Your search keyword '"Lapetoule, Garance"' showing total 4 results

1. How to build vegetation patches in hydraulic studies: a hydrodynamic-ecological perspective on a biological object.

Author

Cornacchia, Loreta, Lapetoule, Garance, Licci, Sofia, Basquin, Hugo, and Puijalon, Sara

Subjects

YOUNG'S modulus, MACROPHYTES, POTAMOGETON, FLUMES

Abstract

Vegetation in freshwater and coastal ecosystems modifies flows, retains sediment, protects banks and shorelines from erosion. Hydraulic laboratory studies with live vegetation or artificial plant mimics, or numerical models with abstracted patches, are often used to quantify the effects of vegetation on water flow and sedimentation. However, the choice of plant and patch characteristics is often not supported by field observations of patch dimensions, density or spacing between consecutive patches. The discrepancy between plants in natural conditions and in flume experiments or numerical studies may affect the relevance of these findings for natural ecosystems. In this study, we provide guidelines for building realistic vegetation patches in hydraulic studies. We collected data on four species of fully submerged freshwater aquatic macrophytes that can grow into well-defined patches. We considered three relevant levels: individual plants (inside patches), isolated patches and multiple neighbouring patches. At the plant level, we observed significant differences in biomechanical traits (Young's modulus, flexural stiffness), resulting in stem Cauchy numbers ranging from 85.25 to 325.84, and leaf Cauchy numbers from 163.81 to 2003.97. At the patch level, we found significant relationships between patch length, width and height, showing covariation among different patch characteristics. The relationships among patch dimensions differed significantly among sampling sites for three of the four species, suggesting high intraspecific variability in patch sizes. By providing a first set of guidelines for choosing correct and ecologically relevant plant characteristics, this dataset aims to improve our understanding of the complex processes occurring inside and around submerged vegetated patches. [ABSTRACT FROM AUTHOR]

Published

2023

2. A derived ZW chromosome system in Amborella trichopoda , representing the sister lineage to all other extant flowering plants

Author

Käfer, Jos, primary, Bewick, Adam, additional, Andres‐Robin, Amélie, additional, Lapetoule, Garance, additional, Harkess, Alex, additional, Caïus, José, additional, Fogliani, Bruno, additional, Gâteblé, Gildas, additional, Ralph, Paula, additional, dePamphilis, Claude W., additional, Picard, Franck, additional, Scutt, Charlie, additional, Marais, Gabriel A. B., additional, and Leebens‐Mack, James, additional

Published

2021

3. A derived ZW chromosome system in Amborella trichopoda, the sister species to all other extant flowering plants

Author

Käfer, Jos, primary, Bewick, Adam, additional, Andres-Robin, Amélie, additional, Lapetoule, Garance, additional, Harkess, Alex, additional, Caïus, José, additional, Fogliani, Bruno, additional, Gâteblé, Gildas, additional, Ralph, Paula, additional, dePamphilis, Claude W., additional, Picard, Franck, additional, Scutt, Charlie P., additional, Leebens-Mack, James, additional, and Marais, Gabriel AB, additional

Published

2020

4. A derived ZW chromosome system in Amborella trichopoda, representing the sister lineage to all other extant flowering plants.

Author

Käfer, Jos, Bewick, Adam, Andres‐Robin, Amélie, Lapetoule, Garance, Harkess, Alex, Caïus, José, Fogliani, Bruno, Gâteblé, Gildas, Ralph, Paula, dePamphilis, Claude W., Picard, Franck, Scutt, Charlie, Marais, Gabriel A. B., and Leebens‐Mack, James

Subjects

GENETIC sex determination, FLOWERING of plants, SEX determination, CHROMOSOMES, SEX chromosomes

Abstract

Summary: The genetic basis and evolution of sex determination in dioecious plants is emerging as an active area of research with exciting advances in genome sequencing and analysis technologies. As the sole species within the sister lineage to all other extant flowering plants, Amborella trichopoda is an important model for understanding the evolution and development of flowers. Plants typically produce only male or female flowers, but sex determination mechanisms are unknown for the species.Sequence data derived from plants of natural origin and an F1 mapping population were used to identify sex‐linked genes and the nonrecombining region.Amborella trichopoda has a ZW sex determination system. Analysis of genes in a 4 Mb nonrecombining sex‐determination region reveals recent divergence of Z and W gametologs, and few Z‐ and W‐specific genes.The sex chromosomes of A. trichopoda evolved less than 16.5 Myr ago, long after the divergence of the extant angiosperms. [ABSTRACT FROM AUTHOR]

Published

2022