstract. In September 2009, Tropical Storm Ketsana (local name: TS Ondoy) hit the Manila metropolitan area (Metro Manila) and brought an anomalous volume of rain that exceeded the Philippines' forty-year meteorological record. The storm caused exceptionally high and extensive flooding. Part of this study was a survey conducted along the stretch of the Marikina River, one of the major rivers that flooded. Post-event resident interviews were used to reconstruct the flooding in the absence of stream gauge data. Hydraulic and hydrologic modeling were carried out to understand the mechanism that brought the flood. Peak floods occurred at different hours along the river resulting from the transmission of water from the main watershed to the downstream areas. Modeled peak flood and flood timing coincided well with actual observations except for downstream stations where actual peak floods were observed to have occurred at a later time. Compounding factors such as other flood sources and stream backflow could have caused this discrepancy. Nevertheless, prediction of flood heights and the use of the known time lag between the peak rainfall and the peak runoff could be utilized to issue timely flood forecasts to allow people to prepare for future flooding.

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Towards assimilation of crowdsourced observations for different levels of citizen engagement: the flood event of 2013 in the Bacchiglione catchment

10.5194/hess-2017-59 ◽

2017 ◽

Cited By ~ 1

Author(s):

Maurizio Mazzoleni ◽

Vivian Juliette Cortes Arevalo ◽

Uta Wehn ◽

Leonardo Alfonso ◽

Daniele Norbiato ◽

...

Keyword(s):

Real Time ◽

Hydrological Model ◽

Population Distribution ◽

Model Performance ◽

Flood Event ◽

Target Point ◽

Citizen Engagement ◽

Physical Sensors ◽

Extreme Flood ◽

Social Sensors

Abstract. Accurate flood predictions are essential to reduce the risk and damages over large urbanized areas. To improve prediction capabilities, hydrological measurements derived by traditional physical sensors are integrated in real-time within mathematic models. Recently, traditional sensors are complemented with low-cost social sensors. However, measurements derived by social sensors (i.e. crowdsourced observations) can be more spatially distributed but less accurate. In this study, we assess the usefulness for model performance of assimilating crowdsourced observations from a heterogeneous network of static physical, static social and dynamic social sensors. We assess potential effects on the model predictions to the extreme flood event occurred in the Bacchiglione catchment on May 2013. Flood predictions are estimated at the target point of Ponte degli Angeli (Vicenza), outlet of the Bacchiglione catchment, by means of a semi-distributed hydrological model. The contribution of the upstream sub-catchment is calculated using a conceptual hydrological model. The flow is propagated along the river reach using a hydraulic model. In both models, a Kalman filter is implemented to assimilate the real-time crowdsourced observations. We synthetically derived crowdsourced observations for either static social or dynamic social sensors because crowdsourced measures were not available. We consider three sets of experiments: (1) only physical sensors are available; (2) probability of receiving crowdsourced observations and (3) realistic scenario of citizen engagement based on population distribution. The results demonstrated the importance of integrating crowdsourced observations. Observations from upstream sub-catchments assimilated into the hydrological model ensures high model performance for high lead time values. Observations next to the outlet of the catchments provide good results for short lead times. Furthermore, citizen engagement level scenarios moved by a feeling of belonging to a community of friends indicated flood prediction improvements when such small communities are located upstream a particular target point. Effective communication and feedback is required between water authorities and citizens to ensure minimum engagement levels and to minimize the intrinsic low-variable accuracy of crowdsourced observations.

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Hydraulic modelling of extreme flood event of semi-arid river basin

10.5194/egusphere-egu21-10218 ◽

2021 ◽

Author(s):

Mohamedmaroof Shaikh ◽

Sanjaykumar Yadav ◽

Vivek Manekar

Keyword(s):

Cross Sections ◽

Management Strategy ◽

Retaining Wall ◽

Hydraulic Model ◽

Flood Event ◽

Railway Bridge ◽

Hydraulic Modelling ◽

One Dimensional ◽

Extreme Flood ◽

High Flood

Floods are among the severe weather disasters that cause catastrophic damage to surroundings and adversely impact populations. This study aims to create a one-dimensional (1D) hydraulic model using HEC-RAS for the Rel River in Banaskantha, Gujarat, India. The model has been developed for the extreme flood event of July 2017. A total of hundred cross-sections have been used as geometric data. The peak discharge of 3355 m3/s and the river slope has been applied as upstream and downstream boundary conditions. The model has been calibrated and validated using observed water depth at Railway bridge and Highway bridge. Critical cross-sections have been identified using the 1D hydraulic model. Eight out of the hundred cross-sections were safe for a flood discharge of 3355 m3/s. The villages at high flood risk are identified for this discharge. To mitigating floods, the construction of a retaining wall or levees is recommended to protect these villages. This study can help a disaster management strategy for the cities and town in the River&#8217;s vicinity.

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Successful Small-Scale Household Relocation after a Millennial Flood Event in Simbach, Germany 2016

Water ◽

10.3390/w12010156 ◽

2020 ◽

Vol 12 (1) ◽

pp. 156 ◽

Cited By ~ 1

Author(s):

Barbara Mayr ◽

Thomas Thaler ◽

Johannes Hübl

Keyword(s):

Risk Management ◽

Flood Risk ◽

Planning Process ◽

Flood Risk Management ◽

Flood Event ◽

Small Scale ◽

Successful Implementation ◽

Adaptive Planning ◽

Extreme Flood ◽

Household Relocation

International and national laws promote stakeholder collaboration and the inclusion of the community in flood risk management (FRM). Currently, relocation as a mitigation strategy against river floods in Central Europe is rarely applied. FRM needs sufficient preparation and engagement for successful implementation of household relocation. This case study deals with the extreme flood event in June 2016 at the Simbach torrent in Bavaria (Germany). The focus lies on the planning process of structural flood defense measures and the small-scale relocation of 11 households. The adaptive planning process started right after the damaging event and was executed in collaboration with authorities and stakeholders of various levels and disciplines while at the same time including the local citizens. Residents were informed early, and personal communication, as well as trust in actors, enhanced the acceptance of decisions. Although technical knowledge was shared and concerns discussed, resident participation in the planning process was restricted. However, the given pre-conditions were found beneficial. In addition, a compensation payment contributed to a successful process. Thus, the study illustrates a positive image of the implementation of the alleviation scheme. Furthermore, preliminary planning activities and precautionary behavior (e.g., natural hazard insurance) were noted as significant factors to enable effective integrated flood risk management (IFRM).

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