Sediment infilling and wetland formation dynamics in an active crevasse splay of the Mississippi River delta

被引:81
作者
Cahoon, Donald R. [1 ]
White, David A. [2 ]
Lynch, James C. [1 ]
机构
[1] US Geol Survey, Natl Wetlands Res Ctr, Lafayette, LA 70503 USA
[2] Loyola Univ, Dept Biol Sci, New Orleans, LA 70118 USA
关键词
Crevasse splay; Mississippi River delta; Wetlands; Accretion; Shallow subsidence; Elevation; SEA-LEVEL RISE; SPARTINA-ALTERNIFLORA; VERTICAL ACCRETION; COASTAL WETLANDS; ELEVATION; SUBSIDENCE; IMPACTS; ACCUMULATION; LOUISIANA; MARSHES;
D O I
10.1016/j.geomorph.2010.12.002
中图分类号
P9 [自然地理学];
学科分类号
0705 ; 070501 ;
摘要
Crevasse splay environments provide a mesocosm for evaluating wetland formation and maintenance processes on a decadal time scale. Site elevation, water levels, vertical accretion, elevation change, shallow subsidence, and plant biomass were measured at five habitats along an elevation gradient to evaluate wetland formation and development in Brant Pass Splay; an active crevasse splay of the Balize delta of the Mississippi River. The processes of vertical development (vertical accretion, elevation change, and shallow subsidence) were measured with the surface elevation table marker horizon method. There were three distinct stages to the accrual of elevation capital and wetland formation in the splay: sediment infilling, vegetative colonization, and development of a mature wetland community. Accretion, elevation gain, and shallow subsidence all decreased by an order of magnitude from the open water (lowest elevation) to the forest (highest elevation) habitats. Vegetative colonization occurred within the first growing season following emergence of the mud surface. An explosively high rate of below-ground production quickly stabilized the loosely consolidated sub-aerial sediments. After emergent vegetation colonization, vertical development slowed and maintenance of marsh elevation was driven both by sediment trapping by the vegetation and accumulation of plant organic matter in the soil. Continued vertical development and survival of the marsh then depended on the health and productivity of the plant community. The process of delta wetland formation is both complex and nonlinear. Determining the dynamics of wetland formation will help in understanding the processes driving the past building of the delta and in developing models for restoring degraded wetlands in the Mississippi River delta and other deltas around the world. Published by Elsevier B.V.
引用
收藏
页码:57 / 68
页数:12
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