Transgressive dunefield landforms and vegetation associations, Doña Juana, Veracruz, Mexico

PATRICK HESP, MARISA MARTINEZ, GRAZIELA MIOT DA SILVA, NATALIA RODRÍGUEZ-REVELO, ERIKA GUTIERREZ, ADRIANA HUMANES, DANIELA LAÍNEZ, IRENE MONTAÑO, VERÓNICA PALACIOS, AGUSTÍN QUESADA, LORENA STORERO, GABRIELA GONZÁLEZ TRILLA, CAROLINA TROCHINE

EARTH SURFACE PROCESSES AND LANDFORMS

JOHN WILEY & SONS LTD

Año: 2011 vol. 36 p. 285 - 295

0197-9337

Transgressive dunefields often comprise a multiplicity of landforms where vegetation processes largely affect landform dynamics, which in turn, also affect vegetation processes. These associations have seldom been studied in detail. This paper examines four separate landform types in a complex coastal transgressive dunefield located in the central Gulf of Mexico, in orderto assess the relationships between dunefi eld habitat, local environmental factors, vegetation associations and landform evolution. Topographic surveys using tape and clinometer were conducted in conjunction with vegetation survey transects at four locations across the Doña Juana dunefi eld. Vegetation surveys allowed the estimation of relative plant cover of each plant species found along the transects. A large variety of landforms were found at the Doña Juana Dunefield: deflation plains, gegenwalle (counter) ridges, transverse dune trailing ridges, blowouts and parabolic dunes, aklé (fish-scale shaped) dunefields and precipitation ridges,with plant species associations developing on these different landforms equally variable. Flood tolerant species were located in the lower parts (deflation plain and gegenwalle ridges) whereas the older and dryer parts were covered by coastal matorral shrubs. Burial-tolerant species were dominant in the most mobile areas (blowouts and aklé dunefield and margin). The dune trailing ridge, with relatively milder conditions, showed the highest richness, with no dominant species. A dual interaction was found such that colonizing species both create and affect topography, and in turn, topography determines vegetation association and succession patterns. In coastal dunes, the vegetation and abiotic environment (namely the different landforms and the inherent micronevironmental variability) interact tightly and generate a complex and highly dynamic biogeomorphic system where substrate mobility and colonization processes reinforce one another in positive feedback.