Early Miocene amber inclusions from Mexico reveal antiquity of mangrove-associated copepods
Copepods are aquatic microcrustaceans and represent the most abundant metazoans on Earth, outnumbering insects and nematode worms. Their position of numerical world predominance can be attributed to three principal radiation events, i.e. their major habitat shift into the marine plankton, the colonization of freshwater and semiterrestrial environments, and the evolution of parasitism. Their variety of life strategies has generated an incredible morphological plasticity and disparity in body form and shape that are arguably unrivalled among the Crustacea. Although their chitinous exoskeleton is largely resistant to chemical degradation copepods are exceedingly scarce in the geological record with limited body fossil evidence being available for only three of the eight currently recognized orders. The preservation of aquatic arthropods in amber is unusual but offers a unique insight into ancient subtropical and tropical ecosystems. Here we report the first discovery of amber-preserved harpacticoid copepods, represented by ten putative species belonging to five families, based on Early Miocene (22.8 million years ago) samples from Chiapas, southeast Mexico. Their close resemblance to Recent mangrove-associated copepods highlights the antiquity of the specialized harpacticoid fauna living in this habitat. With the taxa reported herein, the Mexican amber holds the greatest diversity of fossil copepods worldwide.
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| Language: | eng |
| Subjects: | Harpacticoides, Copépodos, Manglares, Fósiles, Paleoecología, Artfrosur, |
| Online Access: | http://www.nature.com/articles/srep34872 |
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KOHA-OAI-ECOSUR:276322024-03-12T12:39:40ZEarly Miocene amber inclusions from Mexico reveal antiquity of mangrove-associated copepods Huys, Rony Suárez Morales, Eduardo Doctor autor/a 2036 Serrano Sánchez, María de Lourdes autor/a Centeno García, Elena autor/a Vega Vera, Francisco Javier autor/a 12674 textengCopepods are aquatic microcrustaceans and represent the most abundant metazoans on Earth, outnumbering insects and nematode worms. Their position of numerical world predominance can be attributed to three principal radiation events, i.e. their major habitat shift into the marine plankton, the colonization of freshwater and semiterrestrial environments, and the evolution of parasitism. Their variety of life strategies has generated an incredible morphological plasticity and disparity in body form and shape that are arguably unrivalled among the Crustacea. Although their chitinous exoskeleton is largely resistant to chemical degradation copepods are exceedingly scarce in the geological record with limited body fossil evidence being available for only three of the eight currently recognized orders. The preservation of aquatic arthropods in amber is unusual but offers a unique insight into ancient subtropical and tropical ecosystems. Here we report the first discovery of amber-preserved harpacticoid copepods, represented by ten putative species belonging to five families, based on Early Miocene (22.8 million years ago) samples from Chiapas, southeast Mexico. Their close resemblance to Recent mangrove-associated copepods highlights the antiquity of the specialized harpacticoid fauna living in this habitat. With the taxa reported herein, the Mexican amber holds the greatest diversity of fossil copepods worldwide.Copepods are aquatic microcrustaceans and represent the most abundant metazoans on Earth, outnumbering insects and nematode worms. Their position of numerical world predominance can be attributed to three principal radiation events, i.e. their major habitat shift into the marine plankton, the colonization of freshwater and semiterrestrial environments, and the evolution of parasitism. Their variety of life strategies has generated an incredible morphological plasticity and disparity in body form and shape that are arguably unrivalled among the Crustacea. Although their chitinous exoskeleton is largely resistant to chemical degradation copepods are exceedingly scarce in the geological record with limited body fossil evidence being available for only three of the eight currently recognized orders. The preservation of aquatic arthropods in amber is unusual but offers a unique insight into ancient subtropical and tropical ecosystems. Here we report the first discovery of amber-preserved harpacticoid copepods, represented by ten putative species belonging to five families, based on Early Miocene (22.8 million years ago) samples from Chiapas, southeast Mexico. Their close resemblance to Recent mangrove-associated copepods highlights the antiquity of the specialized harpacticoid fauna living in this habitat. With the taxa reported herein, the Mexican amber holds the greatest diversity of fossil copepods worldwide.Adobe Acrobat profesional 6.0 o superiorHarpacticoidesCopépodosManglaresFósilesPaleoecologíaArtfrosurDisponible en líneaScientific Reportshttp://www.nature.com/articles/srep34872Acceso en línea sin restricciones |
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Harpacticoides Copépodos Manglares Fósiles Paleoecología Artfrosur Harpacticoides Copépodos Manglares Fósiles Paleoecología Artfrosur |
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Harpacticoides Copépodos Manglares Fósiles Paleoecología Artfrosur Harpacticoides Copépodos Manglares Fósiles Paleoecología Artfrosur Huys, Rony Suárez Morales, Eduardo Doctor autor/a 2036 Serrano Sánchez, María de Lourdes autor/a Centeno García, Elena autor/a Vega Vera, Francisco Javier autor/a 12674 Early Miocene amber inclusions from Mexico reveal antiquity of mangrove-associated copepods |
| description |
Copepods are aquatic microcrustaceans and represent the most abundant metazoans on Earth, outnumbering insects and nematode worms. Their position of numerical world predominance can be attributed to three principal radiation events, i.e. their major habitat shift into the marine plankton, the colonization of freshwater and semiterrestrial environments, and the evolution of parasitism. Their variety of life strategies has generated an incredible morphological plasticity and disparity in body form and shape that are arguably unrivalled among the Crustacea. Although their chitinous exoskeleton is largely resistant to chemical degradation copepods are exceedingly scarce in the geological record with limited body fossil evidence being available for only three of the eight currently recognized orders. The preservation of aquatic arthropods in amber is unusual but offers a unique insight into ancient subtropical and tropical ecosystems. Here we report the first discovery of amber-preserved harpacticoid copepods, represented by ten putative species belonging to five families, based on Early Miocene (22.8 million years ago) samples from Chiapas, southeast Mexico. Their close resemblance to Recent mangrove-associated copepods highlights the antiquity of the specialized harpacticoid fauna living in this habitat. With the taxa reported herein, the Mexican amber holds the greatest diversity of fossil copepods worldwide. |
| format |
Texto |
| topic_facet |
Harpacticoides Copépodos Manglares Fósiles Paleoecología Artfrosur |
| author |
Huys, Rony Suárez Morales, Eduardo Doctor autor/a 2036 Serrano Sánchez, María de Lourdes autor/a Centeno García, Elena autor/a Vega Vera, Francisco Javier autor/a 12674 |
| author_facet |
Huys, Rony Suárez Morales, Eduardo Doctor autor/a 2036 Serrano Sánchez, María de Lourdes autor/a Centeno García, Elena autor/a Vega Vera, Francisco Javier autor/a 12674 |
| author_sort |
Huys, Rony |
| title |
Early Miocene amber inclusions from Mexico reveal antiquity of mangrove-associated copepods |
| title_short |
Early Miocene amber inclusions from Mexico reveal antiquity of mangrove-associated copepods |
| title_full |
Early Miocene amber inclusions from Mexico reveal antiquity of mangrove-associated copepods |
| title_fullStr |
Early Miocene amber inclusions from Mexico reveal antiquity of mangrove-associated copepods |
| title_full_unstemmed |
Early Miocene amber inclusions from Mexico reveal antiquity of mangrove-associated copepods |
| title_sort |
early miocene amber inclusions from mexico reveal antiquity of mangrove-associated copepods |
| url |
http://www.nature.com/articles/srep34872 |
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