Leaf litter dynamics and the rehabilitation of degraded coastal rivers in NSW, Australia

Wolfenden, Benjamin John; Ryder, Darren; Boulton, Andrew

Author(s)

Wolfenden, Benjamin John

Ryder, Darren

Boulton, Andrew

Publication Date

2010

Abstract

Heterotrophic energy pathways play an essential role in the integrity of forested stream ecosystems. In these rivers, leaf-derived energy is assimilated by biota at low trophic levels which is then made available to higher-order consumers by predator-prey interactions. The availability of resources is governed by two key processes; the retention of leaves by physical structures, and the processing of leaves by microbial degradation, and mechanical and biological fragmentation. The reliance on leaves means anthropogenic disturbances such as the clearing of riparian and floodplain vegetation, recolonisation by invasive plants, and changes to in-channel structural complexity can lead to fewer resources for leaf-dependent consumers. Rehabilitation has the potential to restore critical ecosystem functions, although these indicators are seldom included in rehabilitation projects. This thesis examines the potential for rehabilitation with engineered log jams (ELJs) and riparian replantings to rehabilitate detrital energy pathways to degraded coastal rivers.

Link

https://hdl.handle.net/1959.11/9231

Language

en

Title

Leaf litter dynamics and the rehabilitation of degraded coastal rivers in NSW, Australia

Type of document

Thesis Doctoral

Entity Type

Publication

Author(s)	Wolfenden, Benjamin John Ryder, Darren Boulton, Andrew
Publication Date	2010
Abstract	Heterotrophic energy pathways play an essential role in the integrity of forested stream ecosystems. In these rivers, leaf-derived energy is assimilated by biota at low trophic levels which is then made available to higher-order consumers by predator-prey interactions. The availability of resources is governed by two key processes; the retention of leaves by physical structures, and the processing of leaves by microbial degradation, and mechanical and biological fragmentation. The reliance on leaves means anthropogenic disturbances such as the clearing of riparian and floodplain vegetation, recolonisation by invasive plants, and changes to in-channel structural complexity can lead to fewer resources for leaf-dependent consumers. Rehabilitation has the potential to restore critical ecosystem functions, although these indicators are seldom included in rehabilitation projects. This thesis examines the potential for rehabilitation with engineered log jams (ELJs) and riparian replantings to rehabilitate detrital energy pathways to degraded coastal rivers.
Link	https://hdl.handle.net/1959.11/9231
Language	en
Title	Leaf litter dynamics and the rehabilitation of degraded coastal rivers in NSW, Australia
Type of document	Thesis Doctoral
Entity Type	Publication

Leaf litter dynamics and the rehabilitation of degraded coastal rivers in NSW, Australia

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