The Usumacinta–Grijalva beach-ridge plain in southern Mexico: a high-resolution archive of river discharge and precipitation
The beach-ridge sequence of the Usumacinta–Grijalva delta borders a 300 km long section of the southern Gulf of Mexico coast. With around 500 beach ridges formed in the last 6500 years, the sequence is unsurpassed in the world in terms of numbers of individual ridges preserved, continu...
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| Format: | Article |
| Language: | English |
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Copernicus Publications
2017-09-01
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| Series: | Earth Surface Dynamics |
| Online Access: | https://www.earth-surf-dynam.net/5/529/2017/esurf-5-529-2017.pdf |
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doaj-a6fa4220f0074d3898802a26178f6ebe |
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| record_format |
Article |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
K. Nooren W. Z. Hoek T. Winkels A. Huizinga H. Van der Plicht H. Van der Plicht R. L. Van Dam R. L. Van Dam R. L. Van Dam S. Van Heteren M. J. Van Bergen M. A. Prins T. Reimann J. Wallinga K. M. Cohen K. M. Cohen K. M. Cohen P. Minderhoud H. Middelkoop |
| spellingShingle |
K. Nooren W. Z. Hoek T. Winkels A. Huizinga H. Van der Plicht H. Van der Plicht R. L. Van Dam R. L. Van Dam R. L. Van Dam S. Van Heteren M. J. Van Bergen M. A. Prins T. Reimann J. Wallinga K. M. Cohen K. M. Cohen K. M. Cohen P. Minderhoud H. Middelkoop The Usumacinta–Grijalva beach-ridge plain in southern Mexico: a high-resolution archive of river discharge and precipitation Earth Surface Dynamics |
| author_facet |
K. Nooren W. Z. Hoek T. Winkels A. Huizinga H. Van der Plicht H. Van der Plicht R. L. Van Dam R. L. Van Dam R. L. Van Dam S. Van Heteren M. J. Van Bergen M. A. Prins T. Reimann J. Wallinga K. M. Cohen K. M. Cohen K. M. Cohen P. Minderhoud H. Middelkoop |
| author_sort |
K. Nooren |
| title |
The Usumacinta–Grijalva beach-ridge plain in southern Mexico: a high-resolution archive of river discharge and precipitation |
| title_short |
The Usumacinta–Grijalva beach-ridge plain in southern Mexico: a high-resolution archive of river discharge and precipitation |
| title_full |
The Usumacinta–Grijalva beach-ridge plain in southern Mexico: a high-resolution archive of river discharge and precipitation |
| title_fullStr |
The Usumacinta–Grijalva beach-ridge plain in southern Mexico: a high-resolution archive of river discharge and precipitation |
| title_full_unstemmed |
The Usumacinta–Grijalva beach-ridge plain in southern Mexico: a high-resolution archive of river discharge and precipitation |
| title_sort |
usumacinta–grijalva beach-ridge plain in southern mexico: a high-resolution archive of river discharge and precipitation |
| publisher |
Copernicus Publications |
| series |
Earth Surface Dynamics |
| issn |
2196-6311 2196-632X |
| publishDate |
2017-09-01 |
| description |
The beach-ridge sequence of the Usumacinta–Grijalva delta borders
a 300 km long section of the southern Gulf of Mexico coast. With around
500 beach ridges formed in the last 6500 years, the sequence is
unsurpassed in the world in terms of numbers of individual ridges
preserved, continuity of the record, and temporal resolution. We
mapped and dated the most extensively accreted part of the sequence,
linking six phases of accretion to river mouth reconfigurations and
constraining their ages with <sup>14</sup>C and OSL dating. The
geomorphological and sedimentological reconstruction relied on lidar
data, coring transects, GPR measurements, grain-size analyses, and
chemical fingerprinting of volcanic glass and pumice encountered
within the beach and dune deposits.
<br><br>
We demonstrate that the beach-ridge complex was formed under ample
long-term fluvial sediment supply and shorter-term wave- and aeolian-modulated sediment reworking. The abundance of fluvially supplied sand
is explained by the presence of easily weatherable Los Chocoyos
ignimbrites from the ca. 84 ka eruption of the Atitlán volcano
(Guatemala) in the catchment of the Usumacinta River. Autocyclic
processes seem responsible for the formation of ridge–swale
couplets. Fluctuations in their periodicity (ranging from
6–19 years) are governed by progradation rate, and are
therefore not indicative of sea level fluctuations or variability in
storm activity. The fine sandy beach ridges are mainly swash
built. Ridge elevation, however, is strongly influenced by aeolian
accretion during the time the ridge is located next to the
beach. Beach-ridge elevation is negatively correlated with
progradation rate, which we relate to the variability in sediment
supply to the coastal zone, reflecting decadal-scale precipitation
changes within the river catchment. In the southern Mexican delta
plain, the coastal beach ridges therefore appear to be excellent
recorders of hinterland precipitation. |
| url |
https://www.earth-surf-dynam.net/5/529/2017/esurf-5-529-2017.pdf |
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doaj-a6fa4220f0074d3898802a26178f6ebe2020-11-25T00:06:42ZengCopernicus PublicationsEarth Surface Dynamics2196-63112196-632X2017-09-01552955610.5194/esurf-5-529-2017The Usumacinta–Grijalva beach-ridge plain in southern Mexico: a high-resolution archive of river discharge and precipitationK. Nooren0W. Z. Hoek1T. Winkels2A. Huizinga3H. Van der Plicht4H. Van der Plicht5R. L. Van Dam6R. L. Van Dam7R. L. Van Dam8S. Van Heteren9M. J. Van Bergen10M. A. Prins11T. Reimann12J. Wallinga13K. M. Cohen14K. M. Cohen15K. M. Cohen16P. Minderhoud17H. Middelkoop18Utrecht University, Faculty of Geosciences, 3584 CS Utrecht, the NetherlandsUtrecht University, Faculty of Geosciences, 3584 CS Utrecht, the NetherlandsUtrecht University, Faculty of Geosciences, 3584 CS Utrecht, the NetherlandsUtrecht University, Faculty of Geosciences, 3584 CS Utrecht, the NetherlandsGroningen University, Centre for Isotope Research, 9747 AG Groningen, the NetherlandsLeiden University, Faculty of Archaeology, 2333 CC Leiden, the NetherlandsCentro Federal de Educação Tecnológica de Minas Gerais (CEFET-MG), Department of Civil Engineering, CEP 30510-000, Belo Horizonte, BrazilMichigan State University, Department of Earth and Environmental Sciences, East Lansing, MI 48824, USAQueensland University of Technology, Science and Engineering Faculty, Institute for Future Environments, Brisbane, QLD 4001, AustraliaTNO – Geological Survey of the Netherlands, Geomodelling Department, 3584 CB Utrecht, the NetherlandsUtrecht University, Faculty of Geosciences, 3584 CS Utrecht, the NetherlandsVrije Universiteit, Faculty of Earth and Life Sciences, 1081 HV Amsterdam, the NetherlandsWageningen University, Soil Geography and Landscape Group & Netherlands Centre for Luminescence Dating, 6708 PB Wageningen, the NetherlandsWageningen University, Soil Geography and Landscape Group & Netherlands Centre for Luminescence Dating, 6708 PB Wageningen, the NetherlandsUtrecht University, Faculty of Geosciences, 3584 CS Utrecht, the NetherlandsTNO – Geological Survey of the Netherlands, Geomodelling Department, 3584 CB Utrecht, the NetherlandsDeltares, Department of Applied Geology and Geophysics, 3584 BK Utrecht, the NetherlandsUtrecht University, Faculty of Geosciences, 3584 CS Utrecht, the NetherlandsUtrecht University, Faculty of Geosciences, 3584 CS Utrecht, the NetherlandsThe beach-ridge sequence of the Usumacinta–Grijalva delta borders a 300 km long section of the southern Gulf of Mexico coast. With around 500 beach ridges formed in the last 6500 years, the sequence is unsurpassed in the world in terms of numbers of individual ridges preserved, continuity of the record, and temporal resolution. We mapped and dated the most extensively accreted part of the sequence, linking six phases of accretion to river mouth reconfigurations and constraining their ages with <sup>14</sup>C and OSL dating. The geomorphological and sedimentological reconstruction relied on lidar data, coring transects, GPR measurements, grain-size analyses, and chemical fingerprinting of volcanic glass and pumice encountered within the beach and dune deposits. <br><br> We demonstrate that the beach-ridge complex was formed under ample long-term fluvial sediment supply and shorter-term wave- and aeolian-modulated sediment reworking. The abundance of fluvially supplied sand is explained by the presence of easily weatherable Los Chocoyos ignimbrites from the ca. 84 ka eruption of the Atitlán volcano (Guatemala) in the catchment of the Usumacinta River. Autocyclic processes seem responsible for the formation of ridge–swale couplets. Fluctuations in their periodicity (ranging from 6–19 years) are governed by progradation rate, and are therefore not indicative of sea level fluctuations or variability in storm activity. The fine sandy beach ridges are mainly swash built. Ridge elevation, however, is strongly influenced by aeolian accretion during the time the ridge is located next to the beach. Beach-ridge elevation is negatively correlated with progradation rate, which we relate to the variability in sediment supply to the coastal zone, reflecting decadal-scale precipitation changes within the river catchment. In the southern Mexican delta plain, the coastal beach ridges therefore appear to be excellent recorders of hinterland precipitation.https://www.earth-surf-dynam.net/5/529/2017/esurf-5-529-2017.pdf |