Genetic Structure and Connectivity of the Red Mangrove at Different Geographic Scales through a Complex Transverse Hydrological System from Freshwater to Marine Ecosystems

Genetic Structure and Connectivity of the Red Mangrove at Different Geographic Scales through a Complex Transverse Hydrological System from Freshwater to Marine Ecosystems

Mangrove forests are ecologically and economically valuable resources composed of trees morphologically and physiologically adapted to thrive across a range of habitats. Although, mangrove trees have high dispersion capacity, complexity of hydrological systems may lead to a fine-scale genetic struct...

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Main Authors: Landy R. Chablé Iuit, Salima Machkour-M’Rabet, Julio Espinoza-Ávalos, Héctor A. Hernández-Arana, Haydée López-Adame, Yann Hénaut
Format: Article
Language:English
Published: MDPI AG 2020-01-01
Series:Diversity
Subjects:
<i>rhizophora mangle</i>
dwarf and fringe trees
inter-simple sequence repeats (issr)
mexico
spatial autocorrelation
bayesian analysis
Online Access:https://www.mdpi.com/1424-2818/12/2/48
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spelling doaj-5ce969ef211e48c48390dacd90fdf9d52020-11-25T02:06:21ZengMDPI AGDiversity1424-28182020-01-011224810.3390/d12020048d12020048Genetic Structure and Connectivity of the Red Mangrove at Different Geographic Scales through a Complex Transverse Hydrological System from Freshwater to Marine EcosystemsLandy R. Chablé Iuit0Salima Machkour-M’Rabet1Julio Espinoza-Ávalos2Héctor A. Hernández-Arana3Haydée López-Adame4Yann Hénaut5Laboratorio de Ecología Molecular y Conservación, El Colegio de la Frontera Sur. Av. Centenario km 5.5, Chetumal C.P. 77014, Quintana Roo, MexicoLaboratorio de Ecología Molecular y Conservación, El Colegio de la Frontera Sur. Av. Centenario km 5.5, Chetumal C.P. 77014, Quintana Roo, MexicoEl Colegio de la Frontera Sur. Av. Centenario km 5.5, Chetumal C.P. 77014, Quintana Roo, MexicoLaboratorio de Estructura y Función de Ecosistemas Costeros Tropicales (EFECT-LAB), El Colegio de la Frontera Sur. Av. Centenario km 5.5, Chetumal C.P. 77014, Quintana Roo, MexicoATEC Asesoría Técnica y Estudios Costeros SCP, Calle 63b, no. 221, fraccionamiento Yucalpetén, Mérida CP 97238, Yucatán, MexicoLaboratorio de Etología, El Colegio de la Frontera Sur. Av. Centenario km 5.5, Chetumal C.P. 77014, Quintana Roo, MexicoMangrove forests are ecologically and economically valuable resources composed of trees morphologically and physiologically adapted to thrive across a range of habitats. Although, mangrove trees have high dispersion capacity, complexity of hydrological systems may lead to a fine-scale genetic structure (FSGS). The Transverse Coastal Corridor (TCC) is an interesting case of hydrological systems from fresh to marine waters where mangrove forests dominate. We evaluated genetic diversity and structure of <i>Rhizophora mangle</i> across a range of hydrological conditions within the TCC using inter-simple sequence repeat molecular markers. Sampling included four hydrological systems, two localities inside each system, and fringe and dwarf trees. Genetic differentiation was evaluated at local (&lt;100 km) and fine (&lt;10 km) scales through a set of analyses, and genetic diversity was evaluated at all scale levels and between fringe and dwarf physiognomic types. <i>Rhizophora mangle</i> exhibited a high genetic structure at both scales with high genetic diversity. The genetic structure observed among hydrological systems likely reflects the historical dispersion of mangroves, whereas the FSGS reflect contemporary processes such as seed dispersal restriction, habitat fragmentation, and local water flow regimes. A higher genetic diversity for dwarf than for fringe trees and differentiation between both physiognomic types at a fine-scale were observed and discussed.https://www.mdpi.com/1424-2818/12/2/48<i>rhizophora mangle</i>dwarf and fringe treesinter-simple sequence repeats (issr)mexicospatial autocorrelationbayesian analysis
collection DOAJ
language English
format Article
sources DOAJ
author Landy R. Chablé Iuit
Salima Machkour-M’Rabet
Julio Espinoza-Ávalos
Héctor A. Hernández-Arana
Haydée López-Adame
Yann Hénaut
spellingShingle Landy R. Chablé Iuit
Salima Machkour-M’Rabet
Julio Espinoza-Ávalos
Héctor A. Hernández-Arana
Haydée López-Adame
Yann Hénaut
Genetic Structure and Connectivity of the Red Mangrove at Different Geographic Scales through a Complex Transverse Hydrological System from Freshwater to Marine Ecosystems
Diversity
<i>rhizophora mangle</i>
dwarf and fringe trees
inter-simple sequence repeats (issr)
mexico
spatial autocorrelation
bayesian analysis
author_facet Landy R. Chablé Iuit
Salima Machkour-M’Rabet
Julio Espinoza-Ávalos
Héctor A. Hernández-Arana
Haydée López-Adame
Yann Hénaut
author_sort Landy R. Chablé Iuit
title Genetic Structure and Connectivity of the Red Mangrove at Different Geographic Scales through a Complex Transverse Hydrological System from Freshwater to Marine Ecosystems
title_short Genetic Structure and Connectivity of the Red Mangrove at Different Geographic Scales through a Complex Transverse Hydrological System from Freshwater to Marine Ecosystems
title_full Genetic Structure and Connectivity of the Red Mangrove at Different Geographic Scales through a Complex Transverse Hydrological System from Freshwater to Marine Ecosystems
title_fullStr Genetic Structure and Connectivity of the Red Mangrove at Different Geographic Scales through a Complex Transverse Hydrological System from Freshwater to Marine Ecosystems
title_full_unstemmed Genetic Structure and Connectivity of the Red Mangrove at Different Geographic Scales through a Complex Transverse Hydrological System from Freshwater to Marine Ecosystems
title_sort genetic structure and connectivity of the red mangrove at different geographic scales through a complex transverse hydrological system from freshwater to marine ecosystems
publisher MDPI AG
series Diversity
issn 1424-2818
publishDate 2020-01-01
description Mangrove forests are ecologically and economically valuable resources composed of trees morphologically and physiologically adapted to thrive across a range of habitats. Although, mangrove trees have high dispersion capacity, complexity of hydrological systems may lead to a fine-scale genetic structure (FSGS). The Transverse Coastal Corridor (TCC) is an interesting case of hydrological systems from fresh to marine waters where mangrove forests dominate. We evaluated genetic diversity and structure of <i>Rhizophora mangle</i> across a range of hydrological conditions within the TCC using inter-simple sequence repeat molecular markers. Sampling included four hydrological systems, two localities inside each system, and fringe and dwarf trees. Genetic differentiation was evaluated at local (&lt;100 km) and fine (&lt;10 km) scales through a set of analyses, and genetic diversity was evaluated at all scale levels and between fringe and dwarf physiognomic types. <i>Rhizophora mangle</i> exhibited a high genetic structure at both scales with high genetic diversity. The genetic structure observed among hydrological systems likely reflects the historical dispersion of mangroves, whereas the FSGS reflect contemporary processes such as seed dispersal restriction, habitat fragmentation, and local water flow regimes. A higher genetic diversity for dwarf than for fringe trees and differentiation between both physiognomic types at a fine-scale were observed and discussed.
topic <i>rhizophora mangle</i>
dwarf and fringe trees
inter-simple sequence repeats (issr)
mexico
spatial autocorrelation
bayesian analysis
url https://www.mdpi.com/1424-2818/12/2/48
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AT haydeelopezadame geneticstructureandconnectivityoftheredmangroveatdifferentgeographicscalesthroughacomplextransversehydrologicalsystemfromfreshwatertomarineecosystems
AT yannhenaut geneticstructureandconnectivityoftheredmangroveatdifferentgeographicscalesthroughacomplextransversehydrologicalsystemfromfreshwatertomarineecosystems
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