Reference list is under construction.
by Catalina González, Lydie M. Dupont
Abstract:
Centennialâmillennial dynamics of tropical salt marsh vegetation are documented in the pollen record from marine core MD03-2622, Cariaco Basin, Venezuela, which spans the glacial period between 63 and 29Â ka. Five rapid and abrupt expansions of salt marsh vegetation are linked with North Atlantic Heinrich events (HEs). Within each event, a recurrent pattern â starting with species of Chenopodiaceae, followed by grasses, and subsequently by Cyperaceae species â suggests a successional process that is determined by the close relationship between sea-level and community dynamics. The salt tolerant Chenopodiaceae, at the base of each sequence, indicate hypersaline intertidal environments, which were most likely promoted by extremely dry atmospheric conditions. Rapid sea-level rise characterizes the onset of HE stadials, causing erosion of marsh sediments, and continued recruitment of pioneer species (Chenopodiaceae), which are the only ones capable of tolerating the rapid rate of disturbance. Once, as sea-level drops or as rise decelerates, marsh plants are able to trap and stabilize sediments, favouring the establishment of more competitive species (graminoids). The increment of marsh height as a result of autochthonous sediment accumulation reduces the extent of hypersaline environments, and allows the establishment of mesohaline species. These results add to the scarce knowledge on tropical salt marsh ecosystems, and provide independent paleoclimatic evidence on sea-level changes occurring simultaneously with Antarctica climate variations.
Reference:
Tropical salt marsh succession as sea-level indicator during Heinrich events (Catalina González, Lydie M. Dupont), In Quaternary Science Reviews, volume 28, 2009.
Bibtex Entry:
@article{citeulike:6537107,
abstract = {{Centennialâmillennial dynamics of tropical salt marsh vegetation are documented in the pollen record from marine core MD03-2622, Cariaco Basin, Venezuela, which spans the glacial period between 63 and 29Â ka. Five rapid and abrupt expansions of salt marsh vegetation are linked with North Atlantic Heinrich events (HEs). Within each event, a recurrent pattern â starting with species of Chenopodiaceae, followed by grasses, and subsequently by Cyperaceae species â suggests a successional process that is determined by the close relationship between sea-level and community dynamics. The salt tolerant Chenopodiaceae, at the base of each sequence, indicate hypersaline intertidal environments, which were most likely promoted by extremely dry atmospheric conditions. Rapid sea-level rise characterizes the onset of HE stadials, causing erosion of marsh sediments, and continued recruitment of pioneer species (Chenopodiaceae), which are the only ones capable of tolerating the rapid rate of disturbance. Once, as sea-level drops or as rise decelerates, marsh plants are able to trap and stabilize sediments, favouring the establishment of more competitive species (graminoids). The increment of marsh height as a result of autochthonous sediment accumulation reduces the extent of hypersaline environments, and allows the establishment of mesohaline species. These results add to the scarce knowledge on tropical salt marsh ecosystems, and provide independent paleoclimatic evidence on sea-level changes occurring simultaneously with Antarctica climate variations.}},
author = {Gonz\'{a}lez, Catalina and Dupont, Lydie M.},
citeulike-article-id = {6537107},
citeulike-linkout-0 = {http://dx.doi.org/10.1016/j.quascirev.2008.12.023},
doi = {10.1016/j.quascirev.2008.12.023},
issn = {02773791},
journal = {Quaternary Science Reviews},
keywords = {climate, do-event, ecosystem, heinrich, paleoclimate, proxy, sea-level-rise},
month = may,
number = {9-10},
pages = {939--946},
posted-at = {2010-01-13 18:58:13},
priority = {2},
title = {{Tropical salt marsh succession as sea-level indicator during Heinrich events}},
url = {http://dx.doi.org/10.1016/j.quascirev.2008.12.023},
volume = {28},
year = {2009}
}
Powered by bibtexbrowser