Jussara Socorro CURY MACIEL, Luna Gripp Simões Alves, Bernardo Oliveira, Renato Cruz Senna, Vinicius dos Santos Albuquerque
{"title":"WHAT HAPPENED IN 2021? ANALYZING THE BIGGEST NEGRO RIVER FLOOD IN MANAUS, BRAZIL","authors":"Jussara Socorro CURY MACIEL, Luna Gripp Simões Alves, Bernardo Oliveira, Renato Cruz Senna, Vinicius dos Santos Albuquerque","doi":"10.2495/friar220011","DOIUrl":null,"url":null,"abstract":"Flood and ebb processes are common events in any hydrological system. In some cases, due to natural or anthropogenic conditions, such events can take place in an extreme manner, causing a lot of damage to the population. In 2021, in several municipalities in the Amazon basin, rivers reached levels higher than the maximum observed until then, making this year the biggest flood in the entire history of monitoring. Most Amazonian rivers have a high annual pulse of floods, as a result of the precipitation period in the upper part of their large basins. Most of the floodplains located in the central region of Amazonia become inundated from May to July, from which the water drains into the river systems slowly over the drought time. In the Amazon Basin, extreme events are mainly related to El Niño or La Niña events, resulting in some big floods and a long rainfall period. In 2021, the Negro river level exceeded the maximum level observed in the entire 119-year historical series of monitoring. On 30 May 2021, the previous record of 29.97 m observed in 2012 was equaled. The river continued to rise until reaching the level of 30.02 m on 16 June 2021. Other stations monitored by Geological Survey of Brazil, which were accomplished through bulletins, reached historical records in the same year, such as São Gabriel da Cachoeira, Barcelos and Manaus (Negro river), Manacapuru (Solimões river), Careiro da Várzea (Amazon river basin), Itacoatiara and Parintins (Amazon river), all located in the state of Amazonas. This study analyzes the conditions that favored the event of the greatest flood recorded in the Rio Negro in 2021. Some factors contribute to the flooding event, such as the rainfall regime distributed throughout the basin and how the main river and its various tributaries behave during the flooding period.","PeriodicalId":23773,"journal":{"name":"WIT Transactions on the Built Environment","volume":"1 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2022-09-14","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"WIT Transactions on the Built Environment","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.2495/friar220011","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
Flood and ebb processes are common events in any hydrological system. In some cases, due to natural or anthropogenic conditions, such events can take place in an extreme manner, causing a lot of damage to the population. In 2021, in several municipalities in the Amazon basin, rivers reached levels higher than the maximum observed until then, making this year the biggest flood in the entire history of monitoring. Most Amazonian rivers have a high annual pulse of floods, as a result of the precipitation period in the upper part of their large basins. Most of the floodplains located in the central region of Amazonia become inundated from May to July, from which the water drains into the river systems slowly over the drought time. In the Amazon Basin, extreme events are mainly related to El Niño or La Niña events, resulting in some big floods and a long rainfall period. In 2021, the Negro river level exceeded the maximum level observed in the entire 119-year historical series of monitoring. On 30 May 2021, the previous record of 29.97 m observed in 2012 was equaled. The river continued to rise until reaching the level of 30.02 m on 16 June 2021. Other stations monitored by Geological Survey of Brazil, which were accomplished through bulletins, reached historical records in the same year, such as São Gabriel da Cachoeira, Barcelos and Manaus (Negro river), Manacapuru (Solimões river), Careiro da Várzea (Amazon river basin), Itacoatiara and Parintins (Amazon river), all located in the state of Amazonas. This study analyzes the conditions that favored the event of the greatest flood recorded in the Rio Negro in 2021. Some factors contribute to the flooding event, such as the rainfall regime distributed throughout the basin and how the main river and its various tributaries behave during the flooding period.
涨潮和退潮过程在任何水文系统中都是常见的事件。在某些情况下,由于自然或人为条件,这些事件可能以极端的方式发生,对人口造成很大的损害。2021年,在亚马逊流域的几个城市,河流水位超过了此前观测到的最高水位,使今年成为整个监测历史上最大的洪水。由于大流域上部的降水期,大多数亚马逊河每年都有很高的洪水脉冲。位于亚马逊中部地区的大部分洪泛区从5月到7月被淹没,在干旱期间,水从这里慢慢流入河流系统。在亚马逊流域,极端事件主要与El Niño或La Niña事件有关,造成了一些大洪水和较长的降雨周期。2021年,内格罗河的水位超过了整个119年历史监测系列中观测到的最高水位。2021年5月30日,与2012年观测到的29.97米的记录持平。河水继续上涨,直到2021年6月16日达到30.02米的水位。巴西地质调查局通过公告完成的其他监测站,如位于亚马逊州的s o Gabriel da Cachoeira、Barcelos和Manaus(内格罗河)、Manacapuru (Solimões河)、Careiro da Várzea(亚马逊河流域)、Itacoatiara和Parintins(亚马逊河),都在同一年达到了历史记录。本研究分析了促成2021年里奥内格罗发生有史以来最大洪水的条件。洪水发生的原因包括整个流域的降雨状况以及主河及其各支流在洪水期间的表现。