Len McKenzie scite author profile

Seagrasses, flowering marine plants that form underwater meadows, play a significant global role in supporting food security, mitigating climate change and supporting biodiversity. Although progress is being made to conserve seagrass meadows in select areas, most meadows remain under significant pressure resulting in a decline in meadow condition and loss of function. Effective management strategies need to be implemented to reverse seagrass loss and enhance their fundamental role in coastal ocean habitats. Here we propose that seagrass meadows globally face a series of significant common challenges that must be addressed from a multifaceted and interdisciplinary perspective in order to achieve global conservation of seagrass meadows. The six main global challenges to seagrass conservation are (1) a lack of awareness of what seagrasses are and a limited societal recognition of the importance of seagrasses in coastal systems; (2) the status of many seagrass meadows are unknown, and up-to-date information on status and condition is essential; (3) understanding threatening activities at local scales is required to target management actions accordingly; (4) expanding our understanding of interactions between the socio-economic and ecological elements of seagrass systems is essential to balance the needs of people and the planet; (5) seagrass research should be expanded to generate scientific inquiries that support conservation actions; (6) increased understanding of the linkages between seagrass and climate change is required to adapt conservation accordingly. We also explicitly outline a series of proposed policy actions that will enable the scientific and conservation community to rise to these challenges. We urge the seagrass conservation community to engage stakeholders from local resource users to international policy-makers to address the challenges outlined here, in order to secure the future of the world’s seagrass ecosystems and maintain the vital services which they supply. Electronic supplementary material The online version of this article (10.1007/s13280-018-1115-y) contains supplementary material, which is available to authorised users.

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Toward a Coordinated Global Observing System for Seagrasses and Marine Macroalgae

Duffy

et al. 2019

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Seagrass ecosystem trajectory depends on the relative timescales of resistance, recovery and disturbance

O’Brien

Waycott

Maxwell

et al. 2018

Marine Pollution Bulletin

125

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Seagrass ecosystems are inherently dynamic, responding to environmental change across a range of scales. Habitat requirements of seagrass are well defined, but less is known about their ability to resist disturbance. Specific means of recovery after loss are particularly difficult to quantify. Here we assess the resistance and recovery capacity of 12 seagrass genera. We document four classic trajectories of degradation and recovery for seagrass ecosystems, illustrated with examples from around the world. Recovery can be rapid once conditions improve, but seagrass absence at landscape scales may persist for many decades, perpetuated by feedbacks and/or lack of seed or plant propagules to initiate recovery. It can be difficult to distinguish between slow recovery, recalcitrant degradation, and the need for a window of opportunity to trigger recovery. We propose a framework synthesizing how the spatial and temporal scales of both disturbance and seagrass response affect ecosystem trajectory and hence resilience.

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Predicting seagrass decline due to cumulative stressors

Adams

Koh

Vilas

et al. 2020

Environmental Modelling & Software

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Easy-to-use program to predict cumulative light and temperature stress on seagrass Software predictions made from a new process-based model of tropical seagrass decline Model suggests net carbon loss rate controls shoot density decline rate in seagrass Model calibrated to data via two posterior-computation methods for Bayesian inference New generalisable cumulative stress index forecasted by model, including uncertainty

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A changing climate for seagrass conservation?

et al. 2018

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Len McKenzie

Global challenges for seagrass conservation

Toward a Coordinated Global Observing System for Seagrasses and Marine Macroalgae

Seagrass ecosystem trajectory depends on the relative timescales of resistance, recovery and disturbance

Predicting seagrass decline due to cumulative stressors

A changing climate for seagrass conservation?

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