Your search keyword '"Groos-Uffenorde, Helga"' showing total 5 results

1. Ecologically distinct myodocope ostracod faunas from a single horizon in the late Silurian of Spain

Author

Perrier, Vincent, Perrichon, Gwendal, Nesme, Félix, Groos-Uffenorde, Helga, Lorenzo, Saturnino, Gutiérrez Marco, Juan Carlos, Perrier, Vincent, Perrichon, Gwendal, Nesme, Félix, Groos-Uffenorde, Helga, Lorenzo, Saturnino, and Gutiérrez Marco, Juan Carlos

Abstract

Silurian myodocopes have been demonstrated to be the pioneer pelagic ostracods. Their ecological shift into the water column, during the middle Silurian (Wenlock-Ludlow), is now well documented from sites around the world, but the evolution of this fauna during the late Silurian (Pridoli) remains little studied. We recognise, for the first time, two ecologically distinct myodocope ostracod faunas from the same late Pridoli horizon (possibly ?Wolynograptus bouceki - Skalograptus transgrediens biozones) of southern Spain (Alcaracejos, province of Córdoba). One fauna, associated with black shales, comprises five species belonging to three myodocope families (bolbozoids, entomozoids and cypridinids). The other fauna, recovered from large dark-reddish calcareous nodules and associated with the planktonic crinoid Scyphocrinites elegans, comprises seven myodocope species belonging to the same three families and includes one new species, Calocaria callundosa sp. nov. Although the shale and nodule faunas have two species in common, they are clearly different in terms of diversity, abundance and size of the specimens. The discrepancies between these two assemblages could either be explained by sampling or taphonomic bias, or because they represent faunas with different ecologies. In the latter hypothesis, the myodocope association in the shales could represent the “background” planktonic fauna, while the fauna in the nodules could have lived in the water column in the vicinity of the Scyphocrinites “floating islands”, or scavenge around the dead crinoids on the sea floor. These two diverse assemblages also allow discussions on the temporal and palaeogeographical distributions of these late Silurian myodocope ostracods., Il est aujourd'hui communément accepté que les myodocopes du Silurien étaient les premiers ostracodes pélagiques. Si leur colonisation de la colonne d'eau, au cours du Silurien moyen (Wenlock-Ludlow), est maintenant bien documenté dans des sites du monde entier, l'évolution de cette faune à la fin du Silurien (Pridoli) reste peu étudiée. Nous décrivons ici, pour la première fois, deux faunes d'ostracodes myodocopes écologiquement distinctes provenant du même horizon du Pridoli supérieur (possiblement dans les biozones ?Wolynograptus bouceki - Skalograptus transgrediens) du sud de l'Espagne (Alcaracejos, province de Cordoue). L'une des faunes, associée aux schistes noirs, comprend cinq espèces appartenant à trois familles de myodocopes (bolbozoïdés, entomozoïdés et cypridinidés). L'autre faune, trouvée dans de grands nodules calcaires rouge foncé et associée au crinoïde planctonique Scyphocrinites elegans, comprend sept espèces de myodocopes appartenant aux trois mêmes familles et inclut une nouvelle espèce, Calocaria callundosa sp. nov. Bien que les faunes des schistes et des nodules présentent deux espèces en commun, elles sont clairement différentes en termes de diversité, d'abondance et de taille des spécimens. Les divergences entre ces deux assemblages pourraient s'expliquer soit par des biais d'échantillonnage ou taphonomiques, soit elles pourraient représenter des faunes aux écologies différentes. Dans cette dernière hypothèse, la faune de myodocope des schistes pourrait représenter la faune planctonique « classique », tandis que la faune des nodules aurait vécu dans la colonne d'eau à proximité des « îles flottantes » de Scyphocrinites, ou bien se serait nourrie de manière nécrophage de ces crinoïdes morts une fois qu'ils auraient atteint le fond de la mer. Ces deux assemblages diversifiés ont également permis de discuter les distributions temporelles et paléogéographiques de ces ostracodes myodocopes du Silurien terminal., Ministerio de Ciencia e Innovación, Depto. de Geodinámica, Estratigrafía y Paleontología, Fac. de Ciencias Geológicas, TRUE, pub

Published

2023

2. Ecologically distinct myodocope ostracod faunas from a single horizon in the late Silurian of Spain

Author

Ministerio de Ciencia e Innovación (España), 0000-0002-6792-5214, Perrichon, Gwendal [0000-0001-5831-764X], Nesme, Félix [0009-0001-2489-7647], Groos-Uffenorde, Helga, Lorenzo, Saturnino [0000-0001-7442-4760], Gutiérrez-Marco, Juan Carlos [0000-0003-4213-6144], Perrier, Vincent, Perrichon, Gwendal, Nesme, Félix, Lorenzo, Saturnino, Gutiérrez-Marco, Juan Carlos, Ministerio de Ciencia e Innovación (España), 0000-0002-6792-5214, Perrichon, Gwendal [0000-0001-5831-764X], Nesme, Félix [0009-0001-2489-7647], Groos-Uffenorde, Helga, Lorenzo, Saturnino [0000-0001-7442-4760], Gutiérrez-Marco, Juan Carlos [0000-0003-4213-6144], Perrier, Vincent, Perrichon, Gwendal, Nesme, Félix, Lorenzo, Saturnino, and Gutiérrez-Marco, Juan Carlos

Abstract

Silurian myodocopes have been demonstrated to be the pioneer pelagic ostracods. Their ecological shift into the water column, during the middle Silurian (Wenlock-Ludlow), is now well documented from sites around the world, but the evolution of this fauna during the late Silurian (Pridoli) remains little studied. We recognise, for the first time, two ecologically distinct myodocope ostracod faunas from the same late Pridoli horizon (possibly ?Wolynograptus bouceki - Skalograptus transgrediens biozones) of southern Spain (Alcaracejos, province of Córdoba). One fauna, associated with black shales, comprises five species belonging to three myodocope families (bolbozoids, entomozoids and cypridinids). The other fauna, recovered from large dark-reddish calcareous nodules and associated with the planktonic crinoid Scyphocrinites elegans, comprises seven myodocope species belonging to the same three families and includes one new species, Calocaria callundosa sp. nov. Although the shale and nodule faunas have two species in common, they are clearly different in terms of diversity, abundance and size of the specimens. The discrepancies between these two assemblages could either be explained by sampling or taphonomic bias, or because they represent faunas with different ecologies. In the latter hypothesis, the myodocope association in the shales could represent the “background” planktonic fauna, while the fauna in the nodules could have lived in the water column in the vicinity of the Scyphocrinites “floating islands”, or scavenge around the dead crinoids on the sea floor. These two diverse assemblages also allow discussions on the temporal and palaeogeographical distributions of these late Silurian myodocope ostracods.

Published

2023

3. From Naples 1963 to Rome 2013-A brief review of how the International Research Group on Ostracoda (IRGO) developed as a social communication system

Author

Danielopol, Dan L., Baltanas, Angel, Carbonel, Pierre, Colin, Jean-Paul, Crasquin, Sylvie, Decrouy, Laurent, De Deckker, Patrick, Gliozzi, Elsa, Groos-Uffenorde, Helga, Horne, David J., Iepure, Sanda, Keyser, Dietmar, Kornicker, Louis S., Lord, Alan, Martens, Koen, Matzke-Karasz, Renate, Miller, C. Giles, Oertli, Henri J., Pugliese, Nevio, Russo, Antonio, Sames, Benjamin, Schon, Isa, Siveter, David J., Smith, Alison, Viehberg, Finn A., Wouters, Karel, Yassini, Iradj, Danielopol, Dan L., Baltanas, Angel, Carbonel, Pierre, Colin, Jean-Paul, Crasquin, Sylvie, Decrouy, Laurent, De Deckker, Patrick, Gliozzi, Elsa, Groos-Uffenorde, Helga, Horne, David J., Iepure, Sanda, Keyser, Dietmar, Kornicker, Louis S., Lord, Alan, Martens, Koen, Matzke-Karasz, Renate, Miller, C. Giles, Oertli, Henri J., Pugliese, Nevio, Russo, Antonio, Sames, Benjamin, Schon, Isa, Siveter, David J., Smith, Alison, Viehberg, Finn A., Wouters, Karel, and Yassini, Iradj

Abstract

The 1st International Symposium on Ostracoda (ISO) was held in Naples (1963). The philosophy behind this symposium and the logical outcome of what is now known as the International Research Group on Ostracoda (IRGO) are here reviewed, namely ostracodology over the last 50 years is sociologically analysed. Three different and important historic moments for the scientific achievements of this domain are recognised. The first one, between about 1963 and 1983, is related to applied research for the oil industry as well as to the great interest in the better description of the marine environment by both zoologists and palaeontologists. Another important aspect during this period was the work by researchers dealing with Palaeozoic ostracods, who had their own discussion group, IRGPO. Gradually, the merger of this latter group with those dealing with post-Palaeozoic ostracods at various meetings improved the communication between the two groups of specialists. A second period was approximately delineated between 1983 and 2003. During this time-slice, more emphasis was addressed to environmental research with topics such as the study of global events and long-term climate change. Ostracodologists profited also from the research politics within national and international programmes. Large international research teams emerged using new research methods. During the third period (2003-2013), communication and collaborative research reached a global dimension. Amongst the topics of research we rite the reconstruction of palaeoclimate using transfer functions, the building of large datasets of ostracod distributions for regional and intercontinental studies, and the implementation of actions that should lead to taxonomic harmonisation. Projects within which molecular biological techniques are routinely used, combined with sophisticated morphological information, expanded now in their importance. The documentation of the ostracod description improved through new techniques to visu

Published

2015

4. From Naples 1963 to Rome 2013 - A brief review of how the international research group on Ostracoda (IRGO) developed as a social communication system

Author

Danielopol, Dan, Baltanas, Angel, Carbonel, Pierre, Colin, Jean-Paul, Crasquin, Sylvia, Decrouy, Laurent, De Deckker, Patrick, Gliozzi, Elsa, Groos-Uffenorde, Helga, Horne, David, Iepure, Sanda, Danielopol, Dan, Baltanas, Angel, Carbonel, Pierre, Colin, Jean-Paul, Crasquin, Sylvia, Decrouy, Laurent, De Deckker, Patrick, Gliozzi, Elsa, Groos-Uffenorde, Helga, Horne, David, and Iepure, Sanda

Abstract

The 1st International Symposiumon Ostracoda (ISO) was held in Naples (1963). The philosophy behind this symposiumand the logical outcome of what is nowknown as the International Research Group on Ostracoda (IRGO) are here reviewed, namely ostracodology over the last 50 years is sociologically analysed. Three different and important historic moments for the scientific achievements of this domain are recognised. The first one, between about 1963 and 1983, is related to applied research for the oil industry aswell as to the great interest in the better description of the marine environment by both zoologists and palaeontologists. Another important aspect during this period was thework by researchers dealing with Palaeozoic ostracods,who had their own discussion group, IRGPO. Gradually, the merger of this latter group with those dealing with post-Palaeozoic ostracods at various meetings improved the communication between the two groups of specialists. A second period was approximately delineated between 1983 and 2003. During this time-slice, more emphasis was addressed to environmental research with topics such as the study of global events and long-term climate change. Ostracodologists profited also from the research "politics" within national and international programmes. Large international research teams emerged using new research methods. During the third period (2003-2013), communication and collaborative research reached a global dimension. Amongst the topics of research we cite the reconstruction of palaeoclimate using transfer functions, the building of large datasets of ostracod distributions for regional and intercontinental studies, and the implementation of actions that should lead to taxonomic harmonisation. Projects within which molecular biological techniques are routinely used, combined with sophisticated morphological information, expanded now in their importance. The documentation of the ostracod description improved through new techniques to visualis

Published

2015

5. From Naples 1963 to Rome 2013-A brief review of how the International Research Group on Ostracoda (IRGO) developed as a social communication system

Author

Danielopol, Dan L., Baltanas, Angel, Carbonel, Pierre, Colin, Jean-Paul, Crasquin, Sylvie, Decrouy, Laurent, De Deckker, Patrick, Gliozzi, Elsa, Groos-Uffenorde, Helga, Horne, David J., Iepure, Sanda, Keyser, Dietmar, Kornicker, Louis S., Lord, Alan, Martens, Koen, Matzke-Karasz, Renate, Miller, C. Giles, Oertli, Henri J., Pugliese, Nevio, Russo, Antonio, Sames, Benjamin, Schon, Isa, Siveter, David J., Smith, Alison, Viehberg, Finn A., Wouters, Karel, Yassini, Iradj, Danielopol, Dan L., Baltanas, Angel, Carbonel, Pierre, Colin, Jean-Paul, Crasquin, Sylvie, Decrouy, Laurent, De Deckker, Patrick, Gliozzi, Elsa, Groos-Uffenorde, Helga, Horne, David J., Iepure, Sanda, Keyser, Dietmar, Kornicker, Louis S., Lord, Alan, Martens, Koen, Matzke-Karasz, Renate, Miller, C. Giles, Oertli, Henri J., Pugliese, Nevio, Russo, Antonio, Sames, Benjamin, Schon, Isa, Siveter, David J., Smith, Alison, Viehberg, Finn A., Wouters, Karel, and Yassini, Iradj

Abstract

The 1st International Symposium on Ostracoda (ISO) was held in Naples (1963). The philosophy behind this symposium and the logical outcome of what is now known as the International Research Group on Ostracoda (IRGO) are here reviewed, namely ostracodology over the last 50 years is sociologically analysed. Three different and important historic moments for the scientific achievements of this domain are recognised. The first one, between about 1963 and 1983, is related to applied research for the oil industry as well as to the great interest in the better description of the marine environment by both zoologists and palaeontologists. Another important aspect during this period was the work by researchers dealing with Palaeozoic ostracods, who had their own discussion group, IRGPO. Gradually, the merger of this latter group with those dealing with post-Palaeozoic ostracods at various meetings improved the communication between the two groups of specialists. A second period was approximately delineated between 1983 and 2003. During this time-slice, more emphasis was addressed to environmental research with topics such as the study of global events and long-term climate change. Ostracodologists profited also from the research politics within national and international programmes. Large international research teams emerged using new research methods. During the third period (2003-2013), communication and collaborative research reached a global dimension. Amongst the topics of research we rite the reconstruction of palaeoclimate using transfer functions, the building of large datasets of ostracod distributions for regional and intercontinental studies, and the implementation of actions that should lead to taxonomic harmonisation. Projects within which molecular biological techniques are routinely used, combined with sophisticated morphological information, expanded now in their importance. The documentation of the ostracod description improved through new techniques to visu

Published

2015