A Genetic Geomorphic Classification System for Southern African Palustrine Wetlands: Global Implications for the Management of Wetlands in Drylands

A Genetic Geomorphic Classification System for Southern African Palustrine Wetlands: Global Implications for the Management of Wetlands in Drylands

Due to climatic constraints in dryland regions, wetlands usually occur at confluences of flow paths, whether from surface flow, inter-flow or at locations of groundwater discharge. Long-term landscape processes that shape valleys and focus the movement of water and sediment are accountable for provi...

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Main Authors: Suzanne Grenfell, Michael Grenfell, William Ellery, Nancy Job, Damian Walters
Format: Article
Language:English
Published: Frontiers Media S.A. 2019-11-01
Series:Frontiers in Environmental Science
Subjects:
wetland geomorphology
wetland classification
wetland restoration
wetland management
drylands
Online Access:https://www.frontiersin.org/article/10.3389/fenvs.2019.00174/full
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spelling doaj-680f979324ed4adbb164f85593c123002020-11-25T02:13:38ZengFrontiers Media S.A.Frontiers in Environmental Science2296-665X2019-11-01710.3389/fenvs.2019.00174469695A Genetic Geomorphic Classification System for Southern African Palustrine Wetlands: Global Implications for the Management of Wetlands in DrylandsSuzanne Grenfell0Michael Grenfell1William Ellery2Nancy Job3Nancy Job4Damian Walters5Department of Geography, Environmental Studies and Tourism, University of the Western Cape, Bellville, South AfricaDepartment of Earth Science, Institute for Water Studies, University of the Western Cape, Bellville, South AfricaDepartment of Geography, Rhodes University, Grahamstown, South AfricaDepartment of Geography, Environmental Studies and Tourism, University of the Western Cape, Bellville, South AfricaKirstenbosch Research Centre, Freshwater Biodiversity Institute, South African National Biodiversity Institute, Cape Town, South AfricaKirstenbosch Research Centre, Freshwater Biodiversity Institute, South African National Biodiversity Institute, Cape Town, South AfricaDue to climatic constraints in dryland regions, wetlands usually occur at confluences of flow paths, whether from surface flow, inter-flow or at locations of groundwater discharge. Long-term landscape processes that shape valleys and focus the movement of water and sediment are accountable for providing a suitable template with which hydrology interacts to allow wetland formation. Current hydrogeomorphic classification systems do not address system-scale linkages of sediment and water transport across the landscape, and are therefore unable to contextualise long-term process dynamics. Misunderstanding long-term earth system processes can result in the application of inappropriate restoration strategies that isolate wetlands from longitudinal drivers of their formation. We propose a genetic classification system that focuses on the mode of wetland formation, and is based on the understanding that genetic processes impact on the outcome hydrology, sedimentology, geomorphology, ecosystem service provision, and long-term dynamics of wetlands in drylands. The classification aims to impart understanding of dynamic processes of sediment transport through wetlands, such that restoration plans can be sensitive to long-term landscape processes. The classification system, derived from a combination of international literature and published South African case studies, has four wetland macrotypes based on sediment source (colluvial, alluvial, Aeolian, and geochemical). These are subdivided into eight wetland types; hillslope seep, floodplain, valley-bottom, plain, blocked-valley, alluvial fan, aeolian depression, and geochemical depression. The classification is based on landscape location, shape, and the occurrence of geomorphic characteristics indicative of process.https://www.frontiersin.org/article/10.3389/fenvs.2019.00174/fullwetland geomorphologywetland classificationwetland restorationwetland managementdrylands
collection DOAJ
language English
format Article
sources DOAJ
author Suzanne Grenfell
Michael Grenfell
William Ellery
Nancy Job
Nancy Job
Damian Walters
spellingShingle Suzanne Grenfell
Michael Grenfell
William Ellery
Nancy Job
Nancy Job
Damian Walters
A Genetic Geomorphic Classification System for Southern African Palustrine Wetlands: Global Implications for the Management of Wetlands in Drylands
Frontiers in Environmental Science
wetland geomorphology
wetland classification
wetland restoration
wetland management
drylands
author_facet Suzanne Grenfell
Michael Grenfell
William Ellery
Nancy Job
Nancy Job
Damian Walters
author_sort Suzanne Grenfell
title A Genetic Geomorphic Classification System for Southern African Palustrine Wetlands: Global Implications for the Management of Wetlands in Drylands
title_short A Genetic Geomorphic Classification System for Southern African Palustrine Wetlands: Global Implications for the Management of Wetlands in Drylands
title_full A Genetic Geomorphic Classification System for Southern African Palustrine Wetlands: Global Implications for the Management of Wetlands in Drylands
title_fullStr A Genetic Geomorphic Classification System for Southern African Palustrine Wetlands: Global Implications for the Management of Wetlands in Drylands
title_full_unstemmed A Genetic Geomorphic Classification System for Southern African Palustrine Wetlands: Global Implications for the Management of Wetlands in Drylands
title_sort genetic geomorphic classification system for southern african palustrine wetlands: global implications for the management of wetlands in drylands
publisher Frontiers Media S.A.
series Frontiers in Environmental Science
issn 2296-665X
publishDate 2019-11-01
description Due to climatic constraints in dryland regions, wetlands usually occur at confluences of flow paths, whether from surface flow, inter-flow or at locations of groundwater discharge. Long-term landscape processes that shape valleys and focus the movement of water and sediment are accountable for providing a suitable template with which hydrology interacts to allow wetland formation. Current hydrogeomorphic classification systems do not address system-scale linkages of sediment and water transport across the landscape, and are therefore unable to contextualise long-term process dynamics. Misunderstanding long-term earth system processes can result in the application of inappropriate restoration strategies that isolate wetlands from longitudinal drivers of their formation. We propose a genetic classification system that focuses on the mode of wetland formation, and is based on the understanding that genetic processes impact on the outcome hydrology, sedimentology, geomorphology, ecosystem service provision, and long-term dynamics of wetlands in drylands. The classification aims to impart understanding of dynamic processes of sediment transport through wetlands, such that restoration plans can be sensitive to long-term landscape processes. The classification system, derived from a combination of international literature and published South African case studies, has four wetland macrotypes based on sediment source (colluvial, alluvial, Aeolian, and geochemical). These are subdivided into eight wetland types; hillslope seep, floodplain, valley-bottom, plain, blocked-valley, alluvial fan, aeolian depression, and geochemical depression. The classification is based on landscape location, shape, and the occurrence of geomorphic characteristics indicative of process.
topic wetland geomorphology
wetland classification
wetland restoration
wetland management
drylands
url https://www.frontiersin.org/article/10.3389/fenvs.2019.00174/full
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