Branco River Explained

Branco River
Map:Negroamazonrivermap.png
Map Size:300
Pushpin Map Size:300
Subdivision Type1:Country
Length:560km (350miles)[1] to [2]
Discharge1 Min:[3]
Discharge1 Avg:(Period:1967-2010)5400m3/s[4] (Period: 1980-2006)[5] (Period: 1998-2022)
Discharge2 Location:Caracaraí (400 km upstream of mouth; Basin size:
Discharge2 Min: (1998/03/24)
Discharge2 Avg:(Period: 1997/01/01-2015/12/31)[6]

(Period: 1998-2022)

Discharge2 Max: (1976/07/10)
Discharge3 Location:Boa Vista (Basin size:
Discharge3 Avg:(Period: 1967-2010)

(Period: 1998-2022)

Source1 Location:confluence of Takutu and Uraricoera, Roraima, Brazil
Source1 Coordinates:3.0246°N -60.4875°W
Source2 Location:Uraricoera, Parima Mountains
Source2 Coordinates:3.6951°N -64.21°W
Source3 Location:Takutu, Guiana Shield
Source3 Coordinates:1.7968°N -60.0273°W
Mouth Location:Rio Negro, Roraima, Brazil
Mouth Coordinates:-1.3939°N -61.8461°W
Basin Size:192392.66km2

The Branco River (Portuguese: Rio Branco; Engl: White River) is the principal affluent of the Rio Negro from the north.

Basin

The river drains the Guayanan Highlands moist forests ecoregion.It is enriched by many streams from the Tepui highlands which separate Venezuela and Guyana from Brazil. Its two upper main tributaries are the Uraricoera and the Takutu.[7] The latter almost links its sources with those of the Essequibo; during floods headwaters of the Branco and those of the Essequibo are connected, allowing a level of exchange in the aquatic fauna (such as fish) between the two systems.[8]

The Branco flows nearly south, and finds its way into the Negro through several channels and a chain of lagoons similar to those of the latter river. It is 350miles long, up to its Uraricoera confluence. It has numerous islands, and, 235miles above its mouth, it is broken by a bad series of rapids.

Discharge

Average, minimum and maximum discharge of the Branco River at near mouth. Period from 1998 to 2022.[3]

YearDischarge (m3/s)YearDischarge (m3/s)
MinMean ! Max MinMeanMax
19985,66416,43520114545,00816,815
19991,7929,53822,57620122,1358,38117,944
20002,5069,72528,69720131,3776,49313,229
20017886,55117,79120141,1176,38415,489
20021,2715,21918,76020157723,98310,416
20036404,37513,32020164354,31611,677
20047564,24411,95920172,2587,43716,449
20057297,86819,89320187776,65317,912
20062,4579,89922,64420196255,20515,859
20078457,27115,11820201,5677,21616,564
20082,7397,63017,28020211,7128,82823,180
20094864,31810,73520221,8109,08723,631
20102782,7548,0402786,46928,697

Water chemistry

As suggested by its name, the Branco (literally "white" in Portuguese) has whitish water that may appear almost milky due to the inorganic sediments it carries.[9] It is traditionally considered a whitewater river,[10] [11] although the major seasonal fluctuations in its physico-chemical characteristics makes a classification difficult and some consider it clearwater.[12] [13] Especially the river's upper parts at the headwaters are clear and flow through rocky country, leading to the suggestion that sediments mainly originate from the lower parts.[9] Furthermore, its chemistry and color may contradict each other compared to the traditional Amazonian river classifications.[12] The Branco River has pH 6–7 and low levels of dissolved organic carbon.[13]

Alfred Russel Wallace mentioned the coloration in "On the Rio Negro", a paper read at the 13 June 1853 meeting of the Royal Geographical Society, in which he said: "[The Rio Branco] is white to a remarkable degree, its waters being actually milky in appearance". Alexander von Humboldt attributed the color to the presence of silicates in the water, principally mica and talc.[14] There is a visible contrast with the waters of the Rio Negro at the confluence of the two rivers. The Rio Negro is a blackwater river with dark tea-colored acidic water (pH 3.5–4.5) that contains high levels of dissolved organic carbon.[13]

River capture

Until approximately 20,000 years ago the headwaters of the Branco River flowed not into the Amazon, but via the Takutu Graben in the Rupununi area of Guyana towards the Caribbean.[15] Currently in the rainy season much of the Rupununi area floods, with water draining both to the Amazon (via the Branco River) and the Essequibo River.[8]

Citations

References

Notes and References

  1. Book: Ziesler . R. . Ardizzone . G.D. . The Inland waters of Latin America . 1979 . . 92-5-000780-9 . Amazon River System . https://web.archive.org/web/20141108152358/http://www.fao.org/docrep/008/ad770b/AD770B05.htm . 8 November 2014 . live.
  2. Web site: Branco-River. 2023-03-10. 2023-02-17. https://web.archive.org/web/20230217111844/https://www.britannica.com/place/Branco-River. live.
  3. Web site: River Discharge and Reservoir Storage Changes Using Satellite Microwave Radiometry. 2023-03-10. 2023-03-10. https://web.archive.org/web/20230310150311/https://floodobservatory.colorado.edu/SiteDisplays/142data.htm. live.
  4. Web site: Amazon basin water resources observation service. 2023-03-10. 2023-09-08. https://web.archive.org/web/20230908072837/https://hybam.obs-mip.fr/. live.
  5. Web site: Hydrological Control on the Temporal Variability of Trace Element Concentration in the Amazon River and its Main Tributaries. Seyler. Patrick. Laurence Maurice-Bourgoin. Jean Loup Guyot. Geological Survey of Brazil (CPRM). 24 July 2010. 21 July 2011. https://web.archive.org/web/20110721224824/http://www.cprm.gov.br/pgagem/Manuscripts/seylerp.htm. live.
  6. Web site: Assessing the performance of global hydrological models for capturing peak river flows in the Amazon basin. Jamie. Towner. 2019. 2023-03-10. 2023-10-14. https://web.archive.org/web/20231014093200/https://hess.copernicus.org/articles/23/3057/2019/hess-23-3057-2019-supplement.pdf. live.
  7. Web site: Map of the Branco or Parimé River and of the Caratirimani Uararicapará Majari, Tacutú and Mahú Rivers. World Digital Library. 27 April 2013. 14 December 2013. https://web.archive.org/web/20131214135611/http://www.wdl.org/en/item/816/. live.
  8. Book: Quinn, J.A. . S.L. Woodward . 2015 . Earth's Landscape: An Encyclopedia of the World's Geographic Features . 1 . 142 . Bloomsbury Academic . 978-1-61069-445-2 .
  9. The Alfred Russel Wallace page: On the Rio Negro. Retrieved 10 October 2017.
  10. Venticinque . Forsberg . Barthem . Petry . Hess . Mercado . Cañas . Montoya . Durigan . Goulding . 3 . 2016 . An explicit GIS-based river basin framework for aquatic ecosystem conservation in the Amazon . Earth Syst. Sci. Data . 8 . 2 . 651–661 . 10.5194/essd-8-651-2016 . 2016ESSD....8..651V . free .
  11. Book: Val, A.L.. V.M.F. de Almeida-Val. D.J. Randall . 2013 . Fish Physiology: The Physiology of Tropical Fishes . 27 . 978-0-12350-445-6 .
  12. Web site: Ríos-Villamizar, E.A. . M.T.F. Piedade . J.G. da Costa . J.M. Adeney . J. Junk . 2013 . Chemistry of different Amazonian water types for river classification: A preliminary review . 2017-12-11 . 2021-02-14 . https://web.archive.org/web/20210214122732/https://www.researchgate.net/publication/271427552_Chemistry_of_different_Amazonian_water_types_for_river_classification_A_preliminary_review . live .
  13. de Souza kodra, A. . M.N. Fernandes . W.L. Paxiúba Duncan . 2014 . Effect of clearwater on osmoregulation of cururu ray, Potamotrygon sp. (Chondrichthes; Potamotrogonidae), an endemic species from blackwater river . Scientia Amazonia . 3 . 1 . 15–24 .
  14. Web site: Alexander von Humboldt, Personal Narrative of Travels to the Equinoctial Regions of America During the Years 1799-1804, (chapter 25). Henry G. Bohn, London, 1853.. 2015-05-13. 2016-03-03. https://web.archive.org/web/20160303230636/https://ebooks.adelaide.edu.au/h/humboldt/alexander/travels/chapter25.html. dead.
  15. Book: Cremon, É. H.. Evolução quaternária do Rio Branco - norte da Amazônia - com base em dados orbitais e geológicos.. 2016. Tese (Doutorado em Sensoriamento Remoto) - Instituto Nacional de Pesquisas Espaciais (INPE), São José dos Campos.