Return Level Analysis of the Hanumante River Using Structured Expert Judgment: A Reconstruction of Historical Water Levels

Kindermann, Paulina E.; Brouwer, Wietske S.; Hamel, Amber van; Haren, Mick van; Verboeket, Rik P.; Nane, Gabriela F.; Lakhe, Hanik; Prajapati, Rajaram; Davids, Jeffrey C.

doi:10.3390/w12113229

Cited by 6 publications

(3 citation statements)

References 20 publications

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“…(Sebok et al, 2021) recently applied expert elicitation to reduce uncertainty in climate model predictions. (Kindermann et al, 2020) reproduced historical water levels using structured expert judgment (SEJ), and (Rongen et al, 2022b) recently applied SEJ to estimate dike failure probabilities for the Dutch part of the river Rhine. While examples are not abundantly available, using prior information to decrease the uncertainty and sensitivity for extrapolation, is not new.…”

Section: Introductionmentioning

confidence: 99%

Using structured expert judgment to Estimate extreme river discharges: a case study of the Meuse River

Rongen

Morales-Nápoles

Kok

2023

Preprint

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Abstract. Accurate estimation of extreme discharges in rivers, such as the Meuse, is crucial for effective flood risk assessment. However, existing statistical and hydrological models that estimate these discharges often lack transparency regarding the uncertainty of their predictions, as evidenced by the devastating flood event that occurred in July 2021 which was not captured by the existing model for estimating design discharges. This article proposes an alternative approach with a central role for expert judgment, using Cooke’s method. A simple statistical model was developed for the river basin, consisting of correlated GEV-distributions for discharges in upstream sub-catchments. The model was fitted to expert judgments, measurements, and the combination of both, using Markov chain Monte Carlo. Results from the model fitted only to measurements were accurate for more frequent events, but less certain for extreme events. Using expert judgment reduced uncertainty for these extremes but was less accurate for more frequent events. The combined approach provided the most plausible results, with Cooke's method reducing the uncertainty by appointing most weight to two of the seven experts. The study demonstrates that utilizing hydrological experts in this manner can provide plausible results with a relatively limited effort, even in situations where measurements are scarce or unavailable.

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Section: Introductionmentioning

confidence: 99%

Using structured expert judgment to Estimate extreme river discharges: a case study of the Meuse River

Rongen

Morales-Nápoles

Kok

2023

Preprint

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“…The return Level is the maximum value expected to be exceeded once within a certain period [21]. The return level at a particular time is derived from the GEV distribution, expressed in the following equation.…”

Section: F Return Levelmentioning

confidence: 99%

Clustering Provinces with Drought Risk Based on Daily Maximum Temperature

2024

IJESD

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Changes in global weather patterns are sweeping the world, including Indonesia. One of the causes of this change was the El Niño event, where sea surface temperatures in the central Pacific Ocean experienced an increase. Apart from causing temperatures to increase, it also causes the intensity of rainfall to decrease, causing drought disasters. Anticipating natural disasters and disaster mitigation needs to be carried out to reduce their negative impacts. Efforts can be made by identifying areas with a high potential for drought and clustering areas based on the level of potential drought. This article focuses on extreme data from maximum temperatures in 34 provinces in Indonesia. Clustering was performed using the k-means and k-medoids methods and evaluated using the Davies-Bouldin index. Predict the highest maximum temperature in a specific period using the return level. The result shows that the k-means method is more suitable and better implemented by checking on the Davies-Boulding index, which is 0.9945.

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“…During the process, the river travels approximately 21 km distance (DCC 2017) and collects water from a catchment area of 143 km 2 (Sada 2012). The river holds ecological, cultural, religious and economic values (Sada 2012;Kindermann et al 2020). However, the river is being threatened by land use change, encroachment and pollution (Bhatta & Pandey 2020).…”

Section: Study Areamentioning

confidence: 99%

First record of ashy minivet Pericrocotus divaricatus in Kathmandu Valley, Nepal

Gosai,

Dhakal

et al. 2023

Nep. J. Zool.

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The status and distribution of birds in Nepal is being updated as the number of bird species and records increase. We present a distributional update of ashy minivet Pericrocotus divaricatus, a rare winter visitor to Nepal. We made an opportunistic sighting of the species on 25 February 2022 during a bird survey along the Hanumante River, Bhaktapur, Nepal. AM had been previously recorded in Nepal at Koshi Tappu Wildlife Reserve and at Sauraha, Chitwan District, but not in the Kathmandu Valley. Thus, our record of this species in Bhaktapur (Kathmandu Valley) is a new distributional record of the species in Nepal. Rapid change in land use is posing threats to bird habitats; therefore, we recommend maintaining a continuous green corridor along the Hanumante River.

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Return Level Analysis of the Hanumante River Using Structured Expert Judgment: A Reconstruction of Historical Water Levels

Cited by 6 publications

References 20 publications

Using structured expert judgment to Estimate extreme river discharges: a case study of the Meuse River

Using structured expert judgment to Estimate extreme river discharges: a case study of the Meuse River

Clustering Provinces with Drought Risk Based on Daily Maximum Temperature

First record of ashy minivet Pericrocotus divaricatus in Kathmandu Valley, Nepal

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