Sub-Daily Rainfall Intensity Extremes: Evaluating Suitable Indices at Australian Arid and Wet Tropical Observing Sites

Dunkerley, David

doi:10.3390/w11122616

Cited by 11 publications

(3 citation statements)

References 76 publications

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“…Monthly precipitation indices are simple to implement since they use accumulated values of climatic variables during a month. Such indices do not account for extreme events within the 30 days, like the occurrence of a storm whose value can increase the precipitation from 5 mm to 15 mm [85,86]. Such events in arid and semi-arid areas can influence the infiltration of water and change the water resource management.…”

Section: Discussionmentioning

confidence: 99%

Drought Characterization and Trend Detection Using the Reconnaissance Drought Index for Setsoto Municipality of the Free State Province of South Africa and the Impact on Maize Yield

Abubakar

Newete

Scholes

2020

Water

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The reconnaissance drought index (RDI) for the Setsoto municipality of the Free State province in South Africa was calculated for the period between 1985 and 2019 at 3 month (October–December), 6 month (October–March), and 12 month (October–September) intervals. Rainfall and minimum and maximum temperature data from four weather stations (Clocolan, Ficksburg, Marquard, and Senekal) were used for this study to characterize drought using “DrinC” software together with the Mann Kendall test with Sen’s slope to detect drought trends and the rate of change. Extreme, severe, and moderate droughts were recorded for all the stations, with RDIs ranging from −3.6 to −1.0 at different temporal scales. The years 1991, 1994, 2006, 2011, and 2015 were highlighted using the RDI 3, 6, and 12 month calculations. Results showed that the yield decreased either in the year of the drought or in the subsequent year, due to the exact timing of the low-rainfall events in the season and soil moisture storage. Yields were low, on average 2.5 tons ha−1 year−1, with high variability. Optimal growing conditions are essential in the early part of the season, October–December, for maximizing yield; if droughts are experienced at this time then the yield is more greatly impacted than if the droughts occur later in the season. Spatial analysis shows a large variability of drought patterns across the Municipality, over the years, with the 3 month RDI values giving a more detailed picture of this variability than the 6 and 12 month RDI values.

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Section: Discussionmentioning

confidence: 99%

Drought Characterization and Trend Detection Using the Reconnaissance Drought Index for Setsoto Municipality of the Free State Province of South Africa and the Impact on Maize Yield

Abubakar

Newete

Scholes

2020

Water

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“…Sub-hourly heavy precipitation (SHHP) events have been identified using percentilebased definitions [49]. The 99th percentiles of the 10-min total precipitation for all WS, taking only those subsamples with precipitation records (non-zero values) and that have a median of 2.4 mm and a maximum of 3.9 mm.…”

Section: Sub-hourly Heavy Precipitation Eventsmentioning

confidence: 99%

Sub-Hourly Precipitation Extremes in Mainland Portugal and Their Driving Mechanisms

Santos

Belo-Pereira

2022

Climate

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Sub-hourly heavy precipitation events (SHHPs) frequently underlie major meteorological hazards, but their comprehensive analysis is still lacking in Portugal. A 71-weather-station dataset for 2000–2020 is used in this article to (1) diagnose SHHPs corresponding to a 10-min precipitation event of at least 5.0 mm, (2) characterize their spatial-temporal distribution, and (3) identify their associated synoptic-scale conditions. Two synoptic types are associated with SHHPs: remote (RemL) and regional (RegL) low-pressure systems. RegL SHHPs display two marked maxima in spring and autumn, while RemL SHHPs show a single maximum in autumn. Most RegL events occur in the afternoon/evening, while RemL events show a slight bias toward midday occurrences. In the case of RemL, the wind is stronger for 2 to 3 h before and during SHHPs, veers from 180° to 210° near the event, the pressure decreases until 20 min before the event, and the wet-bulb temperature decreases around the time of the event and remains low, thus reflecting cold-front passages. For RegL, maximum winds coincide with precipitation peaks, and the wet-bulb temperature briefly decreases in association with downdrafts. A preliminary relationship between the SHHPs and mesoscale convective systems is established by detecting sudden surface-pressure surges, which are indicative of mesohighs caused by evaporatively cooled downdrafts. A calendar of mesohigh episodes linked to SHHPs is provided herein and their signatures are illustrated for the “Pedrógão-Grande” fires. Indicators of several downbursts, cold pools, and mesohighs were identified by the AROME forecast. This first, systematized analysis paves the way to identifying dynamic precursors, enabling their integration into early warning systems and climate projections.

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“…The study of precipitation and its characteristics at a sub‐daily scale is crucial for understanding water cycle dynamics (Mandal et al, 2013; Messakh et al, 2015). At these short timescales, precipitation events (rainfall or storms) can influence several environmental variables (e.g., soil and air moisture, temperature) and be linked to a range of processes (e.g., evapotranspiration, aquifer recharge, landslides, flooding, river erosion‐transport‐sedimentation, canopy interception), as well as various socioeconomic activities (e.g., crop growth, livestock farming, and power generation) (Dunkerley, 2008a; Dunkerley, 2019; Rozante et al, 2018; Souza et al, 2012). Therefore, in the context of the climate changes potentially leading to strong spatiotemporal changes in precipitation events (Hajani, 2020; Tamm et al, 2023), the assessment and understanding of the spatiotemporal variability and trends of precipitation indicators are crucial for socio‐environmental (e.g., water resource management), ecological (e.g., ecosystem health), agronomic (e.g., agrosystem productivity), and risk assessment (e.g., vulnerability to flooding, drought, and landslide hazards) studies.…”

Section: Introductionmentioning

confidence: 99%

Spatiotemporal distribution of precipitation and its characteristics under tropical atmospheric systems of Brazil: Insights from a large sub‐hourly database

Lemos,

Coelho,

Freitas

et al. 2023

Hydrological Processes

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The study of rainfall properties at various spatiotemporal scales is deeply important for understanding a large range of socio‐environmental processes and variables (e.g., water resources, agriculture, socio‐ecosystemic services, natural risk assessment). However, such studies on rainfall characteristics, especially at sub‐hourly resolutions, are scarce in large areas of South America due to the lack of a high‐resolution temporal database. The Brazilian National Centre for Monitoring and Early Warning of Natural Disasters (CEMADEN) has gradually implemented, starting in 2013, a sub‐hourly monitoring network composed of approximately 3500 automated rain gauges distributed across Brazil, enabling access to new hydrological studies in this vast tropical country featuring a range of biomes. This study analysed the characteristics of rainfall events for the whole of Brazil on sub‐daily and sub‐hourly timescales, using 7 years of data (from 2014 to 2021) provided by CEMADEN. Rainfall events were defined by the minimum inter‐event time (MIT) and the minimum depth (1 mm). Seven MITs (30, 60, 120, 180, 360, 720, and 1440 min) were considered to evaluate the behaviour of rainfall event characteristics and their relationships. The Gaussian mixture model method was applied to identify regions with similar rainfall patterns according to the MIT. Six groups with homogeneous characteristics were identified, evidencing the climatic diversity of Brazil. The results show that the MIT strongly influences precipitation properties (especially the dry time and the number of events). The highest number of events occurred in the North‐east Coast region, which exceeded 200 events per year (MIT < 60 min), while the lowest number of events was observed in the Semiarid region, which reached only 38 events per year with an MIT of 1440 min. Moreover, the events with the highest rainfall intensities were found in the Central region. The results found in this study provide a better understanding of precipitation and its characteristics in Brazil, highlighting the climatological diversity of this country.

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Sub-Daily Rainfall Intensity Extremes: Evaluating Suitable Indices at Australian Arid and Wet Tropical Observing Sites

Cited by 11 publications

References 76 publications

Drought Characterization and Trend Detection Using the Reconnaissance Drought Index for Setsoto Municipality of the Free State Province of South Africa and the Impact on Maize Yield

Drought Characterization and Trend Detection Using the Reconnaissance Drought Index for Setsoto Municipality of the Free State Province of South Africa and the Impact on Maize Yield

Sub-Hourly Precipitation Extremes in Mainland Portugal and Their Driving Mechanisms

Spatiotemporal distribution of precipitation and its characteristics under tropical atmospheric systems of Brazil: Insights from a large sub‐hourly database

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