Precipitation in northern Amazonia: Spatial distribution in Roraima, Brazil

Precipitation in northern Amazonia: Spatial distribution in Roraima, Brazil

Abstract Rainfall is one of the most important variables for studies of biological processes. In the Amazon, studies of the spatial and temporal distribution of rainfall have been used as an analysis tool in regional planning aimed at the conservation of different ecosystems. This is exemplified by the construction of agricultural calendars and by controlled burning to prevent the fires that are used to clear fields and maintain pastures from escaping from control and turning into large forest fires in years of severe drought. Our study aimed to model the spatial distribution of rainfall in Brazil’s state of Roraima (1998-2018) at monthly and annual scales based on orbital data from two products available on the world-wide web (TRMM and WORLDCLIM). Ordinary kriging was adopted as a method for geostatistical modeling of precipitation considering the 59 meteorological stations located in the study area. Roraima has two well-defined climatic seasons in the year, but these seasons are inverted between the portions of the state in the northern and southern hemispheres. On average, 63.5% of the precipitation in the Af (without dry season) climate area falls between March and August, with a peak in May, while in both the Am (monsoon) and Aw (with dry winter) climates rainfall is concentrated between April and September (73% in Am and 82.3% in Aw), with the peak in June. Between 1998 and 2018 the average annual precipitation was 1925 ± 339.7 mm, regardless of the hemispheric location. Extreme climatic events have a dramatic effect on regional rainfall, where El Niño years (long droughts) are characterized as drier periods with higher risks of forest fires, while in La Niña years (wetter periods) there are higher probabilities of heavy rains associated with long periods of flooding.

Saved in:
Bibliographic Details
Main Authors: Barni,Paulo Eduardo, Barbosa,Reinaldo Imbrozio, Xaud,Haron Abrahim Magalhães, Xaud,Maristela Ramalho, Fearnside,Philip Martin
Format: Digital revista
Language:English
Published: Editora da Universidade Federal de Uberlândia - EDUFU 2020
Online Access:http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1982-45132020000100420
Tags: Add Tag
No Tags, Be the first to tag this record!
id oai:scielo:S1982-45132020000100420
record_format ojs
spelling oai:scielo:S1982-451320200001004202022-01-20Precipitation in northern Amazonia: Spatial distribution in Roraima, BrazilBarni,Paulo EduardoBarbosa,Reinaldo ImbrozioXaud,Haron Abrahim MagalhãesXaud,Maristela RamalhoFearnside,Philip Martin Climate Rainfall Ordinary Kriging Spatial modeling Abstract Rainfall is one of the most important variables for studies of biological processes. In the Amazon, studies of the spatial and temporal distribution of rainfall have been used as an analysis tool in regional planning aimed at the conservation of different ecosystems. This is exemplified by the construction of agricultural calendars and by controlled burning to prevent the fires that are used to clear fields and maintain pastures from escaping from control and turning into large forest fires in years of severe drought. Our study aimed to model the spatial distribution of rainfall in Brazil’s state of Roraima (1998-2018) at monthly and annual scales based on orbital data from two products available on the world-wide web (TRMM and WORLDCLIM). Ordinary kriging was adopted as a method for geostatistical modeling of precipitation considering the 59 meteorological stations located in the study area. Roraima has two well-defined climatic seasons in the year, but these seasons are inverted between the portions of the state in the northern and southern hemispheres. On average, 63.5% of the precipitation in the Af (without dry season) climate area falls between March and August, with a peak in May, while in both the Am (monsoon) and Aw (with dry winter) climates rainfall is concentrated between April and September (73% in Am and 82.3% in Aw), with the peak in June. Between 1998 and 2018 the average annual precipitation was 1925 ± 339.7 mm, regardless of the hemispheric location. Extreme climatic events have a dramatic effect on regional rainfall, where El Niño years (long droughts) are characterized as drier periods with higher risks of forest fires, while in La Niña years (wetter periods) there are higher probabilities of heavy rains associated with long periods of flooding.info:eu-repo/semantics/openAccessEditora da Universidade Federal de Uberlândia - EDUFUSociedade & Natureza v.32 20202020-01-01info:eu-repo/semantics/articletext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S1982-45132020000100420en10.14393/sn-v32-2020-52769
institution SCIELO
collection OJS
country Brasil
countrycode BR
component Revista
access En linea
databasecode rev-scielo-br
tag revista
region America del Sur
libraryname SciELO
language English
format Digital
author Barni,Paulo Eduardo
Barbosa,Reinaldo Imbrozio
Xaud,Haron Abrahim Magalhães
Xaud,Maristela Ramalho
Fearnside,Philip Martin
spellingShingle Barni,Paulo Eduardo
Barbosa,Reinaldo Imbrozio
Xaud,Haron Abrahim Magalhães
Xaud,Maristela Ramalho
Fearnside,Philip Martin
Precipitation in northern Amazonia: Spatial distribution in Roraima, Brazil
author_facet Barni,Paulo Eduardo
Barbosa,Reinaldo Imbrozio
Xaud,Haron Abrahim Magalhães
Xaud,Maristela Ramalho
Fearnside,Philip Martin
author_sort Barni,Paulo Eduardo
title Precipitation in northern Amazonia: Spatial distribution in Roraima, Brazil
title_short Precipitation in northern Amazonia: Spatial distribution in Roraima, Brazil
title_full Precipitation in northern Amazonia: Spatial distribution in Roraima, Brazil
title_fullStr Precipitation in northern Amazonia: Spatial distribution in Roraima, Brazil
title_full_unstemmed Precipitation in northern Amazonia: Spatial distribution in Roraima, Brazil
title_sort precipitation in northern amazonia: spatial distribution in roraima, brazil
description Abstract Rainfall is one of the most important variables for studies of biological processes. In the Amazon, studies of the spatial and temporal distribution of rainfall have been used as an analysis tool in regional planning aimed at the conservation of different ecosystems. This is exemplified by the construction of agricultural calendars and by controlled burning to prevent the fires that are used to clear fields and maintain pastures from escaping from control and turning into large forest fires in years of severe drought. Our study aimed to model the spatial distribution of rainfall in Brazil’s state of Roraima (1998-2018) at monthly and annual scales based on orbital data from two products available on the world-wide web (TRMM and WORLDCLIM). Ordinary kriging was adopted as a method for geostatistical modeling of precipitation considering the 59 meteorological stations located in the study area. Roraima has two well-defined climatic seasons in the year, but these seasons are inverted between the portions of the state in the northern and southern hemispheres. On average, 63.5% of the precipitation in the Af (without dry season) climate area falls between March and August, with a peak in May, while in both the Am (monsoon) and Aw (with dry winter) climates rainfall is concentrated between April and September (73% in Am and 82.3% in Aw), with the peak in June. Between 1998 and 2018 the average annual precipitation was 1925 ± 339.7 mm, regardless of the hemispheric location. Extreme climatic events have a dramatic effect on regional rainfall, where El Niño years (long droughts) are characterized as drier periods with higher risks of forest fires, while in La Niña years (wetter periods) there are higher probabilities of heavy rains associated with long periods of flooding.
publisher Editora da Universidade Federal de Uberlândia - EDUFU
publishDate 2020
url http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1982-45132020000100420
work_keys_str_mv AT barnipauloeduardo precipitationinnorthernamazoniaspatialdistributioninroraimabrazil
AT barbosareinaldoimbrozio precipitationinnorthernamazoniaspatialdistributioninroraimabrazil
AT xaudharonabrahimmagalhaes precipitationinnorthernamazoniaspatialdistributioninroraimabrazil
AT xaudmaristelaramalho precipitationinnorthernamazoniaspatialdistributioninroraimabrazil
AT fearnsidephilipmartin precipitationinnorthernamazoniaspatialdistributioninroraimabrazil
_version_ 1756435602471911424

Similar Items