With stunning, original photographs, an Antarctic scientist and explorer takes us to one of the most sublime, remote, and pristine regions on the planet. The interior of Antarctica is an utterly pristine wilderness, a desolate landscape of ice, wind, and rock; a landscape so unfamiliar as to seem of another world. This place has been known to only a handful of early explorers and the few scientists fortunate enough to have worked there. Edmund Stump is one of the lucky few. Having climbed, photographed, and studied more of the continent-spanning Transantarctic Mountains than any other person on Earth, this geologist, writer, and photographer is uniquely suited to share these alien sights. With stories of Stump's forty years of journeys and science, Otherworldly Antarctica contains 130 original, color photographs, complemented by watercolors and sketches by artist Marlene Hill Donnelly. Over three chapters--on the ice, the rock, and the wind--we meet snowy paths first followed during
The Transantarctic Mountains are the most remote mountain belt on Earth, an utterly pristine wilderness of ice and rock rising to majestic heights and extending for 1,500 miles. In this book, Edmund S
The Ross Orogen of the Transantarctic Mountains is the part of the orogenic system that formed at the Pacific continental margin of present-day Antarctica. According to a recent hypothesis, this continental margin was created by the rifting and subsequent drift of Laurentia from Gondwana. With an unparalleled breadth and depth of information, this book provides a detailed synthesis of the history of the Ross orogen. In doing so, it incorporates classical studies with discussions of the most recent and controversial research from the international community. The book also includes a comprehensive bibliography and a historical chronology of all expeditions that have worked on the Ross orogen in the Transantarctic Mountains, from the first sightings by Ross in 1840 right up to the present day. This review of the Ross orogen of the Transantarctic Mountains will be valuable to all geologists interested in these episodes in the Earth's history, and to researchers of the geology of Antarctica