Expanding the protected area network in Antarctica is urgent and readily achievable

The terrestrial protected areas of Antarctica are generally small, unrepresentative of the continent's biodiversity, and at risk from a range of pressures. While some consider the whole Antarctic region as a protected area, we demonstrate that the evidence does not support this view. The Protocol on Environmental Protection to the Antarctic Treaty recognizes that a systematic environmental-geographical framework provides a quantitative approach to inform expansion of the current Antarctic Specially Protected Area (ASPA) network. We review the progress thus far and challenges facing the establishment of protected areas in terrestrial Antarctica when adopting best practice approaches, an assessment that is lacking for the region to date. Encouragingly, because of the historical investment in Antarctic biodiversity science, and the existence and implementation of defined processes to identify and designate ASPAs, the opportunity exists to rapidly expand the current ASPA network. However, challenges remain. Foremost amongst these is the adoption of a comprehensive systematic conservation plan by stakeholders. We outline a strategy for the Antarctic Treaty Parties to provide the equitable, effective, transparent and scientifically founded expansion of protected areas that Antarctica urgently requires. We also highlight where opportunities for co-learning may lie in conservation planning and policy development in the Antarctic and other commons or commons-like areas

Observations and models to support the first Marine Ecosystem Assessment for the Southern Ocean (MEASO)

Assessments of the status and trends of habitats, species and ecosystems are needed for effective ecosystem-based management in marine ecosystems. Knowledge on imminent ecosystem changes (climate change impacts) set in train by existing climate forcings are needed for adapting management practices to achieve conservation and sustainabililty targets into the future. Here, we describe a process for enabling a marine ecosystem assessment (MEA) by the broader scientific community to support managers in this way, using a MEA for the Southern Ocean (MEASO) as an example. We develop a framework and undertake an audit to support a MEASO, involving three parts. First, we review available syntheses and assessments of the Southern Ocean ecosystem and its parts, paying special attention to building on the SCAR Antarctic Climate Change and Environment report and the SCAR Biogeographic Atlas of the Southern Ocean. Second, we audit available field observations of habitats and densities and/or abundances of taxa, using the literature as well as a survey of scientists as to their current and recent activities. Third, we audit available system models that can form a nested ensemble for making, with available data, circumpolar assessments of habitats, species and food webs. We conclude that there is sufficient data and models to undertake, at least, a circumpolar assessment of the krill-based system. The auditing framework provides the basis for the first MEASO but also provides a repository (www.SOKI.aq/display/MEASO) for easily amending the audit for future MEASOs. We note that an important outcome of the first MEASO will not only be the assessment but also to advise on priorities in observations and models for improving subsequent MEASOs

How committed are we to monitoring human impacts in Antarctica?

Under the Antarctic Treaty System, environmental monitoring is a legal obligation for signatory nations and an essential tool for managers attempting to minimize local human impacts, but is it given the importance it merits? Antarctica is a vast frozen continent with an area around 1.5 times that of Europe (14 000 000 km2), but the majority of its terrestrial life is found on multiple outcrops or 'islands' of ice-free coastal ground, with a combined area of ~6000 km2, equivalent to four times that of Greater London (Tin et al 2009). The biological communities of these ice-free terrestrial habitats are dominated by a small number of biological groups, primarily mosses, lichens, microinvertebrates and microorganisms. They include many endemic species, while birds and marine mammals use coastal areas as breeding sites (Chown and Convey 2007)