Alan R. Jones scite author profile

Escalating pressures caused by the combined effects of population growth, demographic shifts, economic development and global climate change pose unprecedented threats to sandy beach ecosystems worldwide. Conservation of beaches as functional ecosystems and protection of their unique biodiversity requires management interventions that not only mitigate threats to physical properties of sandy shores, but also include ecological dimensions. Yet, beach management remains overwhelmingly focused on engineering interventions. Here we summarise the key outcomes of several workshops, held during the 2006 Sandy Beach Ecology Symposium in Vigo, Spain, that addressed issues of climate change, beach management and sampling methodology. Because efficient communication between managers and ecologists is critical, we summarise the salient features of sandy beaches as functional ecosystems in 50 ‘key statements’; these provide a succinct synopsis of the main structural and functional characteristics of these highly dynamic systems. Key outcomes of the workshops include a set of recommendations on designs and methods for sampling the benthic infaunal communities of beaches, the identification of the main ecological effects caused by direct and indirect human interventions, the predicted consequence of climate change for beach ecosystems, and priority areas for future research.

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Temperature Programmed Reduction

Hurst

et al. 1982

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Sandy beaches at the brink

Schlacher

Dugan

Schoeman

et al. 2007

Diversity and Distributions

348

190

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Sandy beaches line most of the world's oceans and are highly valued by society: more people use sandy beaches than any other type of shore. While the economic and social values of beaches are generally regarded as paramount, sandy shores also have special ecological features and contain a distinctive biodiversity that is generally not recognized. These unique ecosystems are facing escalating anthropogenic pressures, chiefly from rapacious coastal development, direct human uses — mainly associated with recreation — and rising sea levels. Beaches are increasingly becoming trapped in a ‘coastal squeeze’ between burgeoning human populations from the land and the effects of global climate change from the sea. Society's interventions (e.g. shoreline armouring, beach nourishment) to combat changes in beach environments, such as erosion and shoreline retreat, can result in severe ecological impacts and loss of biodiversity at local scales, but are predicted also to have cumulative large‐scale consequences worldwide. Because of the scale of this problem, the continued existence of beaches as functional ecosystems is likely to depend on direct conservation efforts. Conservation, in turn, will have to increasingly draw on a consolidated body of ecological theory for these ecosystems. Although this body of theory has yet to be fully developed, we identify here a number of critical research directions that are required to progress coastal management and conservation of sandy beach ecosystems.

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Light scattering for particle characterization

Jones

1999

Progress in Energy and Combustion Science

191

108

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Give Beach Ecosystems Their Day in the Sun

Dugan

Defeo

Jaramillo

et al. 2010

Science

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Nourishment practices on Australian sandy beaches: A review

Cooke

Jones

Goodwin

et al. 2012

Journal of Environmental Management

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Alan R. Jones

Threats to sandy beach ecosystems: A review

Structure and Function of South-east Australian Estuaries

Sandy beach ecosystems: key features, sampling issues, management challenges and climate change impacts

Temperature Programmed Reduction

Sandy beaches at the brink

Light scattering for particle characterization

Give Beach Ecosystems Their Day in the Sun

Nourishment practices on Australian sandy beaches: A review

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