Journal
ESTUARINE COASTAL AND SHELF SCIENCE
Volume 196, Issue -, Pages 45-57Publisher
ACADEMIC PRESS LTD- ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ecss.2017.06.009
Keywords
Remote sensing; Classification; Deltaic sedimentation; Geomorphology; Ecological succession; Wax Lake Delta
Categories
Funding
- National Science Foundation [NSF-1135427, NSF-1426997]
- Geological Society of America
- Society of Sedimentary Geology Student Research Grants
- Polar Geospatial Center under NSF PLR awards [1043681, 1559691]
- Directorate For Geosciences
- Division Of Ocean Sciences [1135427] Funding Source: National Science Foundation
- Division Of Earth Sciences
- Directorate For Geosciences [1426997] Funding Source: National Science Foundation
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Land building in deltaic environments occurs when sediment discharged from a river mouth is deposited subaqueously and transitions to subaerial land. The transition from subaqueous deposition to subaerial land is a critical process that marks the creation of relatively stable land, yet it is unclear what controls the speed and style of this transition. We define how this transition, herein termed the land building succession, varies in time and space for the freshwater, intertidal wetlands in Wax Lake Delta, LA. Using remote sensing and field data we classify land cover into sediment, water, or vegetation classes at maximum and minimum biomass. We see two succession patterns within Wax Lake Delta. Deltaic islands near the apex are initially covered by sediment and open water. Through time, open water and sediment coverage decreases as vegetation coverage increases. On the other hand, distal islands show little sediment exposure through time. In both cases, all deltaic islands become covered with vegetation by 2015. As vegetation colonizes the island, the topography organizes into two platforms vertically separated by similar to 0.35 m. The lower, intertidal platform occurs in the island interiors and is commonly inundated by water and dominated by subaqueous or floating vegetation. The upper, subaerial platform occurs along island edges and is dominated by a variety of vegetation species including Salix nigra, Colocasia esculenta, and Polygonum punctatum. It takes an average of similar to 10 years for the intertidal platform to transition to the subaerial platform. These two platforms are separated by the tidal range measured in Atchafalaya Bay, and the different vegetation communities occupying each platform suggest they are a manifestation of multiple stable states and arise due to vegetation and sedimentation feedbacks. (C) 2017 Elsevier Ltd. All rights reserved.
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