The deep sea (> 200 m depth) encompasses> 95% of the world's ocean volume and
represents the largest and least explored biome on Earth (< 0.0001% of ocean surface), yet …

A common challenge in species conservation and management is how to incorporate
species movements into management objectives. There often is a lack of knowledge of …

Southern Ocean ecosystems are under pressure from resource exploitation and climate
change,. Mitigation requires the identification and protection of Areas of Ecological …

As human activities increasingly threaten biodiversity [1, 2], areas devoid of intense human
impacts are vital refugia [3]. These wilderness areas contain high genetic diversity, unique …

Most spatial marine management techniques (eg, marine protected areas) draw stationary
boundaries around often mobile marine features, animals, or resource users. While these …

Slower warming in the deep ocean encourages a perception that its biodiversity is less
exposed to climate change than that of surface waters. We challenge this notion by …

Deep-sea ecosystems represent Earth's major ecological research frontier. Focusing on
seafloor ecosystems, we demonstrate how new technologies underpin discoveries that …

A blind faith in the ability of MPAs to counteract loss of biodiversity is fraught with risk,
especially when MPAs are poorly planned and when the consequences of establishing …

As systems of marine protected areas (MPAs) expand globally, there is a risk that new MPAs
will be biased toward places that are remote or unpromising for extractive activities, and …

The vast scope of conservation problems has forced biologists and managers to rely on"
surrogate" species to serve as shortcuts to guide their decision making. These species …