Submerge, salt-water intrusion, and managed gulf coast marshes
Document Type
Conference Proceeding
Publication Date
1-1-1993
Abstract
Many coastal marshes are managed to improve wildlife habitat. Simultaneous salt-water intrusion and rapid submergence in Louisiana place additional demands on marsh managers and may become common worldwide because of the greenhouse effect. Current management practices often counter salt-water intrusion but not submergence, which is offset by soil formation. The purpose of this paper is to help Gulf Coast marsh managers understand how marsh management may influence soil formation by providing an overview of the relevant physical, chemical, and biological processes. Organic matter accumulation controls soil formation in Louisiana marshes, thus vigorous plant growth should promote soil formation. Soil aeration controls many factors that limit plant growth. An indication of soil aeration is Eh, which is greater in drained soils than in waterlogged soils. Eh also depends partly on soil organic matter qualities. Eh is greater in Spartina Patens soil than in Panicum hemitomon or Spartina alterniflora soil even when hydrological conditions are the same.
Publication Source (Journal or Book title)
Coastal Zone: Proceedings of the Symposium on Coastal and Ocean Management
First Page
1690
Last Page
1704
Recommended Citation
Nyman, J., Chabreck, R., DeLaune, R., & Patrick, W. (1993). Submerge, salt-water intrusion, and managed gulf coast marshes. Coastal Zone: Proceedings of the Symposium on Coastal and Ocean Management, 2, 1690-1704. Retrieved from https://repository.lsu.edu/agrnr_pubs/653