Len J. McKenzie scite author profile

Seagrass ecosystems represent a global marine resource that is declining across its range. To halt degradation and promote recovery over large scales, management requires a radical change in emphasis and application that seeks to enhance seagrass ecosystem resilience. In this review we examine how the resilience of seagrass ecosystems is becoming compromised by a range of local to global stressors, resulting in ecological regime shifts that undermine the long-term viability of these productive ecosystems. To examine regime shifts and the management actions that can influence this phenomenon we present a conceptual model of resilience in seagrass ecosystems. The model is founded on a series of features and modifiers that act as interacting influences upon seagrass ecosystem resilience. Improved understanding and appreciation of the factors and modifiers that govern resilience in seagrass ecosystems can be utilised to support much needed evidence based management of a vital natural resource.

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Tropical seagrass meadows modify seawater carbon chemistry: implications for coral reefs impacted by ocean acidification

Unsworth

Collier

Henderson

et al. 2012

Environ. Res. Lett.

182

148

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A comparison of threats, vulnerabilities and management approaches in global seagrass bioregions

Grech

Chartrand²,

Erftemeijer

et al. 2012

Environ. Res. Lett.

214

147

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Global seagrass habitats are threatened by multiple anthropogenic factors. Effective management of seagrasses requires information on the relative impacts of threats; however, this information is rarely available. Our goal was to use the knowledge of experts to assess the relative impacts of anthropogenic activities in six global seagrass bioregions. The activities that threaten seagrasses were identified at an international seagrass workshop and followed with a web-based survey to collect seagrass vulnerability information. There was a global consensus that urban/industrial runoff, urban/port infrastructure development, agricultural runoff and dredging had the greatest impact on seagrasses, though the order of relative impacts varied by bioregion. These activities are largely terrestrially based, highlighting the need for marine planning initiatives to be co-ordinated with adjacent watershed planning. Sea level rise and increases in the severity of cyclones were ranked highest relative to other climate change related activities, but overall the five climate change activities were ranked low and experts were uncertain of their effects on seagrasses. The experts' preferred mechanism of delivering management outcomes were processes such as policy development, planning and consultation rather than prescriptive management tools. Our approach to collecting expert opinion provides the required data to prioritize seagrass management actions at bioregional scales.

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Seagrass meadows globally as a coupled social–ecological system: Implications for human wellbeing

Cullen-Unsworth

Nordlund

Paddock

et al. 2014

Marine Pollution Bulletin

229

135

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Len J. McKenzie

Unravelling complexity in seagrass systems for management: Australia as a microcosm

A framework for the resilience of seagrass ecosystems

Tropical seagrass meadows modify seawater carbon chemistry: implications for coral reefs impacted by ocean acidification

A comparison of threats, vulnerabilities and management approaches in global seagrass bioregions

Seagrass meadows globally as a coupled social–ecological system: Implications for human wellbeing

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